f11 Chapter Contents
f11 Chapter Introduction
NAG Library Manual

# NAG Library Function Documentnag_sparse_herm_basic_diagnostic (f11gtc)

## 1  Purpose

nag_sparse_herm_basic_diagnostic (f11gtc) is the third in a suite of three functions for the iterative solution of a complex Hermitian system of simultaneous linear equations (see Golub and Van Loan (1996)). nag_sparse_herm_basic_diagnostic (f11gtc) returns information about the computations during an iteration and/or after this has been completed. The first function of the suite, nag_sparse_herm_basic_setup (f11grc), is a setup function, the second function, nag_sparse_herm_basic_solver (f11gsc) is the proper iterative solver.
These three functions are suitable for the solution of large sparse complex Hermitian systems of equations.

## 2  Specification

 #include #include
 void nag_sparse_herm_basic_diagnostic (Integer *itn, double *stplhs, double *stprhs, double *anorm, double *sigmax, Integer *its, double *sigerr, const Complex work[], Integer lwork, NagError *fail)

## 3  Description

nag_sparse_herm_basic_diagnostic (f11gtc) returns information about the solution process. It can be called both during a monitoring step of the solver nag_sparse_herm_basic_solver (f11gsc) or after this solver has completed its tasks. Calling nag_sparse_herm_basic_diagnostic (f11gtc) at any other time will result in an error condition being raised.
For further information you should read the documentation for nag_sparse_herm_basic_setup (f11grc) and nag_sparse_herm_basic_solver (f11gsc).

## 4  References

Golub G H and Van Loan C F (1996) Matrix Computations (3rd Edition) Johns Hopkins University Press, Baltimore

## 5  Arguments

1:     itnInteger *Output
On exit: the number of iterations carried out by nag_sparse_herm_basic_solver (f11gsc).
2:     stplhsdouble *Output
On exit: the current value of the left-hand side of the termination criterion used by nag_sparse_herm_basic_solver (f11gsc).
3:     stprhsdouble *Output
On exit: the current value of the right-hand side of the termination criterion used by nag_sparse_herm_basic_solver (f11gsc).
4:     anormdouble *Output
On exit: the norm ${‖A‖}_{1}={‖A‖}_{\infty }$ when either it has been supplied to nag_sparse_herm_basic_setup (f11grc) or it has been estimated by nag_sparse_herm_basic_solver (f11gsc) (see also Sections 3 and 5 in nag_sparse_herm_basic_setup (f11grc)). Otherwise, ${\mathbf{anorm}}=0.0$ is returned.
5:     sigmaxdouble *Output
On exit: the current estimate of the largest singular value ${\sigma }_{1}\left(\stackrel{-}{A}\right)$ of the preconditioned iteration matrix $\stackrel{-}{A}={E}^{-1}A{E}^{-\mathrm{H}}$, when either it has been supplied to nag_sparse_herm_basic_setup (f11grc) or it has been estimated by nag_sparse_herm_basic_solver (f11gsc) (see also Sections 3 and 5 in nag_sparse_herm_basic_setup (f11grc)). Note that if ${\mathbf{its}}<{\mathbf{itn}}$ then sigmax contains the final estimate. If, on final exit from nag_sparse_herm_basic_solver (f11gsc), ${\mathbf{its}}={\mathbf{itn}}$, then the estimation of ${\sigma }_{1}\left(\stackrel{-}{A}\right)$ may have not converged: in this case you should look at the value returned in sigerr. Otherwise, ${\mathbf{sigmax}}=0.0$ is returned.
6:     itsInteger *Output
On exit: the number of iterations employed so far in the computation of the estimate of ${\sigma }_{1}\left(\stackrel{-}{A}\right)$, the largest singular value of the preconditioned matrix $\stackrel{-}{A}={E}^{-1}A{E}^{-\mathrm{H}}$, when ${\sigma }_{1}\left(\stackrel{-}{A}\right)$ has been estimated by nag_sparse_herm_basic_solver (f11gsc) using the bisection method (see also Sections 35 and 9 in nag_sparse_herm_basic_setup (f11grc)). Otherwise, ${\mathbf{its}}=0$ is returned.
7:     sigerrdouble *Output
On exit: if ${\sigma }_{1}\left(\stackrel{-}{A}\right)$ has been estimated by nag_sparse_herm_basic_solver (f11gsc) using bisection,
 $sigerr=maxσ1k-σ1k-1σ1k,σ1k-σ1k-2σ1k ,$
where $k={\mathbf{its}}$ denotes the iteration number. The estimation has converged if ${\mathbf{sigerr}}\le {\mathbf{sigtol}}$ where sigtol is an input argument to nag_sparse_herm_basic_setup (f11grc). Otherwise, ${\mathbf{sigerr}}=0.0$ is returned.
8:     work[lwork]const ComplexCommunication Array
On entry: the array work as returned by nag_sparse_herm_basic_solver (f11gsc) (see also Section 3 in nag_sparse_herm_basic_solver (f11gsc)).
9:     lworkIntegerInput
On entry: the dimension of the array work (see also Section 5 in nag_sparse_herm_basic_setup (f11grc)).
Constraint: ${\mathbf{lwork}}\ge 120$.
Note:  although the minimum value of lwork ensures the correct functioning of nag_sparse_herm_basic_diagnostic (f11gtc), a larger value is required by the iterative solver nag_sparse_herm_basic_solver (f11gsc) (see also Section 5 in nag_sparse_herm_basic_setup (f11grc)).
10:   failNagError *Input/Output
The NAG error argument (see Section 3.6 in the Essential Introduction).

## 6  Error Indicators and Warnings

On entry, argument $⟨\mathit{\text{value}}⟩$ had an illegal value.
NE_INT
On entry, ${\mathbf{lwork}}=⟨\mathit{\text{value}}⟩$.
Constraint: ${\mathbf{lwork}}\ge 120$.
NE_INTERNAL_ERROR
An internal error has occurred in this function. Check the function call and any array sizes. If the call is correct then please contact NAG for assistance.
NE_OUT_OF_SEQUENCE
nag_sparse_herm_basic_diagnostic (f11gtc) has been called out of sequence.

Not applicable.

Not applicable.