pcg

Syntax

x = pcg(A,b)

x = pcg(A,b,rtol)

x = pcg(A,b,rtol,maxit)

x = pcg(A,b,rtol,maxit,M1)

x = pcg(A,b,rtol,maxit,M1,M2)

x = pcg(A,b,rtol,maxit,M1,M2,x0)

[x, iflag, relres, iter, resvec] = pcg(...)

Inputs

A

The left-hand side matrix, or a function name or handle to generate A*x. The matrix should be symmetric positive definite.

b

The right-hand side vector.

Dimension: vector

rtol

The relative convergerce tolerance (default: 1.0e-6).

Type: double

Dimension: scalar

maxit

The maximum number of iterations (default: min(size(b, 1), 20)).

Type: integer

Dimension: scalar

M1

The left preconditioner matrix, or a function name or handle to generate M1\x. (default: none or [])

Dimension: matrix

M2

The right preconditioner matrix, or a function name or handle to generate M2\x. (default: none or [])

x0

The initial estimate of the solution (default: zeroes(length(b),1)).

Dimension: vector

Outputs

x

The solution vector.

iflag

The termination status.

iflag = 0:

The algorithm converged within the allowed tolerance and number of iterations.

iflag = 1:

The algorithm completed the allowed iterations without converging.

iflag = 2:

A preconditioner matrix was singular.

iflag = 3:

The algorithm converged, but not at a solution due to stagnation.

iflag = 4:

The algorithm stopped because behavior indicates that A is not positive definite.

relres

The magnitude of the residual relative to norm(b).

iter

The number of iterations performed.

resvec

The residual vector.

Example

Case using a function handle for A and a left preconditioner.

M = [1, 2, 0; 4, 5, 6; 0, 8, 9];
A = M' * M;
b = [1; 2; 3];
tol = 0.0001;
max_it = 5;
M1 = diag(diag(A));
M2 = [];
x0 = [];
Ahandle = @(x) A * x;
[x, iflag, relres, iter, resvec] = pcg(Ahandle, b, tol, max_it, M1, M2, x0)

x = [Matrix] 3 x 1
 0.04640
-0.16320
 0.15840
iflag = 0
relres = 1.04715e-12
iter = 4
resvec = [Matrix] 4 x 2
6.50672e+01  7.12665e+00
1.00361e+00  1.07263e-01
9.39820e-01  1.25481e-01
3.91807e-12  4.26115e-13