[libc-commits] [libc] [libc] Use Atomics in GPU Benchmarks (PR #98842)

[Joseph Huber via libc-commits]

================
@@ -12,60 +13,110 @@ namespace LIBC_NAMESPACE_DECL {
 namespace benchmarks {
 
 FixedVector<Benchmark *, 64> benchmarks;
-cpp::array<BenchmarkResult, 1024> results;
 
 void Benchmark::add_benchmark(Benchmark *benchmark) {
   benchmarks.push_back(benchmark);
 }
 
-BenchmarkResult
-reduce_results(const cpp::array<BenchmarkResult, 1024> &results) {
-  BenchmarkResult result;
-  uint64_t cycles_sum = 0;
-  double standard_deviation_sum = 0;
-  uint64_t min = UINT64_MAX;
-  uint64_t max = 0;
-  uint32_t samples_sum = 0;
-  uint32_t iterations_sum = 0;
-  clock_t time_sum = 0;
-  uint64_t num_threads = gpu::get_num_threads();
-  for (uint64_t i = 0; i < num_threads; i++) {
-    BenchmarkResult current_result = results[i];
-    cycles_sum += current_result.cycles;
-    standard_deviation_sum += current_result.standard_deviation;
-    min = cpp::min(min, current_result.min);
-    max = cpp::max(max, current_result.max);
-    samples_sum += current_result.samples;
-    iterations_sum += current_result.total_iterations;
-    time_sum += current_result.total_time;
+void update_sums(const BenchmarkResult &current_result,
+                 cpp::Atomic<uint64_t> &active_threads,
+                 cpp::Atomic<uint64_t> &cycles_sum,
+                 cpp::Atomic<uint64_t> &standard_deviation_sum,
+                 cpp::Atomic<uint64_t> &min, cpp::Atomic<uint64_t> &max,
+                 cpp::Atomic<uint32_t> &samples_sum,
+                 cpp::Atomic<uint32_t> &iterations_sum,
+                 cpp::Atomic<clock_t> &time_sum) {
+  gpu::memory_fence();
+  active_threads.fetch_add(1, cpp::MemoryOrder::RELAXED);
+
+  cycles_sum.fetch_add(current_result.cycles, cpp::MemoryOrder::RELAXED);
+  standard_deviation_sum.fetch_add(
+      static_cast<uint64_t>(current_result.standard_deviation),
+      cpp::MemoryOrder::RELAXED);
+
+  // Perform a CAS loop to atomically update the min
+  uint64_t orig_min = min.load(cpp::MemoryOrder::RELAXED);
+  while (!min.compare_exchange_strong(
+      orig_min, cpp::min(orig_min, current_result.min),
+      cpp::MemoryOrder::ACQUIRE, cpp::MemoryOrder::RELAXED)) {
   }
-  result.cycles = cycles_sum / num_threads;
-  result.standard_deviation = standard_deviation_sum / num_threads;
-  result.min = min;
-  result.max = max;
-  result.samples = samples_sum / num_threads;
-  result.total_iterations = iterations_sum / num_threads;
-  result.total_time = time_sum / num_threads;
-  return result;
+
+  // Perform a CAS loop to atomically update the max
+  uint64_t orig_max = max.load(cpp::MemoryOrder::RELAXED);
+  while (!max.compare_exchange_strong(
+      orig_max, cpp::max(orig_max, current_result.max),
+      cpp::MemoryOrder::ACQUIRE, cpp::MemoryOrder::RELAXED)) {
+  }
+
+  samples_sum.fetch_add(current_result.samples, cpp::MemoryOrder::RELAXED);
+  iterations_sum.fetch_add(current_result.total_iterations,
+                           cpp::MemoryOrder::RELAXED);
+  time_sum.fetch_add(current_result.total_time, cpp::MemoryOrder::RELAXED);
+  gpu::memory_fence();
+}
+
+cpp::Atomic<uint64_t> cycles_sum = 0;
+cpp::Atomic<uint64_t> standard_deviation_sum = 0;
+cpp::Atomic<uint64_t> min = UINT64_MAX;
+cpp::Atomic<uint64_t> max = 0;
+cpp::Atomic<uint32_t> samples_sum = 0;
+cpp::Atomic<uint32_t> iterations_sum = 0;
+cpp::Atomic<clock_t> time_sum = 0;
+cpp::Atomic<uint64_t> active_threads = 0;
+
+void print_results(Benchmark *b) {
+  constexpr auto GREEN = "\033[32m";
+  constexpr auto RESET = "\033[0m";
+
+  BenchmarkResult result;
+  gpu::memory_fence();
+  int num_threads = active_threads.load(cpp::MemoryOrder::RELAXED);
+  result.cycles = cycles_sum.load(cpp::MemoryOrder::RELAXED) / num_threads;
+  result.standard_deviation =
+      standard_deviation_sum.load(cpp::MemoryOrder::RELAXED) / num_threads;
+  result.min = min.load(cpp::MemoryOrder::RELAXED);
+  result.max = max.load(cpp::MemoryOrder::RELAXED);
+  result.samples = samples_sum.load(cpp::MemoryOrder::RELAXED) / num_threads;
+  result.total_iterations =
+      iterations_sum.load(cpp::MemoryOrder::RELAXED) / num_threads;
+  result.total_time = time_sum.load(cpp::MemoryOrder::RELAXED) / num_threads;
+  gpu::memory_fence();
----------------
jhuber6 wrote:

This should be an `atomic_thread_fence(cpp::MemoryOrder::RELEASE)` most likely.

https://github.com/llvm/llvm-project/pull/98842