Parallel network simulations with NEURON (Migliore et al 2006)

 Download zip file   Auto-launch 
Help downloading and running models
Accession:64229
The NEURON simulation environment has been extended to support parallel network simulations. The performance of three published network models with very different spike patterns exhibits superlinear speedup on Beowulf clusters.
Reference:
1 . Migliore M, Cannia C, Lytton WW, Markram H, Hines ML (2006) Parallel Network Simulations with NEURON. J Comp Neurosci 21:110-119 [PubMed]
Model Information (Click on a link to find other models with that property)
Model Type: Realistic Network;
Brain Region(s)/Organism:
Cell Type(s):
Channel(s):
Gap Junctions:
Receptor(s):
Gene(s):
Transmitter(s):
Simulation Environment: NEURON;
Model Concept(s): Methods;
Implementer(s): Hines, Michael [Michael.Hines at Yale.edu];
/
netmod
pardentategyrus
readme.html *
bgka.mod *
CaBK.mod *
ccanl.mod *
Gfluct2.mod *
gskch.mod *
hyperde3.mod *
ichan2.mod *
LcaMig.mod *
nca.mod *
tca.mod *
DG500_M7.hoc *
dgnetactivity.jpg *
dgnettraces.jpg *
init.hoc
initorig.hoc *
M2I10sp.txt
modstat *
mosinit.hoc *
parRI10sp.hoc
perfrun.hoc
RI10sp.hoc
test1.sh *
time *
                            
TITLE gskch.mod  calcium-activated potassium channel (non-voltage-dependent)

COMMENT

gsk granule

ENDCOMMENT

UNITS {
        (molar) = (1/liter)
        (mM)    = (millimolar)
	(mA)	= (milliamp)
	(mV)	= (millivolt)
}

NEURON {
	SUFFIX gskch
	USEION sk READ esk WRITE isk VALENCE 1
	USEION nca READ ncai VALENCE 2
	USEION lca READ lcai VALENCE 2
	USEION tca READ tcai VALENCE 2
	RANGE gsk, gskbar, qinf, qtau, isk
}

INDEPENDENT {t FROM 0 TO 1 WITH 1 (ms)}

PARAMETER {
	celsius=6.3 (degC)
	v		(mV)
	dt		(ms)
	gskbar  (mho/cm2)
	esk	(mV)
	cai (mM)
	ncai (mM)
	lcai (mM)
	tcai (mM)
}

STATE { q }

ASSIGNED {
	isk (mA/cm2) gsk (mho/cm2) qinf qtau (ms) qexp
}


BREAKPOINT {          :Computes i=g*q^2*(v-esk)
	SOLVE state
        gsk = gskbar * q*q
	isk = gsk * (v-esk)
}

UNITSOFF

INITIAL {
	cai = ncai + lcai + tcai	
	q=qinf
	rate(cai)
	VERBATIM
	ncai = _ion_ncai;
	lcai = _ion_lcai;
	tcai = _ion_tcai;
	ENDVERBATIM
}


PROCEDURE state() {  :Computes state variable q at current v and dt.
	cai = ncai + lcai + tcai
	rate(cai)
	q = q + (qinf-q) * qexp
	VERBATIM
	return 0;
	ENDVERBATIM
}

LOCAL q10
PROCEDURE rate(cai) {  :Computes rate and other constants at current v.
	LOCAL alpha, beta, tinc
	q10 = 3^((celsius - 6.3)/10)
		:"q" activation system
alpha = 1.25e1 * cai * cai
beta = 0.00025 

:	alpha = 0.00246/exp((12*log10(cai)+28.48)/-4.5)
:	beta = 0.006/exp((12*log10(cai)+60.4)/35)
: alpha = 0.00246/fctrap(cai)
: beta = 0.006/fctrap(cai)
	qtau = 1 / (alpha + beta)
	qinf = alpha * qtau
	tinc = -dt*q10
	qexp = 1 - exp(tinc/qtau)*q10
}

UNITSON

Loading data, please wait...