blas

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Published: Mar 10, 2021 License: BSD-3-Clause Imports: 0 Imported by: 105

README

Gonum BLAS GoDoc

A collection of packages to provide BLAS functionality for the Go programming language

Installation

  go get gonum.org/v1/gonum/blas/...

Packages

blas

Defines BLAS API split in several interfaces.

blas/gonum

Go implementation of the BLAS API (incomplete, implements the float32 and float64 API).

blas/blas64 and blas/blas32

Wrappers for an implementation of the double (i.e., float64) and single (float32) precision real parts of the BLAS API.

package main

import (
	"fmt"

	"gonum.org/v1/gonum/blas/blas64"
)

func main() {
	v := blas64.Vector{Inc: 1, Data: []float64{1, 1, 1}}
	fmt.Println("v has length:", blas64.Nrm2(len(v.Data), v))
}
blas/cblas128 and blas/cblas64

Wrappers for an implementation of the double (i.e., complex128) and single (complex64) precision complex parts of the blas API.

Currently blas/cblas64 and blas/cblas128 require gonum.org/v1/netlib/blas.

Documentation

Overview

Package blas provides interfaces for the BLAS linear algebra standard.

All methods must perform appropriate parameter checking and panic if provided parameters that do not conform to the requirements specified by the BLAS standard.

Quick Reference Guide to the BLAS from http://www.netlib.org/lapack/lug/node145.html

This version is modified to remove the "order" option. All matrix operations are on row-order matrices.

Level 1 BLAS

        dim scalar vector   vector   scalars              5-element prefixes
                                                          struct

_rotg (                                      a, b )                S, D
_rotmg(                              d1, d2, a, b )                S, D
_rot  ( n,         x, incX, y, incY,               c, s )          S, D
_rotm ( n,         x, incX, y, incY,                      param )  S, D
_swap ( n,         x, incX, y, incY )                              S, D, C, Z
_scal ( n,  alpha, x, incX )                                       S, D, C, Z, Cs, Zd
_copy ( n,         x, incX, y, incY )                              S, D, C, Z
_axpy ( n,  alpha, x, incX, y, incY )                              S, D, C, Z
_dot  ( n,         x, incX, y, incY )                              S, D, Ds
_dotu ( n,         x, incX, y, incY )                              C, Z
_dotc ( n,         x, incX, y, incY )                              C, Z
__dot ( n,  alpha, x, incX, y, incY )                              Sds
_nrm2 ( n,         x, incX )                                       S, D, Sc, Dz
_asum ( n,         x, incX )                                       S, D, Sc, Dz
I_amax( n,         x, incX )                                       s, d, c, z

Level 2 BLAS

        options                   dim   b-width scalar matrix  vector   scalar vector   prefixes

_gemv (        trans,      m, n,         alpha, a, lda, x, incX, beta,  y, incY ) S, D, C, Z
_gbmv (        trans,      m, n, kL, kU, alpha, a, lda, x, incX, beta,  y, incY ) S, D, C, Z
_hemv ( uplo,                 n,         alpha, a, lda, x, incX, beta,  y, incY ) C, Z
_hbmv ( uplo,                 n, k,      alpha, a, lda, x, incX, beta,  y, incY ) C, Z
_hpmv ( uplo,                 n,         alpha, ap,     x, incX, beta,  y, incY ) C, Z
_symv ( uplo,                 n,         alpha, a, lda, x, incX, beta,  y, incY ) S, D
_sbmv ( uplo,                 n, k,      alpha, a, lda, x, incX, beta,  y, incY ) S, D
_spmv ( uplo,                 n,         alpha, ap,     x, incX, beta,  y, incY ) S, D
_trmv ( uplo, trans, diag,    n,                a, lda, x, incX )                 S, D, C, Z
_tbmv ( uplo, trans, diag,    n, k,             a, lda, x, incX )                 S, D, C, Z
_tpmv ( uplo, trans, diag,    n,                ap,     x, incX )                 S, D, C, Z
_trsv ( uplo, trans, diag,    n,                a, lda, x, incX )                 S, D, C, Z
_tbsv ( uplo, trans, diag,    n, k,             a, lda, x, incX )                 S, D, C, Z
_tpsv ( uplo, trans, diag,    n,                ap,     x, incX )                 S, D, C, Z

        options                   dim   scalar vector   vector   matrix  prefixes

_ger  (                    m, n, alpha, x, incX, y, incY, a, lda ) S, D
_geru (                    m, n, alpha, x, incX, y, incY, a, lda ) C, Z
_gerc (                    m, n, alpha, x, incX, y, incY, a, lda ) C, Z
_her  ( uplo,                 n, alpha, x, incX,          a, lda ) C, Z
_hpr  ( uplo,                 n, alpha, x, incX,          ap )     C, Z
_her2 ( uplo,                 n, alpha, x, incX, y, incY, a, lda ) C, Z
_hpr2 ( uplo,                 n, alpha, x, incX, y, incY, ap )     C, Z
_syr  ( uplo,                 n, alpha, x, incX,          a, lda ) S, D
_spr  ( uplo,                 n, alpha, x, incX,          ap )     S, D
_syr2 ( uplo,                 n, alpha, x, incX, y, incY, a, lda ) S, D
_spr2 ( uplo,                 n, alpha, x, incX, y, incY, ap )     S, D

Level 3 BLAS

        options                                 dim      scalar matrix  matrix  scalar matrix  prefixes

_gemm (             transA, transB,      m, n, k, alpha, a, lda, b, ldb, beta,  c, ldc ) S, D, C, Z
_symm ( side, uplo,                      m, n,    alpha, a, lda, b, ldb, beta,  c, ldc ) S, D, C, Z
_hemm ( side, uplo,                      m, n,    alpha, a, lda, b, ldb, beta,  c, ldc ) C, Z
_syrk (       uplo, trans,                  n, k, alpha, a, lda,         beta,  c, ldc ) S, D, C, Z
_herk (       uplo, trans,                  n, k, alpha, a, lda,         beta,  c, ldc ) C, Z
_syr2k(       uplo, trans,                  n, k, alpha, a, lda, b, ldb, beta,  c, ldc ) S, D, C, Z
_her2k(       uplo, trans,                  n, k, alpha, a, lda, b, ldb, beta,  c, ldc ) C, Z
_trmm ( side, uplo, transA,        diag, m, n,    alpha, a, lda, b, ldb )                S, D, C, Z
_trsm ( side, uplo, transA,        diag, m, n,    alpha, a, lda, b, ldb )                S, D, C, Z

Meaning of prefixes

S - float32	C - complex64
D - float64	Z - complex128

Matrix types

GE - GEneral 		GB - General Band
SY - SYmmetric 		SB - Symmetric Band 	SP - Symmetric Packed
HE - HErmitian 		HB - Hermitian Band 	HP - Hermitian Packed
TR - TRiangular 	TB - Triangular Band 	TP - Triangular Packed

Options

trans 	= NoTrans, Trans, ConjTrans
uplo 	= Upper, Lower
diag 	= Nonunit, Unit
side 	= Left, Right (A or op(A) on the left, or A or op(A) on the right)

For real matrices, Trans and ConjTrans have the same meaning. For Hermitian matrices, trans = Trans is not allowed. For complex symmetric matrices, trans = ConjTrans is not allowed.

Index

Constants

This section is empty.

Variables

This section is empty.

Functions

This section is empty.

Types

type Complex128

type Complex128 interface {
	Complex128Level1
	Complex128Level2
	Complex128Level3
}

Complex128 implements the double precision complex BLAS routines.

type Complex128Level1

type Complex128Level1 interface {
	Zdotu(n int, x []complex128, incX int, y []complex128, incY int) (dotu complex128)
	Zdotc(n int, x []complex128, incX int, y []complex128, incY int) (dotc complex128)
	Dznrm2(n int, x []complex128, incX int) float64
	Dzasum(n int, x []complex128, incX int) float64
	Izamax(n int, x []complex128, incX int) int
	Zswap(n int, x []complex128, incX int, y []complex128, incY int)
	Zcopy(n int, x []complex128, incX int, y []complex128, incY int)
	Zaxpy(n int, alpha complex128, x []complex128, incX int, y []complex128, incY int)
	Zscal(n int, alpha complex128, x []complex128, incX int)
	Zdscal(n int, alpha float64, x []complex128, incX int)
}

Complex128Level1 implements the double precision complex BLAS Level 1 routines.

type Complex128Level2

type Complex128Level2 interface {
	Zgemv(tA Transpose, m, n int, alpha complex128, a []complex128, lda int, x []complex128, incX int, beta complex128, y []complex128, incY int)
	Zgbmv(tA Transpose, m, n int, kL int, kU int, alpha complex128, a []complex128, lda int, x []complex128, incX int, beta complex128, y []complex128, incY int)
	Ztrmv(ul Uplo, tA Transpose, d Diag, n int, a []complex128, lda int, x []complex128, incX int)
	Ztbmv(ul Uplo, tA Transpose, d Diag, n, k int, a []complex128, lda int, x []complex128, incX int)
	Ztpmv(ul Uplo, tA Transpose, d Diag, n int, ap []complex128, x []complex128, incX int)
	Ztrsv(ul Uplo, tA Transpose, d Diag, n int, a []complex128, lda int, x []complex128, incX int)
	Ztbsv(ul Uplo, tA Transpose, d Diag, n, k int, a []complex128, lda int, x []complex128, incX int)
	Ztpsv(ul Uplo, tA Transpose, d Diag, n int, ap []complex128, x []complex128, incX int)
	Zhemv(ul Uplo, n int, alpha complex128, a []complex128, lda int, x []complex128, incX int, beta complex128, y []complex128, incY int)
	Zhbmv(ul Uplo, n, k int, alpha complex128, a []complex128, lda int, x []complex128, incX int, beta complex128, y []complex128, incY int)
	Zhpmv(ul Uplo, n int, alpha complex128, ap []complex128, x []complex128, incX int, beta complex128, y []complex128, incY int)
	Zgeru(m, n int, alpha complex128, x []complex128, incX int, y []complex128, incY int, a []complex128, lda int)
	Zgerc(m, n int, alpha complex128, x []complex128, incX int, y []complex128, incY int, a []complex128, lda int)
	Zher(ul Uplo, n int, alpha float64, x []complex128, incX int, a []complex128, lda int)
	Zhpr(ul Uplo, n int, alpha float64, x []complex128, incX int, a []complex128)
	Zher2(ul Uplo, n int, alpha complex128, x []complex128, incX int, y []complex128, incY int, a []complex128, lda int)
	Zhpr2(ul Uplo, n int, alpha complex128, x []complex128, incX int, y []complex128, incY int, ap []complex128)
}

Complex128Level2 implements the double precision complex BLAS Level 2 routines.

type Complex128Level3

type Complex128Level3 interface {
	Zgemm(tA, tB Transpose, m, n, k int, alpha complex128, a []complex128, lda int, b []complex128, ldb int, beta complex128, c []complex128, ldc int)
	Zsymm(s Side, ul Uplo, m, n int, alpha complex128, a []complex128, lda int, b []complex128, ldb int, beta complex128, c []complex128, ldc int)
	Zsyrk(ul Uplo, t Transpose, n, k int, alpha complex128, a []complex128, lda int, beta complex128, c []complex128, ldc int)
	Zsyr2k(ul Uplo, t Transpose, n, k int, alpha complex128, a []complex128, lda int, b []complex128, ldb int, beta complex128, c []complex128, ldc int)
	Ztrmm(s Side, ul Uplo, tA Transpose, d Diag, m, n int, alpha complex128, a []complex128, lda int, b []complex128, ldb int)
	Ztrsm(s Side, ul Uplo, tA Transpose, d Diag, m, n int, alpha complex128, a []complex128, lda int, b []complex128, ldb int)
	Zhemm(s Side, ul Uplo, m, n int, alpha complex128, a []complex128, lda int, b []complex128, ldb int, beta complex128, c []complex128, ldc int)
	Zherk(ul Uplo, t Transpose, n, k int, alpha float64, a []complex128, lda int, beta float64, c []complex128, ldc int)
	Zher2k(ul Uplo, t Transpose, n, k int, alpha complex128, a []complex128, lda int, b []complex128, ldb int, beta float64, c []complex128, ldc int)
}

Complex128Level3 implements the double precision complex BLAS Level 3 routines.

type Complex64

type Complex64 interface {
	Complex64Level1
	Complex64Level2
	Complex64Level3
}

Complex64 implements the single precision complex BLAS routines.

type Complex64Level1

type Complex64Level1 interface {
	Cdotu(n int, x []complex64, incX int, y []complex64, incY int) (dotu complex64)
	Cdotc(n int, x []complex64, incX int, y []complex64, incY int) (dotc complex64)
	Scnrm2(n int, x []complex64, incX int) float32
	Scasum(n int, x []complex64, incX int) float32
	Icamax(n int, x []complex64, incX int) int
	Cswap(n int, x []complex64, incX int, y []complex64, incY int)
	Ccopy(n int, x []complex64, incX int, y []complex64, incY int)
	Caxpy(n int, alpha complex64, x []complex64, incX int, y []complex64, incY int)
	Cscal(n int, alpha complex64, x []complex64, incX int)
	Csscal(n int, alpha float32, x []complex64, incX int)
}

Complex64Level1 implements the single precision complex BLAS Level 1 routines.

type Complex64Level2

type Complex64Level2 interface {
	Cgemv(tA Transpose, m, n int, alpha complex64, a []complex64, lda int, x []complex64, incX int, beta complex64, y []complex64, incY int)
	Cgbmv(tA Transpose, m, n, kL, kU int, alpha complex64, a []complex64, lda int, x []complex64, incX int, beta complex64, y []complex64, incY int)
	Ctrmv(ul Uplo, tA Transpose, d Diag, n int, a []complex64, lda int, x []complex64, incX int)
	Ctbmv(ul Uplo, tA Transpose, d Diag, n, k int, a []complex64, lda int, x []complex64, incX int)
	Ctpmv(ul Uplo, tA Transpose, d Diag, n int, ap []complex64, x []complex64, incX int)
	Ctrsv(ul Uplo, tA Transpose, d Diag, n int, a []complex64, lda int, x []complex64, incX int)
	Ctbsv(ul Uplo, tA Transpose, d Diag, n, k int, a []complex64, lda int, x []complex64, incX int)
	Ctpsv(ul Uplo, tA Transpose, d Diag, n int, ap []complex64, x []complex64, incX int)
	Chemv(ul Uplo, n int, alpha complex64, a []complex64, lda int, x []complex64, incX int, beta complex64, y []complex64, incY int)
	Chbmv(ul Uplo, n, k int, alpha complex64, a []complex64, lda int, x []complex64, incX int, beta complex64, y []complex64, incY int)
	Chpmv(ul Uplo, n int, alpha complex64, ap []complex64, x []complex64, incX int, beta complex64, y []complex64, incY int)
	Cgeru(m, n int, alpha complex64, x []complex64, incX int, y []complex64, incY int, a []complex64, lda int)
	Cgerc(m, n int, alpha complex64, x []complex64, incX int, y []complex64, incY int, a []complex64, lda int)
	Cher(ul Uplo, n int, alpha float32, x []complex64, incX int, a []complex64, lda int)
	Chpr(ul Uplo, n int, alpha float32, x []complex64, incX int, a []complex64)
	Cher2(ul Uplo, n int, alpha complex64, x []complex64, incX int, y []complex64, incY int, a []complex64, lda int)
	Chpr2(ul Uplo, n int, alpha complex64, x []complex64, incX int, y []complex64, incY int, ap []complex64)
}

Complex64Level2 implements the single precision complex BLAS routines Level 2 routines.

type Complex64Level3

type Complex64Level3 interface {
	Cgemm(tA, tB Transpose, m, n, k int, alpha complex64, a []complex64, lda int, b []complex64, ldb int, beta complex64, c []complex64, ldc int)
	Csymm(s Side, ul Uplo, m, n int, alpha complex64, a []complex64, lda int, b []complex64, ldb int, beta complex64, c []complex64, ldc int)
	Csyrk(ul Uplo, t Transpose, n, k int, alpha complex64, a []complex64, lda int, beta complex64, c []complex64, ldc int)
	Csyr2k(ul Uplo, t Transpose, n, k int, alpha complex64, a []complex64, lda int, b []complex64, ldb int, beta complex64, c []complex64, ldc int)
	Ctrmm(s Side, ul Uplo, tA Transpose, d Diag, m, n int, alpha complex64, a []complex64, lda int, b []complex64, ldb int)
	Ctrsm(s Side, ul Uplo, tA Transpose, d Diag, m, n int, alpha complex64, a []complex64, lda int, b []complex64, ldb int)
	Chemm(s Side, ul Uplo, m, n int, alpha complex64, a []complex64, lda int, b []complex64, ldb int, beta complex64, c []complex64, ldc int)
	Cherk(ul Uplo, t Transpose, n, k int, alpha float32, a []complex64, lda int, beta float32, c []complex64, ldc int)
	Cher2k(ul Uplo, t Transpose, n, k int, alpha complex64, a []complex64, lda int, b []complex64, ldb int, beta float32, c []complex64, ldc int)
}

Complex64Level3 implements the single precision complex BLAS Level 3 routines.

type Diag

type Diag byte

Diag specifies whether a matrix is unit triangular.

const (
	NonUnit Diag = 'N'
	Unit    Diag = 'U'
)

type DrotmParams

type DrotmParams struct {
	Flag
	H [4]float64 // Column-major 2 by 2 matrix.
}

DrotmParams contains Givens transformation parameters returned by the Float64 Drotm method.

type Flag

type Flag int

Flag constants indicate Givens transformation H matrix state.

const (
	Identity    Flag = -2 // H is the identity matrix; no rotation is needed.
	Rescaling   Flag = -1 // H specifies rescaling.
	OffDiagonal Flag = 0  // Off-diagonal elements of H are non-unit.
	Diagonal    Flag = 1  // Diagonal elements of H are non-unit.
)

type Float32

type Float32 interface {
	Float32Level1
	Float32Level2
	Float32Level3
}

Float32 implements the single precision real BLAS routines.

type Float32Level1

type Float32Level1 interface {
	Sdsdot(n int, alpha float32, x []float32, incX int, y []float32, incY int) float32
	Dsdot(n int, x []float32, incX int, y []float32, incY int) float64
	Sdot(n int, x []float32, incX int, y []float32, incY int) float32
	Snrm2(n int, x []float32, incX int) float32
	Sasum(n int, x []float32, incX int) float32
	Isamax(n int, x []float32, incX int) int
	Sswap(n int, x []float32, incX int, y []float32, incY int)
	Scopy(n int, x []float32, incX int, y []float32, incY int)
	Saxpy(n int, alpha float32, x []float32, incX int, y []float32, incY int)
	Srotg(a, b float32) (c, s, r, z float32)
	Srotmg(d1, d2, b1, b2 float32) (p SrotmParams, rd1, rd2, rb1 float32)
	Srot(n int, x []float32, incX int, y []float32, incY int, c, s float32)
	Srotm(n int, x []float32, incX int, y []float32, incY int, p SrotmParams)
	Sscal(n int, alpha float32, x []float32, incX int)
}

Float32Level1 implements the single precision real BLAS Level 1 routines.

type Float32Level2

type Float32Level2 interface {
	Sgemv(tA Transpose, m, n int, alpha float32, a []float32, lda int, x []float32, incX int, beta float32, y []float32, incY int)
	Sgbmv(tA Transpose, m, n, kL, kU int, alpha float32, a []float32, lda int, x []float32, incX int, beta float32, y []float32, incY int)
	Strmv(ul Uplo, tA Transpose, d Diag, n int, a []float32, lda int, x []float32, incX int)
	Stbmv(ul Uplo, tA Transpose, d Diag, n, k int, a []float32, lda int, x []float32, incX int)
	Stpmv(ul Uplo, tA Transpose, d Diag, n int, ap []float32, x []float32, incX int)
	Strsv(ul Uplo, tA Transpose, d Diag, n int, a []float32, lda int, x []float32, incX int)
	Stbsv(ul Uplo, tA Transpose, d Diag, n, k int, a []float32, lda int, x []float32, incX int)
	Stpsv(ul Uplo, tA Transpose, d Diag, n int, ap []float32, x []float32, incX int)
	Ssymv(ul Uplo, n int, alpha float32, a []float32, lda int, x []float32, incX int, beta float32, y []float32, incY int)
	Ssbmv(ul Uplo, n, k int, alpha float32, a []float32, lda int, x []float32, incX int, beta float32, y []float32, incY int)
	Sspmv(ul Uplo, n int, alpha float32, ap []float32, x []float32, incX int, beta float32, y []float32, incY int)
	Sger(m, n int, alpha float32, x []float32, incX int, y []float32, incY int, a []float32, lda int)
	Ssyr(ul Uplo, n int, alpha float32, x []float32, incX int, a []float32, lda int)
	Sspr(ul Uplo, n int, alpha float32, x []float32, incX int, ap []float32)
	Ssyr2(ul Uplo, n int, alpha float32, x []float32, incX int, y []float32, incY int, a []float32, lda int)
	Sspr2(ul Uplo, n int, alpha float32, x []float32, incX int, y []float32, incY int, a []float32)
}

Float32Level2 implements the single precision real BLAS Level 2 routines.

type Float32Level3

type Float32Level3 interface {
	Sgemm(tA, tB Transpose, m, n, k int, alpha float32, a []float32, lda int, b []float32, ldb int, beta float32, c []float32, ldc int)
	Ssymm(s Side, ul Uplo, m, n int, alpha float32, a []float32, lda int, b []float32, ldb int, beta float32, c []float32, ldc int)
	Ssyrk(ul Uplo, t Transpose, n, k int, alpha float32, a []float32, lda int, beta float32, c []float32, ldc int)
	Ssyr2k(ul Uplo, t Transpose, n, k int, alpha float32, a []float32, lda int, b []float32, ldb int, beta float32, c []float32, ldc int)
	Strmm(s Side, ul Uplo, tA Transpose, d Diag, m, n int, alpha float32, a []float32, lda int, b []float32, ldb int)
	Strsm(s Side, ul Uplo, tA Transpose, d Diag, m, n int, alpha float32, a []float32, lda int, b []float32, ldb int)
}

Float32Level3 implements the single precision real BLAS Level 3 routines.

type Float64

type Float64 interface {
	Float64Level1
	Float64Level2
	Float64Level3
}

Float64 implements the single precision real BLAS routines.

type Float64Level1

type Float64Level1 interface {
	Ddot(n int, x []float64, incX int, y []float64, incY int) float64
	Dnrm2(n int, x []float64, incX int) float64
	Dasum(n int, x []float64, incX int) float64
	Idamax(n int, x []float64, incX int) int
	Dswap(n int, x []float64, incX int, y []float64, incY int)
	Dcopy(n int, x []float64, incX int, y []float64, incY int)
	Daxpy(n int, alpha float64, x []float64, incX int, y []float64, incY int)
	Drotg(a, b float64) (c, s, r, z float64)
	Drotmg(d1, d2, b1, b2 float64) (p DrotmParams, rd1, rd2, rb1 float64)
	Drot(n int, x []float64, incX int, y []float64, incY int, c float64, s float64)
	Drotm(n int, x []float64, incX int, y []float64, incY int, p DrotmParams)
	Dscal(n int, alpha float64, x []float64, incX int)
}

Float64Level1 implements the double precision real BLAS Level 1 routines.

type Float64Level2

type Float64Level2 interface {
	Dgemv(tA Transpose, m, n int, alpha float64, a []float64, lda int, x []float64, incX int, beta float64, y []float64, incY int)
	Dgbmv(tA Transpose, m, n, kL, kU int, alpha float64, a []float64, lda int, x []float64, incX int, beta float64, y []float64, incY int)
	Dtrmv(ul Uplo, tA Transpose, d Diag, n int, a []float64, lda int, x []float64, incX int)
	Dtbmv(ul Uplo, tA Transpose, d Diag, n, k int, a []float64, lda int, x []float64, incX int)
	Dtpmv(ul Uplo, tA Transpose, d Diag, n int, ap []float64, x []float64, incX int)
	Dtrsv(ul Uplo, tA Transpose, d Diag, n int, a []float64, lda int, x []float64, incX int)
	Dtbsv(ul Uplo, tA Transpose, d Diag, n, k int, a []float64, lda int, x []float64, incX int)
	Dtpsv(ul Uplo, tA Transpose, d Diag, n int, ap []float64, x []float64, incX int)
	Dsymv(ul Uplo, n int, alpha float64, a []float64, lda int, x []float64, incX int, beta float64, y []float64, incY int)
	Dsbmv(ul Uplo, n, k int, alpha float64, a []float64, lda int, x []float64, incX int, beta float64, y []float64, incY int)
	Dspmv(ul Uplo, n int, alpha float64, ap []float64, x []float64, incX int, beta float64, y []float64, incY int)
	Dger(m, n int, alpha float64, x []float64, incX int, y []float64, incY int, a []float64, lda int)
	Dsyr(ul Uplo, n int, alpha float64, x []float64, incX int, a []float64, lda int)
	Dspr(ul Uplo, n int, alpha float64, x []float64, incX int, ap []float64)
	Dsyr2(ul Uplo, n int, alpha float64, x []float64, incX int, y []float64, incY int, a []float64, lda int)
	Dspr2(ul Uplo, n int, alpha float64, x []float64, incX int, y []float64, incY int, a []float64)
}

Float64Level2 implements the double precision real BLAS Level 2 routines.

type Float64Level3

type Float64Level3 interface {
	Dgemm(tA, tB Transpose, m, n, k int, alpha float64, a []float64, lda int, b []float64, ldb int, beta float64, c []float64, ldc int)
	Dsymm(s Side, ul Uplo, m, n int, alpha float64, a []float64, lda int, b []float64, ldb int, beta float64, c []float64, ldc int)
	Dsyrk(ul Uplo, t Transpose, n, k int, alpha float64, a []float64, lda int, beta float64, c []float64, ldc int)
	Dsyr2k(ul Uplo, t Transpose, n, k int, alpha float64, a []float64, lda int, b []float64, ldb int, beta float64, c []float64, ldc int)
	Dtrmm(s Side, ul Uplo, tA Transpose, d Diag, m, n int, alpha float64, a []float64, lda int, b []float64, ldb int)
	Dtrsm(s Side, ul Uplo, tA Transpose, d Diag, m, n int, alpha float64, a []float64, lda int, b []float64, ldb int)
}

Float64Level3 implements the double precision real BLAS Level 3 routines.

type Side

type Side byte

Side specifies from which side a multiplication operation is performed.

const (
	Left  Side = 'L'
	Right Side = 'R'
)

type SrotmParams

type SrotmParams struct {
	Flag
	H [4]float32 // Column-major 2 by 2 matrix.
}

SrotmParams contains Givens transformation parameters returned by the Float32 Srotm method.

type Transpose

type Transpose byte

Transpose specifies the transposition operation of a matrix.

const (
	NoTrans   Transpose = 'N'
	Trans     Transpose = 'T'
	ConjTrans Transpose = 'C'
)

type Uplo

type Uplo byte

Uplo specifies whether a matrix is upper or lower triangular.

const (
	Upper Uplo = 'U'
	Lower Uplo = 'L'
	All   Uplo = 'A'
)

Directories

Path Synopsis
Package blas32 provides a simple interface to the float32 BLAS API.
Package blas32 provides a simple interface to the float32 BLAS API.
Package blas64 provides a simple interface to the float64 BLAS API.
Package blas64 provides a simple interface to the float64 BLAS API.
Package cblas128 provides a simple interface to the complex128 BLAS API.
Package cblas128 provides a simple interface to the complex128 BLAS API.
Package cblas64 provides a simple interface to the complex64 BLAS API.
Package cblas64 provides a simple interface to the complex64 BLAS API.
Package gonum is a Go implementation of the BLAS API.
Package gonum is a Go implementation of the BLAS API.
Package testblas provides tests for blas implementations.
Package testblas provides tests for blas implementations.
benchautogen
Script for automatic code generation of the benchmark routines.
Script for automatic code generation of the benchmark routines.

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