p['constantPosition'] = 0 p['verbosity'] = o.verbosity # No theta parameters p['Iext_e_const'] = 487.5 # pA p['Iext_i_const'] = 212.5 # pA p['Iext_e_theta'] = 0 # pA p['Iext_i_theta'] = 0 # pA # Range of E/I synaptic conductances Nvals = 31 # Number of values for each dimension startG = 0.0 # nS endG = 6120.0 # nS bumpCurrentSlope = getBumpCurrentSlope(p['noise_sigma'], threshold=-np.infty, type='no_theta') extraIterparams = {'bumpCurrentSlope': bumpCurrentSlope} #extraIterparams['bumpCurrentSlope'] = [1.0] ############################################################################### submitParamSweep(p, startG, endG, Nvals, ENV, simRootDir, simLabel, appName, rtLimit, numCPU,
numCPU = 1 blocking = True timePrefix = False numRepeat = 1 dry_run = o.dry_run p['master_seed'] = 123456 p['time'] = 600e3 if o.time is None else o.time # ms p['nthreads'] = 1 p['ntrials'] = o.ntrials p['velON'] = 1 p['pcON'] = 1 p['constantPosition'] = 0 p['verbosity'] = o.verbosity # Range of E/I synaptic conductances Nvals = 31 # Number of values for each dimension startG = 0.0 # nS endG = 6120.0 # nS extraIterparams = {'bumpCurrentSlope' : getBumpCurrentSlope(p['noise_sigma'], threshold=-np.infty)} #extraIterparams['bumpCurrentSlope'] = [1.0] ############################################################################### submitParamSweep(p, startG, endG, Nvals, ENV, simRootDir, simLabel, appName, rtLimit, numCPU, blocking, timePrefix, numRepeat, dry_run, extraIterparams, rc=parser.rowcol, printout=o.printout)
p['master_seed'] = 123456 p['time'] = o.time or 600e3 # ms p['nthreads'] = 1 p['ntrials'] = o.ntrials p['velON'] = 1 p['constantPosition'] = 0 p['verbosity'] = o.verbosity # No theta parameters p['Iext_e_const'] = 487.5 # pA p['Iext_i_const'] = 212.5 # pA p['Iext_e_theta'] = 0 # pA p['Iext_i_theta'] = 0 # pA # Range of E/I synaptic conductances Nvals = 31 # Number of values for each dimension startG = 0.0 # nS endG = 6120.0 # nS bumpCurrentSlope = getBumpCurrentSlope(p['noise_sigma'], threshold=-np.infty, type='no_theta') extraIterparams = {'bumpCurrentSlope' : bumpCurrentSlope} #extraIterparams['bumpCurrentSlope'] = [1.0] ############################################################################### submitParamSweep(p, startG, endG, Nvals, ENV, simRootDir, simLabel, appName, rtLimit, numCPU, blocking, timePrefix, numRepeat, dry_run, extraIterparams, rc=parser.rowcol, extra_qsub_params=o.extra_qsub_params)
numCPU = 1 blocking = True timePrefix = False numRepeat = 1 dry_run = o.dry_run p['master_seed'] = 123456 p['time'] = 600e3 if o.time is None else o.time # ms p['nthreads'] = 1 p['ntrials'] = o.ntrials p['velON'] = 1 p['pcON'] = 0 p['constantPosition'] = 0 p['verbosity'] = o.verbosity # Range of E/I synaptic conductances Nvals = 31 # Number of values for each dimension startG = 0.0 # nS endG = 6120.0 # nS extraIterparams = {'bumpCurrentSlope' : getBumpCurrentSlope(p['noise_sigma'], threshold=-np.infty)} #extraIterparams['bumpCurrentSlope'] = [1.0] ############################################################################### submitParamSweep(p, startG, endG, Nvals, ENV, simRootDir, simLabel, appName, rtLimit, numCPU, blocking, timePrefix, numRepeat, dry_run, extraIterparams, rc=parser.rowcol, printout=o.printout)