本文整理汇总了Python中moose.element函数的典型用法代码示例。如果您正苦于以下问题:Python element函数的具体用法?Python element怎么用?Python element使用的例子?那么恭喜您, 这里精选的函数代码示例或许可以为您提供帮助。
在下文中一共展示了element函数的20个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于我们的系统推荐出更棒的Python代码示例。
示例1: loadtree
def loadtree(hdfnode, moosenode):
"""Load the element tree saved under the group `hdfnode` into `moosenode`"""
pathclass = {}
basepath = hdfnode.attr['path']
if basepath != '/':
basepath = basepath + '/'
emdata = hdfnode['ematrix'][:]
sorted_paths = sorted(emdata['path'], key=lambda x: x.count('/'))
dims = dict(emdata['path', 'dims'])
classes = dict(emdata['path', 'class'])
current = moose.getCwe()
moose.setCwe(moosenode)
# First create all the ematrices
for path in sorted_paths:
rpath = path[len(basepath):]
classname = classes[path]
shape = dims[path]
em = moose.ematrix(rpath, shape, classname)
wfields = {}
for cinfo in moose__.element('/classes').children:
cname = cinfo[0].name
wfields[cname] = [f[len('set_'):] for f in moose__.getFieldNames(cname, 'destFinfo')
if f.startswith('set_') and f not in ['set_this', 'set_name', 'set_lastDimension', 'set_runTime'] and not f.startswith('set_num_')]
for key in hdfnode['/elements']:
dset = hdfnode['/elements/'][key][:]
fieldnames = dset.dtype.names
for ii in range(len(dset)):
obj = moose__.element(dset['path'][ii][len(basepath):])
for f in wfields[obj.class_]:
obj.setField(f, dset[f][ii])
开发者ID:Vivek-sagar,项目名称:moose-1,代码行数:30,代码来源:hdfutil.py
示例2: make_Na
def make_Na( name ):
if moose.exists( '/library/' + name ):
return
Na = moose.HHChannel( '/library/' + name )
Na.Ek = 0.055 # V
Na.Gbar = 300 * SOMA_A # S
Na.Gk = 0 # S
Na.Xpower = 2
Na.Ypower = 1
Na.Zpower = 0
xgate = moose.element( Na.path + '/gateX' )
xA = np.array( [ 320e3 * (0.0131 + EREST_ACT),
-320e3, -1.0, -1.0 * (0.0131 + EREST_ACT), -0.004,
-280e3 * (0.0401 + EREST_ACT), 280e3, -1.0,
-1.0 * (0.0401 + EREST_ACT), 5.0e-3,
3000, -0.1, 0.05 ] )
xgate.alphaParms = xA
ygate = moose.element( Na.path + '/gateY' )
yA = np.array( [ 128.0, 0.0, 0.0, -1.0 * (0.017 + EREST_ACT), 0.018,
4.0e3, 0.0, 1.0, -1.0 * (0.040 + EREST_ACT), -5.0e-3,
3000, -0.1, 0.05 ] )
ygate.alphaParms = yA
return Na
开发者ID:hrani,项目名称:moose-core,代码行数:25,代码来源:rdesigneurProtos.py
示例3: make_LCa
def make_LCa( name = 'LCa', parent = '/library' ):
if moose.exists( parent + '/' + name ):
return
Ca = moose.HHChannel( parent + '/' + name )
Ca.Ek = ECA
Ca.Gbar = 0
Ca.Gk = 0
Ca.Xpower = 2
Ca.Ypower = 1
Ca.Zpower = 0
xgate = moose.element( parent + '/' + name + '/gateX' )
xA = np.array( [ 1.6e3, 0, 1.0, -1.0 * (0.065 + EREST_ACT), -0.01389, -20e3 * (0.0511 + EREST_ACT), 20e3, -1.0, -1.0 * (0.0511 + EREST_ACT), 5.0e-3, 3000, -0.1, 0.05 ] )
xgate.alphaParms = xA
ygate = moose.element( parent + '/' + name + '/gateY' )
ygate.min = -0.1
ygate.max = 0.05
ygate.divs = 3000
yA = np.zeros( (ygate.divs + 1), dtype=float)
yB = np.zeros( (ygate.divs + 1), dtype=float)
#Fill the Y_A table with alpha values and the Y_B table with (alpha+beta)
dx = (ygate.max - ygate.min)/ygate.divs
x = ygate.min
for i in range( ygate.divs + 1 ):
if ( x > EREST_ACT):
yA[i] = 5.0 * math.exp( -50 * (x - EREST_ACT) )
else:
yA[i] = 5.0
yB[i] = 5.0
x += dx
ygate.tableA = yA
ygate.tableB = yB
return Ca
开发者ID:hrani,项目名称:moose-core,代码行数:35,代码来源:rdesigneurProtos.py
示例4: makeAdaptors
def makeAdaptors():
##################################################################
# set up adaptor for elec model Ca -> chem model Ca
# Here it is easy because we don't have to deal with different
# sizes of electrical and chemical compartments.
adaptCa = moose.Adaptor( '/model/chem/kinetics/adaptCa' )
chemCa = moose.element( '/model/chem/kinetics/Ca' )
elecCa = moose.element( '/model/elec/soma/Ca_conc' )
moose.connect( elecCa, 'concOut', adaptCa, 'input' )
moose.connect( adaptCa, 'output', chemCa, 'setConc' )
adaptCa.inputOffset = 0.0 #
adaptCa.outputOffset = 0.00008 # 80 nM offset in chem.
adaptCa.scale = 0.0008
# set up adaptor for chem model chan -> elec model chan.
adaptChan = moose.Adaptor( '/model/chem/kinetics/adaptChan' )
chemChan = moose.element( '/model/chem/kinetics/chan' )
elecChan = moose.element( '/model/elec/soma/K_A' )
# The Adaptor has to request the output conc of the chemical pool,
# since there isn't an output message to deliver this value.
moose.connect( adaptChan, 'requestOut', chemChan, 'getConc' )
moose.connect( adaptChan, 'output', elecChan, 'setGbar' )
adaptChan.inputOffset = 0.0 #
adaptChan.outputOffset = 0.0
adaptChan.scale = 1e-5 #
开发者ID:2pysarthak,项目名称:moose-examples,代码行数:25,代码来源:multiscaleOneCompt.py
示例5: create_hhcomp
def create_hhcomp(parent='/library', name='hhcomp', diameter=-30e-6, length=0.0):
"""Create a compartment with Hodgkin-Huxley type ion channels (Na and
K).
Returns a 3-tuple: (compartment, nachannel, kchannel)
"""
comp, sarea = create_passive_comp(parent, name, diameter, length)
if moose.exists('/library/na'):
moose.copy('/library/na', comp.path, 'na')
else:
create_na_chan(parent=comp.path)
na = moose.element('%s/na' % (comp.path))
# Na-conductance 120 mS/cm^2
na.Gbar = 120e-3 * sarea * 1e4
na.Ek = 115e-3 + EREST_ACT
moose.connect(comp, 'channel', na, 'channel')
if moose.exists('/library/k'):
moose.copy('/library/k', comp.path, 'k')
else:
create_k_chan(parent=comp.path)
k = moose.element('%s/k' % (comp.path))
# K-conductance 36 mS/cm^2
k.Gbar = 36e-3 * sarea * 1e4
k.Ek = -12e-3 + EREST_ACT
moose.connect(comp, 'channel', k, 'channel')
return comp, na, k
开发者ID:csiki,项目名称:MOOSE,代码行数:27,代码来源:hhcomp.py
示例6: deliverStim
def deliverStim(currTime):
global injectionCurrent
global spineVm
global somaVm
if numpy.fabs( currTime - baselineTime ) < frameRunTime/2.0 :
#start
eList = moose.wildcardFind( '/model/elec/#soma#' )
assert( len(eList) > 0 )
eList[0].inject = injectionCurrent
#print "1. injected current = ", injectionCurrent
injectionCurrent += deltaCurrent
#print "del stim first ", moose.element('/clock').currentTime
if numpy.fabs( currTime - baselineTime - currPulseTime) < frameRunTime/2.0 :
#end
eList = moose.wildcardFind( '/model/elec/#soma#' )
assert( len(eList) > 0 )
eList[0].inject = 0.0
#print "2. injected current = ", injectionCurrent
#print "del stim second ", moose.element('/clock').currentTime
if runtime - currTime < frameRunTime * 2.0 :
#print "3. reinit-ing"
somaVm.append( moose.element( '/graphs/VmTab' ).vector )
spineVm.append( moose.element( '/graphs/eSpineVmTab' ).vector )
iList.append(injectionCurrent)
if injectionCurrent < maxCurrent :
moose.reinit()
开发者ID:chaitrasarathy,项目名称:mooseCodes,代码行数:26,代码来源:currentStep_CA3PC-Narayanan2010_v1.0.py
示例7: make_Na
def make_Na():
if moose.exists( 'Na' ):
return
Na = moose.HHChannel( 'Na' )
Na.Ek = ENA # V
Na.Gbar = 300 * SOMA_A # S
Na.Gk = 0 # S
Na.Xpower = 2
Na.Ypower = 1
Na.Zpower = 0
xgate = moose.element( 'Na/gateX' )
xA = numpy.array( [ 320e3 * (0.0131 + EREST_ACT),
-320e3, -1.0, -1.0 * (0.0131 + EREST_ACT), -0.004,
-280e3 * (0.0401 + EREST_ACT), 280e3, -1.0,
-1.0 * (0.0401 + EREST_ACT), 5.0e-3,
3000, -0.1, 0.05 ] )
xgate.alphaParms = xA
#xgate.alpha( 320e3 * (0.0131 + EREST_ACT), -320e3, -1.0, -1.0 * (0.0131 + EREST_ACT), -0.004 )
#xgate.beta( -280e3 * (0.0401 + EREST_ACT), 280e3, -1.0, -1.0 * (0.0401 + EREST_ACT), 5.0e-3 )
ygate = moose.element( 'Na/gateY' )
yA = numpy.array( [ 128.0, 0.0, 0.0, -1.0 * (0.017 + EREST_ACT), 0.018,
4.0e3, 0.0, 1.0, -1.0 * (0.040 + EREST_ACT), -5.0e-3,
3000, -0.1, 0.05 ] )
ygate.alphaParms = yA
开发者ID:2pysarthak,项目名称:moose-examples,代码行数:28,代码来源:proto18.py
示例8: spinetabs
def spinetabs(model,neuron,comps='all'):
if not moose.exists(DATA_NAME):
moose.Neutral(DATA_NAME)
#creates tables of calcium and vm for spines
spcatab = defaultdict(list)
spvmtab = defaultdict(list)
for typenum,neurtype in enumerate(neuron.keys()):
if type(comps)==str and comps in {'*', 'all'}:
spineHeads=[moose.wildcardFind(neurtype+'/##/#head#[ISA=CompartmentBase]')]
else:
spineHeads=[moose.wildcardFind(neurtype+'/'+c+'/#head#[ISA=CompartmentBase]') for c in comps]
for spinelist in spineHeads:
for spinenum,spine in enumerate(spinelist):
compname = spine.parent.name
sp_num=spine.name.split(NAME_HEAD)[0]
spvmtab[typenum].append(moose.Table(vm_table_path(neurtype, spine=sp_num, comp=compname)))
log.debug('{} {} {}',spinenum, spine.path, spvmtab[typenum][-1].path)
moose.connect(spvmtab[typenum][-1], 'requestOut', spine, 'getVm')
if model.calYN:
for child in spine.children:
if child.className == "CaConc" or child.className == "ZombieCaConc" :
spcatab[typenum].append(moose.Table(DATA_NAME+'/%s_%s%s'% (neurtype,sp_num,compname)+child.name))
spcal = moose.element(spine.path+'/'+child.name)
moose.connect(spcatab[typenum][-1], 'requestOut', spcal, 'getCa')
elif child.className == 'DifShell':
spcatab[typenum].append(moose.Table(DATA_NAME+'/%s_%s%s'% (neurtype,sp_num,compname)+child.name))
spcal = moose.element(spine.path+'/'+child.name)
moose.connect(spcatab[typenum][-1], 'requestOut', spcal, 'getC')
return spcatab,spvmtab
开发者ID:neurord,项目名称:spspine,代码行数:29,代码来源:tables.py
示例9: storePlotMsgs
def storePlotMsgs( tgraphs,f):
s = ""
if tgraphs:
for graph in tgraphs:
slash = graph.path.find('graphs')
if not slash > -1:
slash = graph.path.find('graph_0')
if slash > -1:
conc = graph.path.find('conc')
if conc > -1 :
tabPath = graph.path[slash:len(graph.path)]
else:
slash1 = graph.path.find('/',slash)
tabPath = "/graphs/conc1" +graph.path[slash1:len(graph.path)]
if len(element(graph).msgOut):
poolPath = (element(graph).msgOut)[0].e2.path
poolEle = element(poolPath)
poolName = poolEle.name
bgPath = (poolEle.path+'/info')
bg = Annotator(bgPath).color
bg = getColorCheck(bg,GENESIS_COLOR_SEQUENCE)
tabPath = re.sub("\[[0-9]+\]", "", tabPath)
s = s+"addmsg /kinetics/" + trimPath( poolEle ) + " " + tabPath + \
" PLOT Co *" + poolName + " *" + bg +"\n";
f.write(s)
开发者ID:asiaszmek,项目名称:moose-core,代码行数:26,代码来源:_main.py
示例10: dumpPlots
def dumpPlots( fname ):
if ( os.path.exists( fname ) ):
os.remove( fname )
for x in moose.wildcardFind( '/graphs/#[ISA=Table]' ):
moose.element( x[0] ).xplot( fname, x[0].name )
for x in moose.wildcardFind( '/graphs/elec/#[ISA=Table]' ):
moose.element( x[0] ).xplot( fname, x[0].name + '_e' )
开发者ID:2pysarthak,项目名称:moose-examples,代码行数:7,代码来源:loadMulti.py
示例11: setup_hdf5_output
def setup_hdf5_output(model, neuron, filename=None, compartments=DEFAULT_HDF5_COMPARTMENTS):
# Make sure /hdf5 exists
if not moose.exists(HDF5WRITER_NAME):
print('creating', HDF5WRITER_NAME)
writer = moose.HDF5DataWriter(HDF5WRITER_NAME)
#writer = moose.NSDFWriter(HDF5WRITER_NAME)
writer.mode = 2 # Truncate existing file
if filename is not None:
writer.filename = filename
moose.useClock(8, HDF5WRITER_NAME, 'process')
else:
print('using', HDF5WRITER_NAME)
writer = moose.element(HDF5WRITER_NAME)
for typenum,neur_type in enumerate(neuron.keys()):
for ii,compname in enumerate(compartments): #neur_comps):
comp=moose.element(neur_type+'/'+compname)
moose.connect(writer, 'requestOut', comp, 'getVm')
if model.calYN:
for typenum,neur_type in enumerate(neuron.keys()):
for ii,compname in enumerate(compartments): #neur_comps):
comp=moose.element(neur_type+'/'+compname)
for child in comp.children:
if child.className in {"CaConc", "ZombieCaConc"}:
cal = moose.element(comp.path+'/'+child.name)
moose.connect(writer, 'requestOut', cal, 'getCa')
elif child.className == 'DifShell':
cal = moose.element(comp.path+'/'+child.name)
moose.connect(writer, 'requestOut', cal, 'getC')
return writer
开发者ID:neurord,项目名称:spspine,代码行数:31,代码来源:tables.py
示例12: installCellFromProtos
def installCellFromProtos( self ):
if self.stealCellFromLibrary:
moose.move( self.elecid, self.model )
if self.elecid.name != 'elec':
self.elecid.name = 'elec'
else:
moose.copy( self.elecid, self.model, 'elec' )
self.elecid = moose.element( self.model.path + '/elec' )
self.elecid.buildSegmentTree() # rebuild: copy has happened.
if hasattr( self, 'chemid' ):
self.validateChem()
if self.stealCellFromLibrary:
moose.move( self.chemid, self.model )
if self.chemid.name != 'chem':
self.chemid.name = 'chem'
else:
moose.copy( self.chemid, self.model, 'chem' )
self.chemid = moose.element( self.model.path + '/chem' )
ep = self.elecid.path
somaList = moose.wildcardFind( ep + '/#oma#[ISA=CompartmentBase]' )
if len( somaList ) == 0:
somaList = moose.wildcardFind( ep + '/#[ISA=CompartmentBase]' )
if len( somaList ) == 0:
raise BuildError( "installCellFromProto: No soma found" )
maxdia = 0.0
for i in somaList:
if ( i.diameter > maxdia ):
self.soma = i
开发者ID:DineshDevPandey,项目名称:moose,代码行数:29,代码来源:rdesigneur.py
示例13: test_crossing_single
def test_crossing_single():
"""This function creates an ematrix of two PulseGen elements and
another ematrix of two Table elements.
The two pulsegen elements have same amplitude but opposite phase.
Table[0] is connected to PulseGen[1] and Table[1] to Pulsegen[0].
In the plot you should see two square pulses of opposite phase.
"""
size = 2
pg = moose.PulseGen('pulsegen', size)
for ix, ii in enumerate(pg.vec):
pulse = moose.element(ii)
pulse.delay[0] = 1.0
pulse.width[0] = 2.0
pulse.level[0] = (-1)**ix
tab = moose.Table('table', size)
moose.connect(tab.vec[0], 'requestOut', pg.vec[1], 'getOutputValue', 'Single')
moose.connect(tab.vec[1], 'requestOut', pg.vec[0], 'getOutputValue', 'Single')
print 'Neighbors:'
for t in tab.vec:
print t.path
for n in moose.element(t).neighbors['requestOut']:
print 'requestOut <-', n.path
moose.setClock(0, 0.1)
moose.useClock(0, '/##', 'process')
moose.start(5)
for ii in tab.vec:
t = moose.Table(ii).vector
print len(t)
pylab.plot(t)
pylab.show()
开发者ID:csiki,项目名称:MOOSE,代码行数:34,代码来源:singlemsgcross.py
示例14: getChannels
def getChannels(self, root='/library'):
if isinstance(root, str):
root = moose.element(root)
for chan in moose.wildcardFind('%s/#[ISA=HHChannel]' % (root.path)):
channel = moose.element(chan)
self.channels[channel.name] = channel
return self.channels
开发者ID:OpenSourceBrain,项目名称:Thalamocortical,代码行数:7,代码来源:gui.py
示例15: main
def main():
"""
This example illustrates loading, and running a kinetic model
for a bistable positive feedback system, defined in kkit format.
This is based on Bhalla, Ram and Iyengar, Science 2002.
The core of this model is a positive feedback loop comprising of
the MAPK cascade, PLA2, and PKC. It receives PDGF and Ca2+ as
inputs.
This model is quite a large one and due to some stiffness in its
equations, it runs somewhat slowly.
The simulation illustrated here shows how the model starts out in
a state of low activity. It is induced to 'turn on' when a
a PDGF stimulus is given for 400 seconds.
After it has settled to the new 'on' state, model is made to
'turn off'
by setting the system calcium levels to zero for a while. This
is a somewhat unphysiological manipulation!
"""
solver = "gsl" # Pick any of gsl, gssa, ee..
#solver = "gssa" # Pick any of gsl, gssa, ee..
mfile = '../../genesis/acc35.g'
runtime = 2000.0
if ( len( sys.argv ) == 2 ):
solver = sys.argv[1]
modelId = moose.loadModel( mfile, 'model', solver )
# Increase volume so that the stochastic solver gssa
# gives an interesting output
compt = moose.element( '/model/kinetics' )
compt.volume = 5e-19
moose.reinit()
moose.start( 500 )
moose.element( '/model/kinetics/PDGFR/PDGF' ).concInit = 0.0001
moose.start( 400 )
moose.element( '/model/kinetics/PDGFR/PDGF' ).concInit = 0.0
moose.start( 2000 )
moose.element( '/model/kinetics/Ca' ).concInit = 0.0
moose.start( 500 )
moose.element( '/model/kinetics/Ca' ).concInit = 0.00008
moose.start( 2000 )
# Display all plots.
img = mpimg.imread( 'mapkFB.png' )
fig = plt.figure( figsize=(12, 10 ) )
png = fig.add_subplot( 211 )
imgplot = plt.imshow( img )
ax = fig.add_subplot( 212 )
x = moose.wildcardFind( '/model/#graphs/conc#/#' )
t = numpy.arange( 0, x[0].vector.size, 1 ) * x[0].dt
ax.plot( t, x[0].vector, 'b-', label=x[0].name )
ax.plot( t, x[1].vector, 'c-', label=x[1].name )
ax.plot( t, x[2].vector, 'r-', label=x[2].name )
ax.plot( t, x[3].vector, 'm-', label=x[3].name )
plt.ylabel( 'Conc (mM)' )
plt.xlabel( 'Time (seconds)' )
pylab.legend()
pylab.show()
开发者ID:2pysarthak,项目名称:moose-examples,代码行数:60,代码来源:mapkFB.py
示例16: creaetHHComp
def creaetHHComp(parent='/library', name='hhcomp', diameter=1e-6, length=1e-6):
"""Create a compartment with Hodgkin-Huxley type ion channels (Na and
K).
Returns a 3-tuple: (compartment, nachannel, kchannel)
"""
compPath = '{}/{}'.format(parent, name)
mc = MooseCompartment( compPath, length, diameter, {})
c = mc.mc_
sarea = mc.surfaceArea
if moose.exists('/library/na'):
moose.copy('/library/na', c.path, 'na')
else:
create_na_chan(parent = c.path)
na = moose.element('%s/na' % (c.path))
# Na-conductance 120 mS/cm^2
na.Gbar = 120e-3 * sarea * 1e4
na.Ek = 115e-3 + EREST_ACT
moose.connect(c, 'channel', na, 'channel')
if moose.exists('/library/k'):
moose.copy('/library/k', c.path, 'k')
else:
create_k_chan(parent = c.path)
k = moose.element('%s/k' % (c.path))
# K-conductance 36 mS/cm^2
k.Gbar = 36e-3 * sarea * 1e4
k.Ek = -12e-3 + EREST_ACT
moose.connect(c, 'channel', k, 'channel')
return (c, na, k)
开发者ID:hrani,项目名称:moose-core,代码行数:35,代码来源:moose_sim.py
示例17: main
def main():
""" This example illustrates loading, running of an SBML model defined in XML format.\n
The model 00001-sbml-l3v1.xml is taken from l3v1 SBML testcase.\n
Plots are setup.\n
Model is run for 20sec.\n
As a general rule we created model under '/path/model' and plots under '/path/graphs'.\n
"""
mfile = os.path.join( script_dir, 'chem_models/00001-sbml-l3v1.xml')
runtime = 20.0
# Loading the sbml file into MOOSE, models are loaded in path/model
sbmlId = moose.readSBML(mfile,'sbml')
s1 = moose.element('/sbml/model/compartment/S1')
s2= moose.element('/sbml/model/compartment/S2')
# Creating MOOSE Table, Table2 is for the chemical model
graphs = moose.Neutral( '/sbml/graphs' )
outputs1 = moose.Table2 ( '/sbml/graphs/concS1')
outputs2 = moose.Table2 ( '/sbml/graphs/concS2')
# connect up the tables
moose.connect( outputs1,'requestOut', s1, 'getConc' );
moose.connect( outputs2,'requestOut', s2, 'getConc' );
# Reset and Run
moose.reinit()
moose.start(runtime)
开发者ID:2pysarthak,项目名称:moose-core-personal,代码行数:31,代码来源:test_sbml_support.py
示例18: create_compartment
def create_compartment(path):
comp = moose.Compartment(path)
comp.diameter = soma_dia
comp.Em = EREST_ACT + 10.613e-3
comp.initVm = EREST_ACT
sarea = np.pi * soma_dia * soma_dia
comp.Rm = 1/(0.3e-3 * 1e4 * sarea)
comp.Cm = 1e-6 * 1e4 * sarea
if moose.exists('/library/na'):
nachan = moose.element(moose.copy('/library/na', comp, 'na'))
else:
nachan = create_na_chan(comp.path)
nachan.Gbar = 120e-3 * sarea * 1e4
moose.showfield(nachan)
moose.connect(nachan, 'channel', comp, 'channel')
if moose.exists('/library/k'):
kchan = moose.element(moose.copy('/library/k', comp, 'k'))
else:
kchan = create_k_chan(comp.path)
kchan.Gbar = 36e-3 * sarea * 1e4
moose.connect(kchan, 'channel', comp, 'channel')
synchan = moose.SynChan(comp.path + '/synchan')
synchan.Gbar = 1e-8
synchan.tau1 = 2e-3
synchan.tau2 = 2e-3
synchan.Ek = 0.0
m = moose.connect(comp, 'channel', synchan, 'channel')
spikegen = moose.SpikeGen(comp.path + '/spikegen')
spikegen.threshold = 0.0
m = moose.connect(comp, 'VmOut', spikegen, 'Vm')
return comp
开发者ID:dilawar,项目名称:moose-examples,代码行数:31,代码来源:compartment_net_no_array.py
示例19: make_prototype
def make_prototype(passive=True):
path = '%s/rc19' % (library.path)
pfile = 'rc19.p'
try:
return moose.element(path)
except ValueError:
pass
if not passive:
make_na()
make_kv()
make_km()
make_kca()
make_cat()
make_cahva()
make_h()
try:
proto = moose.element(path)
except ValueError:
print('Loading model %s to %s' % (pfile, path))
proto = moose.loadModel(pfile, path, 'ee') # hsolve is not functional yet
for comp in proto[0].children:
comp.initVm = -75e-3
for chan in moose.wildcardFind('%s/##[ISA=HHChannel]'):
chan.Gbar *= tadj
return proto
开发者ID:hrani,项目名称:moose-core,代码行数:25,代码来源:rc19.py
示例20: create_population
def create_population(container, size):
"""Create a population of `size` single compartmental neurons with
Na and K channels. Also create SpikeGen objects and SynChan
objects connected to these which can act as plug points for
setting up synapses later."""
path = container.path
# Contrast this with
# comps = moose.vec(path+'/soma', size, 'Compartment')
comps = [create_compartment(path+'/soma_%d' % (ii)) for ii in range(size)]
spikegens = []
synchans = []
Em = EREST_ACT + 10.613e-3
initVm_array = [EREST_ACT] * size
Em_array = [Em] * size
# initVm_array = np.random.normal(EREST_ACT, np.abs(EREST_ACT) * 0.1, size)
# Em_array = np.random.normal(Em, np.abs(Em) * 0.1, size)
for comp, initVm, Em in zip(comps, initVm_array, Em_array):
comp.Em = Em
comp.initVm = initVm
synchan = moose.element(comp.path + '/synchan')
synchans.append(synchan)
spikegen = moose.element(comp.path + '/spikegen')
spikegens.append(spikegen)
return {'compartment': comps,
'spikegen': spikegens,
'synchan': synchans}
开发者ID:dilawar,项目名称:moose-examples,代码行数:27,代码来源:compartment_net_no_array.py
注:本文中的moose.element函数示例由纯净天空整理自Github/MSDocs等源码及文档管理平台,相关代码片段筛选自各路编程大神贡献的开源项目,源码版权归原作者所有,传播和使用请参考对应项目的License;未经允许,请勿转载。 |
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