f08fl: FL CL CPP AD

NAG CL Interface
f08flc (ddisna)

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NAG Library Manual, Mark 28.3

Interfaces: FL CL CPP AD

NAG CL Interface Introduction

F08 (Lapackeig) Chapter Contents

F08 (Lapackeig) Chapter Introduction

f08fl: FL CL CPP AD

▸▿ Contents

1 Purpose

2 Specification

3 Description

4 References

5 Arguments

6 Error Indicators and Warnings

7 Accuracy

8 Parallelism and Performance

9 Further Comments

10 Example

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1 Purpose

f08flc computes the reciprocal condition numbers for the eigenvectors of a real symmetric or complex Hermitian

m \times m

matrix

A

, or for the left or right singular vectors of a general

m \times n

matrix

A

2 Specification

#include <nag.h>

void	f08flc (Nag_JobType job, Integer m, Integer n, const double d[], double sep[], NagError *fail)

The function may be called by the names: f08flc, nag_lapackeig_ddisna or nag_ddisna.

3 Description

The bound on the error, measured by the angle in radians, for the

i

th computed vector is given by

ε {‖ A ‖}_{2} / {sep}_{i}

, where

ε

is the machine precision and

{sep}_{i}

is the reciprocal condition number for the vectors, returned in the array element

sep [i - 1]

sep [i - 1]

is restricted to be at least

ε {‖ A ‖}_{2}

in order to limit the size of the error bound.

4 References

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

5 Arguments

1: $job$ – Nag_JobType Input

On entry: specifies for which problem the reciprocal condition number should be computed.

$job = Nag_EigVecs$: The eigenvectors of a symmetric or Hermitian matrix.
$job = Nag_LeftSingVecs$: The left singular vectors of a general matrix.
$job = Nag_RightSingVecs$: The right singular vectors of a general matrix.

Constraint:

job = Nag_EigVecs

Nag_LeftSingVecs

Nag_RightSingVecs

2: $m$ – Integer Input

On entry:

m

, the number of rows of the matrix

A

Constraint:

m \geq 0

3: $n$ – Integer Input

On entry:

n

, the number of columns of the matrix when

job = Nag_LeftSingVecs

Nag_RightSingVecs

job = Nag_EigVecs

, n is not referenced.

Constraint: if

job = Nag_LeftSingVecs

Nag_RightSingVecs

n \geq 0

4: $d [\dim]$ – const double Input

Note: the dimension, dim, of the array d must be at least

$\max (1, m)$ when $job = Nag_EigVecs$ ;
$\max (1, \min (m, n))$ when $job = Nag_LeftSingVecs$ or $Nag_RightSingVecs$ .

On entry: the eigenvalues if

job = Nag_EigVecs

, or singular values if

job = Nag_LeftSingVecs

Nag_RightSingVecs

of the matrix

A

Constraints:

the elements of the array d must be in either increasing or decreasing order;
if $job = Nag_LeftSingVecs$ or $Nag_RightSingVecs$ the elements of d must be non-negative.

5: $sep [\dim]$ – double Output

Note: the dimension, dim, of the array sep must be at least

$\max (1, m)$ when $job = Nag_EigVecs$ ;
$\max (1, \min (m, n))$ when $job = Nag_LeftSingVecs$ or $Nag_RightSingVecs$ .

On exit: the reciprocal condition numbers of the vectors.

6: $fail$ – NagError * Input/Output

The NAG error argument (see Section 7 in the Introduction to the NAG Library CL Interface).

6 Error Indicators and Warnings

NE_ALLOC_FAIL: Dynamic memory allocation failed.
See Section 3.1.2 in the Introduction to the NAG Library CL Interface for further information.
NE_BAD_PARAM: On entry, argument $⟨ value ⟩$ had an illegal value.
NE_ENUM_INT: On entry, $job = ⟨ value ⟩$ and $n = ⟨ value ⟩$ .
Constraint: if $job = Nag_LeftSingVecs$ or $Nag_RightSingVecs$ , $n \geq 0$ .
NE_INT: On entry, $m = ⟨ value ⟩$ .
Constraint: $m \geq 0$ .
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.
See Section 7.5 in the Introduction to the NAG Library CL Interface for further information.
NE_NO_LICENCE: Your licence key may have expired or may not have been installed correctly.
See Section 8 in the Introduction to the NAG Library CL Interface for further information.
NE_NOT_MONOTONIC: Constraint: the elements of the array d must be in either increasing or decreasing order.
if $job = Nag_LeftSingVecs$ or $Nag_RightSingVecs$ the elements of d must be non-negative.

7 Accuracy

The reciprocal condition numbers are computed to machine precision relative to the size of the eigenvalues, or singular values.

8 Parallelism and Performance

f08flc is not threaded in any implementation.

9 Further Comments

f08flc may also be used towards computing error bounds for the eigenvectors of the generalized symmetric or Hermitian definite eigenproblem. See Golub and Van Loan (1996) for further details on the error bounds.

10 Example

The use of f08flc in computing error bounds for eigenvectors of the symmetric eigenvalue problem is illustrated in f08fac; its use in computing error bounds for singular vectors is illustrated in f08kbc; and its use in computing error bounds for eigenvectors of the generalized symmetric definite eigenvalue problem is illustrated in f08sac.

NAG Library Manual, Mark 28.3

Interfaces: FL CL CPP AD

NAG CL Interface Introduction

F08 (Lapackeig) Chapter Contents

F08 (Lapackeig) Chapter Introduction

f08fl: FL CL CPP AD

NAG CL Interfacef08flc (ddisna)

▸▿ Contents

1 Purpose

2 Specification

3 Description

4 References

5 Arguments

6 Error Indicators and Warnings

7 Accuracy

8 Parallelism and Performance

9 Further Comments

10 Example

NAG CL Interface
f08flc (ddisna)