// ================================================================================================= // This file is part of the CLBlast project. The project is licensed under Apache Version 2.0. This // project loosely follows the Google C++ styleguide and uses a tab-size of two spaces and a max- // width of 100 characters per line. // // Author(s): // Cedric Nugteren // // This file contains the common functions and parameters specific for level 1 BLAS kernels. // // ================================================================================================= // Enables loading of this file using the C++ pre-processor's #include (C++11 standard raw string // literal). Comment-out this line for syntax-highlighting when developing. R"( // ================================================================================================= // Parameters set by the tuner or by the database. Here they are given a basic default value in case // this kernel file is used outside of the CLBlast library. #ifndef WGS #define WGS 64 // The local work-group size #endif #ifndef WPT #define WPT 1 // The amount of work-per-thread #endif #ifndef VW #define VW 1 // Vector width of vectors X and Y #endif // ================================================================================================= // Data-widths #if VW == 1 typedef real realV; #elif VW == 2 typedef real2 realV; #elif VW == 4 typedef real4 realV; #elif VW == 8 typedef real8 realV; #elif VW == 16 typedef real16 realV; #endif // ================================================================================================= // The vectorized multiply function INLINE_FUNC realV MultiplyVector(realV cvec, const real aval, const realV bvec) { #if VW == 1 Multiply(cvec, aval, bvec); #elif VW == 2 Multiply(cvec.x, aval, bvec.x); Multiply(cvec.y, aval, bvec.y); #elif VW == 4 Multiply(cvec.x, aval, bvec.x); Multiply(cvec.y, aval, bvec.y); Multiply(cvec.z, aval, bvec.z); Multiply(cvec.w, aval, bvec.w); #elif VW == 8 Multiply(cvec.s0, aval, bvec.s0); Multiply(cvec.s1, aval, bvec.s1); Multiply(cvec.s2, aval, bvec.s2); Multiply(cvec.s3, aval, bvec.s3); Multiply(cvec.s4, aval, bvec.s4); Multiply(cvec.s5, aval, bvec.s5); Multiply(cvec.s6, aval, bvec.s6); Multiply(cvec.s7, aval, bvec.s7); #elif VW == 16 Multiply(cvec.s0, aval, bvec.s0); Multiply(cvec.s1, aval, bvec.s1); Multiply(cvec.s2, aval, bvec.s2); Multiply(cvec.s3, aval, bvec.s3); Multiply(cvec.s4, aval, bvec.s4); Multiply(cvec.s5, aval, bvec.s5); Multiply(cvec.s6, aval, bvec.s6); Multiply(cvec.s7, aval, bvec.s7); Multiply(cvec.s8, aval, bvec.s8); Multiply(cvec.s9, aval, bvec.s9); Multiply(cvec.sA, aval, bvec.sA); Multiply(cvec.sB, aval, bvec.sB); Multiply(cvec.sC, aval, bvec.sC); Multiply(cvec.sD, aval, bvec.sD); Multiply(cvec.sE, aval, bvec.sE); Multiply(cvec.sF, aval, bvec.sF); #endif return cvec; } // The vectorized multiply-add function INLINE_FUNC realV MultiplyAddVector(realV cvec, const real aval, const realV bvec) { #if VW == 1 MultiplyAdd(cvec, aval, bvec); #elif VW == 2 MultiplyAdd(cvec.x, aval, bvec.x); MultiplyAdd(cvec.y, aval, bvec.y); #elif VW == 4 MultiplyAdd(cvec.x, aval, bvec.x); MultiplyAdd(cvec.y, aval, bvec.y); MultiplyAdd(cvec.z, aval, bvec.z); MultiplyAdd(cvec.w, aval, bvec.w); #elif VW == 8 MultiplyAdd(cvec.s0, aval, bvec.s0); MultiplyAdd(cvec.s1, aval, bvec.s1); MultiplyAdd(cvec.s2, aval, bvec.s2); MultiplyAdd(cvec.s3, aval, bvec.s3); MultiplyAdd(cvec.s4, aval, bvec.s4); MultiplyAdd(cvec.s5, aval, bvec.s5); MultiplyAdd(cvec.s6, aval, bvec.s6); MultiplyAdd(cvec.s7, aval, bvec.s7); #elif VW == 16 MultiplyAdd(cvec.s0, aval, bvec.s0); MultiplyAdd(cvec.s1, aval, bvec.s1); MultiplyAdd(cvec.s2, aval, bvec.s2); MultiplyAdd(cvec.s3, aval, bvec.s3); MultiplyAdd(cvec.s4, aval, bvec.s4); MultiplyAdd(cvec.s5, aval, bvec.s5); MultiplyAdd(cvec.s6, aval, bvec.s6); MultiplyAdd(cvec.s7, aval, bvec.s7); MultiplyAdd(cvec.s8, aval, bvec.s8); MultiplyAdd(cvec.s9, aval, bvec.s9); MultiplyAdd(cvec.sA, aval, bvec.sA); MultiplyAdd(cvec.sB, aval, bvec.sB); MultiplyAdd(cvec.sC, aval, bvec.sC); MultiplyAdd(cvec.sD, aval, bvec.sD); MultiplyAdd(cvec.sE, aval, bvec.sE); MultiplyAdd(cvec.sF, aval, bvec.sF); #endif return cvec; } // ================================================================================================= // End of the C++11 raw string literal )" // =================================================================================================