scan=e T_CELL Av parmin=0.00001 parmax=30.00001 npar=30 nrepeat=10 seed=1257 npop=1 pop_name=T P noise=0.0 T_CELL: Av=20.0 Bv=0.5 Tper=100.0 phi_read=0.5 Pi Bp=1.0 tcfrac=0.5 cycle tauc=3.0 wd=p Cvmin=0.0 Cvmax=0.0 ds_type=n frac_only_p=0.0 frac_only_r=0.0 Tall=6000.0 nspike_max=3000000 ntl=200 determine_phi=p thal_input=p nw=w Avnw=6.0 Tnw=500.0 Telev=150.0 Tw=350.0 P_CELL: WB model gNa=100.0 gKdr=40.0 gKz=0.0 gL=0.1 DelgL=0.0 Iext=0.0 DelIext=0.0 fracIext=1.0 Cm=1.0 VNa=55.0 VK=-90.0 VL=-65.0 Vopto=0.0 phi=0.2 gamma=0.0 gamma_for_syn=n rhd=15.0 Vinc1=-70.0 Vinc2=-65.0 opto: amp=0.0 sig=0.3 freq=0.0 inject_current=n ion_inject=1 Iinject=0.0 tinject=50.0 SYNAPSE scalingc=k scaleK=s Kfactor=1.0 CVKin_fact=1.0 Length=10 geom_dim=0 con_shape=g rho_concur=1.0 consider=y AMPA: ths=-20.0 sigs=2.0 tsynd=2.0 Vrev=0.0 NMDA: tsynr=5.0 tsynd=10.0 Vrev=0.0 ths=-20.0 sigs=2.0 thetanp=-50.0 sigmanp=12.5 GABAA: ths=-20.0 sigs=2.0 tsynd=3.0 Vrev=-85.0 GABAA_PP: DelVrev_O_DelIext=-4.0 factETPT=1.0 process_time_delay=s PT Kin=75.0 CVKin=0.0 lam=1.0 UU=0.25 taur=0.0001 tauf=1.0 xic=1.0 tau_delay=1.0 Del_tau_delay=0.0 gAMPA=0.8 GAMPA=0.0924 Vpsp_AMPA=0.0 gNMDA=0.0 GNMDA=0.0 Vpsp_NMDA=0.0 PP Kin=25.0 CVKin=0.0 lam=1.0 UU=0.25 taur=0.0001 tauf=1.0 xic=1.0 tau_delay=0.5 Del_tau_delay=0.0 gGABAA=0.0 GGABAA=0.44 Vpsp_GABAA=-0.0 gel=0.0 Gel=0.0 Kel=25.0 GENERAL ndeltat=1 deltat=0.05 nt=120000 method=r incond=b fpcal=n smforce=l T: nwrite=1 nwritear=1 P: nwrite=8 nwritear=1 2 3 4 5 6 7 8 write_aux=n twrite=10 tmcol=100000000.0 tstat=5500.0 traster=50000.0 sp=1 nhist=100 t_touch_interval=25.0 INITIAL CONDITIONS E V h n b z -70.0 0.8 0.2 0.15 0.1 -70.0 0.8 0.2 0.15 0.1 -70.0 0.8 0.2 0.15 0.1 -70.0 0.8 0.2 0.15 0.1 -70.0 0.8 0.2 0.15 0.1 -70.0 0.8 0.2 0.15 0.1 -70.0 0.8 0.2 0.15 0.1 -70.0 0.8 0.2 0.15 0.1 -70.0 0.8 0.2 0.15 0.1 P V h n a b -70.0 0.88 0.01 0.25 0.59 -70.0 0.88 0.01 0.25 0.59 -70.0 0.88 0.01 0.25 0.59 -70.0 0.88 0.01 0.25 0.59 -70.0 0.88 0.01 0.25 0.59 -70.0 0.88 0.01 0.25 0.59 -70.0 0.88 0.01 0.25 0.59 -70.0 0.88 0.01 0.25 0.59 -70.0 0.88 0.01 0.25 0.59 scalingc : v - according to Vpsp, k - gsyn/sqrt(k) b - background; G - conductance, r - groups of pre-synaptic neurons. inject_current : y - yes, n - no determine_phi: f - fixed, u - uniformly random, p - random, ceterned around phi_read, amplitude Bp. thal_input: form of thalamic input: p - Poisson input, a - average conductance. nw : y - episodes of non-whisking and whisking. n - no episodes, l - linear transition from non-whisking to whisking. wd : whisker direction: p - protraction, r - retraction. ds_type : direction selectivity type: a - average, u - uniform betweeen Cvmin and Cvmax, n - Cvmin. scaleK : s - strong synapses, w - weak synapses, n - no scaling of K's method : r - Runge-Kutta 4, t - Runge-Kutta 2, e - Euler, o - Runge-Kutta 4 with interaction calculated once, w - Runge-Kutta 2 with interaction calculated once, incond : b - random V, aux=aux(V), r - read, c - random V, constat aux, e - equal-spaced V, aux=aux(V). smforce : p - always print (sm=0), n - always no print (sm=1), l - leave as is. geom_dim : 0 - no effect of distance, 1 - 1d, 2 - 2d. con_shape : e - exponential, g - Gaussian. consider : y - yes, no - no. process_time_delay: a - all together; s - spread of tau_delay write_aux : y - write auxiliary variables; n - write only V. MT=2 gamma=140 200 GAMPA=0.0849 0.0849 GNMDA=0.0 0.0