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adapt copy policy function to take data size as well and use this to only use destination nodes dsa engine for small data sizes on xeonmax

master
Constantin Fürst 11 months ago
parent
commit
5578f06c80
  1. 32
      offloading-cacher/main.cpp

32
offloading-cacher/main.cpp

@ -7,6 +7,8 @@
#include "cache.hpp"
static constexpr size_t SIZE_64_MIB = 64 * 1024 * 1024;
dsacache::Cache CACHE;
void InitCache(const std::string& device) {
@ -15,25 +17,47 @@ void InitCache(const std::string& device) {
return numa_dst_node;
};
auto copy_policy = [](const int numa_dst_node, const int numa_src_node) {
return std::vector<int>{ numa_src_node, numa_dst_node };
auto copy_policy = [](const int numa_dst_node, const int numa_src_node, const size_t data_size) {
return std::vector<int>{ numa_dst_node };
};
CACHE.Init(cache_policy,copy_policy);
}
else if (device == "xeonmax") {
auto cache_policy = [](const int numa_dst_node, const int numa_src_node, const size_t data_size) {
// xeon max is configured to have hbm on node ids that are +8
return numa_dst_node < 8 ? numa_dst_node + 8 : numa_dst_node;
};
auto copy_policy = [](const int numa_dst_node, const int numa_src_node) {
auto copy_policy = [](const int numa_dst_node, const int numa_src_node, const size_t data_size) {
if (data_size < SIZE_64_MIB) {
// if the data size is small then the copy will just be carried
// out by the destination node which does not require setting numa
// thread affinity as the selected dsa engine is already the one
// present on the calling thread
return std::vector<int>{ (numa_dst_node >= 8 ? numa_dst_node - 8 : numa_dst_node) };
}
else {
// for sufficiently large data, smart copy is used which will utilize
// all four engines for intra-socket copy operations and cross copy on
// the source and destination nodes for inter-socket copy
const bool same_socket = ((numa_dst_node ^ numa_src_node) & 4) == 0;
if (same_socket) {
const bool socket_number = numa_dst_node >> 2;
if (socket_number == 0) return std::vector<int>{ 0, 1, 2, 3 };
else return std::vector<int>{ 4, 5, 6, 7 };
}
else return std::vector<int>{ numa_src_node, numa_dst_node };
else {
return std::vector<int>{
(numa_src_node >= 8 ? numa_src_node - 8 : numa_src_node),
(numa_dst_node >= 8 ? numa_dst_node - 8 : numa_dst_node)
};
}
}
};
CACHE.Init(cache_policy,copy_policy);

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