From f096452dfdaa43aa75133b1b42f2653a256be90b Mon Sep 17 00:00:00 2001 From: Gael Guennebaud Date: Sun, 27 Jun 2010 00:17:38 +0200 Subject: Fix cache computation on old Intel CPUs which do not support the cpuid function 0x4 --- bench/check_cache_queries.cpp | 115 +++++++----------------------------------- 1 file changed, 17 insertions(+), 98 deletions(-) (limited to 'bench/check_cache_queries.cpp') diff --git a/bench/check_cache_queries.cpp b/bench/check_cache_queries.cpp index 3950f96e5..d2e75048a 100644 --- a/bench/check_cache_queries.cpp +++ b/bench/check_cache_queries.cpp @@ -25,11 +25,6 @@ int main() #ifdef EIGEN_CPUID - ei_queryCacheSizes_intel(l1, l2, l3); - cout << "Eigen's intel L1, L2, L3 = " << l1 << " " << l2 << " " << l3 << endl; - ei_queryCacheSizes_amd(l1, l2, l3); - cout << "Eigen's amd L1, L2, L3 = " << l1 << " " << l2 << " " << l3 << endl; - int abcd[4]; int string[8]; char* string_char = (char*)(string); @@ -43,8 +38,21 @@ int main() cout << endl; cout << "vendor id = " << string_char << endl; cout << endl; + int max_funcs = abcd[0]; + ei_queryCacheSizes_intel_codes(l1, l2, l3); + cout << "Eigen's intel codes L1, L2, L3 = " << l1 << " " << l2 << " " << l3 << endl; + if(max_funcs>=4) + { + ei_queryCacheSizes_intel_direct(l1, l2, l3); + cout << "Eigen's intel direct L1, L2, L3 = " << l1 << " " << l2 << " " << l3 << endl; + } + ei_queryCacheSizes_amd(l1, l2, l3); + cout << "Eigen's amd L1, L2, L3 = " << l1 << " " << l2 << " " << l3 << endl; + cout << endl; + // dump Intel direct method + if(max_funcs>=4) { l1 = l2 = l3 = 0; int cache_id = 0; @@ -69,103 +77,14 @@ int main() cout << "cache[" << cache_id << "].size = " << cache_size << "\n"; cache_id++; - } while(cache_type>0); - } - - // manual method for intel - { - l1 = l2 = l3 = 0; - abcd[0] = abcd[1] = abcd[2] = abcd[3] = 0; - EIGEN_CPUID(abcd,0x00000002,0); - unsigned char * bytes = reinterpret_cast(abcd)+2; - for(int i=0; i<14; ++i) - { - switch(bytes[i]) - { - case 0x0A: l1 = 8; break; // 0Ah data L1 cache, 8 KB, 2 ways, 32 byte lines - case 0x0C: l1 = 16; break; // 0Ch data L1 cache, 16 KB, 4 ways, 32 byte lines - case 0x0E: l1 = 24; break; // 0Eh data L1 cache, 24 KB, 6 ways, 64 byte lines - case 0x10: l1 = 16; break; // 10h data L1 cache, 16 KB, 4 ways, 32 byte lines (IA-64) - case 0x15: l1 = 16; break; // 15h code L1 cache, 16 KB, 4 ways, 32 byte lines (IA-64) - case 0x2C: l1 = 32; break; // 2Ch data L1 cache, 32 KB, 8 ways, 64 byte lines - case 0x30: l1 = 32; break; // 30h code L1 cache, 32 KB, 8 ways, 64 byte lines - // 56h L0 data TLB, 4M pages, 4 ways, 16 entries - // 57h L0 data TLB, 4K pages, 4 ways, 16 entries - // 59h L0 data TLB, 4K pages, fully, 16 entries - case 0x60: l1 = 16; break; // 60h data L1 cache, 16 KB, 8 ways, 64 byte lines, sectored - case 0x66: l1 = 8; break; // 66h data L1 cache, 8 KB, 4 ways, 64 byte lines, sectored - case 0x67: l1 = 16; break; // 67h data L1 cache, 16 KB, 4 ways, 64 byte lines, sectored - case 0x68: l1 = 32; break; // 68h data L1 cache, 32 KB, 4 ways, 64 byte lines, sectored - // 77h code L1 cache, 16 KB, 4 ways, 64 byte lines, sectored (IA-64) - // 96h data L1 TLB, 4K...256M pages, fully, 32 entries (IA-64) - - - case 0x1A: l2 = 96; break; // code and data L2 cache, 96 KB, 6 ways, 64 byte lines (IA-64) - case 0x22: l3 = 512; break; // code and data L3 cache, 512 KB, 4 ways (!), 64 byte lines, dual-sectored - case 0x23: l3 = 1024; break; // code and data L3 cache, 1024 KB, 8 ways, 64 byte lines, dual-sectored - case 0x25: l3 = 2048; break; // code and data L3 cache, 2048 KB, 8 ways, 64 byte lines, dual-sectored - case 0x29: l3 = 4096; break; // code and data L3 cache, 4096 KB, 8 ways, 64 byte lines, dual-sectored - case 0x39: l2 = 128; break; // code and data L2 cache, 128 KB, 4 ways, 64 byte lines, sectored - case 0x3A: l2 = 192; break; // code and data L2 cache, 192 KB, 6 ways, 64 byte lines, sectored - case 0x3B: l2 = 128; break; // code and data L2 cache, 128 KB, 2 ways, 64 byte lines, sectored - case 0x3C: l2 = 256; break; // code and data L2 cache, 256 KB, 4 ways, 64 byte lines, sectored - case 0x3D: l2 = 384; break; // code and data L2 cache, 384 KB, 6 ways, 64 byte lines, sectored - case 0x3E: l2 = 512; break; // code and data L2 cache, 512 KB, 4 ways, 64 byte lines, sectored - case 0x40: l2 = 0; break; // no integrated L2 cache (P6 core) or L3 cache (P4 core) - case 0x41: l2 = 128; break; // code and data L2 cache, 128 KB, 4 ways, 32 byte lines - case 0x42: l2 = 256; break; // code and data L2 cache, 256 KB, 4 ways, 32 byte lines - case 0x43: l2 = 512; break; // code and data L2 cache, 512 KB, 4 ways, 32 byte lines - case 0x44: l2 = 1024; break; // code and data L2 cache, 1024 KB, 4 ways, 32 byte lines - case 0x45: l2 = 2048; break; // code and data L2 cache, 2048 KB, 4 ways, 32 byte lines - case 0x46: l3 = 4096; break; // code and data L3 cache, 4096 KB, 4 ways, 64 byte lines - case 0x47: l3 = 8192; break; // code and data L3 cache, 8192 KB, 8 ways, 64 byte lines - case 0x48: l2 = 3072; break; // code and data L2 cache, 3072 KB, 12 ways, 64 byte lines - case 0x49: l3 = 4096; break; // code and data L3 cache, 4096 KB, 16 ways, 64 byte lines (P4) or - case 0x4A: l3 = 6144; break; // code and data L3 cache, 6144 KB, 12 ways, 64 byte lines - case 0x4B: l3 = 8192; break; // code and data L3 cache, 8192 KB, 16 ways, 64 byte lines - case 0x4C: l3 = 12288; break; // code and data L3 cache, 12288 KB, 12 ways, 64 byte lines - case 0x4D: l3 = 16384; break; // code and data L3 cache, 16384 KB, 16 ways, 64 byte lines - case 0x4E: l2 = 6144; break; // code and data L2 cache, 6144 KB, 24 ways, 64 byte lines - case 0x78: l2 = 1024; break; // code and data L2 cache, 1024 KB, 4 ways, 64 byte lines - case 0x79: l2 = 128; break; // code and data L2 cache, 128 KB, 8 ways, 64 byte lines, dual-sectored - case 0x7A: l2 = 256; break; // code and data L2 cache, 256 KB, 8 ways, 64 byte lines, dual-sectored - case 0x7B: l2 = 512; break; // code and data L2 cache, 512 KB, 8 ways, 64 byte lines, dual-sectored - case 0x7C: l2 = 1024; break; // code and data L2 cache, 1024 KB, 8 ways, 64 byte lines, dual-sectored - case 0x7D: l2 = 2048; break; // code and data L2 cache, 2048 KB, 8 ways, 64 byte lines - case 0x7E: l2 = 256; break; // code and data L2 cache, 256 KB, 8 ways, 128 byte lines, sect. (IA-64) - case 0x7F: l2 = 512; break; // code and data L2 cache, 512 KB, 2 ways, 64 byte lines - case 0x80: l2 = 512; break; // code and data L2 cache, 512 KB, 8 ways, 64 byte lines - case 0x81: l2 = 128; break; // code and data L2 cache, 128 KB, 8 ways, 32 byte lines - case 0x82: l2 = 256; break; // code and data L2 cache, 256 KB, 8 ways, 32 byte lines - case 0x83: l2 = 512; break; // code and data L2 cache, 512 KB, 8 ways, 32 byte lines - case 0x84: l2 = 1024; break; // code and data L2 cache, 1024 KB, 8 ways, 32 byte lines - case 0x85: l2 = 2048; break; // code and data L2 cache, 2048 KB, 8 ways, 32 byte lines - case 0x86: l2 = 512; break; // code and data L2 cache, 512 KB, 4 ways, 64 byte lines - case 0x87: l2 = 1024; break; // code and data L2 cache, 1024 KB, 8 ways, 64 byte lines - case 0x88: l3 = 2048; break; // code and data L3 cache, 2048 KB, 4 ways, 64 byte lines (IA-64) - case 0x89: l3 = 4096; break; // code and data L3 cache, 4096 KB, 4 ways, 64 byte lines (IA-64) - case 0x8A: l3 = 8192; break; // code and data L3 cache, 8192 KB, 4 ways, 64 byte lines (IA-64) - case 0x8D: l3 = 3072; break; // code and data L3 cache, 3072 KB, 12 ways, 128 byte lines (IA-64) - case 0x9B: l2 = 1024; break; // data L2 TLB, 4K...256M pages, fully, 96 entries (IA-64) - - default: break; - } - } - cout << endl; - cout << "tedious way l1 = " << l1 << endl; - cout << "tedious way l2 = " << l2 << endl; - cout << "tedious way l3 = " << l3 << endl; + } while(cache_type>0 && cache_id<16); } // dump everything std::cout << endl <<"Raw dump:" << endl; - DUMP_CPUID(0x0); - DUMP_CPUID(0x1); - DUMP_CPUID(0x2); - DUMP_CPUID(0x3); - DUMP_CPUID(0x4); - DUMP_CPUID(0x5); - DUMP_CPUID(0x6); + for(int i=0; i