Changes for page Code description

Last modified by galluzziandrea on 2022/06/20 12:33
From version 8.1
edited by galluzziandrea
on 2021/12/09 14:58
Change comment: There is no comment for this version
To version 2.2
edited by galluzziandrea
on 2021/12/09 12:35
Change comment: There is no comment for this version

Summary

Details

Page properties
Content
... ... @@ -1,328 +1,27 @@
1 -== Introduction (path and modules): ==
1 +== Code Description ==
2 2  
3 -First of all we check the path and import the necessary modules .
4 4  
5 -=== Check where I am and place myself in the right folder: ===
6 6  
7 7  {{code language="python"}}
8 -# Import the os module
9 -import os
10 -
11 -#Print the current working directory
12 -print("Current working directory: {0}".format(os.getcwd()))
13 -
14 -# Change the current working directory
15 -os.chdir('/mnt/user/shared/Slow waves in fading anesthesia/Nest3Python3')
16 -
17 -# Print the current working directory
18 -print("Current working directory: {0}".format(os.getcwd()))
6 +x = 1
7 +if x == 1:
8 + # indented four spaces
9 + print("x is 1.")
19 19  {{/code}}
20 20  
21 -=== Import the modules necessary for the simulation: ===
12 +(% class="wikigeneratedid" %)
13 +=== ===
22 22  
23 23  {{code language="python"}}
24 -import nest
25 -import time
26 -from numpy import exp
27 -import numpy
28 -import math
29 -import random
30 -import multiprocessing
31 -Inizio=time.time()
32 -print('tempo di Inizio:',Inizio)
16 +x = 1
17 +if x == 1:
18 + # indented four spaces
19 + print("x is 1.")
33 33  {{/code}}
34 34  
35 -=== ===
22 +(% class="wikigeneratedid" %)
23 +=== ===
36 36  
37 -=== Define necessary classes to import the Initialization Files: ===
38 -
39 -{{code language="python" title=" "}}
40 -class ImportIniLIFCA():
41 - #initialize the information to look for in perseo.ini
42 - inf=["NeuronType", #still fixed value
43 - "DelayDistribType", #still fixed value
44 - "SynapticExtractionType", #still fixed value
45 - "Life"]
46 -
47 - def __init__(self,files):
48 - self.files=files
49 -
50 - def FilesControllo(self):
51 - import sys
52 - for i in range(0,len(self.files)):
53 - if self.FileControllo(self.files[i]):
54 - sys.exit(0)
55 -
56 - def FileControllo(self,file1):
57 - try:
58 - f1=open(file1,"r")
59 - f1.close()
60 - return 0
61 - except ValueError:
62 - print("ValueError")
63 - return 1
64 - except IOError as err:
65 - print("OS error: {0}".format(err))
66 - return 1
67 - except:
68 - print("Unexpected error:", sys.exc_info()[0])
69 - return 1
70 -
71 - def Estrai_inf(self,stampa=0):
72 -
73 - InfoPerseo=self.EstraiInfoPerseo() #extract info from perseo.ini
74 - AppoggioTempM=self.EstraiInfoModuli() #extract info from modules.ini
75 - AppoggioTempC=self.EstraiInfoConnectivity() #extract info from connectivity.ini
76 - AppoggioTempP=self.EstraiProtocol() #extract info from protocol.ini
77 -
78 - def getKey(item):
79 - return item[0]
80 - InfoProtocol=AppoggioTempP
81 - # I convert the extracted information into a suitable format from tuple to list
82 -
83 - InfoBuildT=[AppoggioTempM[0]]
84 - for i in range(0,AppoggioTempM[0]):
85 - app1=[int(AppoggioTempM[2][i][0])]
86 - app=(app1+list(AppoggioTempM[2][i][3:9])+list(AppoggioTempM[2][i][12])+list(AppoggioTempM[2][i][9:12]))
87 - InfoBuildT.append(app)
88 - del app
89 -
90 - InfoBuild=[float(InfoBuildT[0])]
91 - for i in range(0,int(InfoBuildT[0])):
92 - app=[]
93 - for j in range(0,11):
94 - app.append(float(InfoBuildT[i+1][j]))
95 - InfoBuild=InfoBuild+[app]
96 - del app
97 -
98 - InfoConnectPop=[AppoggioTempM[0]]
99 - for i in range(0,len(AppoggioTempC[1][:])):
100 - app=list(AppoggioTempC[1][i])
101 - InfoConnectPop.append(app)
102 - del app
103 -
104 - InfoConnectNoise=[AppoggioTempM[0]]
105 - for i in range(0,AppoggioTempM[0]):
106 - app=list(AppoggioTempM[2][i][1:3])
107 - InfoConnectNoise.append(app)
108 -
109 -
110 - if stampa==1: #Print on screen of saved data
111 - for i,j in enumerate(InfoPerseo):
112 - print(self.inf[i],"=",j)
113 - print("\n")
114 - print("the network consists of ", AppoggioTempM[0], " neuronal population" )
115 - print(AppoggioTempM[1])
116 - for i in range(0,AppoggioTempM[0]):
117 - print(AppoggioTempM[2][i])
118 - print("\n")
119 - print(AppoggioTempC[0])
120 - for i in range(0,AppoggioTempM[0]**2):
121 - print(AppoggioTempC[1][i])
122 - print("\n")
123 - for i in InfoProtocol:
124 - print("SET_PARAM"+str(i))
125 -
126 -
127 - return InfoPerseo,InfoBuild,InfoConnectPop,InfoConnectNoise,InfoProtocol
128 -
129 - def EstraiProtocol(self):
130 - import string
131 - f1=open(self.files[3],"r")
132 - ProtocolList= []
133 - for x in f1.readlines():
134 - y=x.split()
135 - if len(y):
136 - if x[0]!="#" and y[0]=="SET_PARAM":
137 - try:
138 - ProtocolList.append([float(y[1]),int(y[2]),float(y[3]),float(y[4])])
139 - except ValueError:
140 - pass
141 - f1.close()
142 - return ProtocolList
143 -
144 - def EstraiInfoPerseo(self):
145 - import string
146 - f1=open(self.files[0],"r")
147 - InfList= []
148 - for x in f1.readlines():
149 - y=x.split()
150 - if len(y):
151 - if x[0]!="#":
152 - for findinf in self.inf:
153 - try:
154 - temp=y.index(findinf)
155 - InfList.append(y[temp+2])
156 - except ValueError:
157 - pass
158 - f1.close()
159 - return InfList
160 -
161 - def EstraiInfoModuli(self):
162 - import string
163 - f1=open(self.files[2],"r")
164 - NumPop=0
165 - for i,x in enumerate(f1.readlines()):
166 - y=x.split()
167 - if len(y):
168 - if x[0]!="#":
169 - NumPop=NumPop+1
170 - if i==2:
171 - ParamList=[]
172 - for j in range(1,14):
173 - ParamList.append(y[j])
174 - f1.close()
175 - PopsParamList=[]
176 - f1=open(self.files[2],"r")
177 - x=f1.readlines()
178 - for j in range(0,NumPop):
179 - appo=x[4+j];
180 - PopsParamList.append(appo.split())
181 - f1.close()
182 - return NumPop,ParamList,PopsParamList
183 -
184 - def EstraiInfoConnectivity(self):
185 - import string
186 - f1=open(self.files[1],"r")
187 - PopConParamList=[]
188 - for i,x in enumerate(f1.readlines()):
189 - y=x.split()
190 - if len(y):
191 - if x[0]!="#":
192 - PopConParamList.append(y)
193 - if i==1:
194 - ParamList=[]
195 - for j in range(1,9):
196 - ParamList.append(y[j])
197 - f1.close()
198 - return ParamList,PopConParamList
199 -{{/code}}
200 -
201 -=== Import the initialization files: ===
202 -
203 -in this section we...
204 -
205 -{{code language="python"}}
206 -Salva=1
207 -file1="perseo35.ini"
208 -file2="c_cortsurf_Pot1.43PotStr148v3.ini"
209 -file3="m_cortsurf_Pot1.43.ini"
210 -file4="ProtocolExploration36.ini"
211 -files=[file1,file2,file3,file4]
212 -#define the name of the Output file
213 -FileName="dati/Rates_Nest_Run_Milano_Test36_13x13_"+str(nest.Rank())+"_Pot1.43PotStr148v3Long3.dat"
214 -#check the existence of the files being read
215 -ImpFil=ImportIniLIFCA(files);
216 -ImpFil.FilesControllo()
217 -
218 -#extract the information of interest from the files.ini and transfer them to the files:
219 -#InfoPerseo,InfoBuild,InfoConnectPop,InfoConnectNoise
220 -
221 -stampa=0; #stampa=1 print output simulation data on screen stampa=0 dont
222 -InfoPerseo,InfoBuild,InfoConnectPop,InfoConnectNoise,InfoProtocol=ImpFil.Estrai_inf(stampa)
223 -
224 -# InfoPerseo=["NeuronType","DelayDistribType","SynapticExtractionType","Life" ]
225 -# InfoBuild=[numero di popolazioni,
226 -# [N,C_ext,\nu_ext,\tau,\tetha,H,\tau_arp,NeuronInitType,\alpha_c,\tau_c,g_c],
227 -# [.....],[],...]
228 -# InfoConnectPop=[numero di popolazioni,
229 -# [post,pre,c,Dmin,Dmax,syn typ,J,DJ],
230 -# [.....],[],...]
231 -# InfoConnectNoise=[numero di popolazioni,
232 -# [J_ext,DJ_ext],
233 -# [.....],[],...]
234 -# InfoProtocol=[[time,population,param_num,value],
235 -# [.....],[],...]
236 -{{/code}}
237 -
238 -=== Defining general and nest.kernel parameters ===
239 -
240 -{{code language="python"}}
241 -#############################------------------------------------------------------------------------
242 -#Clean the Network
243 -#############################------------------------------------------------------------------------
244 -nest.ResetKernel()
245 -
246 -#############################------------------------------------------------------------------------
247 -#insert the introductory parameters of the simulation
248 -#############################------------------------------------------------------------------------
249 -
250 -
251 -dt = 0.1 # the resolution in ms
252 -StartMisure=0. # start time of measurements
253 -simtime = int(float(InfoPerseo[3])) # Simulation time in ms (200 s)
254 -if simtime<=StartMisure: # If the simulation time is less than StartMisure, it is increased by StartMisure
255 - simtime=simtime+StartMisure
256 -start=0.0 # start time of poissonian processes
257 -origin=0.0 # temporal origin
258 -
259 -#############################------------------------------------------------------------------------
260 -# Kernel parameters
261 -#############################------------------------------------------------------------------------
262 -LNT=multiprocessing.cpu_count();
263 -nest.SetKernelStatus({"local_num_threads": LNT})
264 -nest.SetKernelStatus({"resolution": dt, "print_time": True,
265 - "overwrite_files": True})
266 -
267 -#############################------------------------------------------------------------------------
268 -#"randomize" the seeds of the random generators
269 -#############################------------------------------------------------------------------------
270 -
271 -#msd = int(math.fabs(time.process_time()*1000))
272 -#N_vp = nest.GetKernelStatus(['total_num_virtual_procs'])[0]
273 -#pyrngs = [numpy.random.RandomState(s) for s in range(msd, msd+N_vp)]
274 -#nest.SetKernelStatus({"grng_seed" : msd+N_vp})
275 -#nest.SetKernelStatus({"rng_seeds" : list(range(msd+N_vp+1, msd+2*N_vp+1))})
276 -{{/code}}
277 -
278 -=== Building the network: neuronal populations , Poisson processes and spike detectors ===
279 -
280 -{{code language="python"}}
281 -#############################------------------------------------------------------------------------
282 -print("Building network")
283 -#############################------------------------------------------------------------------------
284 -
285 -startbuild = time.time() #initialize the calculation of the time used to simulate
286 -
287 -NeuronPop=[]
288 -NoisePop=[]
289 -DetectorPop=[]
290 -
291 -#define and initialize the populations of neurons with the parameters extracted from the.ini files
292 -for i in range(1,int(InfoBuild[0])+1):
293 - if int(InfoBuild[i][7])==0:
294 - app=float(InfoBuild[i][5])
295 - else:
296 - app=0.
297 - app2= nest.Create("aeif_psc_exp", int(InfoBuild[i][0]),params={"C_m": 1.0,
298 - "g_L": 1.0/float(InfoBuild[i][3]),
299 - "t_ref": float(InfoBuild[i][6]),
300 - "E_L": 0.0,
301 - "V_reset": float(InfoBuild[i][5]),
302 - "V_m": app,
303 - "V_th": float(InfoBuild[i][4]),
304 - "Delta_T": 0.,
305 - "tau_syn_ex": 1.0,
306 - "tau_syn_in": 1.0,
307 - "a": 0.0,
308 - "b": float(InfoBuild[i][10]),
309 - "tau_w": float(InfoBuild[i][9]),
310 - "V_peak":float(InfoBuild[i][4])+10.0})
311 - NeuronPop.append(app2)
312 -
313 -#define and initialize the poisson generators and the spike detectors with the parameters extracted from the.ini files
314 -
315 -for i in range(1,int(InfoBuild[0])+1):
316 - app3= nest.Create("poisson_generator",params={"rate": float(InfoBuild[i][1]*InfoBuild[i][2]),
317 - 'origin':0.,
318 - 'start':start})
319 - NoisePop.append(app3)
320 - app4 = nest.Create("spike_recorder",params={ "start":StartMisure})
321 - DetectorPop.append(app4)
322 -
323 -endbuild = time.time()
324 -{{/code}}
325 -
326 326  === Results ===
327 327  
328 -==== ====
27 +==== ====