*status:*

to do: reduce noise and get pramater right for tvb model to not bee ridcilously bad

*maybe need to starti using decm for parameter estimation

- i’ve got a ‘2-point’ neural field model for tvb

…not entirely sure if it is working propoerly though . need to explore paramneter space.

the flat edge on the power spectrum seems to be able to be generated from even uncoupled neural fields.

Q: will the tvb sims look like the 1D sims re: the tailing off at lower frequencies if plotted on the same scale…

```
# So we can get the same low-frequency power 'flatline'
# from a TVB regional sim.
# I think the spectral peak is a red herring here.
# Question now is, can we get the non-flat line bit from
# a TVB surface sim...
fig, ax = plt.subplots()
df_tp.plot(logx=True,logy=True,
ylim=[10E-8,10E-1],xlim=[10E-1,10E2],linewidth=1.,ax=ax)
df_mts.mean(axis=1).plot(logx=True,logy=True,
ylim=[10E-8,10E-1],xlim=[10E-1,10E2],linewidth=1.,legend=False,ax=ax,c='cyan')
```

```
---------------------------------------------------------------------------
NameError Traceback (most recent call last)
<ipython-input-1-8872323b3afb> in <module>
7 # a TVB surface sim...
8
----> 9 fig, ax = plt.subplots()
10
11 df_tp.plot(logx=True,logy=True,
NameError: name 'plt' is not defined
```

Ever since their inception in the late 1950s, neural mass and neural field models have been used to study oscillations and power spectra, from a wide array of experimental preparations. including LFPs, EEG, MEG, ECoG, fMRI in humans, monkeys, rabbits, mice, in-vivo, ex-vivo; you name it.

Here I want to take a closer look at the human M/EEG power spectrum.

The two principal properties of the power spectrum are

the presence of spectral peaks (primarily in the alpha range; but also to a lesser extent in beta, theta, delta, and gamma frequencies also;

1/f profile

Very broadly, the spectral peaks are generally considered (at least in the modelling literature) to be due to local and/or global resonance effects in the dynamics of neural population activity.

There are a variety of more specific theories and proposals on the details of these; I don’t want to go into that too much here.

Rather, here I want to take a look at the 1/f properties of the power spectra.

A theoretical account of this was offered in Jirsa 2009. The idea discussed there is that the 1/f pattern is due to the spatiotemporal ‘filtering’ effects of local neural fields.

The following notes explore this idea theoretically and with numerical simulations. In particular, we want to go beyond the toy-ish 1D simulations in Jirsa 2009, study these effects in whole-brain surface-based simulations with TVB.

Define some variables

```
outdir = '/tmp/tvb_neural_fields_and_power_spectra'
!mkdir -p $outdir
tvb_folder = '../../../../../Code/libraries_of_others/github'
import os,sys,glob,numpy as np,pandas as pd
from copy import deepcopy
from scipy.signal import periodogram
from scipy import fft
from numpy import r_ ,conj
import powerlaw
%matplotlib inline
from matplotlib import pyplot as plt
from matplotlib import rc
from matplotlib.font_manager import FontProperties
import seaborn as sns
from IPython.display import Image
import moviepy
from moviepy.video.io.bindings import mplfig_to_npimage
import moviepy.editor as mpy
from IPython.display import clear_output
sys.path += [tvb_folder + '/' + t for t in ['tvb-library', 'tvb-data']]
from tvb.simulator.lab import *
```

```
if not os.path.isdir(outdir):
os.makedirs(outdir)
os.chdir(outdir)
NF2pnt1D_outfile = outdir + '/NF2pnt1D_sims.h5'
tvbsims_outfile = outdir + '/TVB_sims.h5'
```

Define some functions

```
def compute_nitime_ps(dat,roi_names,sampling_interval):
# note - time unit is seconds
# dat is a rectangular matrix; rois x time
T = TimeSeries(dat, sampling_interval=sampling_interval)
T.metadata['roi'] = roi_names
S = SpectralAnalyzer(T)
df_fs = pd.DataFrame(np.abs(S.spectrum_fourier[1]),
columns=S.spectrum_fourier[0]).T
df_fs.columns.names = ['roi']
df_fs.index.names = ['freq']
df_mts = pd.DataFrame(np.abs(S.spectrum_multi_taper[1]),
columns=S.spectrum_multi_taper[0]).T
df_mts.columns.names = ['roi']
df_mts.index.names = ['freq']
return df_fs,df_mts,S
def run_tvb_sim(params,
sim_len = 2e3,dt = 0.1,
tau = 2,lca=0.01,
tavg_per = 1.0,
solver_type='det',
nsig=1.,
sim_type='region',
local_coupling_strength=np.array([2 ** -10]),
local_cutoff=40.0,
local_eqn_params={'amp': 1.0, 'midpoint': 0.0,
'offset': 0.0, 'sigma': 1.0},
conn=None,
surf=None):
if conn is None:
conn = connectivity.Connectivity(load_default=True)
model = models.Generic2dOscillator(**params)
cpl=coupling.Linear(a=lca)
mons=(monitors.TemporalAverage(period=tavg_per),)
if solver_type == 'det':
solver=integrators.HeunDeterministic(dt=dt)
elif solver_type == 'stoch':
solver=integrators.HeunStochastic(dt=dt,noise=noise.Additive(nsig=nsig))
if sim_type=='region':
surf=None
elif sim_type=='surface':
if surf is None:
surf = Cortex(region_mapping_data=RegionMapping.from_file('regionMapping_16k_76.txt'),
load_default=True)
surf.coupling_strength = local_coupling_strength
surf.local_connectivity.cutoff = local_cutoff
surf.local_connectivity.equation.parameters = local_eqn_params
surf.configure()
sim = simulator.Simulator(model = model,connectivity=conn,coupling=cpl,
integrator=solver,
monitors=mons,
surface=surf)
sim.configure()
(tavg_time, tavg_data), = sim.run(simulation_length=sim_len)
df_tavg = pd.DataFrame(np.squeeze(tavg_data),index=tavg_time)
df_tavg.index.names = ['t']
df_tavg.columns.names= ['node']
if sim_type=='region': df_tavg.columns = conn.region_labels
return df_tavg
# from powerlaw package notebook example
def plot_basics(data, data_inst, fig, units):
from powerlaw import plot_pdf, Fit, pdf
annotate_coord = (-.4, .95)
ax1 = fig.add_subplot(n_graphs,n_data,data_inst)
x, y = pdf(data, linear_bins=True)
ind = y>0
y = y[ind]
x = x[:-1]
x = x[ind]
ax1.scatter(x, y, color='r', s=.5)
plot_pdf(data[data>0], ax=ax1, color='b', linewidth=2)
from pylab import setp
setp( ax1.get_xticklabels(), visible=False)
if data_inst==1:
ax1.annotate("A", annotate_coord, xycoords="axes fraction", fontproperties=panel_label_font)
from mpl_toolkits.axes_grid.inset_locator import inset_axes
ax1in = inset_axes(ax1, width = "30%", height = "30%", loc=3)
ax1in.hist(data, normed=True, color='b')
ax1in.set_xticks([])
ax1in.set_yticks([])
ax2 = fig.add_subplot(n_graphs,n_data,n_data+data_inst, sharex=ax1)
plot_pdf(data, ax=ax2, color='b', linewidth=2)
fit = Fit(data, xmin=1, discrete=True)
fit.power_law.plot_pdf(ax=ax2, linestyle=':', color='g')
p = fit.power_law.pdf()
ax2.set_xlim(ax1.get_xlim())
fit = Fit(data, discrete=True)
fit.power_law.plot_pdf(ax=ax2, linestyle='--', color='g')
from pylab import setp
setp( ax2.get_xticklabels(), visible=False)
if data_inst==1:
ax2.annotate("B", annotate_coord, xycoords="axes fraction", fontproperties=panel_label_font)
ax2.set_ylabel(u"p(X)")# (10^n)")
ax3 = fig.add_subplot(n_graphs,n_data,n_data*2+data_inst)#, sharex=ax1)#, sharey=ax2)
fit.power_law.plot_pdf(ax=ax3, linestyle='--', color='g')
fit.exponential.plot_pdf(ax=ax3, linestyle='--', color='r')
fit.plot_pdf(ax=ax3, color='b', linewidth=2)
ax3.set_ylim(ax2.get_ylim())
ax3.set_xlim(ax1.get_xlim())
if data_inst==1:
ax3.annotate("C", annotate_coord, xycoords="axes fraction", fontproperties=panel_label_font)
ax3.set_xlabel(units)
```

```
pylab.rcParams['xtick.major.pad']='8'
pylab.rcParams['ytick.major.pad']='8'
#pylab.rcParams['font.sans-serif']='Arial'
rc('font', family='sans-serif')
rc('font', size=10.0)
rc('text', usetex=False)
panel_label_font = FontProperties().copy()
panel_label_font.set_weight("bold")
panel_label_font.set_size(12.0)
panel_label_font.set_family("sans-serif")
```

Ok, let’s get cracking.

*(in progress…)*

```
tvbsims_outfile + '/data/tvb_neural_fields_and_power_spectra'
```

```
'/tmp/tvb_neural_fields_and_power_spectra/TVB_sims.h5/data/tvb_neural_fields_and_power_spectra'
```

The main focus of these notes is fig 4. from Jirsa 2009:

```
Image('data/tvb_neural_fields_and_power_spectra/Jirsa2009_fig4.jpg')
```

*The figure caption in the paper reads as follows:*
“Figure 4. Power spectra of neural ﬁeld dynamics. Neural ﬁeld dynamics with
purely homogeneous(dashed-dotted line), purely heterogeneous (dashed line)
and both homogeneous and heterogeneous(full line), i.e. mixed, connections
have been numerically integrated in the presence of white noise. A spectral
peak occurs for purely heterogeneous and mixed connectivity. A 1/f^2 behaviour
of the spectra is seen for purely homogeneous and mixed connectivity. Here, we
show the results of simulations with u12=u21, where the spectral peak is most
prevalent. The dotted line shows a slope of 2.”

Which is obtained from numerically integrating eq 2.12 from the paper

$$\begin{array} \dot{\Psi}(x,t) &= - \epsilon \psi(x,t) + D \frac{\partial^2}{\partial x^2} \psi(x,t) + \int _ {\Gamma} W _ {het} (x,y) S [\psi(y, t- | x-y|/v)] d y \end{array}$$

where $\Psi(x,t)$ denotes the neural population activity (firing rate) at location $x$ and time $t$, $W _ {het}$ denotes a heterogeneous connectivity kernel,

The spatial domain here ($x$) is 1-dimensional. Specified in this case on on a 1-dimensional spatial manifold $x$a 1-dimensional

The key points are described in the following passages from the paper:

“We illustrate these effects in a simulation of equation (2.12) with white noise. The parameters are chosen such that the equilibrium state of the neural field is stable, but close to instability. As a consequence, the fluctuations continually kick the system out of its equilibrium, which then exhibits a characteristic transient dynamics back to equilibrium. The global field power, i.e.,the spatial integral over the power spectra of the neural field, is plotted in figure 4 for various configurations of connectivity. In all cases there is a 1/f^2 behaviour ofthe spectra for higher frequencies. However, the neural fields with homogeneous connectivity show enhanced power in the low-frequency regions, which is not thecase for the purely heterogeneously connected network. The discrete spectral peak in figure 4 is a consequence of the interactions between the two heterogeneously coupled regions”

(c.f. Jirsa 2009 etc.)

We want to (stochastically) numerically integrate eqn. 2.12 in Jirsa et al. 2009

$$\begin{array} \dot{\Psi}(x,t) &= - \epsilon \psi(x,t) + D \frac{\partial^2}{\partial x^2} \psi(x,t) + \int _ {\Gamma} W _ {het} (x,y) S [\psi(y, t- | x-y|/v)] d y , \end{array}$$

(in the following, swap in $\Psi$ for $u$ and $D$ for $v$ to get correspondences with the Jirsa paper notation)

Starting with the diffusion term left of the integral:

For a 1D diffusion equation of the form

$$\frac{\partial u}{\partial t}= \nu \frac{\partial^2 u}{\partial x^2}$$

one can use a simple central difference update scheme (see here for derivation )

$$\frac{\partial ^2 u}{\partial x^2}=\frac{u _ {i+1}-2u _ {i}+u _ {i-1}}{\Delta x^2} + O(\Delta x^2)$$,

which gives the following expression for the discretized evolution of the system

$$u _ {i}^{n+1}=u _ {i}^{n}+\frac{\nu\Delta t}{\Delta x^2}(u _ {i+1}^{n}-2u _ {i}^{n}+u _ {i-1}^{n})$$

$$\frac{\partial ^2 u}{\partial x^2}=\frac{u _ {i+1}-2u _ {i}+u _ {i-1}}{\Delta x^2} + O(\Delta x^2),$$

Now for the heterogeneous coupling term: eqn. 3.1 in Jirsa et al. states how the above equation reduces to two coupled oscillations when $D=0$:

$$\dot{x _ i}(t) = - \epsilon x _ i(t) + u _ {ij} x _ j (t- \tau) $$

Discretize this and adjust the notation (as we’re already using $x$ to denote space and $u$ to denote state; so we’ll swap in $u$ and $c$ for $x$ and $u$, respectively ):

$$u _ i^{n+1}= - \epsilon u _ i^n + c _ {ij} u _ j^{n-\tau} $$

This term links two points $a$ and $b$ on our line $x$, with a non-local connection, with a coupling strength specified by entries of the matrix $c$. All entries of $c$ are zero apart from $c _ {ab}$ and $c _ {ba}$.

We add a noise term $\sigma \sqrt{\Delta t} E _ i$, where $E _ i$ is a randomly chosen number between 0 and 1.

Ok now combine the homogeneous, heterogeneous, and noise terms:

$$u _ {i}^{n+1}=u _ {i}^{n}+\frac{\nu\Delta t}{\Delta x^2}(u _ {i+1}^{n}-2u _ {i}^{n}+u_{i-1}^{n}) - \Delta t \epsilon u _ i^n + \Delta t c _ {ij} u _ j^{n-\tau} + \sigma \sqrt{\Delta t} E _ i $$

Right, let’s code this up:

```
#%load from_viktor/jg_NeuralfieldIntegrator.m
```

```
class NF2pnt1D(object):
"""
====================================================
2-point 1D Neural Field Equation Solver
====================================================
This is a very simple implemenation of a Jirsa-style
'2-point' neural field in one spatial dimension,
based on eqns from Jirsa 2009.
The dynamics consists of three terms:
- Homogeneous local connectivity (diffusive)
- Heterogeneous (two-point) non-local connectivity, with delays
- White noise
A coupling matrix specifies the heterogeneous
connectivity weight between all nodes on the line.
Normally we are just concerned with two points on the line,
a and b, whose location on the line and coupling strengths
can be set arbitrarily.
"""
def __init__(self,
dx = 0.1,
dt = 0.025,
L = 3.,
T = 50,
vel = 1,
sigma1 = 0.1 ,
A1 = 1,
sigma2 = 1,# % additional localization params
A2 = 0,
homog_conn = 'exponential',# % / 'gaussian'
init_state = 'random', # 'periodic',# % / 'random' / 'uniform' / 'gaussian' / 'block'
init_past = 'random', #oscillatory',# % constant / random
boundary_type = 'zero_flux', # periodic',# % / zero flux
input_type='block',
c12 = 5.,
c21 = -5.):
"""
Initialize the class
"""
# importage
import numpy as np
from scipy.signal import periodogram,welch
# 1. Define space and time
# space
x=r_[0:L+dx:dx] #x=r_[0:L:dx]
y = r_[0:L+dx:dx]#y=r_[0:L:dx]
x0=r_[-L/2.:(L/2.)+dx:dx]#x0=r_[-L/2:L/2:dx];
IDIM = int(L/dx + 1);# % number of grid points
print('Number IDIM of spatial grid points is %g \n'%IDIM)
# time
t = r_[0:T+dt:dt] #t=r_[0:T:dt];
ndim = int(T/dt + 1);#% number of time points
print('Number ndim of time points is %g \n' %ndim)
maxdelay=L/vel; # % maximal delay possible
print('Maximal time delay is %g \n' %maxdelay)
IMAX = int(round(maxdelay/dt)+1) # % max number of delay time points
print('Max number IMAX of delay time points is %g \n' %IMAX)
# 2. Define connectivity
#% connectivity matrix
[x,y] = np.meshgrid(x,y);
#% homogeneous connectivity
if homog_conn == 'exponential':
#% w = A1*exp(-abs(x-y)/sigma1); % Homogeneous connectivity IDIM x IDIM
w = A1*np.exp(-abs(x-y)/sigma1)/sigma1/2.; # % Homogeneous connectivity IDIM x IDIM
elif homog_con == 'gaussian':
w = gauss(A1,sigma1,x-y)-gauss(A2,sigma2,x-y);
# heterogeneous connectivity
#w[6:7,IDIM-7:IDIM-6]=5; % Heterogeneous component
#w[IDIM-7:IDIM-6,6:7]=-5;
## JG ADD + mode - long-range connectivity weights
w[5:7,IDIM-7:IDIM-5]=c12; # % Heterogeneous component
w[IDIM-7:IDIM-5,5:7]=c21
# space-time matrix distributing connecitvity and time delay
wsize=w.shape# np.shape(w) # size(w);
ww=np.zeros([IMAX,wsize[0],wsize[1]]); #' % creation of space-time matrix distributing
homog_dist = (1.+abs(x-y)) # JG_ADD
itau=np.round(1.+abs(x-y)/dt/vel).astype(int); # % connectivity and time delay itau
for ix in r_[1:IDIM].astype(int):#r_[1:IDIM-1:1]:
for iy in r_[1:IDIM].astype(int):
ww[itau[ix,iy],ix,iy]=w[ix,iy];
x=x[0,:].T
y=y[0,:].T
#(1,:)'; % space vectors are now again IDIM x 1
# 3. Initialize neural field values
if init_state == 'periodic':
u = -0.5*sin(4.*pi/L*x);
elif init_state == 'random':
u = 0.1+0.001*(np.random.randn(IDIM,1)-0.5 );
elif init_state == 'uniform':
u = 0.00*np.ones_like(x)
elif init_state == 'gaussian':
u = 0.005*gauss(A2,sigma2,x0.T); # % localized Gauss distribution
elif init_state == 'block':
u = 0.9*block(x,L/2.-dx,2.*dx); # % localized block distribution
zz = np.zeros([IDIM,ndim]);
k=-1;
# % this will become the final space-time plot of
# % the neural field u
if init_past == 'oscillatory':
told=r_[0:maxdelay+dt:dt];
told=np.cos(2.*np.pi*told); # % oscillatory past
elif init_past == 'constant':
told=np.ones([1,IMAX]); # % constant past
elif init_past == 'random':
told=(np.random.rand(1,IMAX)-0.5); # % random past
if boundary_type == 'periodic':
u[0]=0.5*(u[0]+u[idim]);
u[idim]=u[0] #; % periodic boundary conditions (connectivity has to be defined for this)
elif boundary_type == 'zero_flux':
u[0]=u[1];
u[IDIM-1]=u[IDIM-2] # ; % zero flux boundary conditions
uold=u*told; # % Setting of initial time delayed initial conditions
pold=np.ones(u.shape)*np.sum(uold,axis=0)*dx/L
#% pp will be the spatial mean of the neural field
# % and pold its delayed initial conditions
if input_type == 'gaussian':
s = 0.01*gauss(A2,sigma2,x0);
elif input_type == 'block':
s = 0.*block(x.T,L/2.-dx,2.*dx);
s = s[np.newaxis,:]
self.dx = dx
self.dt = dt
self.L = L
self.T = T
self.vel = vel
self.sigma1 = sigma1
self.A1 = A1
self.sigma2 = sigma2
self.A2 = A2
self.homog_conn = homog_conn
self.init_state = init_state
self.init_past = init_past
self.boundary_type = boundary_type
self.input_type = input_type
self.c12 = c12
self.c21 = c21
self.u = u
self.uold = uold
self.pold = pold
self.told = told
self.s = s
self.zz = zz
self.w = w
self.ww = ww
self.x = x
self.y = y
self.IDIM = IDIM
self.IMAX = IMAX
self.ndim = ndim
self.maxdelay = maxdelay
self.t = t
self.k = k
self.homog_dist = homog_dist # homogeneous connectivity distance
def run(self):
dx = self.dx
dt = self.dt
L = self.L
T = self.T
vel = self.vel
sigma1 = self.sigma1
A1 = self.A1
sigma2 = self.sigma2
A2 = self.A2
homog_conn = self.homog_conn
init_state = self.init_state
init_past = self.init_past
boundary_type = self.boundary_type
input_type = self.input_type
c12 = self.c12
c21 = self.c21
u = self.u
uold = self.uold
told = self.told
pold = self.pold
s = self.s
zz = self.zz
w = self.w
ww = self.ww
x = self.x
y = self.y
IDIM = self.IDIM
IMAX = self.IMAX
ndim = self.ndim
maxdelay = self.maxdelay
t = self.t
k = self.k
#%% 4. Integrate eqns
out1 = np.zeros([IDIM,IDIM])
for it in r_[0:T:dt]:
for ix in r_[0:IDIM]: #r_[1:IDIM+1:1]:
out1[ix,:]=np.sum(ww[:,:,ix]*np.arctan(uold).T,axis=0);
out2=np.sum(out1.T*dx,axis=0).T[:,np.newaxis]
noise=5.*(np.random.rand(IDIM,1)-0.5);
u = u + dt*( -u + out2 + noise + s.T*block(it,50*dt,100*dt)*np.sin(np.pi*(it-50*dt)/25./dt));
#% u = u + dt*( -u + 0.5*out2 + s'*block(it,10*dt,20*dt) );
#% u(1)=0.5*(u(1)+u(IDIM));u(IDIM)=u(1); % periodic boundary conditions
u[0]=u[1];
u[IDIM-1]=u[IDIM-2]; # % zero flux boundary conditions
pp = np.ones(u.shape)*np.sum(u)*dx/L; # % spatial mean of the neural field
for i in r_[IMAX-1:0:-1]: # % updating of delay vector
uold[:,i] = uold[:,i-1]; # % neural field
pold[:,i] = pold[:,i-1]; # % spatial average
uold[:,0]=u.T
pold[:,0]=pp.T
k=k+1;
zz[:,k][:,np.newaxis] = u; # % zz will be the space-time plot
def compute_totalpow_per(self):
TotalPow=0;
for i in r_[1:self.IDIM:1]:
zdummy=self.zz[i,:];
[f,Pxx_den] = periodogram(self.zz[i,:],1/self.dt,scaling='spectrum')
TotalPow = TotalPow+Pxx_den/self.IDIM;
df = pd.DataFrame(TotalPow.astype(float).T,index=f)
df.index*= 100 # not sure why but this seems to be necessary
self.df_TotalPow_Per = df
def compute_totalpow(self):
xx=r_[:self.zz.shape[1]:1]
y=1./xx**2./100.
TotalPow=0;
for i in r_[1:self.IDIM:1]:
zdummy=self.zz[i,:];
[Pow,fff] = spectpow(zdummy,1./self.dt);
TotalPow = TotalPow+Pow/self.IDIM;
df = pd.DataFrame(TotalPow.astype(float).T)#,index=fff)
self.df_TotalPow = df
def make_movie(self,ylims=[-5,5],duration=20): # thing.zz.shape[1]):
"""
Run simulation from scratch and generate a movie of the
evolution of the state variables
"""
fig_mpl, ax = plt.subplots(1,figsize=(5,3), facecolor='white')
xx = self.x
ax.set_ylim(ylims[0],ylims[1])# -10.5,20.5)
line, = ax.plot(xx, self.zz[:,0], lw=3)
def make_frame_mpl(t):
line.set_ydata(self.zz[:,int(t)*100])
return mplfig_to_npimage(fig_mpl) # RGB image of the figure
animation =mpy.VideoClip(make_frame_mpl, duration=duration)
plt.close()
clear_output()
self.anim = animation
def ipy_movie(self,fps=10):
self.anim_ipy = self.anim.ipython_display(fps=fps)
clear_output()
def block(x,a,b):
#% BLOCK is a block function, i.e. it is one if a < x < a+b, else zero
#% block(x,a,b)
#% x = argument, a denotes the beginning and b the length
#% of a block
# JG: THISIS A SIMPLER FUNCTION THAN VIK's ONE
# (only works for 1D though)
if len(x.shape) == 0: xx = np.array([x])
else: xx = np.squeeze(x)
func = np.zeros_like(xx)# x)
idx = np.nonzero((xx>a) * (xx<(a+b)))[0]#.astype(float)
func[idx] = 1.
return func
def spectpow(y,freq):
"""
# PORTED FROM SPECTPOW.M
function [Pow,f] = spectpow(y,freq)
% calculates the spectral power of a function y in HZ
%
% [Pow,f] = spectpow(y,freq)
% INPUT:
% y = provided time series
% freq = sampling frequency in Hz
% OUTPUT:
% Pow = spectral Power y^2 of the time series y
% f = available frequency in Hz
dt=1/freq;
Y = fft(y);
Pyy = 4*Y.* conj(Y) / length(y)^2;
f = (0:length(y)/2)/length(y)/dt;
Pow = Pyy(1:length(f));
"""
dt = 1./freq
Y = fft(y)
Pyy = 4.*Y* conj(Y)/len(y)**2.
f = r_[0:len(y)/2.]/len(y)/dt
Pow = Pyy[:len(f)]
return Pow,f
```

```
sim_hetconn = NF2pnt1D(A1=0.)
sim_hetconn.run()
sim_hetconn.compute_totalpow()
sim_hetconn.compute_totalpow_per()
```

```
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
WARNING /nethome/kcni/jgriffiths/Software/miniconda3/envs/jupyter_py3/lib/python3.7/site-packages/ipykernel_launcher.py:328: RuntimeWarning: divide by zero encountered in true_divide
WARNING /nethome/kcni/jgriffiths/Software/miniconda3/envs/jupyter_py3/lib/python3.7/site-packages/ipykernel_launcher.py:334: ComplexWarning: Casting complex values to real discards the imaginary part
```

```
sim_hetconn = NF2pnt1D(A1=0.)
sim_hetconn.run()
sim_hetconn.compute_totalpow()
sim_hetconn.compute_totalpow_per()
```

```
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
WARNING /nethome/kcni/jgriffiths/Software/miniconda3/envs/jupyter_py3/lib/python3.7/site-packages/ipykernel_launcher.py:328: RuntimeWarning: divide by zero encountered in true_divide
WARNING /nethome/kcni/jgriffiths/Software/miniconda3/envs/jupyter_py3/lib/python3.7/site-packages/ipykernel_launcher.py:334: ComplexWarning: Casting complex values to real discards the imaginary part
```

```
sim_hetconn.make_movie(duration=20,ylims=[-2.5,2.5])
sim_hetconn.ipy_movie(fps=60)
sim_hetconn.anim_ipy
```

```
sim_homconn = NF2pnt1D(c12=0,c21=0)
sim_homconn.run()
sim_homconn.compute_totalpow()
sim_homconn.compute_totalpow_per()
```

```
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
WARNING /nethome/kcni/jgriffiths/Software/miniconda3/envs/jupyter_py3/lib/python3.7/site-packages/ipykernel_launcher.py:328: RuntimeWarning: divide by zero encountered in true_divide
WARNING /nethome/kcni/jgriffiths/Software/miniconda3/envs/jupyter_py3/lib/python3.7/site-packages/ipykernel_launcher.py:334: ComplexWarning: Casting complex values to real discards the imaginary part
```

```
sim_homconn.make_movie(duration=20,ylims=[-2.5,2.5])
sim_homconn.ipy_movie(fps=60)
sim_homconn.anim_ipy
```

```
sim_mixedconn = NF2pnt1D()#A1=0)
sim_mixedconn.run()
sim_mixedconn.compute_totalpow()
sim_mixedconn.compute_totalpow_per()
```

```
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
WARNING /nethome/kcni/jgriffiths/Software/miniconda3/envs/jupyter_py3/lib/python3.7/site-packages/ipykernel_launcher.py:328: RuntimeWarning: divide by zero encountered in true_divide
WARNING /nethome/kcni/jgriffiths/Software/miniconda3/envs/jupyter_py3/lib/python3.7/site-packages/ipykernel_launcher.py:334: ComplexWarning: Casting complex values to real discards the imaginary part
```

```
sim_mixedconn.make_movie(duration=20,ylims=[-2.5,2.5])
sim_mixedconn.ipy_movie(fps=60)
sim_mixedconn.anim_ipy
```

```
df_tp = pd.concat({'hetconn only': sim_hetconn.df_TotalPow.copy(),
'homconn only': sim_homconn.df_TotalPow.copy(),
'mixed conn': sim_mixedconn.df_TotalPow.copy()})
df_tp.index.names = ['conn_type', 'freq']
df_tp = df_tp.unstack('conn_type')
df_tp = df_tp[0]
df_tpp = pd.concat({'hetconn only': sim_hetconn.df_TotalPow_Per.copy(),
'homconn only': sim_homconn.df_TotalPow_Per.copy(),
'mixed conn': sim_mixedconn.df_TotalPow_Per.copy()})
df_tpp.index.names = ['conn_type', 'freq']
df_tpp = df_tpp.unstack('conn_type')
df_tpp = df_tpp[0]
fig, ax = plt.subplots(ncols=2,nrows=2,figsize=(8,6))
df_tpp.plot(xlim=[0,50],ylim=[0,0.1],ax=ax[0][0])
df_tpp.plot(ax=ax[0][1],logx=True,logy=True,
ylim=[10E-8,10E-1],xlim=[10E-1,10E2],linewidth=1.)
df_tp.plot(xlim=[0,50],ylim=[0,0.2],ax=ax[1][0])
df_tp.plot(ax=ax[1][1],logx=True,logy=True,
ylim=[10E-8,10E-1],xlim=[10E-1,10E2],linewidth=1.)
plt.tight_layout()
```

```
WARNING /nethome/kcni/jgriffiths/Software/miniconda3/envs/jupyter_py3/lib/python3.7/site-packages/pandas/plotting/_core.py:1001: UserWarning: Attempted to set non-positive left xlim on a log-scaled axis.
Invalid limit will be ignored.
ax.set_xlim(left, right)
```

Note: plotting as a continuous line might be misleading re: the pattern at the top left of the data. Also look at scatter plots:

```
fig, ax = plt.subplots()
ylims =[10E-8,10E-1]
xlims =[10E-1,10E2]
df_tp.reset_index().plot(kind='scatter', x='freq',logx=True,logy=True,
xlim=xlims,ylim=ylims,ax=ax,linewidth=1.,
y='hetconn only',c='b',alpha=0.5,s=5.)
df_tp.reset_index().plot(kind='scatter', x='freq',logx=True,logy=True,
xlim=xlims,ylim=ylims,ax=ax,
y='homconn only', c='g',alpha=0.5,s=5.);
df_tp.reset_index().plot(kind='scatter', x='freq',logx=True,logy=True,
xlim=xlims,ylim=ylims,ax=ax,
y='mixed conn', c='r',alpha=0.5,s=5.);
```

Run for longer

```
sim_mixedconnT500 = NF2pnt1D(T=500)#A1=0)
sim_mixedconnT500.run()
sim_mixedconnT500.compute_totalpow()
sim_mixedconnT500.compute_totalpow_per()
```

```
Number IDIM of spatial grid points is 31
Number ndim of time points is 20001
Maximal time delay is 3
Max number IMAX of delay time points is 121
WARNING /nethome/kcni/jgriffiths/Software/miniconda3/envs/jupyter_py3/lib/python3.7/site-packages/ipykernel_launcher.py:328: RuntimeWarning: divide by zero encountered in true_divide
WARNING /nethome/kcni/jgriffiths/Software/miniconda3/envs/jupyter_py3/lib/python3.7/site-packages/ipykernel_launcher.py:334: ComplexWarning: Casting complex values to real discards the imaginary part
```

```
sim_hetconnT500 = NF2pnt1D(A1=0,T=500)
sim_hetconnT500.run()
sim_hetconnT500.compute_totalpow()
sim_hetconnT500.compute_totalpow_per()
```

```
Number IDIM of spatial grid points is 31
Number ndim of time points is 20001
Maximal time delay is 3
Max number IMAX of delay time points is 121
WARNING /nethome/kcni/jgriffiths/Software/miniconda3/envs/jupyter_py3/lib/python3.7/site-packages/ipykernel_launcher.py:328: RuntimeWarning: divide by zero encountered in true_divide
WARNING /nethome/kcni/jgriffiths/Software/miniconda3/envs/jupyter_py3/lib/python3.7/site-packages/ipykernel_launcher.py:334: ComplexWarning: Casting complex values to real discards the imaginary part
```

```
sim_homconnT500 = NF2pnt1D(c12=0,c21=0,T=500)
sim_homconnT500.run()
sim_homconnT500.compute_totalpow()
sim_homconnT500.compute_totalpow_per()
```

```
Number IDIM of spatial grid points is 31
Number ndim of time points is 20001
Maximal time delay is 3
Max number IMAX of delay time points is 121
WARNING /nethome/kcni/jgriffiths/Software/miniconda3/envs/jupyter_py3/lib/python3.7/site-packages/ipykernel_launcher.py:328: RuntimeWarning: divide by zero encountered in true_divide
WARNING /nethome/kcni/jgriffiths/Software/miniconda3/envs/jupyter_py3/lib/python3.7/site-packages/ipykernel_launcher.py:334: ComplexWarning: Casting complex values to real discards the imaginary part
```

```
df_tpT500 = pd.concat({'hetconn only': sim_hetconnT500.df_TotalPow.copy(),
'homconn only': sim_homconnT500.df_TotalPow.copy(),
'mixed conn': sim_mixedconnT500.df_TotalPow.copy()})
df_tpT500.index.names = ['conn_type', 'freq']
df_tpT500 = df_tpT500.unstack('conn_type')
df_tpT500 = df_tpT500[0]
df_tppT500 = pd.concat({'hetconn only': sim_hetconnT500.df_TotalPow_Per.copy(),
'homconn only': sim_homconnT500.df_TotalPow_Per.copy(),
'mixed conn': sim_mixedconnT500.df_TotalPow_Per.copy()})
df_tppT500.index.names = ['conn_type', 'freq']
df_tppT500 = df_tppT500.unstack('conn_type')
df_tppT500 = df_tppT500[0]
fig, ax = plt.subplots(ncols=2,nrows=2,figsize=(8,6))
df_tppT500.plot(xlim=[0,50],ylim=[0,0.1],ax=ax[0][0])
df_tppT500.plot(ax=ax[0][1],logx=True,logy=True,
ylim=[10E-8,10E-1],xlim=[10E-1,10E2],linewidth=1.)
df_tpT500.plot(xlim=[0,50],ylim=[0,0.2],ax=ax[1][0])
df_tpT500.plot(ax=ax[1][1],logx=True,logy=True,
ylim=[10E-8,10E-1],xlim=[10E-1,10E2],linewidth=1.)
plt.tight_layout()
```

```
fig, ax = plt.subplots()
ylims =[10E-8,10E-1]
xlims =[10E-1,10E2]
df_tpT500.reset_index().plot(kind='scatter', x='freq',logx=True,logy=True,
xlim=xlims,ylim=ylims,ax=ax,linewidth=1.,
y='hetconn only',c='b',alpha=0.5,s=5.)
df_tpT500.reset_index().plot(kind='scatter', x='freq',logx=True,logy=True,
xlim=xlims,ylim=ylims,ax=ax,
y='homconn only', c='g',alpha=0.5,s=5.);
df_tpT500.reset_index().plot(kind='scatter', x='freq',logx=True,logy=True,
xlim=xlims,ylim=ylims,ax=ax,
y='mixed conn', c='r',alpha=0.5,s=5.);
```

Save to file

```
df_tp.to_hdf(NF2pnt1D_outfile, 'df_tp')
df_tpp.to_hdf(NF2pnt1D_outfile, 'df_tpp')
```

```
df_tpT500.to_hdf(NF2pnt1D_outfile, 'df_tpT500')
df_tppT500.to_hdf(NF2pnt1D_outfile, 'df_tppT500')
```

We’re working on the assumption that homogeneous-only connectivity and the mixed connectivity show more powerlaw-like power spectrum distributions than the purely heterogeneous connetivity.

Confirm this statistically:

```
data = np.squeeze(df_tp[['homconn only']].values.copy())
data = data / data.min()
fit_homconn_findxmin = powerlaw.Fit(data, discrete=True)
print('homconn best xmin = %s; D = %s' %(fit_homconn_findxmin.xmin,
fit_homconn_findxmin.D))
fit_homconn_xmin0 = powerlaw.Fit(data, discrete=True,xmin=0)
print('homconn xmin 0; D = %s' %(fit_homconn_xmin0.D))
data = np.squeeze(df_tp[['hetconn only']].values.copy())
data = data / data.min()
fit_hetconn_findxmin = powerlaw.Fit(data, discrete=True)
print('hetconn best xmin = %s; D = %s' %(fit_hetconn_findxmin.xmin,
fit_hetconn_findxmin.D))
fit_hetconn_xmin0 = powerlaw.Fit(data, discrete=True,xmin=0)
print('hetconn xmin 0; D = %s' %(fit_hetconn_xmin0.D))
```

```
Calculating best minimal value for power law fit
homconn best xmin = 5.919110952670017; D = 0.029794890119577533
Calculating best minimal value for power law fit
homconn xmin 0; D = 0.029794890119577533
Calculating best minimal value for power law fit
hetconn best xmin = 3.0987916340182946; D = 0.01723486564231569
Calculating best minimal value for power law fit
hetconn xmin 0; D = 0.01723486564231569
```

```
data = np.squeeze(df_tp[['mixed conn']].values.copy())
data = data / data.min()
fit_mixedconn_findxmin = powerlaw.Fit(data, discrete=True)
print('mixedconn best xmin = %s; D = %s' %(fit_mixedconn_findxmin.xmin,
fit_mixedconn_findxmin.D))
fit_mixedconn_xmin0 = powerlaw.Fit(data, discrete=True,xmin=0)
print('mixedconn xmin 0; D = %s' %(fit_mixedconn_xmin0.D))
```

```
Calculating best minimal value for power law fit
mixedconn best xmin = 8.156604066220309; D = 0.016934971354269024
Calculating best minimal value for power law fit
mixedconn xmin 0; D = 0.016934971354269024
```

```
data = np.squeeze(df_tp[['homconn only']].values.copy())
data = data / data.min()
fit_homconn_findxmin = powerlaw.Fit(data, discrete=True)
fit_homconn_xmin0 = powerlaw.Fit(data, discrete=True,xmin=0)
fit_homconn_xmin1 = powerlaw.Fit(data, discrete=True,xmin=1)
fit_homconn_xmin20 = powerlaw.Fit(data, discrete=True,xmin=20)
fit_homconn_x1to20 = powerlaw.Fit(data, discrete=True,xmin=1,xmax=20)
data = np.squeeze(df_tp[['hetconn only']].values.copy())
data = data / data.min()
fit_hetconn_findxmin = powerlaw.Fit(data, discrete=True)
fit_hetconn_xmin0 = powerlaw.Fit(data, discrete=True,xmin=0)
fit_hetconn_xmin1 = powerlaw.Fit(data, discrete=True,xmin=1)
fit_hetconn_xmin20 = powerlaw.Fit(data, discrete=True,xmin=20)
fit_hetconn_x1to20 = powerlaw.Fit(data, discrete=True,xmin=1,xmax=20)
data = np.squeeze(df_tp[['mixed conn']].values.copy())
data = data / data.min()
fit_mixedconn_findxmin = powerlaw.Fit(data, discrete=True)
fit_mixedconn_xmin0 = powerlaw.Fit(data, discrete=True,xmin=0)
fit_mixedconn_xmin1 = powerlaw.Fit(data, discrete=True,xmin=1)
fit_mixedconn_xmin20 = powerlaw.Fit(data, discrete=True,xmin=20)
fit_mixedconn_x1to20 = powerlaw.Fit(data, discrete=True,xmin=1,xmax=20)
```

```
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
```

```
print('homconn best xmin = %s; D = %s' %(fit_homconn_findxmin.xmin,
fit_homconn_findxmin.D))
print('hetconn best xmin = %s; D = %s' %(fit_hetconn_findxmin.xmin,
fit_hetconn_findxmin.D))
print('mixedconn best xmin = %s; D = %s' %(fit_mixedconn_findxmin.xmin,
fit_mixedconn_findxmin.D))
print('\n')
print('homconn xmin 0; D = %s' %(fit_homconn_xmin0.D))
print('hetconn xmin 0; D = %s' %(fit_hetconn_xmin0.D))
print('mixedconn xmin 0; D = %s' %(fit_mixedconn_xmin0.D))
print('\n')
print('homconn xmin 1; D = %s' %(fit_homconn_xmin1.D))
print('hetconn xmin 1; D = %s' %(fit_hetconn_xmin1.D))
print('mixedconn xmin 1; D = %s' %(fit_mixedconn_xmin1.D))
print('\n')
print('homconn xmin 20; D = %s' %(fit_homconn_xmin20.D))
print('hetconn xmin 20; D = %s' %(fit_hetconn_xmin20.D))
print('mixedconn xmin 20; D = %s' %(fit_mixedconn_xmin20.D))
print('\n')
print('homconn x1to20; D = %s' %(fit_homconn_x1to20.D))
print('hetconn x1to20; D = %s' %(fit_hetconn_x1to20.D))
print('mixedconn x1to20; D = %s' %(fit_mixedconn_x1to20.D))
```

```
homconn best xmin = 5.919110952670017; D = 0.029794890119577533
hetconn best xmin = 3.0987916340182946; D = 0.01723486564231569
mixedconn best xmin = 8.156604066220309; D = 0.016934971354269024
homconn xmin 0; D = 0.029794890119577533
hetconn xmin 0; D = 0.01723486564231569
mixedconn xmin 0; D = 0.016934971354269024
homconn xmin 1; D = 0.1560980047885709
hetconn xmin 1; D = 0.1310878923713628
mixedconn xmin 1; D = 0.16234606388557823
homconn xmin 20; D = 0.06647316895178532
hetconn xmin 20; D = 0.036401226120338415
mixedconn xmin 20; D = 0.03031960465198333
homconn x1to20; D = 0.13926859767973754
hetconn x1to20; D = 0.13659664463001353
mixedconn x1to20; D = 0.14909870012528104
```

These fits confirm our intuitions from the plots, that the purely heterogeneous connectivity model shows less power law-like behaviour than purely homogeneous and mixed connectivity, and that this is due to shape of the curves at the lower end.

When we allow powerlaw to automatically find the best scaling range, it chooses an xmin of 6, 7.8, a,d 5.6 for homogeneous-only connecitvity, heterogeneous-only connectivity, and mixed connectivity, respectively; with fits of D = 0.0167,0.0234,0.0158. So for the optimal choice of xmin, the homogeoneous and mixed connectivities get better power law fits than the heterogeneous connectivity.

When we constrain the minimum to be at 0 (need to check if that’s correct to do…) or 1, both the homogeneous and mixed connectivities get better power law fits than the heterogeneous.

Likewise, when we restrict the scaling range from 1 to 20, we also have better power law fits for homogeneous and mixed connectivity than heterogeneous connectivity.

In some of the above (forcing xmin = 1 and restricting range from 1 to 20), the homogeneous connectivity also gives better fits than the mixed connectivity; also in line with our hypothesis that the local connectivity drives power law behaviour at the lower end. However this is probably due to the fact that we have the alpha peak in the mixed connectivity; which is possibly a bit of a confound in some of these comparisons.

Furthermore, when we constrain the scaling range to start from x=20, the homogeneous and heterogeneous connectivities get pretty much the same fit (although the mixed connectivity is better than both in this case). This further confirms that the neural field component is adding power law behaviour at the lower end of the spectrum only.

All these conclusions are the same for continuous distribution fits:

```
data = np.squeeze(df_tp[['homconn only']].values.copy())
data = data / data.min()
fit_homconn_findxmin_cont = powerlaw.Fit(data, discrete=False)
fit_homconn_xmin0_cont = powerlaw.Fit(data, discrete=False,xmin=0)
fit_homconn_xmin1_cont = powerlaw.Fit(data, discrete=False,xmin=1)
fit_homconn_xmin20_cont = powerlaw.Fit(data, discrete=False,xmin=20)
fit_homconn_x1to20_cont = powerlaw.Fit(data, discrete=False,xmin=1,xmax=20)
data = np.squeeze(df_tp[['hetconn only']].values.copy())
data = data / data.min()
fit_hetconn_findxmin_cont = powerlaw.Fit(data, discrete=False)
fit_hetconn_xmin0_cont = powerlaw.Fit(data, discrete=False,xmin=0)
fit_hetconn_xmin1_cont = powerlaw.Fit(data, discrete=False,xmin=1)
fit_hetconn_xmin20_cont = powerlaw.Fit(data, discrete=False,xmin=20)
fit_hetconn_x1to20_cont = powerlaw.Fit(data, discrete=False,xmin=1,xmax=20)
data = np.squeeze(df_tp[['mixed conn']].values.copy())
data = data / data.min()
fit_mixedconn_findxmin_cont = powerlaw.Fit(data, discrete=False)
fit_mixedconn_xmin0_cont = powerlaw.Fit(data, discrete=False,xmin=0)
fit_mixedconn_xmin1_cont = powerlaw.Fit(data, discrete=False,xmin=1)
fit_mixedconn_xmin20_cont = powerlaw.Fit(data, discrete=False,xmin=20)
fit_mixedconn_x1to20_cont = powerlaw.Fit(data, discrete=False,xmin=1,xmax=20)
```

```
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
```

```
print('homconn cont best xmin = %s; D = %s' %(fit_homconn_findxmin_cont.xmin,
fit_homconn_findxmin_cont.D))
print('hetconn cont best xmin = %s; D = %s' %(fit_hetconn_findxmin_cont.xmin,
fit_hetconn_findxmin_cont.D))
print('mixedconn cont best xmin = %s; D = %s' %(fit_mixedconn_findxmin_cont.xmin,
fit_mixedconn_findxmin_cont.D))
print('\n')
print('homconn cont xmin 0; D = %s' %(fit_homconn_xmin0_cont.D))
print('hetconn cont xmin 0; D = %s' %(fit_hetconn_xmin0_cont.D))
print('mixedconn cont xmin 0; D = %s' %(fit_mixedconn_xmin0_cont.D))
print('\n')
print('homconn cont xmin 1; D = %s' %(fit_homconn_xmin1_cont.D))
print('hetconn cont xmin 1; D = %s' %(fit_hetconn_xmin1_cont.D))
print('mixedconn cont xmin 1; D = %s' %(fit_mixedconn_xmin1_cont.D))
print('\n')
print('homconn cont xmin 20; D = %s' %(fit_homconn_xmin20_cont.D))
print('hetconn cont xmin 20; D = %s' %(fit_hetconn_xmin20_cont.D))
print('mixedconn cont xmin 20; D = %s' %(fit_mixedconn_xmin20_cont.D))
print('\n')
print('homconn cont x1to20; D = %s' %(fit_homconn_x1to20_cont.D))
print('hetconn cont x1to20; D = %s' %(fit_hetconn_x1to20_cont.D))
print('mixedconn cont x1to20; D = %s' %(fit_mixedconn_x1to20_cont.D))
```

```
homconn cont best xmin = 3.112792097293563; D = 0.02535626353290754
hetconn cont best xmin = 3.089480348651174; D = 0.019324603110897343
mixedconn cont best xmin = 5.03182764013096; D = 0.015855503684993888
homconn cont xmin 0; D = 0.02535626353290754
hetconn cont xmin 0; D = 0.019324603110897343
mixedconn cont xmin 0; D = 0.015855503684993888
homconn cont xmin 1; D = 0.14459420581614102
hetconn cont xmin 1; D = 0.12032585523035008
mixedconn cont xmin 1; D = 0.15079980317503489
homconn cont xmin 20; D = 0.06512369933318338
hetconn cont xmin 20; D = 0.03584739310117285
mixedconn cont xmin 20; D = 0.031416487198495824
homconn cont x1to20; D = 0.2587471967186929
hetconn cont x1to20; D = 0.22856845187228347
mixedconn cont x1to20; D = 0.27099694834876487
```

Comparing alternative distributions:

Power law distributions are favoured over exponentials in all cases, with high significance. But lognormal distributions are often favoured over power laws; and these are significant for xmin=1 (but not for optimized xmin).

Going from the spiel in Alstott’s paper, I don’t think this is a huge problem, as we have ‘domain-specific theoretical reasoning’ for expecting power laws but not lognormals (right??).

```
# R is positive if the data is more likely in the first distribution,
# and negative if the data is more ikely in the second sitribution
# p is significance value for that direction
R,p= fit_hetconn_findxmin.distribution_compare('power_law', 'exponential')
print('R = %s; p = %s' %(R,p))
R,p= fit_homconn_findxmin.distribution_compare('power_law', 'exponential')
print('R = %s; p = %s' %(R,p))
R,p= fit_mixedconn_findxmin.distribution_compare('power_law', 'exponential')
print('R = %s; p = %s' %(R,p))
```

```
R = 1014.0403174463668; p = 1.584163728020944e-33
R = 1302.972237430508; p = 7.279093381499898e-09
R = 1097.830682456405; p = 1.23011940489131e-18
```

```
R,p= fit_hetconn_xmin1.distribution_compare('power_law', 'exponential')
print('R = %s; p = %s' %(R,p))
R,p= fit_homconn_xmin1.distribution_compare('power_law', 'exponential')
print('R = %s; p = %s' %(R,p))
R,p= fit_mixedconn_xmin1.distribution_compare('power_law', 'exponential')
print('R = %s; p = %s' %(R,p))
```

```
R = 2304.815027755887; p = 1.5464160989284409e-37
R = 4243.587228765825; p = 1.185782659284138e-10
R = 4402.732976403957; p = 3.3629932508995716e-22
```

```
R,p= fit_hetconn_findxmin.distribution_compare('power_law', 'lognormal')
print('R = %s; p = %s' %(R,p))
R,p= fit_homconn_findxmin.distribution_compare('power_law', 'lognormal')
print('R = %s; p = %s' %(R,p))
R,p= fit_mixedconn_findxmin.distribution_compare('power_law', 'lognormal')
print('R = %s; p = %s' %(R,p))
```

```
R = -3.4649613590783117; p = 0.08439348137366853
R = -0.44348223054258895; p = 0.6016262642157528
R = -0.1544396789630733; p = 0.7584292019266619
```

```
R,p= fit_hetconn_xmin1.distribution_compare('power_law', 'lognormal')
print('R = %s; p = %s' %(R,p))
R,p= fit_homconn_xmin1.distribution_compare('power_law', 'lognormal')
print('R = %s; p = %s' %(R,p))
R,p= fit_mixedconn_xmin1.distribution_compare('power_law', 'lognormal')
print('R = %s; p = %s' %(R,p))
```

```
R = -44.061079915827364; p = 9.08357337733109e-05
R = -43.10340433401201; p = 0.0035225713429338436
R = -40.940557570272084; p = 0.008373058143781842
```

Now demonstrate the above distinction between the different model types parametrically.

We vary the local coupling strength parameter A1 and local kernel width parameter sigma1 continuously, for both the mixed and purely homogeneous connectivity models.

We find that the best power law fits are found for high values of A1 and intermediate values of sigma1, from the ranges studied; and also that sigma1 and A1 interact (i.e. the gradient in the PSE plots is tilted).

```
# Increasing sigma reduces alpha spectral peak
A1s = 10**r_[-0.001:1:10j]
sigma1s = 10**r_[-0.001:1:10j]
combs = list(itertools.product(A1s,sigma1s))
_sims_pse1_mixedconn = {}
_sims_pse1_mixedconn_tpdfs = {}
#_sims_pse1_fits = {}
_sims_pse1_mixedconn_fit_Ds_findxmin = {}
_sims_pse1_mixedconn_fit_Ds_xmin0 = {}
_sims_pse1_mixedconn_fit_Ds_xmin1 = {}
_sims_pse1_mixedconn_fit_Ds_xmin20 = {}
_sims_pse1_mixedconn_fit_Ds_x1to20 = {}
```

```
len(combs)
```

```
100
```

```
for (A1,sigma1) in combs:
s = NF2pnt1D(sigma1=sigma1,A1=A1)
s.run()
s.compute_totalpow()
s.compute_totalpow_per()
_sims_pse1_mixedconn[A1,sigma1] = s
_sims_pse1_mixedconn_tpdfs[A1,sigma1] = s.df_TotalPow
data = np.squeeze(s.df_TotalPow.values.copy())
data = data / data.min()
_fit = powerlaw.Fit(data, discrete=True)
_sims_pse1_mixedconn_fit_Ds_findxmin[A1,sigma1] = _fit.power_law.D
_fit = powerlaw.Fit(data, discrete=True,xmin=0)
_sims_pse1_mixedconn_fit_Ds_xmin0[A1,sigma1] = _fit.power_law.D
_fit = powerlaw.Fit(data, discrete=True,xmin=1)
_sims_pse1_mixedconn_fit_Ds_xmin1[A1,sigma1] = _fit.power_law.D
_fit = powerlaw.Fit(data, discrete=True,xmin=20)
_sims_pse1_mixedconn_fit_Ds_xmin20[A1,sigma1] = _fit.power_law.D
_fit = powerlaw.Fit(data, discrete=True,xmin=1,xmax=20)
_sims_pse1_mixedconn_fit_Ds_x1to20[A1,sigma1] = _fit.power_law.D
clear_output()
```

```
def doaplot(_s,_ax,_tit,vmin=0,vmax=0.2):
_arr1 = np.array(_s.keys())
_arr2 = np.array(_s.values())[:,np.newaxis]
_arr12 = np.concatenate([_arr1,_arr2],axis=1)
_df = pd.DataFrame(_arr12,columns=['A1', 'sigma1', 'D'])
sns.heatmap(_df.set_index(['A1', 'sigma1'])['D'].unstack(), ax=_ax,
xticklabels='',yticklabels='',vmin=vmin,vmax=vmax)
_ax.set_title(_tit)
```

```
_sims_pse1_mixedconn_fit_Ds_findxmin.keys()
```

```
dict_keys([(0.9977000638225533, 0.9977000638225533), (0.9977000638225533, 1.2889088990821966), (0.9977000638225533, 1.6651158102248549), (0.9977000638225533, 2.151130047620192), (0.9977000638225533, 2.779002189132765), (0.9977000638225533, 3.5901377398119365), (0.9977000638225533, 4.638027649357204), (0.9977000638225533, 5.991775813406186), (0.9977000638225533, 7.740656182395769), (0.9977000638225533, 10.0), (1.2889088990821966, 0.9977000638225533), (1.2889088990821966, 1.2889088990821966), (1.2889088990821966, 1.6651158102248549), (1.2889088990821966, 2.151130047620192), (1.2889088990821966, 2.779002189132765), (1.2889088990821966, 3.5901377398119365), (1.2889088990821966, 4.638027649357204), (1.2889088990821966, 5.991775813406186), (1.2889088990821966, 7.740656182395769), (1.2889088990821966, 10.0), (1.6651158102248549, 0.9977000638225533), (1.6651158102248549, 1.2889088990821966), (1.6651158102248549, 1.6651158102248549), (1.6651158102248549, 2.151130047620192), (1.6651158102248549, 2.779002189132765), (1.6651158102248549, 3.5901377398119365), (1.6651158102248549, 4.638027649357204), (1.6651158102248549, 5.991775813406186), (1.6651158102248549, 7.740656182395769), (1.6651158102248549, 10.0), (2.151130047620192, 0.9977000638225533), (2.151130047620192, 1.2889088990821966), (2.151130047620192, 1.6651158102248549), (2.151130047620192, 2.151130047620192), (2.151130047620192, 2.779002189132765), (2.151130047620192, 3.5901377398119365), (2.151130047620192, 4.638027649357204), (2.151130047620192, 5.991775813406186), (2.151130047620192, 7.740656182395769), (2.151130047620192, 10.0), (2.779002189132765, 0.9977000638225533), (2.779002189132765, 1.2889088990821966), (2.779002189132765, 1.6651158102248549), (2.779002189132765, 2.151130047620192), (2.779002189132765, 2.779002189132765), (2.779002189132765, 3.5901377398119365), (2.779002189132765, 4.638027649357204), (2.779002189132765, 5.991775813406186), (2.779002189132765, 7.740656182395769), (2.779002189132765, 10.0), (3.5901377398119365, 0.9977000638225533), (3.5901377398119365, 1.2889088990821966), (3.5901377398119365, 1.6651158102248549), (3.5901377398119365, 2.151130047620192), (3.5901377398119365, 2.779002189132765), (3.5901377398119365, 3.5901377398119365), (3.5901377398119365, 4.638027649357204), (3.5901377398119365, 5.991775813406186), (3.5901377398119365, 7.740656182395769), (3.5901377398119365, 10.0), (4.638027649357204, 0.9977000638225533), (4.638027649357204, 1.2889088990821966), (4.638027649357204, 1.6651158102248549), (4.638027649357204, 2.151130047620192), (4.638027649357204, 2.779002189132765), (4.638027649357204, 3.5901377398119365), (4.638027649357204, 4.638027649357204), (4.638027649357204, 5.991775813406186), (4.638027649357204, 7.740656182395769), (4.638027649357204, 10.0), (5.991775813406186, 0.9977000638225533), (5.991775813406186, 1.2889088990821966), (5.991775813406186, 1.6651158102248549), (5.991775813406186, 2.151130047620192), (5.991775813406186, 2.779002189132765), (5.991775813406186, 3.5901377398119365), (5.991775813406186, 4.638027649357204), (5.991775813406186, 5.991775813406186), (5.991775813406186, 7.740656182395769), (5.991775813406186, 10.0), (7.740656182395769, 0.9977000638225533), (7.740656182395769, 1.2889088990821966), (7.740656182395769, 1.6651158102248549), (7.740656182395769, 2.151130047620192), (7.740656182395769, 2.779002189132765), (7.740656182395769, 3.5901377398119365), (7.740656182395769, 4.638027649357204), (7.740656182395769, 5.991775813406186), (7.740656182395769, 7.740656182395769), (7.740656182395769, 10.0), (10.0, 0.9977000638225533), (10.0, 1.2889088990821966), (10.0, 1.6651158102248549), (10.0, 2.151130047620192), (10.0, 2.779002189132765), (10.0, 3.5901377398119365), (10.0, 4.638027649357204), (10.0, 5.991775813406186), (10.0, 7.740656182395769), (10.0, 10.0)])
```

```
```

```
fig, ax = plt.subplots(ncols=5,figsize=(16,3))
_tit = 'findxmin'
_ax = ax[0]
_s = _sims_pse1_mixedconn_fit_Ds_findxmin
doaplot(_s,_ax,_tit,vmin=0,vmax=0.02)
_tit = 'xmin0'
_ax = ax[1]
_s = _sims_pse1_mixedconn_fit_Ds_xmin0
doaplot(_s,_ax,_tit,vmin=0,vmax=0.02)
_tit = 'xmin1'
_ax = ax[2]
_s = _sims_pse1_mixedconn_fit_Ds_xmin1
doaplot(_s,_ax,_tit,vmin=0,vmax=0.2)
_tit = 'xmin20'
_ax = ax[3]
_s = _sims_pse1_mixedconn_fit_Ds_xmin20
doaplot(_s,_ax,_tit,vmin=0,vmax=0.05)
_tit = 'x1to20'
_ax = ax[4]
_s = _sims_pse1_mixedconn_fit_Ds_x1to20
doaplot(_s,_ax,_tit,vmin=0,vmax=0.2)
plt.tight_layout()
```

```
---------------------------------------------------------------------------
IndexError Traceback (most recent call last)
<ipython-input-79-688ed19459a0> in <module>
5 _ax = ax[0]
6 _s = _sims_pse1_mixedconn_fit_Ds_findxmin
----> 7 doaplot(_s,_ax,_tit,vmin=0,vmax=0.02)
8
9
<ipython-input-78-0063a9fccbc0> in doaplot(_s, _ax, _tit, vmin, vmax)
2
3 _arr1 = np.array(_s.keys())
----> 4 _arr2 = np.array(_s.values())[:,np.newaxis]
5 _arr12 = np.concatenate([_arr1,_arr2],axis=1)
6 _df = pd.DataFrame(_arr12,columns=['A1', 'sigma1', 'D'])
IndexError: too many indices for array
```

```
fig, ax = plt.subplots(ncols=5,figsize=(16,3))
_tit = 'findxmin'
_ax = ax[0]
_s = _sims_pse1_mixedconn_fit_Ds_findxmin
doaplot(_s,_ax,_tit,vmin=0,vmax=0.02)
_tit = 'xmin0'
_ax = ax[1]
_s = _sims_pse1_mixedconn_fit_Ds_xmin0
doaplot(_s,_ax,_tit,vmin=0,vmax=0.02)
_tit = 'xmin1'
_ax = ax[2]
_s = _sims_pse1_mixedconn_fit_Ds_xmin1
doaplot(_s,_ax,_tit,vmin=0,vmax=0.2)
_tit = 'xmin20'
_ax = ax[3]
_s = _sims_pse1_mixedconn_fit_Ds_xmin20
doaplot(_s,_ax,_tit,vmin=0,vmax=0.05)
_tit = 'x1to20'
_ax = ax[4]
_s = _sims_pse1_mixedconn_fit_Ds_x1to20
doaplot(_s,_ax,_tit,vmin=0,vmax=0.2)
plt.tight_layout()
```

```
# Increasing sigma reduces alpha spectral peak
A1s = 10**r_[-0.001:1:10j]
sigma1s = 10**r_[-0.001:1:10j]
combs = list(itertools.product(A1s,sigma1s))
_sims_pse1_homogconn = {}
_sims_pse1_homogconn_tpdfs = {}
#_sims_pse1_fits = {}
_sims_pse1_homogconn_fit_Ds_findxmin = {}
_sims_pse1_homogconn_fit_Ds_xmin0 = {}
_sims_pse1_homogconn_fit_Ds_xmin1 = {}
_sims_pse1_homogconn_fit_Ds_xmin20 = {}
_sims_pse1_homogconn_fit_Ds_x1to20 = {}
for (A1,sigma1) in combs:
s = NF2pnt1D(sigma1=sigma1,A1=A1,c12=0,c21=0)
s.run()
s.compute_totalpow()
s.compute_totalpow_per()
_sims_pse1_homogconn[A1,sigma1] = s
_sims_pse1_homogconn_tpdfs[A1,sigma1] = s.df_TotalPow
data = np.squeeze(s.df_TotalPow.values.copy())
data = data / data.min()
_fit = powerlaw.Fit(data, discrete=True)
_sims_pse1_homogconn_fit_Ds_findxmin[A1,sigma1] = _fit.power_law.D
_fit = powerlaw.Fit(data, discrete=True,xmin=0)
_sims_pse1_homogconn_fit_Ds_xmin0[A1,sigma1] = _fit.power_law.D
_fit = powerlaw.Fit(data, discrete=True,xmin=1)
_sims_pse1_homogconn_fit_Ds_xmin1[A1,sigma1] = _fit.power_law.D
_fit = powerlaw.Fit(data, discrete=True,xmin=20)
_sims_pse1_homogconn_fit_Ds_xmin20[A1,sigma1] = _fit.power_law.D
_fit = powerlaw.Fit(data, discrete=True,xmin=1,xmax=20)
_sims_pse1_homogconn_fit_Ds_x1to20[A1,sigma1] = _fit.power_law.D
clear_output()
```

```
fig, ax = plt.subplots(ncols=5,figsize=(16,3))
_tit = 'findxmin'
_ax = ax[0]
_s = _sims_pse1_homogconn_fit_Ds_findxmin
doaplot(_s,_ax,_tit,vmin=0,vmax=0.02)
_tit = 'xmin0'
_ax = ax[1]
_s = _sims_pse1_homogconn_fit_Ds_xmin0
doaplot(_s,_ax,_tit,vmin=0,vmax=0.02)
_tit = 'xmin1'
_ax = ax[2]
_s = _sims_pse1_homogconn_fit_Ds_xmin1
doaplot(_s,_ax,_tit,vmin=0,vmax=0.2)
_tit = 'xmin20'
_ax = ax[3]
_s = _sims_pse1_homogconn_fit_Ds_xmin20
doaplot(_s,_ax,_tit,vmin=0,vmax=0.05)
_tit = 'x1to20'
_ax = ax[4]
_s = _sims_pse1_homogconn_fit_Ds_x1to20
doaplot(_s,_ax,_tit,vmin=0,vmax=0.2)
plt.tight_layout()
```

```
---------------------------------------------------------------------------
IndexError Traceback (most recent call last)
<ipython-input-85-8542f28057f5> in <module>
5 _ax = ax[0]
6 _s = _sims_pse1_homogconn_fit_Ds_findxmin
----> 7 doaplot(_s,_ax,_tit,vmin=0,vmax=0.02)
8
9
<ipython-input-78-0063a9fccbc0> in doaplot(_s, _ax, _tit, vmin, vmax)
2
3 _arr1 = np.array(_s.keys())
----> 4 _arr2 = np.array(_s.values())[:,np.newaxis]
5 _arr12 = np.concatenate([_arr1,_arr2],axis=1)
6 _df = pd.DataFrame(_arr12,columns=['A1', 'sigma1', 'D'])
IndexError: too many indices for array
```

```
fig, ax = plt.subplots(ncols=5,figsize=(16,3))
_tit = 'findxmin'
_ax = ax[0]
_s = _sims_pse1_homogconn_fit_Ds_findxmin
doaplot(_s,_ax,_tit,vmin=0,vmax=0.02)
_tit = 'xmin0'
_ax = ax[1]
_s = _sims_pse1_homogconn_fit_Ds_xmin0
doaplot(_s,_ax,_tit,vmin=0,vmax=0.02)
_tit = 'xmin1'
_ax = ax[2]
_s = _sims_pse1_homogconn_fit_Ds_xmin1
doaplot(_s,_ax,_tit,vmin=0,vmax=0.2)
_tit = 'xmin20'
_ax = ax[3]
_s = _sims_pse1_homogconn_fit_Ds_xmin20
doaplot(_s,_ax,_tit,vmin=0,vmax=0.05)
_tit = 'x1to20'
_ax = ax[4]
_s = _sims_pse1_homogconn_fit_Ds_x1to20
doaplot(_s,_ax,_tit,vmin=0,vmax=0.2)
plt.tight_layout()
```

Now do for linear spacing; more combs…

```
# Increasing sigma reduces alpha spectral peak
A1s = r_[0.1:10:0.1]
sigma1s = r_[0.1:10:0.1]
combs = list(itertools.product(A1s,sigma1s))
_sims_pse2_mixedconn = {}
_sims_pse2_mixedconn_tpdfs = {}
#_sims_pse1_fits = {}
_sims_pse2_mixedconn_fit_Ds_findxmin = {}
_sims_pse2_mixedconn_fit_Ds_xmin0 = {}
_sims_pse2_mixedconn_fit_Ds_xmin1 = {}
_sims_pse2_mixedconn_fit_Ds_xmin20 = {}
_sims_pse2_mixedconn_fit_Ds_x1to20 = {}
for (A1,sigma1) in combs:
s = NF2pnt1D(sigma1=sigma1,A1=A1)
s.run()
s.compute_totalpow()
s.compute_totalpow_per()
_sims_pse2_mixedconn[A1,sigma1] = s
_sims_pse2_mixedconn_tpdfs[A1,sigma1] = s.df_TotalPow
data = np.squeeze(s.df_TotalPow.values.copy())
data = data / data.min()
_fit = powerlaw.Fit(data, discrete=True)
_sims_pse2_mixedconn_fit_Ds_findxmin[A1,sigma1] = _fit.power_law.D
_fit = powerlaw.Fit(data, discrete=True,xmin=0)
_sims_pse2_mixedconn_fit_Ds_xmin0[A1,sigma1] = _fit.power_law.D
_fit = powerlaw.Fit(data, discrete=True,xmin=1)
_sims_pse2_mixedconn_fit_Ds_xmin1[A1,sigma1] = _fit.power_law.D
_fit = powerlaw.Fit(data, discrete=True,xmin=20)
_sims_pse2_mixedconn_fit_Ds_xmin20[A1,sigma1] = _fit.power_law.D
_fit = powerlaw.Fit(data, discrete=True,xmin=1,xmax=20)
_sims_pse2_mixedconn_fit_Ds_x1to20[A1,sigma1] = _fit.power_law.D
clear_output()
```

```
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
WARNING /nethome/kcni/jgriffiths/Software/miniconda3/envs/jupyter_py3/lib/python3.7/site-packages/ipykernel_launcher.py:328: RuntimeWarning: divide by zero encountered in true_divide
WARNING /nethome/kcni/jgriffiths/Software/miniconda3/envs/jupyter_py3/lib/python3.7/site-packages/ipykernel_launcher.py:334: ComplexWarning: Casting complex values to real discards the imaginary part
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value for power law fit
Calculating best minimal value for power law fit
Number IDIM of spatial grid points is 31
Number ndim of time points is 2001
Maximal time delay is 3
Max number IMAX of delay time points is 121
Calculating best minimal value
```