1.0 * 1.0 * DTH * DTH, #G_SIGMA_THETA2 1.0 * DTH, # G_DTH_MAX -1.0, #G_ASYM_FLAG 10.0 * GLOBAL_GAIN #GAUSS_WEIGHT_SCALE ) LAYER_R = 0 LAYER_V1 = 1 LAYER_FLANKING = 2 from pv_ifc import * # Execution: import pypv #pypv.command(PV_ACTION_INIT, 4, 'pv -i io/input/amoeba2X.bin -w -n2') pypv.command(PV_ACTION_INIT, 3, 'pv -w -n3') pypv.command(PV_ACTION_ADD_LAYER, (LAYER_R, 1.0, 1.0, 1.0), 0) pypv.command(PV_ACTION_ADD_LAYER, (LAYER_V1, 1.0, 1.0, NO*NK), 0) pypv.command(PV_ACTION_ADD_LAYER, (LAYER_FLANKING, 1.0, 1.0, NO), 0) # init pypv.command(PV_ACTION_SET_LAYER_PARAMS, (LAYER_R, PV_HANDLER_READFILE), (0, 1.0, 1.0, 1.0, 1*0.999, 0*0.01, 20.0, 40.0, 0)) pypv.command(PV_ACTION_SET_LAYER_PARAMS, (LAYER_V1, PV_HANDLER_LIF2), (V_REST, V_EXC, V_INH, V_INHB, TAU_VMEM, TAU_EXC, TAU_INH, TAU_INHB, VTH_REST, TAU_VTH, DELTA_VTH + 10.0, 0.25, NOISE_AMP*( 1.0/TAU_EXC ) * ( ( TAU_INH * (V_REST-V_INH) + TAU_INHB * (V_REST-V_INHB) ) / (V_EXC-V_REST) ), 0.25, NOISE_AMP*1.0,
ASPECT_RATIO = 3.0 SIGMA_EDGE = 1.5 R2_COCIRC = 16.0 # 8.0 SIGMA_DIST_COCIRC = 8.0 # 4.0 R2_FEEDBACK = 6.0 # 8.0 SIGMA_DIST_FEEDBACK = 3.0 # 4.0 from pv_ifc import * LAYER_R = 0 LAYER_V1 = 1 # Execution: import pypv #pypv.command(PV_ACTION_INIT, 4, 'pv -i io/input/amoeba2X.bin -w -n2') pypv.command(PV_ACTION_INIT, 3, 'pv -w -n2') pypv.command(PV_ACTION_ADD_LAYER, (LAYER_R, 1.0, 1.0, 1.0), 0) pypv.command(PV_ACTION_ADD_LAYER, (LAYER_V1, 1.0, 1.0, NO * NK), 0) # init pypv.command(PV_ACTION_SET_LAYER_PARAMS, (LAYER_R, PV_HANDLER_READFILE), (0, 1.0, 1.0, 1.0, 1 * 0.999, 0 * 0.01, 20.0, 40.0, 0)) pypv.command( PV_ACTION_SET_LAYER_PARAMS, (LAYER_V1, PV_HANDLER_LIF2), (V_REST, V_EXC, V_INH, V_INHB, TAU_VMEM, TAU_EXC, TAU_INH, TAU_INHB, VTH_REST, TAU_VTH, DELTA_VTH + 10.0, 0.25, NOISE_AMP * (1.0 / TAU_EXC) * ((TAU_INH * (V_REST - V_INH) + TAU_INHB * (V_REST - V_INHB)) / (V_EXC - V_REST)), 0.25, NOISE_AMP * 1.0, 0.25, NOISE_AMP * 1.0))
1.0 * 1.0 * DTH * DTH, #G_SIGMA_THETA2 1.0 * DTH, # G_DTH_MAX -1.0, #G_ASYM_FLAG 10.0 * GLOBAL_GAIN #GAUSS_WEIGHT_SCALE ) LAYER_R = 0 LAYER_V1 = 1 LAYER_FLANKING = 2 from pv_ifc import * # Execution: import pypv #pypv.command(PV_ACTION_INIT, 4, 'pv -i io/input/amoeba2X.bin -w -n2') pypv.command(PV_ACTION_INIT, 3, 'pv -w -n3') pypv.command(PV_ACTION_ADD_LAYER, (LAYER_R, 1.0, 1.0, 1.0), 0) pypv.command(PV_ACTION_ADD_LAYER, (LAYER_V1, 1.0, 1.0, NO * NK), 0) pypv.command(PV_ACTION_ADD_LAYER, (LAYER_FLANKING, 1.0, 1.0, NO), 0) # init pypv.command(PV_ACTION_SET_LAYER_PARAMS, (LAYER_R, PV_HANDLER_READFILE), (0, 1.0, 1.0, 1.0, 1 * 0.999, 0 * 0.01, 20.0, 40.0, 0)) pypv.command( PV_ACTION_SET_LAYER_PARAMS, (LAYER_V1, PV_HANDLER_LIF2), (V_REST, V_EXC, V_INH, V_INHB, TAU_VMEM, TAU_EXC, TAU_INH, TAU_INHB, VTH_REST, TAU_VTH, DELTA_VTH + 10.0, 0.25, NOISE_AMP * (1.0 / TAU_EXC) * ((TAU_INH * (V_REST - V_INH) + TAU_INHB * (V_REST - V_INHB)) / (V_EXC - V_REST)), 0.25, NOISE_AMP * 1.0, 0.25, NOISE_AMP * 1.0))
ASPECT_RATIO = 3.0 SIGMA_EDGE = 1.5 R2_COCIRC = 16.0 # 8.0 SIGMA_DIST_COCIRC = 8.0 # 4.0 R2_FEEDBACK = 6.0 # 8.0 SIGMA_DIST_FEEDBACK = 3.0 # 4.0 from pv_ifc import * LAYER_R = 0 LAYER_V1 = 1 # Execution: import pypv #pypv.command(PV_ACTION_INIT, 4, 'pv -i io/input/amoeba2X.bin -w -n2') pypv.command(PV_ACTION_INIT, 3, 'pv -w -n2') pypv.command(PV_ACTION_ADD_LAYER, (LAYER_R, 1.0, 1.0, 1.0), 0) pypv.command(PV_ACTION_ADD_LAYER, (LAYER_V1, 1.0, 1.0, NO*NK), 0) # init pypv.command(PV_ACTION_SET_LAYER_PARAMS, (LAYER_R, PV_HANDLER_READFILE), (0, 1.0, 1.0, 1.0, 1*0.999, 0*0.01, 20.0, 40.0, 0)) pypv.command(PV_ACTION_SET_LAYER_PARAMS, (LAYER_V1, PV_HANDLER_LIF2), (V_REST, V_EXC, V_INH, V_INHB, TAU_VMEM, TAU_EXC, TAU_INH, TAU_INHB, VTH_REST, TAU_VTH, DELTA_VTH + 10.0, 0.25, NOISE_AMP*( 1.0/TAU_EXC ) * ( ( TAU_INH * (V_REST-V_INH) + TAU_INHB * (V_REST-V_INHB) ) / (V_EXC-V_REST) ), 0.25, NOISE_AMP*1.0, 0.25, NOISE_AMP*1.0))