From a634ac237c4a83ecad3c38bb3f9160c1c84c165b Mon Sep 17 00:00:00 2001 From: Anthony Lee Date: Wed, 19 Jun 2024 14:18:05 -0700 Subject: [PATCH] Fixed documentation. --- models/hh_cond_beta_gap_traub.h | 2 +- models/iaf_cond_alpha.h | 2 +- models/iaf_cond_exp_sfa_rr.h | 2 +- 3 files changed, 3 insertions(+), 3 deletions(-) diff --git a/models/hh_cond_beta_gap_traub.h b/models/hh_cond_beta_gap_traub.h index c4dda9b281..2c5104a7f1 100644 --- a/models/hh_cond_beta_gap_traub.h +++ b/models/hh_cond_beta_gap_traub.h @@ -94,7 +94,7 @@ Postsynaptic currents Incoming spike events induce a postsynaptic change of conductance modelled by a beta function as outlined in [4]_ [5]_. The beta function is normalized such that an -event of weight 1.0 results in a peak current of 1 nS at :math:`t = \tau_{rise,xx}` +event of weight 1.0 results in a peak conductance of 1 nS at :math:`t = \tau_{rise,xx}` where xx is `ex` or `in`. Spike Detection diff --git a/models/iaf_cond_alpha.h b/models/iaf_cond_alpha.h index 57a6a52f30..f373f2e764 100644 --- a/models/iaf_cond_alpha.h +++ b/models/iaf_cond_alpha.h @@ -69,7 +69,7 @@ Description ``iaf_cond_alpha`` is an implementation of a spiking neuron using IAF dynamics with conductance-based synapses. Incoming spike events induce a postsynaptic change of conductance modelled by an alpha function. The alpha function -is normalized such that an event of weight 1.0 results in a peak current of 1 nS +is normalized such that an event of weight 1.0 results in a peak conductance of 1 nS at :math:`t = \tau_{syn}`. See also [1]_, [2]_, [3]_. diff --git a/models/iaf_cond_exp_sfa_rr.h b/models/iaf_cond_exp_sfa_rr.h index bd87f92633..2f8881cff0 100644 --- a/models/iaf_cond_exp_sfa_rr.h +++ b/models/iaf_cond_exp_sfa_rr.h @@ -74,7 +74,7 @@ spike-frequency adaptation and relative refractory mechanisms as described in Incoming spike events induce a postsynaptic change of conductance modelled by an exponential function. The exponential function is normalized such that an -event of weight 1.0 results in a peak current of 1 nS. +event of weight 1.0 results in a peak conductance of 1 nS. Outgoing spike events induce a change of the adaptation and relative refractory conductances by ``q_sfa`` and ``q_rr``, respectively. Otherwise these conductances