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11 <td ALIGN=LEFT VALIGN=TOP WIDTH=280><br><h2>g_tune_pme</h2><font size=-1><A HREF="../online.html">Main Table of Contents</A></font><br><br></td>
14 <HR>
16 <p>
17 For a given number <tt>-np</tt> or <tt>-ntmpi</tt> of processors/threads, this program systematically
18 times <tt><a href="mdrun.html">mdrun</a></tt> with various numbers of PME-only nodes and determines
19 which setting is fastest. It will also test whether performance can
20 be enhanced by shifting load from the reciprocal to the real space
21 part of the Ewald sum.
22 Simply pass your <tt>.<a href="tpr.html">tpr</a></tt> file to <tt>g_tune_pme</tt> together with other options
24 Which executables are used can be set in the environment variables
26 will be used as defaults. Note that for certain MPI frameworks you
27 need to provide a machine- or hostfile. This can also be passed
28 via the MPIRUN variable, e.g.<p>
31 <tt><a href="mdrun.html">mdrun</a></tt> and add <tt>-np</tt> for the number of processors to perform the
33 to repeat each test several times to get better statistics. <p>
35 for you. With <tt>-ntpr</tt> you control how many extra <tt>.<a href="tpr.html">tpr</a></tt> files will be
36 written with enlarged cutoffs and smaller Fourier grids respectively.
37 Typically, the first test (number 0) will be with the settings from the input
38 <tt>.<a href="tpr.html">tpr</a></tt> file; the last test (number <tt>ntpr</tt>) will have the Coulomb cutoff
41 The remaining <tt>.<a href="tpr.html">tpr</a></tt> files will have equally-spaced Coulomb radii (and Fourier spacings) between these extremes. <b>Note</b> that you can set <tt>-ntpr</tt> to 1
42 if you just seek the optimal number of PME-only nodes; in that case
44 For the benchmark runs, the default of 1000 time steps should suffice for most
45 MD systems. The dynamic load balancing needs about 100 time steps
46 to adapt to local load imbalances, therefore the time step counters
50 can tell after how many steps the load is sufficiently balanced. Example call:<p><tt>g_tune_pme -np 64 -s protein.<a href="tpr.html">tpr</a> -launch</tt><p>
51 After calling <tt><a href="mdrun.html">mdrun</a></tt> several times, detailed performance information
55 If you want the simulation to be started automatically with the
57 <P>
61 <TR><TD ALIGN=RIGHT> <b><tt>-p</tt></b> </TD><TD ALIGN=RIGHT> <tt><a href="out.html"> perf.out</a></tt> </TD><TD> Output </TD><TD> Generic output file </TD></TR>
62 <TR><TD ALIGN=RIGHT> <b><tt>-err</tt></b> </TD><TD ALIGN=RIGHT> <tt><a href="log.html">bencherr.log</a></tt> </TD><TD> Output </TD><TD> Log file </TD></TR>
63 <TR><TD ALIGN=RIGHT> <b><tt>-so</tt></b> </TD><TD ALIGN=RIGHT> <tt><a href="files.html"> tuned.tpr</a></tt> </TD><TD> Output </TD><TD> Run input file: <a href="tpr.html">tpr</a> <a href="tpb.html">tpb</a> <a href="tpa.html">tpa</a> </TD></TR>
64 <TR><TD ALIGN=RIGHT> <b><tt>-s</tt></b> </TD><TD ALIGN=RIGHT> <tt><a href="files.html"> topol.tpr</a></tt> </TD><TD> Input </TD><TD> Run input file: <a href="tpr.html">tpr</a> <a href="tpb.html">tpb</a> <a href="tpa.html">tpa</a> </TD></TR>
65 <TR><TD ALIGN=RIGHT> <b><tt>-o</tt></b> </TD><TD ALIGN=RIGHT> <tt><a href="files.html"> traj.trr</a></tt> </TD><TD> Output </TD><TD> Full precision trajectory: <a href="trr.html">trr</a> <a href="trj.html">trj</a> cpt </TD></TR>
66 <TR><TD ALIGN=RIGHT> <b><tt>-x</tt></b> </TD><TD ALIGN=RIGHT> <tt><a href="xtc.html"> traj.xtc</a></tt> </TD><TD> Output, Opt. </TD><TD> Compressed trajectory (portable xdr format) </TD></TR>
67 <TR><TD ALIGN=RIGHT> <b><tt>-cpi</tt></b> </TD><TD ALIGN=RIGHT> <tt><a href="cpt.html"> state.cpt</a></tt> </TD><TD> Input, Opt. </TD><TD> Checkpoint file </TD></TR>
68 <TR><TD ALIGN=RIGHT> <b><tt>-cpo</tt></b> </TD><TD ALIGN=RIGHT> <tt><a href="cpt.html"> state.cpt</a></tt> </TD><TD> Output, Opt. </TD><TD> Checkpoint file </TD></TR>
69 <TR><TD ALIGN=RIGHT> <b><tt>-c</tt></b> </TD><TD ALIGN=RIGHT> <tt><a href="files.html"> confout.gro</a></tt> </TD><TD> Output </TD><TD> Structure file: <a href="gro.html">gro</a> <a href="g96.html">g96</a> <a href="pdb.html">pdb</a> etc. </TD></TR>
70 <TR><TD ALIGN=RIGHT> <b><tt>-e</tt></b> </TD><TD ALIGN=RIGHT> <tt><a href="edr.html"> ener.edr</a></tt> </TD><TD> Output </TD><TD> Energy file </TD></TR>
71 <TR><TD ALIGN=RIGHT> <b><tt>-g</tt></b> </TD><TD ALIGN=RIGHT> <tt><a href="log.html"> md.log</a></tt> </TD><TD> Output </TD><TD> Log file </TD></TR>
72 <TR><TD ALIGN=RIGHT> <b><tt>-dhdl</tt></b> </TD><TD ALIGN=RIGHT> <tt><a href="xvg.html"> dhdl.xvg</a></tt> </TD><TD> Output, Opt. </TD><TD> xvgr/xmgr file </TD></TR>
73 <TR><TD ALIGN=RIGHT> <b><tt>-field</tt></b> </TD><TD ALIGN=RIGHT> <tt><a href="xvg.html"> field.xvg</a></tt> </TD><TD> Output, Opt. </TD><TD> xvgr/xmgr file </TD></TR>
74 <TR><TD ALIGN=RIGHT> <b><tt>-table</tt></b> </TD><TD ALIGN=RIGHT> <tt><a href="xvg.html"> table.xvg</a></tt> </TD><TD> Input, Opt. </TD><TD> xvgr/xmgr file </TD></TR>
75 <TR><TD ALIGN=RIGHT> <b><tt>-tabletf</tt></b> </TD><TD ALIGN=RIGHT> <tt><a href="xvg.html"> tabletf.xvg</a></tt> </TD><TD> Input, Opt. </TD><TD> xvgr/xmgr file </TD></TR>
76 <TR><TD ALIGN=RIGHT> <b><tt>-tablep</tt></b> </TD><TD ALIGN=RIGHT> <tt><a href="xvg.html"> tablep.xvg</a></tt> </TD><TD> Input, Opt. </TD><TD> xvgr/xmgr file </TD></TR>
77 <TR><TD ALIGN=RIGHT> <b><tt>-tableb</tt></b> </TD><TD ALIGN=RIGHT> <tt><a href="xvg.html"> table.xvg</a></tt> </TD><TD> Input, Opt. </TD><TD> xvgr/xmgr file </TD></TR>
78 <TR><TD ALIGN=RIGHT> <b><tt>-rerun</tt></b> </TD><TD ALIGN=RIGHT> <tt><a href="files.html"> rerun.xtc</a></tt> </TD><TD> Input, Opt. </TD><TD> Trajectory: <a href="xtc.html">xtc</a> <a href="trr.html">trr</a> <a href="trj.html">trj</a> <a href="gro.html">gro</a> <a href="g96.html">g96</a> <a href="pdb.html">pdb</a> cpt </TD></TR>
79 <TR><TD ALIGN=RIGHT> <b><tt>-tpi</tt></b> </TD><TD ALIGN=RIGHT> <tt><a href="xvg.html"> tpi.xvg</a></tt> </TD><TD> Output, Opt. </TD><TD> xvgr/xmgr file </TD></TR>
80 <TR><TD ALIGN=RIGHT> <b><tt>-tpid</tt></b> </TD><TD ALIGN=RIGHT> <tt><a href="xvg.html"> tpidist.xvg</a></tt> </TD><TD> Output, Opt. </TD><TD> xvgr/xmgr file </TD></TR>
81 <TR><TD ALIGN=RIGHT> <b><tt>-ei</tt></b> </TD><TD ALIGN=RIGHT> <tt><a href="edi.html"> sam.edi</a></tt> </TD><TD> Input, Opt. </TD><TD> ED sampling input </TD></TR>
82 <TR><TD ALIGN=RIGHT> <b><tt>-eo</tt></b> </TD><TD ALIGN=RIGHT> <tt><a href="xvg.html"> edsam.xvg</a></tt> </TD><TD> Output, Opt. </TD><TD> xvgr/xmgr file </TD></TR>
83 <TR><TD ALIGN=RIGHT> <b><tt>-j</tt></b> </TD><TD ALIGN=RIGHT> <tt><a href="gct.html"> wham.gct</a></tt> </TD><TD> Input, Opt. </TD><TD> General coupling stuff </TD></TR>
84 <TR><TD ALIGN=RIGHT> <b><tt>-jo</tt></b> </TD><TD ALIGN=RIGHT> <tt><a href="gct.html"> bam.gct</a></tt> </TD><TD> Output, Opt. </TD><TD> General coupling stuff </TD></TR>
85 <TR><TD ALIGN=RIGHT> <b><tt>-ffout</tt></b> </TD><TD ALIGN=RIGHT> <tt><a href="xvg.html"> gct.xvg</a></tt> </TD><TD> Output, Opt. </TD><TD> xvgr/xmgr file </TD></TR>
86 <TR><TD ALIGN=RIGHT> <b><tt>-devout</tt></b> </TD><TD ALIGN=RIGHT> <tt><a href="xvg.html">deviatie.xvg</a></tt> </TD><TD> Output, Opt. </TD><TD> xvgr/xmgr file </TD></TR>
87 <TR><TD ALIGN=RIGHT> <b><tt>-runav</tt></b> </TD><TD ALIGN=RIGHT> <tt><a href="xvg.html"> runaver.xvg</a></tt> </TD><TD> Output, Opt. </TD><TD> xvgr/xmgr file </TD></TR>
88 <TR><TD ALIGN=RIGHT> <b><tt>-px</tt></b> </TD><TD ALIGN=RIGHT> <tt><a href="xvg.html"> pullx.xvg</a></tt> </TD><TD> Output, Opt. </TD><TD> xvgr/xmgr file </TD></TR>
89 <TR><TD ALIGN=RIGHT> <b><tt>-pf</tt></b> </TD><TD ALIGN=RIGHT> <tt><a href="xvg.html"> pullf.xvg</a></tt> </TD><TD> Output, Opt. </TD><TD> xvgr/xmgr file </TD></TR>
90 <TR><TD ALIGN=RIGHT> <b><tt>-ro</tt></b> </TD><TD ALIGN=RIGHT> <tt><a href="xvg.html">rotation.xvg</a></tt> </TD><TD> Output, Opt. </TD><TD> xvgr/xmgr file </TD></TR>
91 <TR><TD ALIGN=RIGHT> <b><tt>-ra</tt></b> </TD><TD ALIGN=RIGHT> <tt><a href="log.html">rotangles.log</a></tt> </TD><TD> Output, Opt. </TD><TD> Log file </TD></TR>
92 <TR><TD ALIGN=RIGHT> <b><tt>-rs</tt></b> </TD><TD ALIGN=RIGHT> <tt><a href="log.html">rotslabs.log</a></tt> </TD><TD> Output, Opt. </TD><TD> Log file </TD></TR>
93 <TR><TD ALIGN=RIGHT> <b><tt>-rt</tt></b> </TD><TD ALIGN=RIGHT> <tt><a href="log.html">rottorque.log</a></tt> </TD><TD> Output, Opt. </TD><TD> Log file </TD></TR>
94 <TR><TD ALIGN=RIGHT> <b><tt>-mtx</tt></b> </TD><TD ALIGN=RIGHT> <tt><a href="mtx.html"> nm.mtx</a></tt> </TD><TD> Output, Opt. </TD><TD> Hessian matrix </TD></TR>
95 <TR><TD ALIGN=RIGHT> <b><tt>-dn</tt></b> </TD><TD ALIGN=RIGHT> <tt><a href="ndx.html"> dipole.ndx</a></tt> </TD><TD> Output, Opt. </TD><TD> Index file </TD></TR>
96 <TR><TD ALIGN=RIGHT> <b><tt>-bo</tt></b> </TD><TD ALIGN=RIGHT> <tt><a href="files.html"> bench.trr</a></tt> </TD><TD> Output </TD><TD> Full precision trajectory: <a href="trr.html">trr</a> <a href="trj.html">trj</a> cpt </TD></TR>
97 <TR><TD ALIGN=RIGHT> <b><tt>-bx</tt></b> </TD><TD ALIGN=RIGHT> <tt><a href="xtc.html"> bench.xtc</a></tt> </TD><TD> Output </TD><TD> Compressed trajectory (portable xdr format) </TD></TR>
98 <TR><TD ALIGN=RIGHT> <b><tt>-bcpo</tt></b> </TD><TD ALIGN=RIGHT> <tt><a href="cpt.html"> bench.cpt</a></tt> </TD><TD> Output </TD><TD> Checkpoint file </TD></TR>
99 <TR><TD ALIGN=RIGHT> <b><tt>-bc</tt></b> </TD><TD ALIGN=RIGHT> <tt><a href="files.html"> bench.gro</a></tt> </TD><TD> Output </TD><TD> Structure file: <a href="gro.html">gro</a> <a href="g96.html">g96</a> <a href="pdb.html">pdb</a> etc. </TD></TR>
100 <TR><TD ALIGN=RIGHT> <b><tt>-be</tt></b> </TD><TD ALIGN=RIGHT> <tt><a href="edr.html"> bench.edr</a></tt> </TD><TD> Output </TD><TD> Energy file </TD></TR>
101 <TR><TD ALIGN=RIGHT> <b><tt>-bg</tt></b> </TD><TD ALIGN=RIGHT> <tt><a href="log.html"> bench.log</a></tt> </TD><TD> Output </TD><TD> Log file </TD></TR>
102 <TR><TD ALIGN=RIGHT> <b><tt>-beo</tt></b> </TD><TD ALIGN=RIGHT> <tt><a href="xvg.html">benchedo.xvg</a></tt> </TD><TD> Output, Opt. </TD><TD> xvgr/xmgr file </TD></TR>
103 <TR><TD ALIGN=RIGHT> <b><tt>-bdhdl</tt></b> </TD><TD ALIGN=RIGHT> <tt><a href="xvg.html">benchdhdl.xvg</a></tt> </TD><TD> Output, Opt. </TD><TD> xvgr/xmgr file </TD></TR>
104 <TR><TD ALIGN=RIGHT> <b><tt>-bfield</tt></b> </TD><TD ALIGN=RIGHT> <tt><a href="xvg.html">benchfld.xvg</a></tt> </TD><TD> Output, Opt. </TD><TD> xvgr/xmgr file </TD></TR>
105 <TR><TD ALIGN=RIGHT> <b><tt>-btpi</tt></b> </TD><TD ALIGN=RIGHT> <tt><a href="xvg.html">benchtpi.xvg</a></tt> </TD><TD> Output, Opt. </TD><TD> xvgr/xmgr file </TD></TR>
106 <TR><TD ALIGN=RIGHT> <b><tt>-btpid</tt></b> </TD><TD ALIGN=RIGHT> <tt><a href="xvg.html">benchtpid.xvg</a></tt> </TD><TD> Output, Opt. </TD><TD> xvgr/xmgr file </TD></TR>
107 <TR><TD ALIGN=RIGHT> <b><tt>-bjo</tt></b> </TD><TD ALIGN=RIGHT> <tt><a href="gct.html"> bench.gct</a></tt> </TD><TD> Output, Opt. </TD><TD> General coupling stuff </TD></TR>
108 <TR><TD ALIGN=RIGHT> <b><tt>-bffout</tt></b> </TD><TD ALIGN=RIGHT> <tt><a href="xvg.html">benchgct.xvg</a></tt> </TD><TD> Output, Opt. </TD><TD> xvgr/xmgr file </TD></TR>
109 <TR><TD ALIGN=RIGHT> <b><tt>-bdevout</tt></b> </TD><TD ALIGN=RIGHT> <tt><a href="xvg.html">benchdev.xvg</a></tt> </TD><TD> Output, Opt. </TD><TD> xvgr/xmgr file </TD></TR>
110 <TR><TD ALIGN=RIGHT> <b><tt>-brunav</tt></b> </TD><TD ALIGN=RIGHT> <tt><a href="xvg.html">benchrnav.xvg</a></tt> </TD><TD> Output, Opt. </TD><TD> xvgr/xmgr file </TD></TR>
111 <TR><TD ALIGN=RIGHT> <b><tt>-bpx</tt></b> </TD><TD ALIGN=RIGHT> <tt><a href="xvg.html"> benchpx.xvg</a></tt> </TD><TD> Output, Opt. </TD><TD> xvgr/xmgr file </TD></TR>
112 <TR><TD ALIGN=RIGHT> <b><tt>-bpf</tt></b> </TD><TD ALIGN=RIGHT> <tt><a href="xvg.html"> benchpf.xvg</a></tt> </TD><TD> Output, Opt. </TD><TD> xvgr/xmgr file </TD></TR>
113 <TR><TD ALIGN=RIGHT> <b><tt>-bro</tt></b> </TD><TD ALIGN=RIGHT> <tt><a href="xvg.html">benchrot.xvg</a></tt> </TD><TD> Output, Opt. </TD><TD> xvgr/xmgr file </TD></TR>
114 <TR><TD ALIGN=RIGHT> <b><tt>-bra</tt></b> </TD><TD ALIGN=RIGHT> <tt><a href="log.html">benchrota.log</a></tt> </TD><TD> Output, Opt. </TD><TD> Log file </TD></TR>
115 <TR><TD ALIGN=RIGHT> <b><tt>-brs</tt></b> </TD><TD ALIGN=RIGHT> <tt><a href="log.html">benchrots.log</a></tt> </TD><TD> Output, Opt. </TD><TD> Log file </TD></TR>
116 <TR><TD ALIGN=RIGHT> <b><tt>-brt</tt></b> </TD><TD ALIGN=RIGHT> <tt><a href="log.html">benchrott.log</a></tt> </TD><TD> Output, Opt. </TD><TD> Log file </TD></TR>
117 <TR><TD ALIGN=RIGHT> <b><tt>-bmtx</tt></b> </TD><TD ALIGN=RIGHT> <tt><a href="mtx.html"> benchn.mtx</a></tt> </TD><TD> Output, Opt. </TD><TD> Hessian matrix </TD></TR>
118 <TR><TD ALIGN=RIGHT> <b><tt>-bdn</tt></b> </TD><TD ALIGN=RIGHT> <tt><a href="ndx.html"> bench.ndx</a></tt> </TD><TD> Output, Opt. </TD><TD> Index file </TD></TR>
119 </TABLE>
120 <P>
124 <TR><TD ALIGN=RIGHT> <b><tt>-[no]h</tt></b> </TD><TD ALIGN=RIGHT> bool </TD><TD ALIGN=RIGHT> <tt>no </tt> </TD><TD> Print help info and quit </TD></TD>
125 <TR><TD ALIGN=RIGHT> <b><tt>-[no]version</tt></b> </TD><TD ALIGN=RIGHT> bool </TD><TD ALIGN=RIGHT> <tt>no </tt> </TD><TD> Print version info and quit </TD></TD>
126 <TR><TD ALIGN=RIGHT> <b><tt>-nice</tt></b> </TD><TD ALIGN=RIGHT> int </TD><TD ALIGN=RIGHT> <tt>0</tt> </TD><TD> Set the nicelevel </TD></TD>
127 <TR><TD ALIGN=RIGHT> <b><tt>-xvg</tt></b> </TD><TD ALIGN=RIGHT> enum </TD><TD ALIGN=RIGHT> <tt>xmgrace</tt> </TD><TD> <a href="xvg.html">xvg</a> plot formatting: <tt>xmgrace</tt>, <tt>xmgr</tt> or <tt>none</tt> </TD></TD>
128 <TR><TD ALIGN=RIGHT> <b><tt>-np</tt></b> </TD><TD ALIGN=RIGHT> int </TD><TD ALIGN=RIGHT> <tt>1</tt> </TD><TD> Number of nodes to run the tests on (must be > 2 for separate PME nodes) </TD></TD>
129 <TR><TD ALIGN=RIGHT> <b><tt>-npstring</tt></b> </TD><TD ALIGN=RIGHT> enum </TD><TD ALIGN=RIGHT> <tt>-np</tt> </TD><TD> Specify the number of processors to <tt>$MPIRUN</tt> using this string: <tt>-np</tt>, <tt>-n</tt> or <tt>none</tt> </TD></TD>
130 <TR><TD ALIGN=RIGHT> <b><tt>-ntmpi</tt></b> </TD><TD ALIGN=RIGHT> int </TD><TD ALIGN=RIGHT> <tt>1</tt> </TD><TD> Number of MPI-threads to run the tests on (turns MPI & mpirun off) </TD></TD>
131 <TR><TD ALIGN=RIGHT> <b><tt>-r</tt></b> </TD><TD ALIGN=RIGHT> int </TD><TD ALIGN=RIGHT> <tt>2</tt> </TD><TD> Repeat each test this often </TD></TD>
132 <TR><TD ALIGN=RIGHT> <b><tt>-max</tt></b> </TD><TD ALIGN=RIGHT> real </TD><TD ALIGN=RIGHT> <tt>0.5 </tt> </TD><TD> Max fraction of PME nodes to test with </TD></TD>
133 <TR><TD ALIGN=RIGHT> <b><tt>-min</tt></b> </TD><TD ALIGN=RIGHT> real </TD><TD ALIGN=RIGHT> <tt>0.25 </tt> </TD><TD> Min fraction of PME nodes to test with </TD></TD>
134 <TR><TD ALIGN=RIGHT> <b><tt>-npme</tt></b> </TD><TD ALIGN=RIGHT> enum </TD><TD ALIGN=RIGHT> <tt>auto</tt> </TD><TD> Within -min and -max, benchmark all possible values for <tt>-npme</tt>, or just a reasonable subset. Auto neglects -min and -max and chooses reasonable values around a guess for npme derived from the .<a href="tpr.html">tpr</a>: <tt>auto</tt>, <tt>all</tt> or <tt>subset</tt> </TD></TD>
135 <TR><TD ALIGN=RIGHT> <b><tt>-fix</tt></b> </TD><TD ALIGN=RIGHT> int </TD><TD ALIGN=RIGHT> <tt>-2</tt> </TD><TD> If >= -1, do not vary the number of PME-only nodes, instead use this fixed value and only vary rcoulomb and the PME grid spacing. </TD></TD>
136 <TR><TD ALIGN=RIGHT> <b><tt>-rmax</tt></b> </TD><TD ALIGN=RIGHT> real </TD><TD ALIGN=RIGHT> <tt>0 </tt> </TD><TD> If >0, maximal rcoulomb for -ntpr>1 (rcoulomb upscaling results in fourier grid downscaling) </TD></TD>
137 <TR><TD ALIGN=RIGHT> <b><tt>-rmin</tt></b> </TD><TD ALIGN=RIGHT> real </TD><TD ALIGN=RIGHT> <tt>0 </tt> </TD><TD> If >0, minimal rcoulomb for -ntpr>1 </TD></TD>
138 <TR><TD ALIGN=RIGHT> <b><tt>-[no]scalevdw</tt></b> </TD><TD ALIGN=RIGHT> bool </TD><TD ALIGN=RIGHT> <tt>yes </tt> </TD><TD> Scale rvdw along with rcoulomb </TD></TD>
139 <TR><TD ALIGN=RIGHT> <b><tt>-ntpr</tt></b> </TD><TD ALIGN=RIGHT> int </TD><TD ALIGN=RIGHT> <tt>0</tt> </TD><TD> Number of <tt>.<a href="tpr.html">tpr</a></tt> files to benchmark. Create this many files with different rcoulomb scaling factors depending on -rmin and -rmax. If < 1, automatically choose the number of <tt>.<a href="tpr.html">tpr</a></tt> files to test </TD></TD>
140 <TR><TD ALIGN=RIGHT> <b><tt>-steps</tt></b> </TD><TD ALIGN=RIGHT> step </TD><TD ALIGN=RIGHT> <tt>1000</tt> </TD><TD> Take timings for this many steps in the benchmark runs </TD></TD>
141 <TR><TD ALIGN=RIGHT> <b><tt>-resetstep</tt></b> </TD><TD ALIGN=RIGHT> int </TD><TD ALIGN=RIGHT> <tt>100</tt> </TD><TD> Let dlb equilibrate this many steps before timings are taken (reset cycle counters after this many steps) </TD></TD>
142 <TR><TD ALIGN=RIGHT> <b><tt>-simsteps</tt></b> </TD><TD ALIGN=RIGHT> step </TD><TD ALIGN=RIGHT> <tt>-1</tt> </TD><TD> If non-negative, perform this many steps in the real run (overwrites nsteps from <tt>.<a href="tpr.html">tpr</a></tt>, add <tt>.cpt</tt> steps) </TD></TD>
143 <TR><TD ALIGN=RIGHT> <b><tt>-[no]launch</tt></b> </TD><TD ALIGN=RIGHT> bool </TD><TD ALIGN=RIGHT> <tt>no </tt> </TD><TD> Launch the real simulation after optimization </TD></TD>
144 <TR><TD ALIGN=RIGHT> <b><tt>-[no]bench</tt></b> </TD><TD ALIGN=RIGHT> bool </TD><TD ALIGN=RIGHT> <tt>yes </tt> </TD><TD> Run the benchmarks or just create the input <tt>.<a href="tpr.html">tpr</a></tt> files? </TD></TD>
145 <TR><TD ALIGN=RIGHT> <b><tt>-[no]append</tt></b> </TD><TD ALIGN=RIGHT> bool </TD><TD ALIGN=RIGHT> <tt>yes </tt> </TD><TD> Append to previous output files when continuing from checkpoint instead of adding the simulation part number to all file names (for launch only) </TD></TD>
146 <TR><TD ALIGN=RIGHT> <b><tt>-[no]cpnum</tt></b> </TD><TD ALIGN=RIGHT> bool </TD><TD ALIGN=RIGHT> <tt>no </tt> </TD><TD> Keep and number checkpoint files (launch only) </TD></TD>
147 </TABLE>
148 <P>
149 <hr>
153 </div>
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