def parameterise_static(): comp = ul.DynamicsProperties( name='SampleAlpha', definition=create_static(), properties=[ul.Property('weight', 10.0 * un.nA)]) return comp
def parameterise_alpha(): comp = ul.DynamicsProperties(name='SampleAlpha', definition=create_alpha(), properties=[ul.Property('tau', 20.0 * un.ms)], initial_values=[ ul.Initial('a', 0.0 * un.pA), ul.Initial('b', 0.0 * un.pA) ]) return comp
def parameterise_leaky_integrate_and_fire(definition=None): if definition is None: definition = create_leaky_integrate_and_fire() comp = ul.DynamicsProperties( name='SampleLeakyIntegrateAndFire', definition=create_leaky_integrate_and_fire(), properties=[ul.Property('tau', 20.0 * un.ms), ul.Property('v_threshold', 20.0 * un.mV), ul.Property('refractory_period', 2.0 * un.ms), ul.Property('v_reset', 10.0 * un.mV), ul.Property('R', 1.5 * un.Mohm)], initial_values=[ul.Initial('V', -70 * un.mV)]) return comp
def parameterise_hodgkin_huxley(definition=None): if definition is None: definition = create_hodgkin_huxley() comp = ul.DynamicsProperties( name='SampleHodgkinHuxley', definition=create_hodgkin_huxley(), properties=[ ul.Property('C', 1.0 * un.pF), ul.Property('celsius', 20.0 * un.degC), ul.Property('ek', -90 * un.mV), ul.Property('el', -65 * un.mV), ul.Property('ena', 80 * un.mV), ul.Property('gkbar', 30.0 * un.nS), ul.Property('gl', 0.3 * un.nS), ul.Property('gnabar', 130.0 * un.nS), ul.Property('v_threshold', -40.0 * un.mV), ul.Property('qfactor', 6.3 * un.degC), ul.Property('tendegrees', 10.0 * un.degC), ul.Property('m_alpha_A', -0.1, old_div(un.unitless, (un.ms * un.mV))), ul.Property('m_alpha_V0', -40.0 * un.mV), ul.Property('m_alpha_K', 10.0 * un.mV), ul.Property('m_beta_A', 4.0 * un.per_ms), ul.Property('m_beta_V0', -65.0 * un.mV), ul.Property('m_beta_K', 18.0 * un.mV), ul.Property('h_alpha_A', 0.07 * un.per_ms), ul.Property('h_alpha_V0', -65.0 * un.mV), ul.Property('h_alpha_K', 20.0 * un.mV), ul.Property('h_beta_A', 1.0 * un.per_ms), ul.Property('h_beta_V0', -35.0 * un.mV), ul.Property('h_beta_K', 10.0 * un.mV), ul.Property('n_alpha_A', -0.01, old_div(un.unitless, (un.ms * un.mV))), ul.Property('n_alpha_V0', -55.0 * un.mV), ul.Property('n_alpha_K', 10.0 * un.mV), ul.Property('n_beta_A', 0.125 * un.per_ms), ul.Property('n_beta_V0', -65.0 * un.mV), ul.Property('n_beta_K', 80.0 * un.mV) ], initial_values=[ ul.Initial('V', -70 * un.mV), ul.Initial('m', 0.1), ul.Initial('n', 0), ul.Initial('h', 0.9) ]) return comp
def parameterise_izhikevich_fast_spiking(definition=None): if definition is None: definition = create_izhikevich_fast_spiking() comp = ul.DynamicsProperties(name='SampleIzhikevichFastSpiking', definition=create_izhikevich_fast_spiking(), properties=[ ul.Property('a', 0.2 * un.per_ms), ul.Property('b', 0.025 * un.nS / un.mV**2), ul.Property('c', -45 * un.mV), ul.Property('k', 1 * un.nS / un.mV), ul.Property('Vpeak', 25 * un.mV), ul.Property('Vb', -55 * un.mV), ul.Property('Cm', 20 * un.pF), ul.Property('Vr', -55 * un.mV), ul.Property('Vt', -40 * un.mV) ], initial_values=[ ul.Initial('V', -70 * un.mV), ul.Initial('U', -1.625 * un.mV / un.ms) ]) return comp
def parameterise_izhikevich(definition=None): if definition is None: definition = create_izhikevich() comp = ul.DynamicsProperties( name='SampleIzhikevich', definition=create_izhikevich(), properties=[ ul.Property('a', 0.2 * un.per_ms), ul.Property('b', 0.025 * un.per_ms), ul.Property('c', -75 * un.mV), ul.Property('d', 0.2 * un.mV / un.ms), ul.Property('theta', -50 * un.mV), ul.Property('alpha', 0.04 * un.unitless / (un.mV * un.ms)), ul.Property('beta', 5 * un.per_ms), ul.Property('zeta', 140.0 * un.mV / un.ms), ul.Property('C_m', 1.0 * un.pF) ], initial_values=[ ul.Initial('V', -70 * un.mV), ul.Initial('U', -1.625 * un.mV / un.ms) ]) return comp
def parameterise_adaptive_exponential(definition=None): if definition is None: definition = create_adaptive_exponential() comp = ul.DynamicsProperties(name='SampleAdaptiveExpIntegrateAndFire', definition=definition, properties=[ ul.Property('C_m', 1 * un.pF), ul.Property('g_L', 0.1 * un.nS), ul.Property('E_L', -65 * un.mV), ul.Property('Delta', 1 * un.mV), ul.Property('V_T', -58 * un.mV), ul.Property('S', 0.1), ul.Property('tspike', 0.5 * un.ms), ul.Property('trefractory', 0.25 * un.ms), ul.Property('tau_w', 4 * un.ms), ul.Property('a', 1 * un.per_mV), ul.Property('b', 2) ], initial_values=[ ul.Initial('V', -70 * un.mV), ul.Initial('w', 0.1 * un.mV) ]) return comp
def parameterise_stdp_guetig(): comp = ul.DynamicsProperties(name='SampleAlpha', definition=create_stdp_guetig(), properties=[]) return comp