C# Class MathNet.Numerics.Providers.LinearAlgebra.Mkl.SafeNativeMethods

ファイルを表示 Open project: cdrnet/mathnet-numerics Class Usage Examples

Private Methods

Method Description
c_axpy ( int n, Complex32 alpha, Complex32 x, [ y ) : void
c_cholesky_factor ( int n, [ a ) : int
c_cholesky_solve ( int n, int nrhs, Complex32 a, [ b ) : int
c_cholesky_solve_factored ( int n, int nrhs, Complex32 a, [ b ) : int
c_dot_product ( int n, Complex32 x, Complex32 y ) : Complex32
c_eigen ( [ isSymmetric, int n, [ a, [ vectors, [ values, [ d ) : int
c_lu_factor ( int n, [ a, [ ipiv ) : int
c_lu_inverse ( int n, [ a, [ work, int lwork ) : int
c_lu_inverse_factored ( int n, [ a, [ ipiv, [ work, int lwork ) : int
c_lu_solve ( int n, int nrhs, Complex32 a, [ b ) : int
c_lu_solve_factored ( int n, int nrhs, Complex32 a, [ ipiv, [ b ) : int
c_matrix_multiply ( Transpose transA, Transpose transB, int m, int n, int k, Complex32 alpha, Complex32 x, Complex32 y, Complex32 beta, [ c ) : void
c_matrix_norm ( byte norm, int rows, int columns, [ a, [ work ) : float
c_qr_factor ( int m, int n, [ r, [ tau, [ q, [ work, int len ) : int
c_qr_solve ( int m, int n, int bn, Complex32 r, Complex32 b, [ x, [ work, int len ) : int
c_qr_solve_factored ( int m, int n, int bn, Complex32 r, Complex32 b, Complex32 tau, [ x, [ work, int len ) : int
c_qr_thin_factor ( int m, int n, [ q, [ tau, [ r, [ work, int len ) : int
c_scale ( int n, Complex32 alpha, [ x ) : void
c_svd_factor ( [ computeVectors, int m, int n, [ a, [ s, [ u, [ v, [ work, int len ) : int
c_vector_add ( int n, Complex32 x, Complex32 y, [ result ) : void
c_vector_divide ( int n, Complex32 x, Complex32 y, [ result ) : void
c_vector_multiply ( int n, Complex32 x, Complex32 y, [ result ) : void
c_vector_subtract ( int n, Complex32 x, Complex32 y, [ result ) : void
d_axpy ( int n, double alpha, double x, [ y ) : void
d_cholesky_factor ( int n, [ a ) : int
d_cholesky_solve ( int n, int nrhs, double a, [ b ) : int
d_cholesky_solve_factored ( int n, int nrhs, double a, [ b ) : int
d_dot_product ( int n, double x, double y ) : double
d_eigen ( [ isSymmetric, int n, [ a, [ vectors, [ values, [ d ) : int
d_lu_factor ( int n, [ a, [ ipiv ) : int
d_lu_inverse ( int n, [ a, [ work, int lwork ) : int
d_lu_inverse_factored ( int n, [ a, [ ipiv, [ work, int lwork ) : int
d_lu_solve ( int n, int nrhs, double a, [ b ) : int
d_lu_solve_factored ( int n, int nrhs, double a, [ ipiv, [ b ) : int
d_matrix_multiply ( Transpose transA, Transpose transB, int m, int n, int k, double alpha, double x, double y, double beta, [ c ) : void
d_matrix_norm ( byte norm, int rows, int columns, [ a, [ work ) : double
d_qr_factor ( int m, int n, [ r, [ tau, [ q, [ work, int len ) : int
d_qr_solve ( int m, int n, int bn, double r, double b, [ x, [ work, int len ) : int
d_qr_solve_factored ( int m, int n, int bn, double r, double b, double tau, [ x, [ work, int len ) : int
d_qr_thin_factor ( int m, int n, [ q, [ tau, [ r, [ work, int len ) : int
d_scale ( int n, double alpha, [ x ) : void
d_svd_factor ( [ computeVectors, int m, int n, [ a, [ s, [ u, [ v, [ work, int len ) : int
d_vector_add ( int n, double x, double y, [ result ) : void
d_vector_divide ( int n, double x, double y, [ result ) : void
d_vector_multiply ( int n, double x, double y, [ result ) : void
d_vector_subtract ( int n, double x, double y, [ result ) : void
disable_fast_mm ( ) : int
free_buffers ( ) : void
mem_stat ( [ allocatedBuffers ) : long
peak_mem_usage ( int mode ) : long
query_capability ( int capability ) : int
s_axpy ( int n, float alpha, float x, [ y ) : void
s_cholesky_factor ( int n, [ a ) : int
s_cholesky_solve ( int n, int nrhs, float a, [ b ) : int
s_cholesky_solve_factored ( int n, int nrhs, float a, [ b ) : int
s_dot_product ( int n, float x, float y ) : float
s_eigen ( [ isSymmetric, int n, [ a, [ vectors, [ values, [ d ) : int
s_lu_factor ( int n, [ a, [ ipiv ) : int
s_lu_inverse ( int n, [ a, [ work, int lwork ) : int
s_lu_inverse_factored ( int n, [ a, [ ipiv, [ work, int lwork ) : int
s_lu_solve ( int n, int nrhs, float a, [ b ) : int
s_lu_solve_factored ( int n, int nrhs, float a, [ ipiv, [ b ) : int
s_matrix_multiply ( Transpose transA, Transpose transB, int m, int n, int k, float alpha, float x, float y, float beta, [ c ) : void
s_matrix_norm ( byte norm, int rows, int columns, [ a, [ work ) : float
s_qr_factor ( int m, int n, [ r, [ tau, [ q, [ work, int len ) : int
s_qr_solve ( int m, int n, int bn, float r, float b, [ x, [ work, int len ) : int
s_qr_solve_factored ( int m, int n, int bn, float r, float b, float tau, [ x, [ work, int len ) : int
s_qr_thin_factor ( int m, int n, [ q, [ tau, [ r, [ work, int len ) : int
s_scale ( int n, float alpha, [ x ) : void
s_svd_factor ( [ computeVectors, int m, int n, [ a, [ s, [ u, [ v, [ work, int len ) : int
s_vector_add ( int n, float x, float y, [ result ) : void
s_vector_divide ( int n, float x, float y, [ result ) : void
s_vector_multiply ( int n, float x, float y, [ result ) : void
s_vector_subtract ( int n, float x, float y, [ result ) : void
set_consistency_mode ( int mode ) : void
set_max_threads ( int num_threads ) : void
set_vml_mode ( uint mode ) : void
thread_free_buffers ( ) : void
z_axpy ( int n, System.Numerics.Complex alpha, System.Numerics.Complex x, [ y ) : void
z_cholesky_factor ( int n, [ a ) : int
z_cholesky_solve ( int n, int nrhs, System.Numerics.Complex a, [ b ) : int
z_cholesky_solve_factored ( int n, int nrhs, System.Numerics.Complex a, [ b ) : int
z_dot_product ( int n, System.Numerics.Complex x, System.Numerics.Complex y ) : System.Numerics.Complex
z_eigen ( [ isSymmetric, int n, [ a, [ vectors, [ values, [ d ) : int
z_lu_factor ( int n, [ a, [ ipiv ) : int
z_lu_inverse ( int n, [ a, [ work, int lwork ) : int
z_lu_inverse_factored ( int n, [ a, [ ipiv, [ work, int lwork ) : int
z_lu_solve ( int n, int nrhs, System.Numerics.Complex a, [ b ) : int
z_lu_solve_factored ( int n, int nrhs, System.Numerics.Complex a, [ ipiv, [ b ) : int
z_matrix_multiply ( Transpose transA, Transpose transB, int m, int n, int k, System.Numerics.Complex alpha, System.Numerics.Complex x, System.Numerics.Complex y, System.Numerics.Complex beta, [ c ) : void
z_matrix_norm ( byte norm, int rows, int columns, [ a, [ work ) : double
z_qr_factor ( int m, int n, [ r, [ tau, [ q, [ work, int len ) : int
z_qr_solve ( int m, int n, int bn, System.Numerics.Complex r, System.Numerics.Complex b, [ x, [ work, int len ) : int
z_qr_solve_factored ( int m, int n, int bn, System.Numerics.Complex r, System.Numerics.Complex b, System.Numerics.Complex tau, [ x, [ work, int len ) : int
z_qr_thin_factor ( int m, int n, [ q, [ tau, [ r, [ work, int len ) : int
z_scale ( int n, System.Numerics.Complex alpha, [ x ) : void
z_svd_factor ( [ computeVectors, int m, int n, [ a, [ s, [ u, [ v, [ work, int len ) : int
z_vector_add ( int n, System.Numerics.Complex x, System.Numerics.Complex y, [ result ) : void
z_vector_divide ( int n, System.Numerics.Complex x, System.Numerics.Complex y, [ result ) : void
z_vector_multiply ( int n, System.Numerics.Complex x, System.Numerics.Complex y, [ result ) : void
z_vector_subtract ( int n, System.Numerics.Complex x, System.Numerics.Complex y, [ result ) : void