// parameters_odour_baseline.hoc
// Olfactory bulb network model: parameters file
//   for odour input.
// Andrew Davison, The Babraham Institute, 2000.

nmitx       = 6			// 1st dimension of mitral cell array
nmity       = 6			// 2nd dimension of mitral cell array
nglom       = nmitx*nmity	// total number of mitral cells
g2m         = 12		// 
ngranx      = nmitx*g2m		// 1st dimension of granule cell array
ngrany      = nmity*g2m		// 2nd dimension of granule cell array
mitsep      = 1.0		// um	// mitral cell separation
gransep     = mitsep/g2m	// granule cell separation
seed        = 0			// seed for random number generator
rmax        = ngranx*0.5	// maximum range of synaptic connections
synpermit   = 500		// synapses per mitral cell
thresh      = -10       // mV	// threshold for detecting spikes
edelay      = 1.8       // ms	// time delay of mitral->granule synapses
conducdel   = 0		// ms	// conduction delay in secondary dendrites
idelay      = 0.6       // ms	// time delat of granule->mitral synapses
AMPAweight  = 1e-3	// uS	// }
NMDAweight  = 7e-4	// uS	// } synaptic conductances
iweight     = 6e-4	// uS	// }
maxinput    = 1.5	// nA	// measure of `odour intensity'
nof         = 10        	// number of `odour features'
diffglom    = 1			// } 0 - cells are in the same glomerulus
				// } 1 - cells are in different glomeruli
NMDArisetime = 30	// ms	// rise-time of NMDA conductance
NMDAdecay    = 343      // ms   // NMDA decay time constant
NMDArise     = 52       // ms   // NMDA rise time constant
mgconc 	    = 1		// mM	// external magnesium ion concentration
strdef fileroot
sprint(fileroot,"odour_baseline") // root for output filenames
odournumber = 1			// odour file
inputnumber = 1			// fixed input file
tstop	    = 3000	// ms	// total simulation time
ttrans	    = 1000	// ms   // when calculating statistics, ignore
				// spikes occuring before this time
cvode.active(0)
dt 	    = 0.05	//ms