1GMX(1) GROMACS GMX(1)
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6 gmx - molecular dynamics simulation suite
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9 gmx [-[no]h] [-[no]quiet] [-[no]version] [-[no]copyright] [-nice <int>]
10 [-[no]backup]
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13 GROMACS is a full-featured suite of programs to perform molecular
14 dynamics simulations, i.e., to simulate the behavior of systems with
15 hundreds to millions of particles using Newtonian equations of motion.
16 It is primarily used for research on proteins, lipids, and polymers,
17 but can be applied to a wide variety of chemical and biological
18 research questions.
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21 Other options:
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23 -[no]h (no)
24 Print help and quit
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26 -[no]quiet (no)
27 Do not print common startup info or quotes
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29 -[no]version (no)
30 Print extended version information and quit
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32 -[no]copyright (yes)
33 Print copyright information on startup
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35 -nice <int> (19)
36 Set the nicelevel (default depends on command)
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38 -[no]backup (yes)
39 Write backups if output files exist
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42 The following commands are available. Please refer to their individual
43 man pages or gmx help <command> for further details.
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45 Trajectory analysis
46 gmx-gangle(1)
47 Calculate angles
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49 gmx-distance(1)
50 Calculate distances between pairs of positions
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52 gmx-freevolume(1)
53 Calculate free volume
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55 gmx-pairdist(1)
56 Calculate pairwise distances between groups of positions
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58 gmx-rdf(1)
59 Calculate radial distribution functions
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61 gmx-sasa(1)
62 Compute solvent accessible surface area
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64 gmx-select(1)
65 Print general information about selections
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67 gmx-trajectory(1)
68 Print coordinates, velocities, and/or forces for selections
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70 Generating topologies and coordinates
71 gmx-editconf(1)
72 Edit the box and write subgroups
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74 gmx-x2top(1)
75 Generate a primitive topology from coordinates
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77 gmx-solvate(1)
78 Solvate a system
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80 gmx-insert-molecules(1)
81 Insert molecules into existing vacancies
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83 gmx-genconf(1)
84 Multiply a conformation in ‘random’ orientations
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86 gmx-genion(1)
87 Generate monoatomic ions on energetically favorable positions
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89 gmx-genrestr(1)
90 Generate position restraints or distance restraints for index
91 groups
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93 gmx-pdb2gmx(1)
94 Convert coordinate files to topology and FF-compliant coordinate
95 files
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97 Running a simulation
98 gmx-grompp(1)
99 Make a run input file
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101 gmx-mdrun(1)
102 Perform a simulation, do a normal mode analysis or an energy
103 minimization
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105 gmx-convert-tpr(1)
106 Make a modifed run-input file
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108 Viewing trajectories
109 gmx-nmtraj(1)
110 Generate a virtual oscillating trajectory from an eigenvector
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112 gmx-view(1)
113 View a trajectory on an X-Windows terminal
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115 Processing energies
116 gmx-enemat(1)
117 Extract an energy matrix from an energy file
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119 gmx-energy(1)
120 Writes energies to xvg files and display averages
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122 gmx-mdrun(1)
123 (Re)calculate energies for trajectory frames with -rerun
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125 Converting files
126 gmx-editconf(1)
127 Convert and manipulates structure files
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129 gmx-eneconv(1)
130 Convert energy files
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132 gmx-sigeps(1)
133 Convert c6/12 or c6/cn combinations to and from sigma/epsilon
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135 gmx-trjcat(1)
136 Concatenate trajectory files
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138 gmx-trjconv(1)
139 Convert and manipulates trajectory files
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141 gmx-xpm2ps(1)
142 Convert XPM (XPixelMap) matrices to postscript or XPM
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144 Tools
145 gmx-analyze(1)
146 Analyze data sets
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148 gmx-awh(1)
149 Extract data from an accelerated weight histogram (AWH) run
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151 gmx-dyndom(1)
152 Interpolate and extrapolate structure rotations
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154 gmx-filter(1)
155 Frequency filter trajectories, useful for making smooth movies
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157 gmx-lie(1)
158 Estimate free energy from linear combinations
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160 gmx-morph(1)
161 Interpolate linearly between conformations
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163 gmx-pme_error(1)
164 Estimate the error of using PME with a given input file
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166 gmx-sham(1)
167 Compute free energies or other histograms from histograms
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169 gmx-spatial(1)
170 Calculate the spatial distribution function
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172 gmx-traj(1)
173 Plot x, v, f, box, temperature and rotational energy from tra‐
174 jectories
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176 gmx-tune_pme(1)
177 Time mdrun as a function of PME ranks to optimize settings
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179 gmx-wham(1)
180 Perform weighted histogram analysis after umbrella sampling
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182 gmx-check(1)
183 Check and compare files
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185 gmx-dump(1)
186 Make binary files human readable
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188 gmx-make_ndx(1)
189 Make index files
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191 gmx-mk_angndx(1)
192 Generate index files for ‘gmx angle’
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194 gmx-trjorder(1)
195 Order molecules according to their distance to a group
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197 gmx-xpm2ps(1)
198 Convert XPM (XPixelMap) matrices to postscript or XPM
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200 gmx-report-methods(1)
201 Write short summary about the simulation setup to a text file
202 and/or to the standard output.
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204 Distances between structures
205 gmx-cluster(1)
206 Cluster structures
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208 gmx-confrms(1)
209 Fit two structures and calculates the RMSD
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211 gmx-rms(1)
212 Calculate RMSDs with a reference structure and RMSD matrices
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214 gmx-rmsf(1)
215 Calculate atomic fluctuations
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217 Distances in structures over time
218 gmx-mindist(1)
219 Calculate the minimum distance between two groups
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221 gmx-mdmat(1)
222 Calculate residue contact maps
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224 gmx-polystat(1)
225 Calculate static properties of polymers
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227 gmx-rmsdist(1)
228 Calculate atom pair distances averaged with power -2, -3 or -6
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230 Mass distribution properties over time
231 gmx-gyrate(1)
232 Calculate the radius of gyration
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234 gmx-msd(1)
235 Calculates mean square displacements
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237 gmx-polystat(1)
238 Calculate static properties of polymers
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240 gmx-rdf(1)
241 Calculate radial distribution functions
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243 gmx-rotacf(1)
244 Calculate the rotational correlation function for molecules
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246 gmx-rotmat(1)
247 Plot the rotation matrix for fitting to a reference structure
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249 gmx-sans(1)
250 Compute small angle neutron scattering spectra
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252 gmx-saxs(1)
253 Compute small angle X-ray scattering spectra
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255 gmx-traj(1)
256 Plot x, v, f, box, temperature and rotational energy from tra‐
257 jectories
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259 gmx-vanhove(1)
260 Compute Van Hove displacement and correlation functions
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262 Analyzing bonded interactions
263 gmx-angle(1)
264 Calculate distributions and correlations for angles and dihe‐
265 drals
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267 gmx-mk_angndx(1)
268 Generate index files for ‘gmx angle’
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270 Structural properties
271 gmx-anadock(1)
272 Cluster structures from Autodock runs
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274 gmx-bundle(1)
275 Analyze bundles of axes, e.g., helices
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277 gmx-clustsize(1)
278 Calculate size distributions of atomic clusters
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280 gmx-disre(1)
281 Analyze distance restraints
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283 gmx-hbond(1)
284 Compute and analyze hydrogen bonds
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286 gmx-order(1)
287 Compute the order parameter per atom for carbon tails
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289 gmx-principal(1)
290 Calculate principal axes of inertia for a group of atoms
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292 gmx-rdf(1)
293 Calculate radial distribution functions
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295 gmx-saltbr(1)
296 Compute salt bridges
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298 gmx-sorient(1)
299 Analyze solvent orientation around solutes
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301 gmx-spol(1)
302 Analyze solvent dipole orientation and polarization around
303 solutes
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305 Kinetic properties
306 gmx-bar(1)
307 Calculate free energy difference estimates through Bennett’s
308 acceptance ratio
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310 gmx-current(1)
311 Calculate dielectric constants and current autocorrelation func‐
312 tion
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314 gmx-dos(1)
315 Analyze density of states and properties based on that
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317 gmx-dyecoupl(1)
318 Extract dye dynamics from trajectories
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320 gmx-principal(1)
321 Calculate principal axes of inertia for a group of atoms
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323 gmx-tcaf(1)
324 Calculate viscosities of liquids
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326 gmx-traj(1)
327 Plot x, v, f, box, temperature and rotational energy from tra‐
328 jectories
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330 gmx-vanhove(1)
331 Compute Van Hove displacement and correlation functions
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333 gmx-velacc(1)
334 Calculate velocity autocorrelation functions
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336 Electrostatic properties
337 gmx-current(1)
338 Calculate dielectric constants and current autocorrelation func‐
339 tion
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341 gmx-dielectric(1)
342 Calculate frequency dependent dielectric constants
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344 gmx-dipoles(1)
345 Compute the total dipole plus fluctuations
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347 gmx-potential(1)
348 Calculate the electrostatic potential across the box
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350 gmx-spol(1)
351 Analyze solvent dipole orientation and polarization around
352 solutes
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354 gmx-genion(1)
355 Generate monoatomic ions on energetically favorable positions
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357 Protein-specific analysis
358 gmx-do_dssp(1)
359 Assign secondary structure and calculate solvent accessible sur‐
360 face area
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362 gmx-chi(1)
363 Calculate everything you want to know about chi and other dihe‐
364 drals
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366 gmx-helix(1)
367 Calculate basic properties of alpha helices
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369 gmx-helixorient(1)
370 Calculate local pitch/bending/rotation/orientation inside
371 helices
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373 gmx-rama(1)
374 Compute Ramachandran plots
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376 gmx-wheel(1)
377 Plot helical wheels
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379 Interfaces
380 gmx-bundle(1)
381 Analyze bundles of axes, e.g., helices
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383 gmx-density(1)
384 Calculate the density of the system
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386 gmx-densmap(1)
387 Calculate 2D planar or axial-radial density maps
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389 gmx-densorder(1)
390 Calculate surface fluctuations
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392 gmx-h2order(1)
393 Compute the orientation of water molecules
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395 gmx-hydorder(1)
396 Compute tetrahedrality parameters around a given atom
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398 gmx-order(1)
399 Compute the order parameter per atom for carbon tails
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401 gmx-potential(1)
402 Calculate the electrostatic potential across the box
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404 Covariance analysis
405 gmx-anaeig(1)
406 Analyze the eigenvectors
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408 gmx-covar(1)
409 Calculate and diagonalize the covariance matrix
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411 gmx-make_edi(1)
412 Generate input files for essential dynamics sampling
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414 Normal modes
415 gmx-anaeig(1)
416 Analyze the normal modes
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418 gmx-nmeig(1)
419 Diagonalize the Hessian for normal mode analysis
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421 gmx-nmtraj(1)
422 Generate a virtual oscillating trajectory from an eigenvector
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424 gmx-nmens(1)
425 Generate an ensemble of structures from the normal modes
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427 gmx-grompp(1)
428 Make a run input file
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430 gmx-mdrun(1)
431 Find a potential energy minimum and calculate the Hessian
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434 2019, GROMACS development team
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4392019.4 Oct 02, 2019 GMX(1)