spBiconjGradSol#
Purpose#
Attempts to solve the system of linear equations \(Ax = b\) using the biconjugate gradient method where A is a sparse matrix.
Format#
- x = spBiconjGradSol(a, b, epsilon, maxit)#
- Parameters:
a (sparse matrix) – NxN sparse matrix.
b (vector) – Nx1 dense vector
epsilon (scalar) – Method tolerance: If epsilon is set to 0, the default tolerance is set to 1e-6.
maxit (scalar) – Maximum number of iterations. If maxit is set to 0, the default setting is 300 iterations.
- Returns:
x (Nx1 dense vector) – dense matrix, solution of the system of linear equations \(Ax = b\).
Examples#
nz = { 33.446 82.641 -12.710 -25.062 0.000,
0.000 -26.386 17.016 21.576 -45.273,
0.000 -42.331 -47.902 0.000 0.000,
0.000 -26.517 -22.135 -76.827 31.920,
10.364 -29.843 -20.277 0.000 65.816 };
b = { 10.349,
-3.117,
4.240,
0.013,
2.115 };
sparse matrix a;
a = densetosp(nz, 0);
// Setting the third and fourth arguments to 0 employs the
// default tolerance and maxit settings
x = spBiconjGradSol(a, b, 0, 0);
// Solve the system of equations using the '/' operator for
// comparison
x2 = b/a;
The output from the above code:
0.135
0.055
x = -0.137
0.018
-0.006
0.135
0.055
x2 = -0.137
0.018
-0.006
Remarks#
If convergence is not reached within the maximum number of iterations
allowed, the function will either terminate the program with an error
message or return an error code which can be tested for with the scalerr()
function. This depends on the trap state as follows:
|
return error code: 60 |
|
terminate with error message: Unable to converge in allowed number of iterations. |
If matrix A is not well conditioned use the / operator to perform the
solve. If the matrix is symmetric, spConjGradSol() will be approximately
twice as fast as spBiconjGradSol().
See also
Functions spConjGradSol()