public interface Level3
Modifier and Type | Method and Description |
---|---|
void |
gemm(char Order,
char TransA,
char TransB,
double alpha,
INDArray A,
INDArray B,
double beta,
INDArray C)
gemm performs a matrix-matrix operation
c := alpha*op(a)*op(b) + beta*c,
where c is an m-by-n matrix,
op(a) is an m-by-k matrix,
op(b) is a k-by-n matrix.
|
void |
gemm(char Order,
char TransA,
char TransB,
IComplexNumber alpha,
IComplexNDArray A,
IComplexNDArray B,
IComplexNumber beta,
IComplexNDArray C)
gemm performs a matrix-matrix operation
c := alpha*op(a)*op(b) + beta*c,
where c is an m-by-n matrix,
op(a) is an m-by-k matrix,
op(b) is a k-by-n matrix.
|
void |
hemm(char Order,
char Side,
char Uplo,
IComplexNumber alpha,
IComplexNDArray A,
IComplexNDArray B,
IComplexNumber beta,
IComplexNDArray C)
hemm performs one of the following matrix-matrix operations:
c := alpha*a*b + beta*c for side = 'L'or'l'
c := alpha*b*a + beta*c for side = 'R'or'r',
where a is a Hermitian matrix,
b and c are m-by-n matrices.
|
void |
her2k(char Order,
char Uplo,
char Trans,
IComplexNumber alpha,
IComplexNDArray A,
IComplexNDArray B,
IComplexNumber beta,
IComplexNDArray C) |
void |
herk(char Order,
char Uplo,
char Trans,
IComplexNumber alpha,
IComplexNDArray A,
IComplexNumber beta,
IComplexNDArray C)
herk performs a rank-n update of a Hermitian matrix, that is, one of the following operations:
c := alpha*a*conjug(a') + beta*c for trans = 'N'or'n'
c := alpha*conjug(a')*a + beta*c for trans = 'C'or'c',
where c is an n-by-n Hermitian matrix;
a is an n-by-k matrix, if trans = 'N'or'n',
a is a k-by-n matrix, if trans = 'C'or'c'.
|
void |
symm(char Order,
char Side,
char Uplo,
double alpha,
INDArray A,
INDArray B,
double beta,
INDArray C)
her2k performs a rank-2k update of an n-by-n Hermitian matrix c, that is, one of the following operations:
c := alpha*a*conjg(b') + conjg(alpha)*b*conjg(a') + beta*c, for trans = 'N'or'n'
c := alpha*conjg(b')*a + conjg(alpha)*conjg(a')*b + beta*c, for trans = 'C'or'c'
where c is an n-by-n Hermitian matrix;
a and b are n-by-k matrices if trans = 'N'or'n',
a and b are k-by-n matrices if trans = 'C'or'c'.
|
void |
symm(char Order,
char Side,
char Uplo,
IComplexNumber alpha,
IComplexNDArray A,
IComplexNDArray B,
IComplexNumber beta,
IComplexNDArray C)
her2k performs a rank-2k update of an n-by-n Hermitian matrix c, that is, one of the following operations:
c := alpha*a*conjg(b') + conjg(alpha)*b*conjg(a') + beta*c, for trans = 'N'or'n'
c := alpha*conjg(b')*a + conjg(alpha)*conjg(a')*b + beta*c, for trans = 'C'or'c'
where c is an n-by-n Hermitian matrix;
a and b are n-by-k matrices if trans = 'N'or'n',
a and b are k-by-n matrices if trans = 'C'or'c'.
|
void |
syr2k(char Order,
char Uplo,
char Trans,
double alpha,
INDArray A,
INDArray B,
double beta,
INDArray C)
yr2k performs a rank-2k update of an n-by-n symmetric matrix c, that is, one of the following operations:
c := alpha*a*b' + alpha*b*a' + beta*c for trans = 'N'or'n'
c := alpha*a'*b + alpha*b'*a + beta*c for trans = 'T'or't',
where c is an n-by-n symmetric matrix;
a and b are n-by-k matrices, if trans = 'N'or'n',
a and b are k-by-n matrices, if trans = 'T'or't'.
|
void |
syr2k(char Order,
char Uplo,
char Trans,
IComplexNumber alpha,
IComplexNDArray A,
IComplexNDArray B,
IComplexNumber beta,
IComplexNDArray C)
yr2k performs a rank-2k update of an n-by-n symmetric matrix c, that is, one of the following operations:
c := alpha*a*b' + alpha*b*a' + beta*c for trans = 'N'or'n'
c := alpha*a'*b + alpha*b'*a + beta*c for trans = 'T'or't',
where c is an n-by-n symmetric matrix;
a and b are n-by-k matrices, if trans = 'N'or'n',
a and b are k-by-n matrices, if trans = 'T'or't'.
|
void |
syrk(char Order,
char Uplo,
char Trans,
double alpha,
INDArray A,
double beta,
INDArray C)
syrk performs a rank-n update of an n-by-n symmetric matrix c, that is, one of the following operations:
c := alpha*a*a' + beta*c for trans = 'N'or'n'
c := alpha*a'*a + beta*c for trans = 'T'or't','C'or'c',
where c is an n-by-n symmetric matrix;
a is an n-by-k matrix, if trans = 'N'or'n',
a is a k-by-n matrix, if trans = 'T'or't','C'or'c'.
|
void |
syrk(char Order,
char Uplo,
char Trans,
IComplexNumber alpha,
IComplexNDArray A,
IComplexNumber beta,
IComplexNDArray C)
syrk performs a rank-n update of an n-by-n symmetric matrix c, that is, one of the following operations:
c := alpha*a*a' + beta*c for trans = 'N'or'n'
c := alpha*a'*a + beta*c for trans = 'T'or't','C'or'c',
where c is an n-by-n symmetric matrix;
a is an n-by-k matrix, if trans = 'N'or'n',
a is a k-by-n matrix, if trans = 'T'or't','C'or'c'.
|
void |
trmm(char Order,
char Side,
char Uplo,
char TransA,
char Diag,
double alpha,
INDArray A,
INDArray B,
INDArray C)
syr2k performs a rank-2k update of an n-by-n symmetric matrix c, that is, one of the following operations:
c := alpha*a*b' + alpha*b*a' + beta*c for trans = 'N'or'n'
c := alpha*a'*b + alpha*b'*a + beta*c for trans = 'T'or't',
where c is an n-by-n symmetric matrix;
a and b are n-by-k matrices, if trans = 'N'or'n',
a and b are k-by-n matrices, if trans = 'T'or't'.
|
void |
trmm(char Order,
char Side,
char Uplo,
char TransA,
char Diag,
IComplexNumber alpha,
IComplexNDArray A,
IComplexNDArray B,
IComplexNDArray C)
syr2k performs a rank-2k update of an n-by-n symmetric matrix c, that is, one of the following operations:
c := alpha*a*b' + alpha*b*a' + beta*c for trans = 'N'or'n'
c := alpha*a'*b + alpha*b'*a + beta*c for trans = 'T'or't',
where c is an n-by-n symmetric matrix;
a and b are n-by-k matrices, if trans = 'N'or'n',
a and b are k-by-n matrices, if trans = 'T'or't'.
|
void |
trsm(char Order,
char Side,
char Uplo,
char TransA,
char Diag,
double alpha,
INDArray A,
INDArray B)
?trsm solves one of the following matrix equations:
op(a)*x = alpha*b or x*op(a) = alpha*b,
where x and b are m-by-n general matrices, and a is triangular;
op(a) must be an m-by-m matrix, if side = 'L'or'l'
op(a) must be an n-by-n matrix, if side = 'R'or'r'.
|
void |
trsm(char Order,
char Side,
char Uplo,
char TransA,
char Diag,
IComplexNumber alpha,
IComplexNDArray A,
IComplexNDArray B)
?trsm solves one of the following matrix equations:
op(a)*x = alpha*b or x*op(a) = alpha*b,
where x and b are m-by-n general matrices, and a is triangular;
op(a) must be an m-by-m matrix, if side = 'L'or'l'
op(a) must be an n-by-n matrix, if side = 'R'or'r'.
|
void gemm(char Order, char TransA, char TransB, double alpha, INDArray A, INDArray B, double beta, INDArray C)
Order
- TransA
- TransB
- alpha
- A
- B
- beta
- C
- void symm(char Order, char Side, char Uplo, double alpha, INDArray A, INDArray B, double beta, INDArray C)
Order
- Side
- Uplo
- alpha
- A
- B
- beta
- C
- void syrk(char Order, char Uplo, char Trans, double alpha, INDArray A, double beta, INDArray C)
Order
- Uplo
- Trans
- alpha
- A
- beta
- C
- void syr2k(char Order, char Uplo, char Trans, double alpha, INDArray A, INDArray B, double beta, INDArray C)
Order
- Uplo
- Trans
- alpha
- A
- B
- beta
- C
- void trmm(char Order, char Side, char Uplo, char TransA, char Diag, double alpha, INDArray A, INDArray B, INDArray C)
Order
- Side
- Uplo
- TransA
- Diag
- alpha
- A
- B
- C
- void trsm(char Order, char Side, char Uplo, char TransA, char Diag, double alpha, INDArray A, INDArray B)
Order
- Side
- Uplo
- TransA
- Diag
- alpha
- A
- B
- void gemm(char Order, char TransA, char TransB, IComplexNumber alpha, IComplexNDArray A, IComplexNDArray B, IComplexNumber beta, IComplexNDArray C)
Order
- TransA
- TransB
- alpha
- A
- B
- beta
- C
- void hemm(char Order, char Side, char Uplo, IComplexNumber alpha, IComplexNDArray A, IComplexNDArray B, IComplexNumber beta, IComplexNDArray C)
Order
- Side
- Uplo
- alpha
- A
- B
- beta
- C
- void herk(char Order, char Uplo, char Trans, IComplexNumber alpha, IComplexNDArray A, IComplexNumber beta, IComplexNDArray C)
Order
- Uplo
- Trans
- alpha
- A
- beta
- C
- void her2k(char Order, char Uplo, char Trans, IComplexNumber alpha, IComplexNDArray A, IComplexNDArray B, IComplexNumber beta, IComplexNDArray C)
Order
- Uplo
- Trans
- alpha
- A
- B
- beta
- C
- void symm(char Order, char Side, char Uplo, IComplexNumber alpha, IComplexNDArray A, IComplexNDArray B, IComplexNumber beta, IComplexNDArray C)
Order
- Side
- Uplo
- alpha
- A
- B
- beta
- C
- void syrk(char Order, char Uplo, char Trans, IComplexNumber alpha, IComplexNDArray A, IComplexNumber beta, IComplexNDArray C)
Order
- Uplo
- Trans
- alpha
- A
- beta
- C
- void syr2k(char Order, char Uplo, char Trans, IComplexNumber alpha, IComplexNDArray A, IComplexNDArray B, IComplexNumber beta, IComplexNDArray C)
Order
- Uplo
- Trans
- alpha
- A
- B
- beta
- C
- void trmm(char Order, char Side, char Uplo, char TransA, char Diag, IComplexNumber alpha, IComplexNDArray A, IComplexNDArray B, IComplexNDArray C)
Order
- Side
- Uplo
- TransA
- Diag
- alpha
- A
- B
- C
- void trsm(char Order, char Side, char Uplo, char TransA, char Diag, IComplexNumber alpha, IComplexNDArray A, IComplexNDArray B)
Order
- Side
- Uplo
- TransA
- Diag
- alpha
- A
- B
- Copyright © 2015. All Rights Reserved.