#include #include "xbyak/xbyak_util.h" #define NUM_OF_ARRAY(x) (sizeof(x) / sizeof(x[0])) struct PopCountTest : public Xbyak::CodeGenerator { PopCountTest(int n) : Xbyak::CodeGenerator(4096, Xbyak::DontSetProtectRWE) { mov(eax, n); popcnt(eax, eax); ret(); } }; void putCPUinfo(bool onlyCpuidFeature) { using namespace Xbyak::util; Cpu cpu; printf("vendor %s\n", cpu.has(Cpu::tINTEL) ? "intel" : "amd"); static const struct { Cpu::Type type; const char *str; } tbl[] = { { Cpu::tMMX, "mmx" }, { Cpu::tMMX2, "mmx2" }, { Cpu::tCMOV, "cmov" }, { Cpu::tSSE, "sse" }, { Cpu::tSSE2, "sse2" }, { Cpu::tSSE3, "sse3" }, { Cpu::tSSSE3, "ssse3" }, { Cpu::tSSE41, "sse41" }, { Cpu::tSSE42, "sse42" }, { Cpu::tSSE4a, "sse4a" }, { Cpu::tPOPCNT, "popcnt" }, { Cpu::t3DN, "3dn" }, { Cpu::tE3DN, "e3dn" }, { Cpu::tAESNI, "aesni" }, { Cpu::tRDTSCP, "rdtscp" }, { Cpu::tXSAVE, "xsave(xgetvb)" }, { Cpu::tOSXSAVE, "osxsave" }, { Cpu::tPCLMULQDQ, "pclmulqdq" }, { Cpu::tAVX, "avx" }, { Cpu::tFMA, "fma" }, { Cpu::tAVX2, "avx2" }, { Cpu::tBMI1, "bmi1" }, { Cpu::tBMI2, "bmi2" }, { Cpu::tLZCNT, "lzcnt" }, { Cpu::tPREFETCHW, "prefetchw" }, { Cpu::tENHANCED_REP, "enh_rep" }, { Cpu::tRDRAND, "rdrand" }, { Cpu::tADX, "adx" }, { Cpu::tRDSEED, "rdseed" }, { Cpu::tSMAP, "smap" }, { Cpu::tHLE, "hle" }, { Cpu::tRTM, "rtm" }, { Cpu::tMPX, "mpx" }, { Cpu::tSHA, "sha" }, { Cpu::tPREFETCHWT1, "prefetchwt1" }, { Cpu::tF16C, "f16c" }, { Cpu::tMOVBE, "movbe" }, { Cpu::tAVX512F, "avx512f" }, { Cpu::tAVX512DQ, "avx512dq" }, { Cpu::tAVX512IFMA, "avx512_ifma" }, { Cpu::tAVX512PF, "avx512pf" }, { Cpu::tAVX512ER, "avx512er" }, { Cpu::tAVX512CD, "avx512cd" }, { Cpu::tAVX512BW, "avx512bw" }, { Cpu::tAVX512VL, "avx512vl" }, { Cpu::tAVX512VBMI, "avx512_vbmi" }, { Cpu::tAVX512_4VNNIW, "avx512_4vnniw" }, { Cpu::tAVX512_4FMAPS, "avx512_4fmaps" }, { Cpu::tAVX512_VBMI2, "avx512_vbmi2" }, { Cpu::tGFNI, "gfni" }, { Cpu::tVAES, "vaes" }, { Cpu::tVPCLMULQDQ, "vpclmulqdq" }, { Cpu::tAVX512_VNNI, "avx512_vnni" }, { Cpu::tAVX512_BITALG, "avx512_bitalg" }, { Cpu::tAVX512_VPOPCNTDQ, "avx512_vpopcntdq" }, { Cpu::tAVX512_BF16, "avx512_bf16" }, { Cpu::tAVX512_VP2INTERSECT, "avx512_vp2intersect" }, { Cpu::tAMX_TILE, "amx(tile)" }, { Cpu::tAMX_INT8, "amx(int8)" }, { Cpu::tAMX_BF16, "amx(bf16)" }, { Cpu::tAVX_VNNI, "avx_vnni" }, { Cpu::tAVX512_FP16, "avx512_fp16" }, { Cpu::tWAITPKG, "waitpkg" }, { Cpu::tCLFLUSHOPT, "clflushopt" }, { Cpu::tCLDEMOTE, "cldemote" }, { Cpu::tCLWB, "clwb" }, { Cpu::tMOVDIRI, "movdiri" }, { Cpu::tMOVDIR64B, "movdir64b" }, { Cpu::tUINTR, "uintr" }, { Cpu::tSERIALIZE, "serialize" }, { Cpu::tCLZERO, "clzero" }, { Cpu::tAMX_FP16, "amx_fp16" }, { Cpu::tAVX_VNNI_INT8, "avx_vnni_int8" }, { Cpu::tAVX_NE_CONVERT, "avx_ne_convert" }, { Cpu::tAVX_IFMA, "avx_ifma" }, { Cpu::tRAO_INT, "rao-int" }, { Cpu::tCMPCCXADD, "cmpccxadd" }, { Cpu::tPREFETCHITI, "prefetchiti" }, { Cpu::tSHA512, "sha512" }, { Cpu::tSM3, "sm3" }, { Cpu::tSM4, "sm4" }, { Cpu::tAVX_VNNI_INT16, "avx_vnni_int16" }, { Cpu::tAPX_F, "apx_f" }, { Cpu::tAVX10, "avx10" }, { Cpu::tAESKLE, "aeskle" }, { Cpu::tWIDE_KL, "wide_kl" }, { Cpu::tKEYLOCKER, "keylocker" }, { Cpu::tKEYLOCKER_WIDE, "keylocker_wide" }, { Cpu::tTSXLDTRK, "tsxldtrk" }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { if (cpu.has(tbl[i].type)) printf(" %s", tbl[i].str); } printf("\n"); if (onlyCpuidFeature) return; if (cpu.has(Cpu::tAVX10)) { printf("AVX10 version %d\n", cpu.getAVX10version()); } if (cpu.has(Cpu::tPOPCNT)) { const int n = 0x12345678; // bitcount = 13 const int ok = 13; PopCountTest code(n); code.setProtectModeRE(); int (*f)() = code.getCode(); int r = f(); if (r == ok) { puts("popcnt ok"); } else { printf("popcnt ng %d %d\n", r, ok); } code.setProtectModeRW(); } /* displayFamily displayModel Opteron 2376 10 4 Core2 Duo T7100 6 F Core i3-2120T 6 2A Core i7-2600 6 2A Xeon X5650 6 2C Core i7-3517 6 3A Core i7-3930K 6 2D */ cpu.putFamily(); for (unsigned int i = 0; i < cpu.getDataCacheLevels(); i++) { printf("cache level=%u data cache size=%u cores sharing data cache=%u\n", i, cpu.getDataCacheSize(i), cpu.getCoresSharingDataCache(i)); } printf("SmtLevel =%u\n", cpu.getNumCores(Xbyak::util::SmtLevel)); printf("CoreLevel=%u\n", cpu.getNumCores(Xbyak::util::CoreLevel)); } int main(int argc, char *argv[]) { bool onlyCpuidFeature = argc == 2 && strcmp(argv[1], "-cpuid") == 0; if (!onlyCpuidFeature) { #ifdef XBYAK32 puts("32bit"); #else puts("64bit"); #endif } putCPUinfo(onlyCpuidFeature); }