Mercurial > repos > chemteam > gmx_sim
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"planemo upload for repository https://github.com/galaxycomputationalchemistry/galaxy-tools-compchem/tree/master/tools/gromacs commit 0941b05e72c90bcf5521efa52767390864be5033"
author | chemteam |
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date | Wed, 01 Dec 2021 15:29:39 +0000 |
parents | ea0e6d2f1be7 |
children | 633f27174e8f |
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<tool id="gmx_sim" name="GROMACS simulation" version="@TOOL_VERSION@+galaxy@GALAXY_VERSION@"> <description>for system equilibration or data collection</description> <macros> <import>macros.xml</import> <token name="@GALAXY_VERSION@">3</token> </macros> <expand macro="requirements" /> <command detect_errors="exit_code"><![CDATA[ #if $sets.mdp.mdpfile == "custom": ln -s '$sets.mdp.mdp_input' ./md.mdp && #end if #if $sets.mdp.mdpfile == "default": ln -s '$md' ./md.mdp && #end if ln -s '$gro_input' ./inp.gro && ln -s '$top_input' ./top_input.top && #if $inps.itp_in: ln -s '$inps.itp_in' ./posres.itp && #end if #if $inps.cpt_in: ln -s '$inps.cpt_in' ./inp.cpt && #end if #if $inps.ndx_in: ln -s '$inps.ndx_in' ./index.ndx && #end if gmx grompp -f ./md.mdp -c ./inp.gro #if $inps.cpt_in: -t ./inp.cpt #end if #if $inps.itp_in: -r ./inp.gro #end if #if $inps.ndx_in: -n ./index.ndx #end if -p ./top_input.top -o outp.tpr @MAXWARN_CMD@ &>> verbose.txt && #if "\${GPU_AVAILABLE:-0}" == 1: gmx_gpu mdrun -ntmpi 1 -nb gpu -pme gpu #else: gmx mdrun #end if -nt "\${GALAXY_SLOTS:-4}" -deffnm outp &>> verbose.txt #if $outps.str == 'pdb' or $outps.str == 'both' && gmx editconf -f outp.gro -o outp.pdb &>> verbose.txt #end if && cat md.mdp &>> verbose.txt ]]></command> <configfiles> <!-- .mdp file for the gromacs simulation --> <configfile name="md"> #if $sets.mdp.mdpfile == 'default': title = OPLS Lysozyme MD simulation ; Run parameters integrator = $sets.mdp.integrator ; leap-frog integrator nsteps = $sets.mdp.md_steps ; 2 * 500000 = 1000 ps (1 ns) dt = $sets.mdp.step_length ; 2 fs ; Output control nstxout = $sets.mdp.write_freq ; save coordinates every 10.0 ps nstvout = $sets.mdp.write_freq ; save velocities every 10.0 ps nstenergy = $sets.mdp.write_freq ; save energies every 10.0 ps nstlog = $sets.mdp.write_freq ; update log file every 10.0 ps nstxout-compressed = $sets.mdp.write_freq ; save compressed coordinates every 10.0 ps ; nstxout-compressed replaces nstxtcout compressed-x-grps = System ; group(s) to write to the compressed trajectory file ; Bond parameters #if $inps.cpt_in: continuation = yes ; Restarting after NPT #end if constraint_algorithm = lincs ; holonomic constraints constraints = $sets.mdp.constraints ; all bonds (even heavy atom-H bonds) constrained lincs_iter = 1 ; accuracy of LINCS lincs_order = 4 ; also related to accuracy ; Neighborsearching cutoff-scheme = $sets.mdp.cutoffscheme ns_type = grid ; search neighboring grid cells nstlist = 10 ; 20 fs, largely irrelevant with Verlet scheme rcoulomb = $sets.mdp.rcoulomb ; Short-range electrostatic cut-off rlist = $sets.mdp.rlist ; Cut-off distance for the short-range neighbor list. rvdw = $sets.mdp.rvdw ; Short-range Van der Waals cut-off ; Electrostatics coulombtype = $sets.mdp.coulombtype ; method for electrostatics calculations e.g. PME pme_order = 4 ; cubic interpolation fourierspacing = 0.16 ; grid spacing for FFT ; Temperature coupling is on tcoupl = V-rescale ; modified Berendsen thermostat #if $sets.mdp.systemTcouple == "true": tc-grps = System ; coupling the whole system. Can be used in any system, beyond peptides. tau_t = 0.1 ; time constant in ps ref_t = $sets.mdp.temperature #else tc-grps = Protein Non-Protein ; two coupling groups - more accurate tau_t = 0.1 0.1 ; time constant, in ps ref_t = $sets.mdp.temperature $sets.mdp.temperature ; reference temperature, one for each group, in K #end if ; Periodic boundary conditions pbc = xyz ; 3-D PBC ; Dispersion correction DispCorr = EnerPres ; account for cut-off vdW scheme ; Velocity generation #if $sets.ensembleselect.ensemble == "npt" or $sets.ensembleselect.startvel == "false": gen_vel = no ; Velocity generation is OFF #else gen_vel = yes ; Velocity generation is ON #end if #end if #if $inps.itp_in: define = -DPOSRES ; position restrain the protein refcoord_scaling = com #end if #if $sets.ensembleselect.ensemble == "nvt": pcoupl = no ; no pressure coupling in NVT #else: ; Pressure coupling is on pcoupl = Parrinello-Rahman ; Pressure coupling on in NPT pcoupltype = isotropic ; uniform scaling of box vectors tau_p = 2.0 ; time constant, in ps ref_p = 1.0 ; reference pressure, in bar compressibility = 4.5e-5 ; isothermal compressibility of water, bar^-1 #end if </configfile> </configfiles> <inputs> <param argument="gro_input" type="data" format='gro' label="GRO structure file"/> <param argument="top_input" type="data" format='top' label="Topology (TOP) file"/> <section name="inps" title="Inputs" expanded="false"> <!-- CPT inp --> <!-- <conditional name="cpt_inp"> <param name="cpt_bool" type="select" label="Use a checkpoint (CPT) file" help="CPT file from a previous MD run"> <option value="yes">Continue simulation from a CPT file</option> <option value="no" selected="true">No CPT input</option> </param> <when value="yes"> <param argument="cpt_in" type="data" format='cpt' label="Checkpoint file"/> </when> <when value="no"/> </conditional> --> <param argument="cpt_in" type="data" format='cpt' label="Checkpoint (CPT) file" optional="true" help="CPT file from a previous MD run. Leave empty if no checkpoint should be used."/> <!-- ITP inp --> <!-- <conditional name="posres"> <param name="posres_bool" type="select" label="Apply position restraints" help="Used e.g. for equilibration of solvent around a protein" value="false"> <option value="true">Apply position restraints</option> <option value="false" selected="true">No position restraints</option> </param> <when value="true"> <param argument="itp_in" type="data" format='itp' label="Position restraint (ITP) file"/> </when> <when value="false"/> </conditional> --> <param argument="itp_in" type="data" format='itp' label="Position restraint (ITP) file" optional="true" help="Apply position restraints using a ITP file. Leave empty if no position restraints should be used."/> <!-- NDX inp --> <!-- <conditional name="ndx_inp"> <param name="ndx_bool" type="select" label="Use a custom index (ndx) file" help="Use an index file specifying custom atom groups."> <option value="true">Use custom index file</option> <option value="false" selected="true">Use default generated group</option> </param> <when value="true"> <param argument="ndx_in" type="data" format='ndx' label="Index file"/> </when> <when value="false"/> </conditional> --> <param argument="ndx_in" type="data" format='ndx' label="Index (ndx) file" optional="true" help="Use an index file specifying custom atom groups. Leave empty to use default generated group"/> </section> <section name="outps" title="Outputs" expanded="false"> <!-- TRAJ out --> <param argument="traj" type="select" label="Trajectory output"> <option value='none'>Return no trajectory output</option> <option value='xtc'>Return .xtc file (reduced precision)</option> <option value='trr'>Return .trr file (full precision)</option> <option value='both'>Return both .xtc and .trr files</option> </param> <!-- STR out --> <param argument="str" type="select" label="Structure output"> <option value='none'>Return no structure output</option> <option value='gro'>Return .gro file</option> <option value='pdb'>Return .pdb file</option> <option value='both'>Return both .gro and .pdb files</option> </param> <!-- CPT out --> <param name="cpt_out" type="select" label="Produce a checkpoint (CPT) file" help="Produce CPT file for a subsequent MD run"> <option value="true">Produce CPT output</option> <option value="false" selected="true">No CPT output</option> </param> <!-- EDR out --> <param name="edr_out" type="select" label="Produce an energy (EDR) file" help="Produce file containing energies associated with the simulation"> <option value="true">Produce EDR output</option> <option value="false" selected="true">No EDR output</option> </param> <!-- XVG out --> <param name="xvg_out" type="select" label="Produce XVG output" help="Produce tabular XVG file (e.g. forces from pulling simulations)" > <option value="true">Produce XVG output</option> <option value="false" selected="true">No XVG output</option> </param> <!-- TPR out --> <param name="tpr_out" type="select" label="Produce TPR output" help="Produce TPR binary file" > <option value="true">Produce TPR output</option> <option value="false" selected="true">No TPR output</option> </param> </section> <section name="sets" title="Settings" expanded="false"> <!-- other ... --> <conditional name="ensembleselect"> <param name="ensemble" label="Ensemble" type="select" help="NVT ensemble (constant number of particles, volume and temperature) or NPT ensemble (constant number of particles, pressure and temperature)"> <option value="nvt">Isothermal-isochoric ensemble (NVT)</option> <option value="npt">Isothermal-isobaric ensemble (NPT)</option> </param> <when value="nvt"> <param argument="startvel" type="select" label="Starting Velocities"> <option value="true">Assign starting velocities (recommended for NVT)</option> <option value="false" selected="true">Do not assign starting velocities</option> </param> </when> <when value="npt" /> </conditional> <expand macro="md_inputs"/> </section> <expand macro="maxwarn" /> <expand macro="log" /> </inputs> <outputs> <data name="output1" format="gro" from_work_dir="outp.gro" label="GROMACS simulation (GRO) on ${on_string}"> <filter>outps["str"] == 'gro' or outps["str"] == 'both'</filter> </data> <data name="output2" format="pdb" from_work_dir="outp.pdb" label="GROMACS simulation (PDB) file on ${on_string}"> <filter>outps["str"] == 'pdb' or outps["str"] == 'both'</filter> </data> <data name="output3" format="trr" from_work_dir="outp.trr" label="GROMACS simulation (TRR) on ${on_string}"> <filter>outps["traj"] == 'trr' or outps["traj"] == 'both'</filter> </data> <data name="output4" format="xtc" from_work_dir="outp.xtc" label="GROMACS simulation (XTC) on ${on_string}"> <filter>outps["traj"] == 'xtc' or outps["traj"] == 'both'</filter> </data> <data name="output5" format="cpt" from_work_dir="outp.cpt" label="GROMACS simulation (CPT) on ${on_string}"> <filter>outps["cpt_out"] == 'true'</filter> </data> <data name="output6" format="edr" from_work_dir="outp.edr" label="GROMACS simulation (EDR) on ${on_string}"> <filter>outps["edr_out"] == 'true'</filter> </data> <data name="output7" format="xvg" from_work_dir="outp_pullf.xvg" label="GROMACS simulation (XVG) on ${on_string}"> <filter>outps["xvg_out"] == 'true'</filter> </data> <data name="output7_1" format="xvg" from_work_dir="outp.xvg"> <filter>outps["xvg_out"] == 'true'</filter> </data> <!-- <collection name="output7" type="list"> <discover_datasets pattern="(?P<designation>.*)\.xvg" visible="true" directory="." /> <filter>outps["xvg_out"] == 'true'</filter> </collection> --> <data name="output8" format="tpr" from_work_dir="outp.tpr"> <filter>outps["tpr_out"] == 'true'</filter> </data> <expand macro="log_outputs" /> </outputs> <tests> <test expect_num_outputs="3"> <param name="gro_input" value="str_ions.gro" /> <param name="top_input" value="topol_md.top" /> <!-- <param name="cpt_bool" value="yes" /> --> <param name="cpt_in" value="npt.cpt" /> <param name="mdpfile" value="custom" /> <param name="mdp_input" value="md.mdp" /> <!-- <param name="ndx_bool" value="false" /> --> <param name="traj" value="trr"/> <param name="str" value="gro"/> <param name="tpr_out" value="true"/> <param name="ensemble" value="npt" /> <!-- <param name="posres_bool" value="false" /> --> <output name="output1" ftype="gro"> <assert_contents> <has_size value="6537" /> <has_n_lines n="97" /> <has_line line="TEST in water" /> </assert_contents> </output> <output name="output3" ftype="trr"> <assert_contents> <has_size value="26136" /> </assert_contents> </output> <output name="output8" ftype="tpr"> <assert_contents> <has_size value="44212" /> </assert_contents> </output> </test> <test expect_num_outputs="3"> <param name="gro_input" value="str_ions.gro" /> <param name="top_input" value="topol_md.top" /> <!-- <param name="cpt_bool" value="yes" /> --> <param name="cpt_in" value="npt.cpt" /> <!-- <param name="ndx_bool" value="false" /> --> <param name="traj" value="trr"/> <param name="str" value="both"/> <expand macro="test_params"/> <param name="ensemble" value="npt" /> <!-- <param name="posres_bool" value="false" /> --> <output name="output1" ftype="gro"> <assert_contents> <has_size value="6537" /> <has_n_lines n="97" /> <has_line line="TEST in water" /> </assert_contents> </output> <output name="output2" ftype="pdb"> <assert_contents> <has_size value="7582" /> <has_n_lines n="100" /> <has_line line="TITLE TEST in water" /> <has_line line="REMARK THIS IS A SIMULATION BOX" /> </assert_contents> </output> <output name="output3" ftype="trr"> <assert_contents> <has_size value="26136" /> </assert_contents> </output> </test> <test expect_num_outputs="3"> <param name="gro_input" value="str_ions.gro" /> <param name="top_input" value="topol_md.top" /> <!-- <param name="cpt_bool" value="yes" /> --> <param name="cpt_in" value="npt.cpt" /> <!-- <param name="ndx_bool" value="true" /> --> <param name="ndx_in" value="index.ndx" /> <param name="traj" value="trr"/> <param name="str" value="both"/> <expand macro="test_params"/> <param name="ensemble" value="npt" /> <!-- <param name="posres_bool" value="false" /> --> <output name="output1" ftype="gro"> <assert_contents> <has_size value="6537" /> <has_n_lines n="97" /> </assert_contents> </output> <output name="output2" ftype="pdb"> <assert_contents> <has_size value="7582" /> <has_n_lines n="100" /> <has_line line="TITLE TEST in water" /> <has_line line="REMARK THIS IS A SIMULATION BOX" /> </assert_contents> </output> <output name="output3" ftype="trr"> <assert_contents> <has_size value="26136" /> </assert_contents> </output> </test> <test expect_num_outputs="3"> <param name="gro_input" value="str_ions.gro" /> <param name="top_input" value="topol_md.top" /> <!-- <param name="posres_bool" value="true" /> --> <param name="itp_in" value="posres.itp" /> <!-- <param name="cpt_bool" value="no" /> --> <param name="cpt_out" value="true" /> <!-- <param name="ndx_bool" value="false" /> --> <param name="traj" value="xtc"/> <param name="str" value="pdb"/> <param name="ensemble" value="nvt" /> <expand macro="test_params"/> <output name="output2" ftype="pdb"> <assert_contents> <has_size value="7582" /> <has_n_lines n="100" /> <has_line line="TITLE TEST in water" /> <has_line line="REMARK THIS IS A SIMULATION BOX" /> </assert_contents> </output> <output name="output4" ftype="xtc"> <assert_contents> <has_size value="4910" delta="20"/> </assert_contents> </output> <output name="output5" ftype="cpt"> <assert_contents> <has_size value="3350" delta="100"/> </assert_contents> </output> </test> </tests> <help><![CDATA[ .. class:: infomark **What it does** This tool performs a molecular dynamics simulation with GROMACS. _____ .. class:: infomark **Input** - GRO structure file. - Topology (TOP) file. A variety of other options can also be specified: - MDP parameter file to take advantage of all GROMACS features. Otherwise, choose parameters through the Galaxy interface. See the `manual`_ for more information on the options. - Accepting and producing checkpoint (CPT) input/output files, which allows sequential MD simulations, e.g. when performing NVT and NPT equilibration followed by a production simulation. - Position restraint (ITP) file, useful for equilibrating solvent around a protein. - Choice of ensemble: NVT or NPT. - Whether to return trajectory (XTC or TRR) and/or structure (GRO or PDB) files. .. _`manual`: http://manual.gromacs.org/documentation/2018/user-guide/mdp-options.html _____ .. class:: infomark **Output** - Structure and/or trajectory files as specified in the input. ]]></help> <expand macro="citations" /> </tool>