#include #include #include #include #include "../superscalar.hpp" #include "../common.hpp" int main() { std::cout << "THIS PROGRAM REQUIRES MORE THAN 16 GB OF RAM TO COMPLETE" << std::endl; std::vector dummy; constexpr uint64_t superscalarMul0 = 6364136223846793005ULL; constexpr uint64_t superscalarAdd1 = 0x810A978A59F5A1FC; //9298410992540426748ULL; //9298410992540426048ULL constexpr uint64_t superscalarAdd2 = 12065312585734608966ULL; constexpr uint64_t superscalarAdd3 = 0x8126B91CBF22495C; //9306329213124610396ULL; constexpr uint64_t superscalarAdd4 = 5281919268842080866ULL; constexpr uint64_t superscalarAdd5 = 10536153434571861004ULL; constexpr uint64_t superscalarAdd6 = 3398623926847679864ULL; constexpr uint64_t superscalarAdd7 = 9549104520008361294ULL; constexpr uint32_t totalItems = randomx::DatasetSize / randomx::CacheLineSize; std::unordered_set registerValues; registerValues.reserve(totalItems); registerValues.rehash(totalItems); int collisionCount[9] = { 0 }; for (uint32_t itemNumber = 0; itemNumber < totalItems; ++itemNumber) { uint64_t rl[8]; rl[0] = (itemNumber + 1) * superscalarMul0; rl[1] = rl[0] ^ superscalarAdd1; rl[2] = rl[0] ^ superscalarAdd2; rl[3] = rl[0] ^ superscalarAdd3; rl[4] = rl[0] ^ superscalarAdd4; rl[5] = rl[0] ^ superscalarAdd5; rl[6] = rl[0] ^ superscalarAdd6; rl[7] = rl[0] ^ superscalarAdd7; int blockCollisions = 0; for (int i = 0; i < 8; ++i) { uint64_t reducedValue = rl[i] & 0x3FFFFFFFFFFFF8; //bits 3-53 only if (registerValues.find(reducedValue) != registerValues.end()) { blockCollisions++; std::cout << "Item " << itemNumber << ": collision of register r" << i << std::endl; } else { registerValues.insert(reducedValue); } } collisionCount[blockCollisions]++; if ((itemNumber % (320 * 1024)) == 0) std::cout << "Item " << itemNumber << " processed" << std::endl; } for (int i = 0; i < 9; ++i) { std::cout << i << " register(s) collide in " << collisionCount[i] << " items" << std::endl; } return 0; }