Provided by: coinor-cbc_2.10.10+really2.10.10+ds1-3_amd64 bug

NAME

       cbc - Cbc mixed integer programming solver

SYNOPSIS

       cbc [ options ] filename
       cbc [ commands ]

DESCRIPTION

       This manual page documents briefly the cbc command.

       cbc  --  Cbc  (Coin-or  branch and cut) is an open-source mixed integer programming solver
       written in C++.

OPTIONS

       When no options are given cbc enters the interactive command  line  mode.   Otherwise  the
       program  enters a batch mode, for which a summary of options is included below.  Note that
       the order of options in the command line of the cbc executable matter The command line  of
       the  cbc executable is parsed as if it were in the interactive mode. The take-away is that
       if your using the command line, and things aren't working as you think  they  should,  try
       ordering the commands in the sequence you'd use if you were interactive mode.

       For a complete description, see /usr/share/doc/coinor-libcbc-doc.

       -      Read input from stdin instead of filename

       -csv   The  option "-csv <filename>" causes cbc to print one line of key output statics in
              comma separated format in a file named  <filename>.  This  option  isn't  currently
              included in the list of commands given by the "?" command in interactive mode.

       -threads <num_threads>
              Run cbc in parallel using <num_threads> many CPUs

INTERACTIVE MODE

       In interactive mode one command per line is expected (no leading -).

       ?      lists all available commands

       <command>?
              gives list of possibilities, if only one + explanation

       <command>??
              adds explanation, if only one fuller help

       <command>
              without value (where expected) gives current value

       <command> <value>
               sets value

AVAILABLE COMMANDS

       Double parameters:
              dualB(ound)  dualT(olerance)  primalT(olerance)  primalW(eight)

       Branch and Cut double parameters:
                allow(ableGap)  cuto(ff)  inc(rement)  inf(easibilityWeight)  integerT(olerance)
                preT(olerance)  ratio(Gap)  sec(onds)

       Integer parameters:
                cpp(Generate)  force(Solution)  idiot(Crash)  maxF(actor)  maxIt(erations)
                output(Format)  slog(Level)  sprint(Crash)

       Branch and Cut integer parameters:
                cutD(epth)  log(Level)  maxN(odes)  maxS(olutions)  passC(uts)
                passF(easibilityPump)       passT(reeCuts)      pumpT(une)      strong(Branching)
              trust(PseudoCosts)

       Keyword parameters:
                chol(esky)  crash  cross(over)  direction  dualP(ivot)
                error(sAllowed)  keepN(ames)  mess(ages)  perturb(ation)  presolve
                primalP(ivot)  printi(ngOptions)  scal(ing)

       Branch and Cut keyword parameters:
                clique(Cuts)  combine(Solutions)  cost(Strategy)  cuts(OnOff)  Dins
                DivingS(ome)      DivingC(oefficient)      DivingF(ractional)      DivingG(uided)
              DivingL(ineSearch)
                DivingP(seudoCost)    DivingV(ectorLength)    feas(ibilityPump)   flow(CoverCuts)
              gomory(Cuts)
                greedy(Heuristic)    heur(isticsOnOff)    knapsack(Cuts)     lift(AndProjectCuts)
              local(TreeSearch)
                mixed(IntegerRoundingCuts)      node(Strategy)      preprocess      probing(Cuts)
              reduce(AndSplitCuts)
                residual(CapacityCuts)  Rens  Rins  round(ingHeuristic)  sos(Options)
                two(MirCuts)

       Actions or string parameters:
                allS(lack)  barr(ier)  basisI(n)  basisO(ut)  directory
                dirSample  dirNetlib  dirMiplib  dualS(implex)  either(Simplex)
                end  exit  export  help  import
                initialS(olve)  max(imize)  min(imize)  netlib  netlibD(ual)
                netlibP(rimal)  netlibT(une)  primalS(implex)  printM(ask)  quit
                restore(Model)  saveM(odel)  saveS(olution)  solu(tion)  stat(istics)
                stop  unitTest  userClp

       Branch and Cut actions:
                branch(AndCut)  doH(euristic)  miplib  prio(rityIn)  solv(e)
                strengthen  userCbc

EXAMPLES

       cbc problem.mps

       cbc -thread 2 -import problem.mps -solve

SEE ALSO

       glpsol(1),dsdp5(1),clp(1)

       This program is fully documented in the accompanying html documentation which can be found
       in /usr/share/doc/coinor-libcbc-doc if the coinor-libcbc-doc package is installed.

AUTHOR

       cbc was written by John J. Forrest <jjforre@us.ibm.com> et.al.

       This  manual  page  was  written  by  Soeren Sonnenburg <sonne@debian.org>, for the Debian
       project (but may be used by others).

                                       September 1st, 2020                                 CBC(1)