| Syntax C/C++ | #include <VFmath.h>
int VF_expArbBase( fVector Y, fVector X, ui size, float Base );
int VFx_expArbBase( fVector Y, fVector X, ui size, float Base, float A, float B, float C ); |
| C++ VecObj | #include <OptiVec.h>
int vector<T>::expArbBase( const vector<T>& X, const T& Base );
int vector<T>::x_expArbBase( const vector<T>& X, const T& Base, const T& A, const T& B, const T& C ); |
| Pascal/Delphi | uses VFmath;
function VF_expArbBase( Y, X:fVector; size:UIntSize; Base:Single ): IntBool;
function VFx_expArbBase( Y, X:fVector; size:UIntSize; Base, A, B, C:Single ): IntBool; |
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| CUDA-Funktion C/C++ | #include <cudaVFmath.h>
int cudaVF_expArbBase( fVector d_Y, fVector d_X, ui size, float Base );
int cusdVF_expArbBase( fVector d_Y, fVector d_X, ui size, float *d_Base );
int cudaVFx_expArbBase( fVector d_Y, fVector d_X, ui size, float Base, float A, float B, float C );
int cusdVFx_expArbBase( fVector d_Y, fVector d_X, ui size, float *d_Base, float *d_A, float *d_B, float *d_C );
int VFcu_expArbBase( fVector h_Y, fVector h_X, ui size, float Base );
int VFxcu_expArbBase( fVector h_Y, fVector h_X, ui size, float Base, float A, float B, float C );
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| CUDA-Funktion Pascal/Delphi | uses VFmath;
function cudaVF_expArbBase( d_Y, d_X:fVector; size:UIntSize; Base:Single ): IntBool;
function cusdVF_expArbBase( d_Y, d_X:fVector; size:UIntSize; d_Base:PSingle ): IntBool;
function cudaVFx_expArbBase( d_Y, d_X:fVector; size:UIntSize; Base, A, B, C:Single ): IntBool;
function cusdVFx_expArbBase( d_Y, d_X:fVector; size:UIntSize; d_Base, d_A, d_B, d_C:PSingle ): IntBool;
function VFcu_expArbBase( h_Y, h_X:fVector; size:UIntSize; Base:Single ): IntBool;
function VFxcu_expArbBase( h_Y, h_X:fVector; size:UIntSize; Base, A, B, C:Single ): IntBool;
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