SPARSE is a directory of MATLAB programs which demonstrate the use of the MATLAB "sparse" function for creating a sparse matrix.
MATLAB provides a sparse function of the form
matrix = sparse ( i, j, s, m, n, nz_max )This function can be used to create a sparse matrix. The input arguments have the following meaning:
Although this is not the usual way to use the sparse command, the following example should help to understand what is going on. We mean to define the following matrix:
11 12 0 0 15 0 22 23 0 0 31 0 33 34 35by the following MATLAB commands:
i = [ 1, 1, 1, 2, 2, 3, 3, 3, 3 ]; j = [ 1, 2, 5, 2, 3, 1, 3, 4, 5 ]; s = [ 11, 12, 15, 22, 23, 31, 33, 34, 35 ]; m = 3; n = 5; nz_max = 9; a = sparse ( i, j, s, m, n, nz_max );
Of course, in many applications, the matrix data is only available one piece at a time, or has to be modified as you go. This is easy to do, as well. You can start by defining the matrix to be an "empty" sparse matrix of a particular size, as, for example:
i = []; j = []; s = []; m = 100; n = 100; a = sparse ( i, j, s, m, n );The matrix will be empty, and entries of the matrix are by default equal to zero. Then you can simply reference entries of the matrix as you need them. For instance,
a(1,1) = 3 a(3,8) = a(3,8) + 7 a(4,7) = a(9,5) + 2 * a(8,12) a(4,7) = a(4,7) + 1If you reference, on the right hand side of these equations, a matrix entry that doesn't exist, it is by default zero. If you assign a value on the left hand side to a matrix entry that doesn't exist, a space is created for it, and it is given this value. If the entry already existed, it is overwritten.
In some cases, Matlab's sparse matrix structure allows you to ignore the fact that you are using a sparse matrix. We have already seen that you can reference the (i,j) element of the matrix in the same way you would do for a full matrix, and this is true whether you are simply asking to "read" the current value of the element, or to "write" a new value for the element.
A particular example of this is the fact that you can solve a sparse linear system using the same "backslash" formula that you would use if the matrix were full:
x = A \ b;
Matlab includes many commands specifically for dealing with a sparse matrix. For our examples, we will be considering
Note that, in a sense, MATLAB actually uses two formats for sparse matrices. The user communicates with MATLAB by specifying what is known as a sparse triplet, that is, a set of row indices, column indices, and values. But internally, MATLAB uses what is known as the sparse compressed column format. This format allows MATLAB to access matrix entries rapidly.
For details about the sparse compressed column format, refer to the SPARSE_CC web page listed below.
CSPARSE, a C library which implements methods for the direct solution of sparse linear systems.
DLAP, a FORTRAN90 library which solves sparse linear systems.
FEM2D_HEAT_SPARSE, a MATLAB program which solves the time dependent heat equation in an arbitrary triangulated 2D region, using MATLAB's sparse matrix storage format and solver.
FEM2D_NAVIER_STOKES_SPARSE, a MATLAB program which solves the steady (time independent) incompressible Navier Stokes equations on an arbitrary triangulated region, using the finite element method and MATLAB's sparse facility.
FEM2D_POISSON_SPARSE, a MATLAB program which solves the steady (time independent) Poisson equation on an arbitrary 2D triangulated region using MATLAB's sparse solver.
FEM2D_STOKES_SPARSE, a MATLAB program which solves the steady (time independent) incompressible Stokes equations on an arbitrary triangulated region, using the finite element method and MATLAB's sparse facility.
FEM2D_STOKES_SPARSE_BIG_CAVITY, a MATLAB library which contains the user-supplied routines necessary to run fem2d_stokes_sparse on the "big cavity" problem.
HB_IO, a MATLAB library which reads and writes sparse linear systems stored in the Harwell-Boeing (HB) Sparse Matrix format.
HB_TO_MSM, a MATLAB program which converts a Harwell Boeing (HB) sparse matrix file to a MATLAB sparse matrix.
HB_TO_ST, a MATLAB program which converts the sparse matrix information stored in a Harwell Boeing (HB) file into a Sparse Triplet (ST) file.
LINPLUS, a MATLAB library which carries out linear algebra operations, which includes a set of operations for matrices in the "DCC" format, a format which is equivalent to MATLAB's sparse format.
MM_IO, a MATLAB library which reads and writes sparse linear systems stored in the Matrix Market format.
MSM_TO_HB, a MATLAB program which converts a MATLAB sparse matrix into a Harwell Boeing (HB) file.
NSASM, a C library which is intended to be used with a MATLAB calling program, and which sets up the sparse matrix needed for a Newton iteration to solve a finite element formulation of the steady incompressible 2D Navier Stokes equations.
SPARSE_CC, a data directory which contains examples of the sparse "compressed column" structure, equivalent to MATLAB's sparse format, and a file format suitable for storing such information.
SPARSE_CR, a data directory which contains a description and examples of the CR format, ("compressed row") for storing a sparse matrix, including a way to write the matrix as a set of three files.
SPARSE_PARFOR, a MATLAB library which demonstrates how a sparse matrix can be constructed by evaluating individual blocks in parallel with the parfor command, and then assembled (on a single processor) using the sparse() command.
SPARSEKIT, a FORTRAN90 library which carries out sparse matrix operations, by Yousef Saad.
SPARSEPAK, a FORTRAN90 library which forms an obsolete version of the Waterloo Sparse Matrix Package.
ST, a data directory which contains examples of the "sparse triplet" format for storing sparse matrices. This format is equivalent to the form in which sparse matrix data is passed into MATLAB's sparse command (although the sparse compressed column format is used internally).
TEMPLATES, a MATLAB library which carries out the iterative solution of linear systems. It includes a routine mm_to_msm which can read a Matrix Market file and store it as a MATLAB sparse matrix.
You can go up one level to the MATLAB source codes.