[Date Prev][Date Next][Thread Prev][Thread Next][Date Index][Thread Index] [Xen-devel] [PATCH v6 04/42] x86emul: basic AVX512F testing
Test various of the insns which have been implemented already. Signed-off-by: Jan Beulich <jbeulich@xxxxxxxx> --- v6: Fix formatting in simd.h. v5: Add VSQRT* tests. v4: Make eq() also work for 4- and 8-byte integer element sizes. v3: New. --- a/tools/tests/x86_emulator/Makefile +++ b/tools/tests/x86_emulator/Makefile @@ -16,7 +16,7 @@ vpath %.c $(XEN_ROOT)/xen/lib/x86 CFLAGS += $(CFLAGS_xeninclude) -SIMD := 3dnow sse sse2 sse4 avx avx2 xop +SIMD := 3dnow sse sse2 sse4 avx avx2 xop avx512f FMA := fma4 fma SG := avx2-sg TESTCASES := blowfish $(SIMD) $(FMA) $(SG) @@ -63,6 +63,9 @@ avx2-sg-flts := 4 8 xop-vecs := $(avx-vecs) xop-ints := 1 2 4 8 xop-flts := $(avx-flts) +avx512f-vecs := 64 +avx512f-ints := 4 8 +avx512f-flts := 4 8 avx512f-opmask-vecs := 2 avx512dq-opmask-vecs := 1 @@ -170,7 +173,7 @@ $(addsuffix .c,$(SG)): $(addsuffix .h,$(SIMD) $(FMA) $(SG)): simd.h -xop.h: simd-fma.c +xop.h avx512f.h: simd-fma.c endif # 32-bit override --- a/tools/tests/x86_emulator/simd.c +++ b/tools/tests/x86_emulator/simd.c @@ -2,7 +2,41 @@ ENTRY(simd_test); -#if VEC_SIZE == 8 && defined(__SSE__) +#if defined(__AVX512F__) +# define ALL_TRUE (~0ULL >> (64 - ELEM_COUNT)) +# if VEC_SIZE == 4 +# define eq(x, y) ({ \ + float x_ = (x)[0]; \ + float __attribute__((vector_size(16))) y_ = { (y)[0] }; \ + unsigned short r_; \ + asm ( "vcmpss $0, %1, %2, %0" : "=k" (r_) : "m" (x_), "v" (y_) ); \ + r_ == 1; \ +}) +# elif VEC_SIZE == 8 +# define eq(x, y) ({ \ + double x_ = (x)[0]; \ + double __attribute__((vector_size(16))) y_ = { (y)[0] }; \ + unsigned short r_; \ + asm ( "vcmpsd $0, %1, %2, %0" : "=k" (r_) : "m" (x_), "v" (y_) ); \ + r_ == 1; \ +}) +# elif FLOAT_SIZE == 4 +/* + * gcc's (up to at least 8.2) __builtin_ia32_cmpps256_mask() has an anomaly in + * that its return type is QI rather than UQI, and hence the value would get + * sign-extended before comapring to ALL_TRUE. The same oddity does not matter + * for __builtin_ia32_cmppd256_mask(), as there only 4 bits are significant. + * Hence the extra " & ALL_TRUE". + */ +# define eq(x, y) ((BR(cmpps, _mask, x, y, 0, -1) & ALL_TRUE) == ALL_TRUE) +# elif FLOAT_SIZE == 8 +# define eq(x, y) (BR(cmppd, _mask, x, y, 0, -1) == ALL_TRUE) +# elif INT_SIZE == 4 || UINT_SIZE == 4 +# define eq(x, y) (B(pcmpeqd, _mask, (vsi_t)(x), (vsi_t)(y), -1) == ALL_TRUE) +# elif INT_SIZE == 8 || UINT_SIZE == 8 +# define eq(x, y) (B(pcmpeqq, _mask, (vdi_t)(x), (vdi_t)(y), -1) == ALL_TRUE) +# endif +#elif VEC_SIZE == 8 && defined(__SSE__) # define to_bool(cmp) (__builtin_ia32_pmovmskb(cmp) == 0xff) #elif VEC_SIZE == 16 # if defined(__AVX__) && defined(FLOAT_SIZE) @@ -93,6 +127,56 @@ static inline bool _to_bool(byte_vec_t b touch(x); \ __builtin_ia32_pfrcpit2(__builtin_ia32_pfrsqit1(__builtin_ia32_pfmul(t_, t_), x), t_); \ }) +#elif defined(FLOAT_SIZE) && VEC_SIZE == FLOAT_SIZE && defined(__AVX512F__) +# if FLOAT_SIZE == 4 +# define sqrt(x) scalar_1op(x, "vsqrtss %[in], %[out], %[out]") +# elif FLOAT_SIZE == 8 +# define sqrt(x) scalar_1op(x, "vsqrtsd %[in], %[out], %[out]") +# endif +#elif defined(FLOAT_SIZE) && defined(__AVX512F__) && \ + (VEC_SIZE == 64 || defined(__AVX512VL__)) +# if FLOAT_SIZE == 4 +# define broadcast(x) ({ \ + vec_t t_; \ + asm ( "%{evex%} vbroadcastss %1, %0" \ + : "=v" (t_) : "m" (*(float[1]){ x }) ); \ + t_; \ +}) +# define max(x, y) BR_(maxps, _mask, x, y, undef(), ~0) +# define min(x, y) BR_(minps, _mask, x, y, undef(), ~0) +# define mix(x, y) B(movaps, _mask, x, y, (0b0101010101010101 & ALL_TRUE)) +# define sqrt(x) BR(sqrtps, _mask, x, undef(), ~0) +# if VEC_SIZE == 16 +# define interleave_hi(x, y) B(unpckhps, _mask, x, y, undef(), ~0) +# define interleave_lo(x, y) B(unpcklps, _mask, x, y, undef(), ~0) +# define swap(x) B(shufps, _mask, x, x, 0b00011011, undef(), ~0) +# endif +# elif FLOAT_SIZE == 8 +# if VEC_SIZE >= 32 +# define broadcast(x) ({ \ + vec_t t_; \ + asm ( "%{evex%} vbroadcastsd %1, %0" : "=v" (t_) \ + : "m" (*(double[1]){ x }) ); \ + t_; \ +}) +# else +# define broadcast(x) ({ \ + vec_t t_; \ + asm ( "%{evex%} vpbroadcastq %1, %0" \ + : "=v" (t_) : "m" (*(double[1]){ x }) ); \ + t_; \ +}) +# endif +# define max(x, y) BR_(maxpd, _mask, x, y, undef(), ~0) +# define min(x, y) BR_(minpd, _mask, x, y, undef(), ~0) +# define mix(x, y) B(movapd, _mask, x, y, 0b01010101) +# define sqrt(x) BR(sqrtpd, _mask, x, undef(), ~0) +# if VEC_SIZE == 16 +# define interleave_hi(x, y) B(unpckhpd, _mask, x, y, undef(), ~0) +# define interleave_lo(x, y) B(unpcklpd, _mask, x, y, undef(), ~0) +# define swap(x) B(shufpd, _mask, x, x, 0b01, undef(), ~0) +# endif +# endif #elif FLOAT_SIZE == 4 && defined(__SSE__) # if VEC_SIZE == 32 && defined(__AVX__) # if defined(__AVX2__) @@ -191,7 +275,30 @@ static inline bool _to_bool(byte_vec_t b # define sqrt(x) scalar_1op(x, "sqrtsd %[in], %[out]") # endif #endif -#if VEC_SIZE == 16 && defined(__SSE2__) +#if (INT_SIZE == 4 || UINT_SIZE == 4 || INT_SIZE == 8 || UINT_SIZE == 8) && \ + defined(__AVX512F__) && (VEC_SIZE == 64 || defined(__AVX512VL__)) +# if INT_SIZE == 4 || UINT_SIZE == 4 +# define mix(x, y) ((vec_t)B(movdqa32_, _mask, (vsi_t)(x), (vsi_t)(y), \ + (0b0101010101010101 & ((1 << ELEM_COUNT) - 1)))) +# elif INT_SIZE == 8 || UINT_SIZE == 8 +# define mix(x, y) ((vec_t)B(movdqa64_, _mask, (vdi_t)(x), (vdi_t)(y), 0b01010101)) +# endif +# if INT_SIZE == 4 +# define max(x, y) B(pmaxsd, _mask, x, y, undef(), ~0) +# define min(x, y) B(pminsd, _mask, x, y, undef(), ~0) +# define mul_full(x, y) ((vec_t)B(pmuldq, _mask, x, y, (vdi_t)undef(), ~0)) +# elif UINT_SIZE == 4 +# define max(x, y) ((vec_t)B(pmaxud, _mask, (vsi_t)(x), (vsi_t)(y), (vsi_t)undef(), ~0)) +# define min(x, y) ((vec_t)B(pminud, _mask, (vsi_t)(x), (vsi_t)(y), (vsi_t)undef(), ~0)) +# define mul_full(x, y) ((vec_t)B(pmuludq, _mask, (vsi_t)(x), (vsi_t)(y), (vdi_t)undef(), ~0)) +# elif INT_SIZE == 8 +# define max(x, y) ((vec_t)B(pmaxsq, _mask, (vdi_t)(x), (vdi_t)(y), (vdi_t)undef(), ~0)) +# define min(x, y) ((vec_t)B(pminsq, _mask, (vdi_t)(x), (vdi_t)(y), (vdi_t)undef(), ~0)) +# elif UINT_SIZE == 8 +# define max(x, y) ((vec_t)B(pmaxuq, _mask, (vdi_t)(x), (vdi_t)(y), (vdi_t)undef(), ~0)) +# define min(x, y) ((vec_t)B(pminuq, _mask, (vdi_t)(x), (vdi_t)(y), (vdi_t)undef(), ~0)) +# endif +#elif VEC_SIZE == 16 && defined(__SSE2__) # if INT_SIZE == 1 || UINT_SIZE == 1 # define interleave_hi(x, y) ((vec_t)__builtin_ia32_punpckhbw128((vqi_t)(x), (vqi_t)(y))) # define interleave_lo(x, y) ((vec_t)__builtin_ia32_punpcklbw128((vqi_t)(x), (vqi_t)(y))) @@ -587,6 +694,10 @@ static inline bool _to_bool(byte_vec_t b # endif #endif +#if defined(__AVX512F__) && defined(FLOAT_SIZE) +# include "simd-fma.c" +#endif + int simd_test(void) { unsigned int i, j; @@ -1034,7 +1145,8 @@ int simd_test(void) # endif #endif -#if defined(__XOP__) && VEC_SIZE == 16 && (INT_SIZE == 2 || INT_SIZE == 4) +#if (defined(__XOP__) && VEC_SIZE == 16 && (INT_SIZE == 2 || INT_SIZE == 4)) || \ + (defined(__AVX512F__) && defined(FLOAT_SIZE)) return -fma_test(); #endif --- a/tools/tests/x86_emulator/simd.h +++ b/tools/tests/x86_emulator/simd.h @@ -70,9 +70,111 @@ typedef int __attribute__((vector_size(V typedef long long __attribute__((vector_size(VEC_SIZE))) vdi_t; #endif +#if VEC_SIZE == 16 +# define B(n, s, a...) __builtin_ia32_ ## n ## 128 ## s(a) +# define B_(n, s, a...) __builtin_ia32_ ## n ## s(a) +#elif VEC_SIZE == 32 +# define B(n, s, a...) __builtin_ia32_ ## n ## 256 ## s(a) +#elif VEC_SIZE == 64 +# define B(n, s, a...) __builtin_ia32_ ## n ## 512 ## s(a) +# define BR(n, s, a...) __builtin_ia32_ ## n ## 512 ## s(a, 4) +#endif +#ifndef B_ +# define B_ B +#endif +#ifndef BR +# define BR B +# define BR_ B_ +#endif +#ifndef BR_ +# define BR_ BR +#endif + +#ifdef __AVX512F__ + +/* + * The original plan was to effect use of EVEX encodings for scalar as well as + * 128- and 256-bit insn variants by restricting the compiler to use (on 64-bit + * only of course) XMM16-XMM31 only. All sorts of compiler errors result when + * doing this with gcc 8.2. Therefore resort to injecting {evex} prefixes, + * which has the benefit of also working for 32-bit. Granted, there is a lot of + * escaping to get right here. + */ +asm ( ".macro override insn \n\t" + ".macro $\\insn o:vararg \n\t" + ".purgem \\insn \n\t" + "{evex} \\insn \\(\\)o \n\t" + ".macro \\insn o:vararg \n\t" + "$\\insn \\(\\(\\))o \n\t" + ".endm \n\t" + ".endm \n\t" + ".macro \\insn o:vararg \n\t" + "$\\insn \\(\\)o \n\t" + ".endm \n\t" + ".endm" ); + +# define OVR(n) asm ( "override v" #n ) +# define OVR_SFP(n) OVR(n ## sd); OVR(n ## ss) + +# ifdef __AVX512VL__ +# ifdef __AVX512BW__ +# define OVR_BW(n) OVR(p ## n ## b); OVR(p ## n ## w) +# else +# define OVR_BW(n) +# endif +# define OVR_DQ(n) OVR(p ## n ## d); OVR(p ## n ## q) +# define OVR_VFP(n) OVR(n ## pd); OVR(n ## ps) +# else +# define OVR_BW(n) +# define OVR_DQ(n) +# define OVR_VFP(n) +# endif + +# define OVR_FMA(n, w) OVR_ ## w(n ## 132); OVR_ ## w(n ## 213); \ + OVR_ ## w(n ## 231) +# define OVR_FP(n) OVR_VFP(n); OVR_SFP(n) +# define OVR_INT(n) OVR_BW(n); OVR_DQ(n) + +OVR_SFP(broadcast); +OVR_SFP(comi); +OVR_FP(add); +OVR_FP(div); +OVR(extractps); +OVR_FMA(fmadd, FP); +OVR_FMA(fmsub, FP); +OVR_FMA(fnmadd, FP); +OVR_FMA(fnmsub, FP); +OVR(insertps); +OVR_FP(max); +OVR_FP(min); +OVR(movd); +OVR(movq); +OVR_SFP(mov); +OVR_FP(mul); +OVR_FP(sqrt); +OVR_FP(sub); +OVR_SFP(ucomi); + +# undef OVR_VFP +# undef OVR_SFP +# undef OVR_INT +# undef OVR_FP +# undef OVR_FMA +# undef OVR_DQ +# undef OVR_BW +# undef OVR + +#endif /* __AVX512F__ */ + /* * Suppress value propagation by the compiler, preventing unwanted * optimization. This at once makes the compiler use memory operands * more often, which for our purposes is the more interesting case. */ #define touch(var) asm volatile ( "" : "+m" (var) ) + +static inline vec_t undef(void) +{ + vec_t v = v; + return v; +} --- a/tools/tests/x86_emulator/simd-fma.c +++ b/tools/tests/x86_emulator/simd-fma.c @@ -1,10 +1,9 @@ +#if !defined(__XOP__) && !defined(__AVX512F__) #include "simd.h" - -#ifndef __XOP__ ENTRY(fma_test); #endif -#if VEC_SIZE < 16 +#if VEC_SIZE < 16 && !defined(to_bool) # define to_bool(cmp) (!~(cmp)[0]) #elif VEC_SIZE == 16 # if FLOAT_SIZE == 4 @@ -24,7 +23,13 @@ ENTRY(fma_test); # define eq(x, y) to_bool((x) == (y)) #endif -#if VEC_SIZE == 16 +#if defined(__AVX512F__) && VEC_SIZE > FLOAT_SIZE +# if FLOAT_SIZE == 4 +# define fmaddsub(x, y, z) BR(vfmaddsubps, _mask, x, y, z, ~0) +# elif FLOAT_SIZE == 8 +# define fmaddsub(x, y, z) BR(vfmaddsubpd, _mask, x, y, z, ~0) +# endif +#elif VEC_SIZE == 16 # if FLOAT_SIZE == 4 # define addsub(x, y) __builtin_ia32_addsubps(x, y) # if defined(__FMA4__) || defined(__FMA__) @@ -50,6 +55,10 @@ ENTRY(fma_test); # endif #endif +#if defined(fmaddsub) && !defined(addsub) +# define addsub(x, y) fmaddsub(x, broadcast(1), y) +#endif + int fma_test(void) { unsigned int i; --- a/tools/tests/x86_emulator/test_x86_emulator.c +++ b/tools/tests/x86_emulator/test_x86_emulator.c @@ -21,6 +21,7 @@ asm ( ".pushsection .test, \"ax\", @prog #include "avx512f-opmask.h" #include "avx512dq-opmask.h" #include "avx512bw-opmask.h" +#include "avx512f.h" #define verbose false /* Switch to true for far more logging. */ @@ -248,6 +249,14 @@ static const struct { SIMD(OPMASK/b, avx512dq_opmask, 1), SIMD(OPMASK/d, avx512bw_opmask, 4), SIMD(OPMASK/q, avx512bw_opmask, 8), + SIMD(AVX512F f32 scalar, avx512f, f4), + SIMD(AVX512F f32x16, avx512f, 64f4), + SIMD(AVX512F f64 scalar, avx512f, f8), + SIMD(AVX512F f64x8, avx512f, 64f8), + SIMD(AVX512F s32x16, avx512f, 64i4), + SIMD(AVX512F u32x16, avx512f, 64u4), + SIMD(AVX512F s64x8, avx512f, 64i8), + SIMD(AVX512F u64x8, avx512f, 64u8), #undef SIMD_ #undef SIMD }; _______________________________________________ Xen-devel mailing list Xen-devel@xxxxxxxxxxxxxxxxxxxx https://lists.xenproject.org/mailman/listinfo/xen-devel
|
Lists.xenproject.org is hosted with RackSpace, monitoring our |