The command-line tool provides an easy way to solve a model stored in
a file. The model can be stored in several different formats,
including MPS, REW, LP, and RLP, and the file can optionally be
7z. See the
File Format discussion for more
information on accepted formats.
The most basic command-line command is the following:
gurobi_cl model.mpsThis will read the model from the indicated file, optimize it, and display the Gurobi log file as the solve proceeds.
You can optionally include an arbitrary number of
parameter=value commands before the name of the file.
gurobi_cl Method=2 TimeLimit=100 model.mpsThe full set of Gurobi parameters is described in the Parameter section.
Gurobi Compute Server users can add the
to specify a server. For example, the command:
gurobi_cl --server=server1 Method=2 TimeLimit=100 model.mpswould solve the model stored in file
server1, assuming it is running Gurobi Compute Server. If the Compute Server has an access password, use the
--password=switch to specify it.
Gurobi Instant Cloud users can add the
--pool= switches to run a model on a
cloud instance. For example, the command:
gurobi_cl --accessid=0f5e0ace-f929-a919-82d5-02272b3b0e19 \ --secretkey=8EDZOIf7T9avp0ZHef9Tsw --pool=mypool model.mpswould solve the model stored in file
model.mpson cloud pool
mypoolusing the provided access ID and secret key. If the pool isn't currently active, it will launch it first.
While it is often useful to simply solve a model and display the log, it is also common to want to review the resulting solution. You can use the ResultFile parameter to write the solution to a file:
gurobi_cl ResultFile=model.sol model.mpsThe file name suffix determines the type of file written. Useful file formats for solution information are
.sol(for solution vectors) and
.bas(for simplex basis information). Again, you should consult the section on File Formats for a list of the supported formats
If you have an infeasible model, you may want to examine a
corresponding Irreducible Inconsistent Subsystem (IIS) to identify the
cause of the infeasibility. You can ask the command-line tool to
.ilp format file. It will attempt to solve the model,
and if the model is found to be infeasible, it will automatically
compute an IIS and write it to the requested file name.
An IIS is a subset of the constraints and variable bounds with the following properties:
- the subsystem represented by the IIS is infeasible, and
- if any of the constraints or bounds of the IIS is removed, the subsystem becomes feasible.
If an IIS computation is interrupted before completion, Gurobi will return the smallest IIS found to that point.
Another use of
ResultFile is to translate between file formats.
For example, if you want to translate a model from MPS format to LP
format, you could issue the following command:
gurobi_cl TimeLimit=0 ResultFile=model.lp model.mpsGurobi can write compressed files directly, so this command would also work (assuming that
7zipis installed on your machine):
gurobi_cl TimeLimit=0 ResultFile=model.lp.7z model.mps
ResultFile parameter works differently from other
parameters in the command-line interface. While a parameter normally
takes a single value, you can actually specify multiple result files.
For example, the following command:
gurobi_cl ResultFile=model.sol ResultFile=model.bas model.mpswill write two files.
You can use the InputFile
parameter to read input files during the optimization. The most
common input formats are
.bas (a simplex basis),
.sol (also a MIP start),
.hnt (MIP hints),
.ord (a MIP priority order).
For example, the following command:
gurobi_cl InputFile=model.bas model.mpswould start the optimization of the continuous model stored in file
model.mpsusing the basis provided in file
Reading input files is equivalent to setting the values of Gurobi
.bas file populates the
CBasis attributes, while a
file populates the BranchPriority
.sol file populates the
.hnt file populates the
Again, you should consult the File Formats section for more information on supported file formats