CA1 pyr cell: Inhibitory modulation of spatial selectivity+phase precession (Grienberger et al 2017)
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I) To install on a local machine: 1) install anaconda python, includes ipython, numpy, matplotlib https://docs.continuum.io/anaconda/install add additional ipyparallel package: conda install ipyparallel 2) download neuron from: http://www.neuron.yale.edu/ftp/neuron/versions/alpha/nrn-7.4.rel-1390.tar.gz or install from mercurial cd ~/neuron hg clone http://www.neuron.yale.edu/hg/neuron/nrn -r 'Release 7.4' hg clone http://www.neuron.yale.edu/hg/neuron/iv following tips from: http://www.neuron.yale.edu/neuron/download/compilestd_osx http://www.neuron.yale.edu/phpBB/viewtopic.php?f=4&t=3051#p12584 and making sure to execute these commands before running 'make': export CFLAGS='-Qunused-arguments' export CXXFLAGS='-Qunused-arguments' cd nrn/src/nrnmpi sh mkdynam.sh 3) Install btmorph from http://btmorph.readthedocs.org/en/latest/readme.html#installation 4) Make sure ~/neuron/nrnenv includes: export IDIR=/Applications/NEURON-7.4 export IV=$IDIR/iv export N=$IDIR/nrn export CPU=x86_64 export PATH=$IV/$CPU/bin:$N/$CPU/bin:$PATH and ~/.bash_profile includes: export HOME=/Users/milsteina export PATH="$HOME/anaconda/bin:$PATH" export PATH=$HOME/local/bin:$PATH source $HOME/neuron/nrnenv export PATH="/Applications/NEURON-7.4:$PATH" export LD_LIBRARY_PATH=$HOME/local/lib/ export LD_LIBRARY_PATH="$HOME/anaconda/lib:$LD_LIBRARY_PATH" export PYTHONHOME="$HOME/anaconda" export PYTHONPATH="$PYTHONPATH:/Applications/NEURON-7.4/nrn/lib/python" export PYTHONPATH="$PYTHONPATH:$HOME/python_modules/btmorph" export PATH="$PYTHONHOME:$PYTHONPATH:$LD_LIBRARY_PATH:$PATH" 5) If error related to libreadline.6.2.dylib : cd /Applications/NEURON-7.4/nrn/lib/python/neuron/ install_name_tool -change libreadline.6.2.dylib $HOME/anaconda/lib/libreadline.6.2.dylib hoc.so II) To install on a linux cluster: 1) Download the latest tar.gz from http://www.neuron.yale.edu/ftp/neuron/versions/ e.g. wget http://www.neuron.yale.edu/ftp/neuron/versions/alpha/nrn-7.4.rel-1324.tar.gz 2) Unpack the file: tar xvzf nrn-7.4.rel-1324.tar.gz 3) create these subdirectories in your home directory on the cluster: /neuron/nrn 4) install following these directions: http://www.neuron.yale.edu/neuron/download/compile_linux from the directory containing the unzipped install files: ./configure --prefix=$HOME/neuron/nrn --without-x --with-paranrn=dynamic --with-nrnpython=dynamic make make install - produces some long pauses with error messages related to a deprecated NumPy API, I think this is a strange interaction with anaconda python2.7, but it doesn't appear to cause any problems. 5) Make sure ~/neuron/nrnenv includes: export IDIR=$HOME/neuron export N=$IDIR/nrn export CPU=x86_64 export PATH=$N/$CPU/bin:$PATH 6) Make sure ~/.bash_profile includes: export PATH=/usr/local/anaconda/bin:$PATH export LD_LIBRARY_PATH=/usr/local/anaconda/lib source $HOME/neuron/nrnenv export PATH=$HOME/neuron/nrn:$PATH export PYTHONHOME=/usr/local/anaconda export PYTHONPATH=$PYTHONPATH:$HOME/neuron/nrn/lib/python export PYTHONPATH=$PYTHONPATH:$HOME/python_modules/btmorph export PYTHONPATH=$PYTHONPATH:$HOME/CA1Sim export PATH=$PYTHONHOME:$PYTHONPATH:$LD_LIBRARY_PATH:$PATH 7) mpi4py is required to use the IPython.parallel framework across cores on more than one node, and it is already installed alongside anaconda on the Janelia cluster. In order to use the Intel MPI implementation on the Janelia cluster, make sure the following lines are included in ~/.bashrc if [ -f /usr/local/INTEL2016.sh ]; then . /usr/local/INTEL2016.sh fi export I_MPI_DEBUG=0 export I_MPI_RENDEZVOUS_RDMA_WRITE=1 export I_MPI_DEVICE=rdssm:OpenIB-iwarp export I_MPI_FALLBACK_DEVICE=0 export I_MPI_USE_DYNAMIC_CONNECTIONS=0 8) In order for the IPython use more than one node on the cluster A custom ipython profile must be used for the IPython.parallel framework to work with an MPI backend on the Janelia cluster. ipython profile create --parallel --profile=mpi edit the file IPYTHONDIR/profile_mpi/ipcluster_config.py c.IPClusterEngines.engine_launcher_class = 'MPIEngineSetLauncher' c.IPClusterEngines.work_dir = u'/groups/magee/home/milsteina/CA1Sim/' edit the file IPYTHONDIR/profile_mpi/ipengine_config.py c.MPI.use = 'mpi4py' 6) To run my simulations, make sure to execute nrnivmodl in the directory that contains the .mod and .py files. Make sure to put .swc files in the /morphologies directory and expect to find .pkl and .hdf5 data output files in the /data directory Then start an iPython session with: ipython and execute pieces of the similation with: run name_of_py_file build your own cell with from specify_cells import * from function_lib import * from plot_results import * cell = HocCell() cell.make_section('soma') You can also import a morphology from an .swc file: cell = HocCell('str_with_name_of_swc_file.swc') BtMorph requires that the compartments with indices 1, 2, and 3 all be of type 1 (soma), according to the standard used by NeuroMorpho.org . My model expects compartment types to be labeled as follows (1 = soma, 2 = axon, 3 = basal, 4 = apical, 5 = trunk, 6 = tuft). Soma and axon compartments are discarded and replaced with a simplified representation of soma and axon. Ion channel mechanisms and cable parameters for various types of compartments can be inserted with commands like: cell.modify_mech_param('soma', 'cable', 'Ra', 150.) cell.modify_mech_param('soma', 'pas', 'g', 0.0002) cell.modify_mech_param('basal', 'h', 'ghbar', origin='soma') cell.modify_mech_param(sec_type, 'kap', 'gkabar', origin='soma', slope=3.84e-4, max=0.24) Once you have a cell appropriately specified, you can save a file containing the mechanisms with: cell.export_mech_dict('str_with_name_of_pkl_file.pkl'), or with no arg to automatically generate a unique filename with the data and timestamp. Then a cell can be instantiated with a mech_dict file: cell = HocCell('str_with_name_of_swc_file.swc', 'str_with_name_of_pkl_file.pkl') A quick simulation using adaptive timestep integration can be run with: sim = QuickSim(duration) sim.append_rec(cell, cell.tree.root, loc=0.5, description='soma') sim.run() sim.plot() or sim.export_to_file(name_of_hdf5_object, index_of_similation_in_file) then calling a plot function on the output file: plot_superimpose_conditions('str_with_name_of_output_file') # no suffix necessary 7) PyCharm limits the size of the console output buffer. Change the value of idea.cycle.buffer.size in the idea.properties file in the /bin directory of the install package. To change the size of the terminal output buffer, change the registry key terminal.buffer.max.lines.count. Navigate to Help| Find action| Type "Registry"| Find terminal.buffer.max.lines.count. Changelog --------- 2022-05: Updated MOD files to contain valid C++ and be compatible with the upcoming versions 8.2 and 9.0 of NEURON.
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CA1 pyr cell: Inhibitory modulation of spatial selectivity+phase precession (Grienberger et al 2017)
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