コード例 #1
0
    wSV, wVS, wPP, wEP = -0.6, -0.5, -0.1, -40.0
elif Panel==2: # d
    VE, VP, MP = 1, 0, 1
    wSV, wVS, wPP, wEP = -0.6, -0.5, -0.1, -40.0
elif Panel==3: # e
    VE, VP, MP = 0, 1, 1
    wSV, wVS, wPP, wEP = -0.6, -0.5, -1.5, -40.0
elif Panel==4: # f
    VE, VP, MP = 0, 0, 1
    wSV, wVS, wPP, wEP = -0.6, -0.5, -1.5, -40.0

wPV = -(VP + abs(wSV)*MP - (1-wPP)/(-0.07*wEP) * VE) # gain = 0.07
wPS = -(abs(wVS)*abs(wPV) + (1-wSV*wVS)*MP) 

NeuPar = Neurons()
NetPar = Network(NeuPar, wPP=wPP, wPS=wPS, wPV=wPV, wEP=wEP, flag_hetero=0)

### Define input parameters
stim_max, SD = 50.0, 10.0
r0 = np.array([1,2,2,4])

StimPar = Stimulation(NeuPar, NetPar, SD, None, stim_max, r0 = r0, VE=VE, VP=VP, MP=MP, VS=VS, VV=VV)

### Define simulation parameters
SimPar = Simulation()

### Run simulation
RunStaticNetwork(NeuPar, NetPar, StimPar, SimPar, folder, fln)
SaveNetworkPara(NeuPar, NetPar, StimPar, None, folder, fln)

### Analyse & plot network
コード例 #2
0
import warnings

warnings.filterwarnings("ignore")

dtype = np.float32

# %% Figure 1 - Supplement Figure 3

folder = 'Fig_1_Supp_3'

### Define neuron and network parameters
NeuPar = Neurons(FlagDendRec=np.int32(0))
VE_scale = 0.5

wPP, wPE, wDS = dtype(-0.5), dtype(2.5), dtype(-5.0)
NetPar = Network(NeuPar, wPP=wPP, wPE=wPE, wDS=wDS)

### Define simulation parameters & recording options
SimPar_test = Simulation()
SimPar = Simulation(dt=0.2)
SavePar = SaveData()

### Define plasticity parameter
LearnPar = Learning(NeuPar)

#####################
# Before plasticity #
#####################

### Define input parameters
stim_max, SD = dtype(100), dtype(5)
コード例 #3
0
# %% Figure 1 - Supplement Figure 2
"""
Please note:    
    To reproduce panel c and f of the figure, 
    vary parameter 'PV_input_type' (see below).
"""

folder = 'Fig_1_Supp_2'
PV_input_type = 1  # 0: motor, 1: visual
PV_input_ABC = ['M', 'V']

### Define neuron and network parameters
NeuPar = Neurons()

wPP, wPE, wDS = dtype(-0.5), dtype(2.5), dtype(-5.0)
NetPar = Network(NeuPar, wPP=wPP, wPE=wPE, wDS=wDS, pPV=dtype(0))

### Define simulation parameters & recording options
SimPar_test = Simulation()
SimPar = Simulation(dt=0.2)
SavePar = SaveData()

### Define plasticity parameter
LearnPar = Learning(NeuPar, pPV=dtype(0))

# #####################
# ##### Learning ######
# #####################

### Define input parameters
stim_max, SD = dtype(100), dtype(5)