本文整理汇总了Golang中github.com/gonum/internal/asm.DaxpyUnitaryTo函数的典型用法代码示例。如果您正苦于以下问题:Golang DaxpyUnitaryTo函数的具体用法?Golang DaxpyUnitaryTo怎么用?Golang DaxpyUnitaryTo使用的例子?那么恭喜您, 这里精选的函数代码示例或许可以为您提供帮助。
在下文中一共展示了DaxpyUnitaryTo函数的16个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于我们的系统推荐出更棒的Golang代码示例。
示例1: AddScaledTo
// AddScaledTo performs dst = y + alpha * s, where alpha is a scalar,
// and dst, y and s are all slices.
// It panics if the lengths of dst, y, and s are not equal.
//
// At the return of the function, dst[i] = y[i] + alpha * s[i]
func AddScaledTo(dst, y []float64, alpha float64, s []float64) []float64 {
if len(dst) != len(s) || len(dst) != len(y) {
panic("floats: lengths of slices do not match")
}
asm.DaxpyUnitaryTo(dst, alpha, s, y)
return dst
}
开发者ID:sbinet,项目名称:gonum-floats,代码行数:12,代码来源:floats.go
示例2: dgemmSerialTransNot
// dgemmSerial where neither a is transposed and b is not
func dgemmSerialTransNot(a, b, c general64, alpha float64) {
if debug {
if a.rows != b.rows {
fmt.Println(a.rows, b.rows)
panic("inner dimension mismatch")
}
if a.cols != c.rows {
panic("outer dimension mismatch")
}
if b.cols != c.cols {
panic("outer dimension mismatch")
}
}
// This style is used instead of the literal [i*stride +j]) is used because
// approximately 5 times faster as of go 1.3.
for l := 0; l < a.rows; l++ {
btmp := b.data[l*b.stride : l*b.stride+b.cols]
for i, v := range a.data[l*a.stride : l*a.stride+a.cols] {
tmp := alpha * v
ctmp := c.data[i*c.stride : i*c.stride+c.cols]
if tmp != 0 {
asm.DaxpyUnitaryTo(ctmp, tmp, btmp, ctmp)
}
}
}
}
开发者ID:carmine,项目名称:blas,代码行数:28,代码来源:dgemm.go
示例3: SubTo
// SubTo subtracts, element-wise, the elements of t from s and
// stores the result in dst. Panics if the lengths of s, t and dst do not match.
func SubTo(dst, s, t []float64) []float64 {
if len(s) != len(t) {
panic("floats: length of subtractor and subtractee do not match")
}
if len(dst) != len(s) {
panic("floats: length of destination does not match length of subtractor")
}
asm.DaxpyUnitaryTo(dst, -1, t, s)
return dst
}
开发者ID:sbinet,项目名称:gonum-floats,代码行数:12,代码来源:floats.go
示例4: AddTo
// AddTo adds, element-wise, the elements of s and t and
// stores the result in dst. Panics if the lengths of s, t and dst do not match.
func AddTo(dst, s, t []float64) []float64 {
if len(s) != len(t) {
panic("floats: length of adders do not match")
}
if len(dst) != len(s) {
panic("floats: length of destination does not match length of adder")
}
asm.DaxpyUnitaryTo(dst, 1, s, t)
return dst
}
开发者ID:sbinet,项目名称:gonum-floats,代码行数:12,代码来源:floats.go
示例5: AddScaledVec
// AddScaledVec adds the vectors a and alpha*b, placing the result in the receiver.
func (v *Vector) AddScaledVec(a *Vector, alpha float64, b *Vector) {
if alpha == 1 {
v.AddVec(a, b)
return
}
if alpha == -1 {
v.SubVec(a, b)
return
}
ar := a.Len()
br := b.Len()
if ar != br {
panic(matrix.ErrShape)
}
v.reuseAs(ar)
switch {
case alpha == 0: // v <- a
v.CopyVec(a)
case v == a && v == b: // v <- v + alpha * v = (alpha + 1) * v
blas64.Scal(ar, alpha+1, v.mat)
case v == a && v != b: // v <- v + alpha * b
if v.mat.Inc == 1 && b.mat.Inc == 1 {
// Fast path for a common case.
asm.DaxpyUnitaryTo(v.mat.Data, alpha, b.mat.Data, a.mat.Data)
} else {
asm.DaxpyInc(alpha, b.mat.Data, v.mat.Data,
uintptr(ar), uintptr(b.mat.Inc), uintptr(v.mat.Inc), 0, 0)
}
default: // v <- a + alpha * b or v <- a + alpha * v
if v.mat.Inc == 1 && a.mat.Inc == 1 && b.mat.Inc == 1 {
// Fast path for a common case.
asm.DaxpyUnitaryTo(v.mat.Data, alpha, b.mat.Data, a.mat.Data)
} else {
asm.DaxpyIncTo(v.mat.Data, uintptr(v.mat.Inc), 0,
alpha, b.mat.Data, a.mat.Data,
uintptr(ar), uintptr(b.mat.Inc), uintptr(a.mat.Inc), 0, 0)
}
}
}
开发者ID:lessc0de,项目名称:matrix,代码行数:44,代码来源:vector.go
示例6: dgemmSerialNotNot
// dgemmSerial where neither a nor b are transposed
func dgemmSerialNotNot(m, n, k int, a []float64, lda int, b []float64, ldb int, c []float64, ldc int, alpha float64) {
// This style is used instead of the literal [i*stride +j]) is used because
// approximately 5 times faster as of go 1.3.
for i := 0; i < m; i++ {
ctmp := c[i*ldc : i*ldc+n]
for l, v := range a[i*lda : i*lda+k] {
tmp := alpha * v
if tmp != 0 {
asm.DaxpyUnitaryTo(ctmp, tmp, b[l*ldb:l*ldb+n], ctmp)
}
}
}
}
开发者ID:rawlingsj,项目名称:gofabric8,代码行数:14,代码来源:dgemm.go
示例7: Daxpy
// Daxpy adds alpha times x to y
// y[i] += alpha * x[i] for all i
func (Implementation) Daxpy(n int, alpha float64, x []float64, incX int, y []float64, incY int) {
if incX == 0 {
panic(zeroIncX)
}
if incY == 0 {
panic(zeroIncY)
}
if n < 1 {
if n == 0 {
return
}
panic(negativeN)
}
if (incX > 0 && (n-1)*incX >= len(x)) || (incX < 0 && (1-n)*incX >= len(x)) {
panic(badX)
}
if (incY > 0 && (n-1)*incY >= len(y)) || (incY < 0 && (1-n)*incY >= len(y)) {
panic(badY)
}
if alpha == 0 {
return
}
if incX == 1 && incY == 1 {
if len(x) < n {
panic(badLenX)
}
if len(y) < n {
panic(badLenY)
}
asm.DaxpyUnitaryTo(y, alpha, x[:n], y)
return
}
var ix, iy int
if incX < 0 {
ix = (-n + 1) * incX
}
if incY < 0 {
iy = (-n + 1) * incY
}
if ix >= len(x) || ix+(n-1)*incX >= len(x) {
panic(badLenX)
}
if iy >= len(y) || iy+(n-1)*incY >= len(y) {
panic(badLenY)
}
asm.DaxpyInc(alpha, x, y, uintptr(n), uintptr(incX), uintptr(incY), uintptr(ix), uintptr(iy))
}
开发者ID:carmine,项目名称:blas,代码行数:49,代码来源:level1double.go
示例8: SubVec
// SubVec subtracts the vector b from a, placing the result in the receiver.
func (v *Vector) SubVec(a, b *Vector) {
ar := a.Len()
br := b.Len()
if ar != br {
panic(matrix.ErrShape)
}
v.reuseAs(ar)
if v.mat.Inc == 1 && a.mat.Inc == 1 && b.mat.Inc == 1 {
// Fast path for a common case.
asm.DaxpyUnitaryTo(v.mat.Data, -1, b.mat.Data, a.mat.Data)
return
}
asm.DaxpyIncTo(v.mat.Data, uintptr(v.mat.Inc), 0,
-1, b.mat.Data, a.mat.Data,
uintptr(ar), uintptr(b.mat.Inc), uintptr(a.mat.Inc), 0, 0)
}
开发者ID:lessc0de,项目名称:matrix,代码行数:20,代码来源:vector.go
示例9: Dgemv
// Dgemv computes
// y = alpha * a * x + beta * y if tA = blas.NoTrans
// y = alpha * A^T * x + beta * y if tA = blas.Trans or blas.ConjTrans
// where A is an m×n dense matrix, x and y are vectors, and alpha is a scalar.
func (Implementation) Dgemv(tA blas.Transpose, m, n int, alpha float64, a []float64, lda int, x []float64, incX int, beta float64, y []float64, incY int) {
if tA != blas.NoTrans && tA != blas.Trans && tA != blas.ConjTrans {
panic(badTranspose)
}
if m < 0 {
panic(mLT0)
}
if n < 0 {
panic(nLT0)
}
if lda < max(1, n) {
panic(badLdA)
}
if incX == 0 {
panic(zeroIncX)
}
if incY == 0 {
panic(zeroIncY)
}
// Set up indexes
lenX := m
lenY := n
if tA == blas.NoTrans {
lenX = n
lenY = m
}
if (incX > 0 && (lenX-1)*incX >= len(x)) || (incX < 0 && (1-lenX)*incX >= len(x)) {
panic(badX)
}
if (incY > 0 && (lenY-1)*incY >= len(y)) || (incY < 0 && (1-lenY)*incY >= len(y)) {
panic(badY)
}
if lda*(m-1)+n > len(a) || lda < max(1, n) {
panic(badLdA)
}
// Quick return if possible
if m == 0 || n == 0 || (alpha == 0 && beta == 1) {
return
}
var kx, ky int
if incX > 0 {
kx = 0
} else {
kx = -(lenX - 1) * incX
}
if incY > 0 {
ky = 0
} else {
ky = -(lenY - 1) * incY
}
// First form y := beta * y
if incY > 0 {
Implementation{}.Dscal(lenY, beta, y, incY)
} else {
Implementation{}.Dscal(lenY, beta, y, -incY)
}
if alpha == 0 {
return
}
// Form y := alpha * A * x + y
if tA == blas.NoTrans {
if incX == 1 && incY == 1 {
for i := 0; i < m; i++ {
y[i] += alpha * asm.DdotUnitary(a[lda*i:lda*i+n], x)
}
return
}
iy := ky
for i := 0; i < m; i++ {
y[iy] += alpha * asm.DdotInc(x, a[lda*i:lda*i+n], uintptr(n), uintptr(incX), 1, uintptr(kx), 0)
iy += incY
}
return
}
// Cases where a is transposed.
if incX == 1 && incY == 1 {
for i := 0; i < m; i++ {
tmp := alpha * x[i]
if tmp != 0 {
asm.DaxpyUnitaryTo(y, tmp, a[lda*i:lda*i+n], y)
}
}
return
}
ix := kx
for i := 0; i < m; i++ {
tmp := alpha * x[ix]
if tmp != 0 {
asm.DaxpyInc(tmp, a[lda*i:lda*i+n], y, uintptr(n), 1, uintptr(incY), 0, uintptr(ky))
}
//.........这里部分代码省略.........
开发者ID:shawnps,项目名称:blas,代码行数:101,代码来源:level2double.go
示例10: Dger
// Dger performs the rank-one operation
// A += alpha * x * y^T
// where A is an m×n dense matrix, x and y are vectors, and alpha is a scalar.
func (Implementation) Dger(m, n int, alpha float64, x []float64, incX int, y []float64, incY int, a []float64, lda int) {
// Check inputs
if m < 0 {
panic("m < 0")
}
if n < 0 {
panic(negativeN)
}
if incX == 0 {
panic(zeroIncX)
}
if incY == 0 {
panic(zeroIncY)
}
if (incX > 0 && (m-1)*incX >= len(x)) || (incX < 0 && (1-m)*incX >= len(x)) {
panic(badX)
}
if (incY > 0 && (n-1)*incY >= len(y)) || (incY < 0 && (1-n)*incY >= len(y)) {
panic(badY)
}
if lda*(m-1)+n > len(a) || lda < max(1, n) {
panic(badLdA)
}
if lda < max(1, n) {
panic(badLdA)
}
// Quick return if possible
if m == 0 || n == 0 || alpha == 0 {
return
}
var ky, kx int
if incY > 0 {
ky = 0
} else {
ky = -(n - 1) * incY
}
if incX > 0 {
kx = 0
} else {
kx = -(m - 1) * incX
}
if incX == 1 && incY == 1 {
x = x[:m]
y = y[:n]
for i, xv := range x {
tmp := alpha * xv
if tmp != 0 {
atmp := a[i*lda : i*lda+n]
asm.DaxpyUnitaryTo(atmp, tmp, y, atmp)
}
}
return
}
ix := kx
for i := 0; i < m; i++ {
tmp := alpha * x[ix]
if tmp != 0 {
asm.DaxpyInc(tmp, y, a[i*lda:i*lda+n], uintptr(n), uintptr(incY), 1, uintptr(ky), 0)
}
ix += incX
}
}
开发者ID:shawnps,项目名称:blas,代码行数:70,代码来源:level2double.go
示例11: Sub
// Sub subtracts, element-wise, the elements of s from dst. Panics if
// the lengths of dst and s do not match.
func Sub(dst, s []float64) {
if len(dst) != len(s) {
panic("floats: length of the slices do not match")
}
asm.DaxpyUnitaryTo(dst, -1, s, dst)
}
开发者ID:sbinet,项目名称:gonum-floats,代码行数:8,代码来源:floats.go
示例12: AddScaled
// AddScaled performs dst = dst + alpha * s.
// It panics if the lengths of dst and s are not equal.
func AddScaled(dst []float64, alpha float64, s []float64) {
if len(dst) != len(s) {
panic("floats: length of destination and source to not match")
}
asm.DaxpyUnitaryTo(dst, alpha, s, dst)
}
开发者ID:sbinet,项目名称:gonum-floats,代码行数:8,代码来源:floats.go
示例13: Dtrmm
// Dtrmm performs
// B = alpha * A * B, if tA == blas.NoTrans and side == blas.Left,
// B = alpha * A^T * B, if tA == blas.Trans or blas.ConjTrans, and side == blas.Left,
// B = alpha * B * A, if tA == blas.NoTrans and side == blas.Right,
// B = alpha * B * A^T, if tA == blas.Trans or blas.ConjTrans, and side == blas.Right,
// where A is an n×n or m×m triangular matrix, and B is an m×n matrix.
func (Implementation) Dtrmm(s blas.Side, ul blas.Uplo, tA blas.Transpose, d blas.Diag, m, n int, alpha float64, a []float64, lda int, b []float64, ldb int) {
if s != blas.Left && s != blas.Right {
panic(badSide)
}
if ul != blas.Lower && ul != blas.Upper {
panic(badUplo)
}
if tA != blas.NoTrans && tA != blas.Trans && tA != blas.ConjTrans {
panic(badTranspose)
}
if d != blas.NonUnit && d != blas.Unit {
panic(badDiag)
}
if m < 0 {
panic(mLT0)
}
if n < 0 {
panic(nLT0)
}
var k int
if s == blas.Left {
k = m
} else {
k = n
}
if lda*(k-1)+k > len(a) || lda < max(1, k) {
panic(badLdA)
}
if ldb*(m-1)+n > len(b) || ldb < max(1, n) {
panic(badLdB)
}
if alpha == 0 {
for i := 0; i < m; i++ {
btmp := b[i*ldb : i*ldb+n]
for j := range btmp {
btmp[j] = 0
}
}
return
}
nonUnit := d == blas.NonUnit
if s == blas.Left {
if tA == blas.NoTrans {
if ul == blas.Upper {
for i := 0; i < m; i++ {
tmp := alpha
if nonUnit {
tmp *= a[i*lda+i]
}
btmp := b[i*ldb : i*ldb+n]
for j := range btmp {
btmp[j] *= tmp
}
for ka, va := range a[i*lda+i+1 : i*lda+m] {
k := ka + i + 1
tmp := alpha * va
if tmp != 0 {
asm.DaxpyUnitaryTo(btmp, tmp, b[k*ldb:k*ldb+n], btmp)
}
}
}
return
}
for i := m - 1; i >= 0; i-- {
tmp := alpha
if nonUnit {
tmp *= a[i*lda+i]
}
btmp := b[i*ldb : i*ldb+n]
for j := range btmp {
btmp[j] *= tmp
}
for k, va := range a[i*lda : i*lda+i] {
tmp := alpha * va
if tmp != 0 {
asm.DaxpyUnitaryTo(btmp, tmp, b[k*ldb:k*ldb+n], btmp)
}
}
}
return
}
// Cases where a is transposed.
if ul == blas.Upper {
for k := m - 1; k >= 0; k-- {
btmpk := b[k*ldb : k*ldb+n]
for ia, va := range a[k*lda+k+1 : k*lda+m] {
i := ia + k + 1
btmp := b[i*ldb : i*ldb+n]
tmp := alpha * va
if tmp != 0 {
asm.DaxpyUnitaryTo(btmp, tmp, btmpk, btmp)
}
}
//.........这里部分代码省略.........
开发者ID:carmine,项目名称:blas,代码行数:101,代码来源:level3double.go
示例14: Dsyrk
//.........这里部分代码省略.........
if tA == blas.NoTrans {
row, col = n, k
} else {
row, col = k, n
}
if lda*(row-1)+col > len(a) || lda < max(1, col) {
panic(badLdA)
}
if ldc*(n-1)+n > len(c) || ldc < max(1, n) {
panic(badLdC)
}
if alpha == 0 {
if beta == 0 {
if ul == blas.Upper {
for i := 0; i < n; i++ {
ctmp := c[i*ldc+i : i*ldc+n]
for j := range ctmp {
ctmp[j] = 0
}
}
return
}
for i := 0; i < n; i++ {
ctmp := c[i*ldc : i*ldc+i+1]
for j := range ctmp {
ctmp[j] = 0
}
}
return
}
if ul == blas.Upper {
for i := 0; i < n; i++ {
ctmp := c[i*ldc+i : i*ldc+n]
for j := range ctmp {
ctmp[j] *= beta
}
}
return
}
for i := 0; i < n; i++ {
ctmp := c[i*ldc : i*ldc+i+1]
for j := range ctmp {
ctmp[j] *= beta
}
}
return
}
if tA == blas.NoTrans {
if ul == blas.Upper {
for i := 0; i < n; i++ {
ctmp := c[i*ldc+i : i*ldc+n]
atmp := a[i*lda : i*lda+k]
for jc, vc := range ctmp {
j := jc + i
ctmp[jc] = vc*beta + alpha*asm.DdotUnitary(atmp, a[j*lda:j*lda+k])
}
}
return
}
for i := 0; i < n; i++ {
atmp := a[i*lda : i*lda+k]
for j, vc := range c[i*ldc : i*ldc+i+1] {
c[i*ldc+j] = vc*beta + alpha*asm.DdotUnitary(a[j*lda:j*lda+k], atmp)
}
}
return
}
// Cases where a is transposed.
if ul == blas.Upper {
for i := 0; i < n; i++ {
ctmp := c[i*ldc+i : i*ldc+n]
if beta != 1 {
for j := range ctmp {
ctmp[j] *= beta
}
}
for l := 0; l < k; l++ {
tmp := alpha * a[l*lda+i]
if tmp != 0 {
asm.DaxpyUnitaryTo(ctmp, tmp, a[l*lda+i:l*lda+n], ctmp)
}
}
}
return
}
for i := 0; i < n; i++ {
ctmp := c[i*ldc : i*ldc+i+1]
if beta != 0 {
for j := range ctmp {
ctmp[j] *= beta
}
}
for l := 0; l < k; l++ {
tmp := alpha * a[l*lda+i]
if tmp != 0 {
asm.DaxpyUnitaryTo(ctmp, tmp, a[l*lda:l*lda+i+1], ctmp)
}
}
}
}
开发者ID:carmine,项目名称:blas,代码行数:101,代码来源:level3double.go
示例15: Dtrsm
// Dtrsm solves
// A * X = alpha * B, if tA == blas.NoTrans side == blas.Left,
// A^T * X = alpha * B, if tA == blas.Trans or blas.ConjTrans, and side == blas.Left,
// X * A = alpha * B, if tA == blas.NoTrans side == blas.Right,
// X * A^T = alpha * B, if tA == blas.Trans or blas.ConjTrans, and side == blas.Right,
// where A is an n×n or m×m triangular matrix, X is an m×n matrix, and alpha is a
// scalar.
//
// At entry to the function, X contains the values of B, and the result is
// stored in place into X.
//
// No check is made that A is invertible.
func (Implementation) Dtrsm(s blas.Side, ul blas.Uplo, tA blas.Transpose, d blas.Diag, m, n int, alpha float64, a []float64, lda int, b []float64, ldb int) {
if s != blas.Left && s != blas.Right {
panic(badSide)
}
if ul != blas.Lower && ul != blas.Upper {
panic(badUplo)
}
if tA != blas.NoTrans && tA != blas.Trans && tA != blas.ConjTrans {
panic(badTranspose)
}
if d != blas.NonUnit && d != blas.Unit {
panic(badDiag)
}
if m < 0 {
panic(mLT0)
}
if n < 0 {
panic(nLT0)
}
if ldb < n {
panic(badLdB)
}
var k int
if s == blas.Left {
k = m
} else {
k = n
}
if lda*(k-1)+k > len(a) || lda < max(1, k) {
panic(badLdA)
}
if ldb*(m-1)+n > len(b) || ldb < max(1, n) {
panic(badLdB)
}
if m == 0 || n == 0 {
return
}
if alpha == 0 {
for i := 0; i < m; i++ {
btmp := b[i*ldb : i*ldb+n]
for j := range btmp {
btmp[j] = 0
}
}
return
}
nonUnit := d == blas.NonUnit
if s == blas.Left {
if tA == blas.NoTrans {
if ul == blas.Upper {
for i := m - 1; i >= 0; i-- {
btmp := b[i*ldb : i*ldb+n]
if alpha != 1 {
for j := range btmp {
btmp[j] *= alpha
}
}
for ka, va := range a[i*lda+i+1 : i*lda+m] {
k := ka + i + 1
if va != 0 {
asm.DaxpyUnitaryTo(btmp, -va, b[k*ldb:k*ldb+n], btmp)
}
}
if nonUnit {
tmp := 1 / a[i*lda+i]
for j := 0; j < n; j++ {
btmp[j] *= tmp
}
}
}
return
}
for i := 0; i < m; i++ {
btmp := b[i*ldb : i*ldb+n]
if alpha != 1 {
for j := 0; j < n; j++ {
btmp[j] *= alpha
}
}
for k, va := range a[i*lda : i*lda+i] {
if va != 0 {
asm.DaxpyUnitaryTo(btmp, -va, b[k*ldb:k*ldb+n], btmp)
}
}
if nonUnit {
tmp := 1 / a[i*lda+i]
//.........这里部分代码省略.........
开发者ID:carmine,项目名称:blas,代码行数:101,代码来源:level3double.go
示例16: Dsymm
// Dsymm performs one of
// C = alpha * A * B + beta * C, if side == blas.Left,
// C = alpha * B * A + beta * C, if side == blas.Right,
// where A is an n×n or m×m symmetric matrix, B and C are m×n matrices, and alpha
// is a scalar.
func (Implementation) Dsymm(s blas.Side, ul blas.Uplo, m, n int, alpha float64, a []float64, lda int, b []float64, ldb int, beta float64, c []float64, ldc int) {
if s != blas.Right && s != blas.Left {
panic("goblas: bad side")
}
if ul != blas.Lower && ul != blas.Upper {
panic(badUplo)
}
if m < 0 {
panic(mLT0)
}
if n < 0 {
panic(nLT0)
}
var k int
if s == blas.Left {
k = m
} else {
k = n
}
if lda*(k-1)+k > len(a) || lda < max(1, k) {
panic(badLdA)
}
if ldb*(m-1)+n > len(b) || ldb < max(1, n) {
panic(badLdB)
}
if ldc*(m-1)+n > len(c) || ldc < max(1, n) {
panic(badLdC)
}
if m == 0 || n == 0 {
return
}
if alpha == 0 && beta == 1 {
return
}
if alpha == 0 {
if beta == 0 {
for i := 0; i < m; i++ {
ctmp := c[i*ldc : i*ldc+n]
for j := range ctmp {
ctmp[j] = 0
}
}
return
}
for i := 0; i < m; i++ {
ctmp := c[i*ldc : i*ldc+n]
for j := 0; j < n; j++ {
ctmp[j] *= beta
}
}
return
}
isUpper := ul == blas.Upper
if s == blas.Left {
for i := 0; i < m; i++ {
atmp := alpha * a[i*lda+i]
btmp := b[i*ldb : i*ldb+n]
ctmp := c[i*ldc : i*ldc+n]
for j, v := range btmp {
ctmp[j] *= beta
ctmp[j] += atmp * v
}
for k := 0; k < i; k++ {
var atmp float64
if isUpper {
atmp = a[k*lda+i]
} else {
atmp = a[i*lda+k]
}
atmp *= alpha
ctmp := c[i*ldc : i*ldc+n]
asm.DaxpyUnitaryTo(ctmp, atmp, b[k*ldb:k*ldb+n], ctmp)
}
for k := i + 1; k < m; k++ {
var atmp float64
if isUpper {
atmp = a[i*lda+k]
} else {
atmp = a[k*lda+i]
}
atmp *= alpha
ctmp := c[i*ldc : i*ldc+n]
asm.DaxpyUnitaryTo(ctmp, atmp, b[k*ldb:k*ldb+n], ctmp)
}
}
return
}
if isUpper {
for i := 0; i < m; i++ {
for j := n - 1; j >= 0; j-- {
tmp := alpha * b[i*ldb+j]
var tmp2 float64
atmp := a[j*lda+j+1 : j*lda+n]
//.........这里部分代码省略.........
开发者ID:carmine,项目名称:blas,代码行数:101,代码来源:level3double.go
注:本文中的github.com/gonum/internal/asm.DaxpyUnitaryTo函数示例整理自Github/MSDocs等源码及文档管理平台,相关代码片段筛选自各路编程大神贡献的开源项目,源码版权归原作者所有,传播和使用请参考对应项目的License;未经允许,请勿转载。 |
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