// // Simulation of a pair of FS neurons connected through gap junctions. // Input is read from the INDATA directory. // // Usage: Use matlab script to generate indata // Call genesis code from matlab script // Parse outdata files and move them to storage directory // // Johannes Hjorth, Mars 2007 // hjorth@nada.kth.se // // echo "### Start of script ###################" echo "Johannes Hjorth (hjorth@nada.kth.se)" echo "Last updated: Mars 2007" echo " " // Read information about input data str indataInfoFile = "INDATA/inputInfo.txt" openfile {indataInfoFile} r str indataType = {readfile {indataInfoFile}} float corrRudolph = {readfile {indataInfoFile}} float upFreq = {readfile {indataInfoFile}} float noiseFreq = {readfile {indataInfoFile}} float maxInputTime = {readfile {indataInfoFile}} int allowVar = {readfile {indataInfoFile}} int randSeed = {readfile {indataInfoFile}} int numCellsInput = {readfile {indataInfoFile}} // Next data item is the gamma-shape of the curve, not used. closefile {indataInfoFile} // Read maxTime from parameter file! str parFile = "INDATA/parameters.txt" openfile {parFile} r str outputName = {readfile {parFile}} float maxTime = {readfile {parFile}} int numCells = {readfile {parFile}} if({numCells} != {numCellsInput}) echo "Number of cells: "{numCells}, "Input generated for : "{numCellsInput} echo "Not enough input generated" quit end echo "Simulating "{numCells}" FS neurons for "{maxTime}" seconds" echo "Indata used randSeed: "{randSeed} echo "Writing output to "{outputName} if({maxTime} > {maxInputTime}) echo "ERROR: Only have input for "{maxInputTime}" seconds" quit end //simulation time and time steps float spikeoutdt=1e-3 float vmOutDt=1e-4 float simDt=1e-5 //1e-6 needed for voltage clamp // Number of synapse sites int nAMPA = 127 // per cell int nGABA = 93 //read in functions for creating and running simulations include ../genesisScripts/protodefsInhomogene include ../genesisScripts/fsInputFromFile include ../genesisScripts/fsSomaOutput include ../genesisScripts/fsInputInject //setclocks setclock 1 {vmOutDt} setclock 0 {simDt} // Use the SPRNG random number generator setrand -sprng randseed {{randSeed} + 4711} // Create neuron -- We use non-identical neurons, dont copy! // echo "Creating "{numCells}" FS neurons" // copyFsNeuron "/fs" {numCells} // Connect input int cellCtr for(cellCtr = 0; cellCtr < numCells; cellCtr = cellCtr + 1) readInputFromFile "AMPAinsignal_"{cellCtr}"_" \ "INDATA/AMPAinsignal_"{{cellCtr}+1}"_" \ {nAMPA} readInputFromFile "GABAinsignal_"{cellCtr}"_" \ "INDATA/GABAinsignal_"{{cellCtr}+1}"_" \ {nGABA} readInputFromFile "AMPAnoise_"{cellCtr}"_" \ "INDATA/AMPAnoise_"{{cellCtr}+1}"_" \ {nAMPA} readInputFromFile "GABAnoise_"{cellCtr}"_" \ "INDATA/GABAnoise_"{{cellCtr}+1}"_" \ {nGABA} end for(cellCtr = 0; cellCtr < {numCells}; cellCtr = cellCtr + 1) connectFsInsignalToCell /fs[{cellCtr}] "/input/AMPAinsignal_"{cellCtr}"_" "AMPA" connectFsInsignalToCell /fs[{cellCtr}] "/input/GABAinsignal_"{cellCtr}"_" "GABA" connectFsInsignalToCell /fs[{cellCtr}] "/input/AMPAnoise_"{cellCtr}"_" "AMPA" connectFsInsignalToCell /fs[{cellCtr}] "/input/GABAnoise_"{cellCtr}"_" "GABA" end // Read location of gap junctions from parameter file int numGaps = {readfile {parFile}} int gapCtr // Create gap junctions required in file str readGapLine str gapSrc str gapDest float gapRes for(gapCtr = 0; gapCtr < numGaps; gapCtr = gapCtr + 1) readGapLine = {readfile {parFile} -linemode} gapSrc = {getarg {arglist {readGapLine}} -arg 1} gapDest = {getarg {arglist {readGapLine}} -arg 2} gapRes = {getarg {arglist {readGapLine}} -arg 3} if({gapRes} > 0) connectGap {gapSrc} {gapDest} {gapRes} echo {gapSrc}"-->"{gapDest}" res: "{gapRes} else echo "WARNING: gapRes: "{gapRes}" ohm, no gap junction created" end end closefile {parFile} check makeOutput "/fs" {outputName} {vmOutDt} reset reset step {maxTime} -t clearOutput {outputName} // close files quit