Models library
Neuron models
aeif_cond_alpha_neuron
Conductance based exponential integrate-and-fire neuron model
Source file: aeif_cond_alpha_neuron.nestml
aeif_cond_exp_neuron
Conductance based exponential integrate-and-fire neuron model
Source file: aeif_cond_exp_neuron.nestml
Figure 6 Post-synaptic potential |
Figure 7 Step current response |
Figure 8 Firing rate vs. current |
aeif_psc_alpha_neuron
Conductance based exponential integrate-and-fire neuron model
Source file: aeif_psc_alpha_neuron.nestml
hh_cond_exp_destexhe_neuron
Hodgin Huxley based model, Traub, Destexhe and Mainen modified
Source file: hh_cond_exp_destexhe_neuron.nestml
hh_cond_exp_traub_neuron
Hodgkin-Huxley model for Brette et al (2007) review
Source file: hh_cond_exp_traub_neuron.nestml
Figure 9 Post-synaptic potential |
Figure 10 Step current response |
Figure 11 Firing rate vs. current |
hh_moto_5ht_neuron
a motor neuron model in HH formalism with 5HT modulation
Source file: hh_moto_5ht_neuron.nestml
hh_psc_alpha_neuron
Hodgkin-Huxley neuron model
Source file: hh_psc_alpha_neuron.nestml
Figure 12 Post-synaptic potential |
Figure 13 Step current response |
Figure 14 Firing rate vs. current |
hill_tononi_neuron
Neuron model after Hill & Tononi (2005)
Source file: hill_tononi_neuron.nestml
iaf_chxk_2008_neuron
Conductance based leaky integrate-and-fire neuron model used in Casti et al. 2008
Source file: iaf_chxk_2008_neuron.nestml
Figure 15 Post-synaptic potential |
Figure 16 Step current response |
Figure 17 Firing rate vs. current |
iaf_cond_alpha_neuron
Simple conductance based leaky integrate-and-fire neuron model
Source file: iaf_cond_alpha_neuron.nestml
Figure 18 Post-synaptic potential |
Figure 19 Step current response |
Figure 20 Firing rate vs. current |
iaf_cond_beta_neuron
Simple conductance based leaky integrate-and-fire neuron model
Source file: iaf_cond_beta_neuron.nestml
Figure 21 Post-synaptic potential |
Figure 22 Step current response |
Figure 23 Firing rate vs. current |
iaf_cond_exp_neuron
Simple conductance based leaky integrate-and-fire neuron model
Source file: iaf_cond_exp_neuron.nestml
Figure 24 Post-synaptic potential |
Figure 25 Step current response |
Figure 26 Firing rate vs. current |
iaf_cond_exp_sfa_rr_neuron
Conductance based leaky integrate-and-fire model with spike-frequency adaptation and relative refractory mechanisms
Source file: iaf_cond_exp_sfa_rr_neuron.nestml
Figure 27 Post-synaptic potential |
Figure 28 Step current response |
Figure 29 Firing rate vs. current |
iaf_psc_alpha_neuron
Leaky integrate-and-fire neuron model
Source file: iaf_psc_alpha_neuron.nestml
Figure 30 Post-synaptic potential |
Figure 31 Step current response |
Figure 32 Firing rate vs. current |
iaf_psc_delta_fixed_timestep_neuron
Current-based leaky integrate-and-fire neuron model with delta-kernel post-synaptic currents
Source file: iaf_psc_delta_fixed_timestep_neuron.nestml
iaf_psc_delta_neuron
Current-based leaky integrate-and-fire neuron model with delta-kernel post-synaptic currents
Source file: iaf_psc_delta_neuron.nestml
Figure 33 Post-synaptic potential |
Figure 34 Step current response |
Figure 35 Firing rate vs. current |
iaf_psc_exp_htum_neuron
Leaky integrate-and-fire model with separate relative and absolute refractory period
Source file: iaf_psc_exp_htum_neuron.nestml
iaf_psc_exp_neuron
Leaky integrate-and-fire neuron model
Source file: iaf_psc_exp_neuron.nestml
Figure 36 Post-synaptic potential |
Figure 37 Step current response |
Figure 38 Firing rate vs. current |
ignore_and_fire_neuron
Neuron generating spikes at fixed intervals irrespective of inputs
Source file: ignore_and_fire_neuron.nestml
izhikevich_neuron
Izhikevich neuron model
Source file: izhikevich_neuron.nestml
Figure 39 Post-synaptic potential |
Figure 40 Step current response |
Figure 41 Firing rate vs. current |
izhikevich_psc_alpha_neuron
Detailed Izhikevich neuron model with alpha-kernel post-synaptic current
Source file: izhikevich_psc_alpha_neuron.nestml
mat2_psc_exp_neuron
Non-resetting leaky integrate-and-fire neuron model with exponential PSCs and adaptive threshold
Source file: mat2_psc_exp_neuron.nestml
Figure 42 Post-synaptic potential |
Figure 43 Step current response |
Figure 44 Firing rate vs. current |
terub_gpe_neuron
Terman Rubin neuron model
Source file: terub_gpe_neuron.nestml
terub_stn_neuron
Terman Rubin neuron model
Source file: terub_stn_neuron.nestml
traub_cond_multisyn_neuron
Traub model according to Borgers 2017
Source file: traub_cond_multisyn_neuron.nestml
traub_psc_alpha_neuron
Traub model according to Borgers 2017
Source file: traub_psc_alpha_neuron.nestml
wb_cond_exp_neuron
Wang-Buzsaki model
Source file: wb_cond_exp_neuron.nestml
wb_cond_multisyn_neuron
Wang-Buzsaki model with multiple synapses
Source file: wb_cond_multisyn_neuron.nestml
Synapse models
static_synapse
Static synapse
Source file: static_synapse.nestml
noisy_synapse
Static synapse with Gaussian noise
Source file: noisy_synapse.nestml
tsodyks_synapse
Synapse type with short term plasticity
Source file: tsodyks_synapse.nestml
stdp_synapse
Synapse model for spike-timing dependent plasticity
Source file: stdp_synapse.nestml
stdp_triplet_synapse
Synapse type with triplet spike-timing dependent plasticity
Source file: stdp_triplet_synapse.nestml
stdsp_synapse
Synapse model for spike-timing dependent plasticity with postsynaptic third-factor modulation
Source file: stdsp_synapse.nestml
stdp_nn_pre_centered_synapse
Synapse type for spike-timing dependent plasticity, with nearest-neighbour spike pairing
Source file: stdp_nn_pre_centered_synapse.nestml
stdp_nn_restr_symm_synapse
Synapse type for spike-timing dependent plasticity with restricted symmetric nearest-neighbour spike pairing scheme
Source file: stdp_nn_restr_symm_synapse.nestml
stdp_nn_symm_synapse
Synapse type for spike-timing dependent plasticity with symmetric nearest-neighbour spike pairing scheme
Source file: stdp_nn_symm_synapse.nestml
neuromodulated_stdp_synapse
Synapse model for spike-timing dependent plasticity modulated by a neurotransmitter such as dopamine
Source file: neuromodulated_stdp_synapse.nestml