Using MATLAB with PETSc#

There are three basic ways to use MATLAB with PETSc:

  1. Dumping Data for MATLAB into files to be read into MATLAB,

  2. Sending Data to an Interactive MATLAB Session from a running PETSc program to a MATLAB process where you may interactively type MATLAB commands (or run scripts), and

  3. Using the MATLAB Compute Engine to send data back and forth between PETSc and MATLAB where MATLAB commands are issued, not interactively, but from a script or the PETSc program (this uses the MATLAB Engine).

For the latter two approaches one must ./configure PETSc with the argument --with-matlab [--with-matlab-dir=matlab_root_directory].

Dumping Data for MATLAB#

Dumping ASCII MATLAB data#

One can dump PETSc matrices and vectors to the screen in an ASCII format that MATLAB can read in directly. This is done with the command line options -vec_view ::ascii_matlab or -mat_view ::ascii_matlab. To write a file, use -vec_view :filename.m:ascii_matlab or -mat_view :filename.m:ascii_matlab.

This causes the PETSc program to print the vectors and matrices every time VecAssemblyEnd() or MatAssemblyEnd() are called. To provide finer control over when and what vectors and matrices are dumped one can use the VecView() and MatView() functions with a viewer type of PETSCVIEWERASCII (see PetscViewerASCIIOpen(), PETSC_VIEWER_STDOUT_WORLD, PETSC_VIEWER_STDOUT_SELF, or PETSC_VIEWER_STDOUT_(MPI_Comm)). Before calling the viewer set the output type with, for example,

The name of each PETSc variable printed for MATLAB may be set with

If no name is specified, the object is given a default name using PetscObjectName().

Dumping Binary Data for MATLAB#

One can also read PETSc binary files (see Viewers: Looking at PETSc Objects) directly into MATLAB via the scripts available in $PETSC_DIR/share/petsc/matlab. This requires less disk space and is recommended for all but the smallest data sizes. One can also use

to dump both a PETSc binary file and a corresponding .info file which PetscReadBinaryMatlab.m will use to format the binary file in more complex cases, such as using a DMDA. For an example, see DM Tutorial ex7. In MATLAB one may then generate a useful structure. For example:

setenv('PETSC_DIR','~/petsc');
setenv('PETSC_ARCH','arch-darwin-double-debug');
addpath('~/petsc/share/petsc/matlab');
gridData=PetscReadBinaryMatlab('output_file');

Sending Data to an Interactive MATLAB Session#

One creates a viewer to MATLAB via

PetscViewerSocketOpen(MPI_Comm,char *machine,int port,PetscViewer *v);

(port is usually set to PETSC_DEFAULT; use NULL for the machine if the MATLAB interactive session is running on the same machine as the PETSc program) and then sends matrices or vectors via

VecView(Vec A,v);
MatView(Mat B,v);

See Viewers: Looking at PETSc Objects for more on PETSc viewers. One may start the MATLAB program manually or use the PETSc command PetscStartMatlab(MPI_Comm,char *machine,char *script,FILE **fp); where machine and script may be NULL. It is also possible to start your PETSc program from MATLAB via launch().

To receive the objects in MATLAB, make sure that $PETSC_DIR/$PETSC_ARCH/lib/petsc/matlab and $PETSC_DIR/share/petsc/matlab are in the MATLAB path. Use p = PetscOpenSocket(); (or p = PetscOpenSocket(portnum) if you provided a port number in your call to PetscViewerSocketOpen()), and then a = PetscBinaryRead(p); returns the object passed from PETSc. PetscBinaryRead() may be called any number of times. Each call should correspond on the PETSc side with viewing a single vector or matrix. close() closes the connection from MATLAB. On the PETSc side, one should destroy the viewer object with PetscViewerDestroy().

For an example, which includes sending data back to PETSc, see Vec Tutorial ex42 and the associated .m file.

Using the MATLAB Compute Engine#

One creates access to the MATLAB engine via

where machine is the name of the machine hosting MATLAB (NULL may be used for localhost). One can send objects to MATLAB via

One can get objects via

Similarly, one can send arrays via

PetscMatlabEnginePutArray(PetscMatlabEngine e,int m,int n,PetscScalar *array,char *name);

and get them back via

PetscMatlabEngineGetArray(PetscMatlabEngine e,int m,int n,PetscScalar *array,char *name);

One cannot use MATLAB interactively in this mode but one can send MATLAB commands via

where format has the usual printf() format. For example,

PetscMatlabEngineEvaluate(PetscMatlabEngine,"x = \%g *y + z;",avalue);

The name of each PETSc variable passed to MATLAB may be set with

Text responses can be returned from MATLAB via

or

There is a short-cut to starting the MATLAB engine with PETSC_MATLAB_ENGINE_(MPI_Comm).

If you are running PETSc on a cluster (or machine) that does not have a license for MATLAB, you might be able to run MATLAB on the head node of the cluster or some other machine accessible to the cluster using the -matlab_engine_host hostname option.

Licensing the MATLAB Compute Engine on a cluster#

To activate MATLAB on head node which does not have access to the internet. [1]

First ssh into the head node using the command: ssh node_name

Obtain the Host Id using the command: ip addr | grep ether [2] You will see something like this: link/ether xx:xx:xx:xx:xx:xx ABC yy:yy:yy:yy:yy:yy Note the value: xx:xx:xx:xx:xx:xx

Login to your MathWorks Account from a computer which has internet access. You will see the available license that your account has. Select a license from the list.

../../_images/mathworks-account.png

Then, select Install and Activate option and select the Activate to Retrieve License File option.

../../_images/mathworks-account-2.png

Enter the information and click Continue.

../../_images/mathworks-account-3.png

An option to download the License file will appear. Download it and copy the license file to the cluster (your home directory). Now, launch MATLAB where you have sshed into your head node.

../../_images/mathworks-account-4.png

Select the Activate manually without the internet option and click Next >. Browse and locate the license file.

../../_images/mathworks-account-5.png

MATLAB is activated and ready to use.

Footnotes