// ******************************************************
//
// File generated by: neuroConstruct v1.1.2
//
// ******************************************************
load_file("nrngui.hoc")
objectvar allCells
allCells = new List()
// A flag to signal simulation was generated by neuroConstruct
nC = 1
// Including neuroConstruct utilities file
load_file("nCtools.hoc")
// Including neuroConstruct cell check file
load_file("cellCheck.hoc")
// Simulation running in serial mode, setting default host id
hostid = 0
// Initializes random-number generator
use_mcell_ran4(1)
mcell_ran4_init(1285953529)
//////////////////////////////////////////////////////////////////////
// Cell group 0: CellGroup_1 has cells of type: dm1_combined_12
//////////////////////////////////////////////////////////////////////
// Adding cell template file: dm1_combined_12.hoc for cell group CellGroup_1
load_file("dm1_morph_2.hoc")
// Adding 1 cells of type dm1_combined_12 in region SampleRegion
n_CellGroup_1 = 1
objectvar a_CellGroup_1[n_CellGroup_1]
proc addCell_CellGroup_1() {
strdef reference
sprint(reference, "CellGroup_1_%d", $1)
a_CellGroup_1[$1] = new dm1_combined_12(reference, "dm1_combined_12", "")
allCells.append(a_CellGroup_1[$1])
}
for i = 0, n_CellGroup_1-1 {
addCell_CellGroup_1(i)
}
// Placing these cells in a region described by: Rectangular Box from point: (0.0, 0.0, 0.0) to (100.0, 50.0, 100.0)
// Packing has been generated by: Random: num: 1, edge: 1, overlap: 1, other overlap: 1
a_CellGroup_1[0].position(65.192154,8.772564,21.455801)
//////////////////////////////////////////////////////////////////////
// Setting initial parameters
//////////////////////////////////////////////////////////////////////
strdef simConfig
simConfig = "Default Simulation Configuration"
proc initialiseValues() {
// Setting initial vals in cell group: CellGroup_1 which has 1 cells
// Giving all cells an initial potential of: -60.0
for i = 0, n_CellGroup_1-1 {
forsec a_CellGroup_1[i].all v = -60.0
}
}
objref fih
fih = new FInitializeHandler(0, "initialiseValues()")
access dm1_combined_12[0].cable_0
//////////////////////////////////////////////////////////////////////
// Load other hoc and ses files
//////////////////////////////////////////////////////////////////////
load_file("electrode_circuit_step.ses")
load_file("fit_params.hoc")
//////////////////////////////////////////////////////////////////////
// Set cell parameters
//////////////////////////////////////////////////////////////////////
Rm = 8300
Cm = 2.57
Ri = 163.9
//////////////////////////////////////////////////////////////////////
// Settings for running the simulation
//////////////////////////////////////////////////////////////////////
objref steady_state_clamp
steady_state_clamp = new SEClamp(.5)
steady_state_clamp.dur1 = 1
steady_state_clamp.amp1 = -60.0
steady_state_clamp.dur2 = 200
steady_state_clamp.amp2 = 0.0
forall insert atten
load_file("steady_state_shape.ses")
PlotShape[0].exec_menu("Shape Plot")
PlotShape[0].exec_menu("Show Diam")
PlotShape[0].scale(0,1)
tstop = 200
dt = 0.01
steps_per_ms = 100.00000223517424
// This code pops up a simple Run Control
{
xpanel("RunControl", 0)
v_init = -60.0
xbutton("Init & Run","run()")
xbutton("Stop","stoprun=1")
t = 0
xvalue("t","t", 2 )
tstop = 200
xvalue("Tstop","tstop", 1,"tstop_changed()", 0, 1 )
dt = 0.01
xvalue("dt","dt", 1,"setdt()", 0, 1 )
xpanel(80,80)
}
init()
run()