Files
rocm-systems/runtime/hsa-runtime/core/util/flag.h
T
Sean Keely 37942c982a Add HSA_AMD_AGENT_INFO_COOPERATIVE_COMPUTE_UNIT_COUNT.
On gfx90a only a reduced number of CUs must be used for cooperative
dispatches due to CWSR and launcher interactions with asymetric
harvest.  We must use one fewer CUs per SE than the lowest count of
CUs on any SE.

Also adds env var HSA_COOP_CU_COUNT which enables the cooperative
CU count computation.  Set to 1 to enable the new computation.
This is an opt-in feature that will become enabled by default (opt-out)
in a future release.

Change-Id: Ifbb75ced3bbc15876eef44922c6a4f6fde8c4c28
2022-01-31 15:22:07 -05:00

272 lines
9.0 KiB
C++

////////////////////////////////////////////////////////////////////////////////
//
// The University of Illinois/NCSA
// Open Source License (NCSA)
//
// Copyright (c) 2014-2021, Advanced Micro Devices, Inc. All rights reserved.
//
// Developed by:
//
// AMD Research and AMD HSA Software Development
//
// Advanced Micro Devices, Inc.
//
// www.amd.com
//
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to
// deal with the Software without restriction, including without limitation
// the rights to use, copy, modify, merge, publish, distribute, sublicense,
// and/or sell copies of the Software, and to permit persons to whom the
// Software is furnished to do so, subject to the following conditions:
//
// - Redistributions of source code must retain the above copyright notice,
// this list of conditions and the following disclaimers.
// - Redistributions in binary form must reproduce the above copyright
// notice, this list of conditions and the following disclaimers in
// the documentation and/or other materials provided with the distribution.
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// DEALINGS WITH THE SOFTWARE.
//
////////////////////////////////////////////////////////////////////////////////
#ifndef HSA_RUNTIME_CORE_INC_FLAG_H_
#define HSA_RUNTIME_CORE_INC_FLAG_H_
#include <stdint.h>
#include <vector>
#include <map>
#include <string>
#include "core/util/os.h"
#include "core/util/utils.h"
namespace rocr {
class Flag {
public:
enum SDMA_OVERRIDE { SDMA_DISABLE, SDMA_ENABLE, SDMA_DEFAULT };
// The values are meaningful and chosen to satisfy the thunk API.
enum XNACK_REQUEST { XNACK_DISABLE = 0, XNACK_ENABLE = 1, XNACK_UNCHANGED = 2 };
static_assert(XNACK_DISABLE == 0, "XNACK_REQUEST enum values improperly changed.");
static_assert(XNACK_ENABLE == 1, "XNACK_REQUEST enum values improperly changed.");
explicit Flag() { Refresh(); }
virtual ~Flag() {}
void Refresh() {
std::string var = os::GetEnvVar("HSA_CHECK_FLAT_SCRATCH");
check_flat_scratch_ = (var == "1") ? true : false;
var = os::GetEnvVar("HSA_ENABLE_VM_FAULT_MESSAGE");
enable_vm_fault_message_ = (var == "0") ? false : true;
var = os::GetEnvVar("HSA_ENABLE_QUEUE_FAULT_MESSAGE");
enable_queue_fault_message_ = (var == "0") ? false : true;
var = os::GetEnvVar("HSA_ENABLE_INTERRUPT");
enable_interrupt_ = (var == "0") ? false : true;
var = os::GetEnvVar("HSA_ENABLE_SDMA");
enable_sdma_ = (var == "0") ? SDMA_DISABLE : ((var == "1") ? SDMA_ENABLE : SDMA_DEFAULT);
visible_gpus_ = os::GetEnvVar("ROCR_VISIBLE_DEVICES");
filter_visible_gpus_ = os::IsEnvVarSet("ROCR_VISIBLE_DEVICES");
var = os::GetEnvVar("HSA_RUNNING_UNDER_VALGRIND");
running_valgrind_ = (var == "1") ? true : false;
var = os::GetEnvVar("HSA_SDMA_WAIT_IDLE");
sdma_wait_idle_ = (var == "1") ? true : false;
var = os::GetEnvVar("HSA_MAX_QUEUES");
max_queues_ = static_cast<uint32_t>(atoi(var.c_str()));
var = os::GetEnvVar("HSA_SCRATCH_MEM");
scratch_mem_size_ = atoi(var.c_str());
tools_lib_names_ = os::GetEnvVar("HSA_TOOLS_LIB");
var = os::GetEnvVar("HSA_TOOLS_REPORT_LOAD_FAILURE");
ifdebug {
report_tool_load_failures_ = (var == "1") ? true : false;
} else {
report_tool_load_failures_ = (var == "0") ? false : true;
}
var = os::GetEnvVar("HSA_DISABLE_FRAGMENT_ALLOCATOR");
disable_fragment_alloc_ = (var == "1") ? true : false;
var = os::GetEnvVar("HSA_ENABLE_SDMA_HDP_FLUSH");
enable_sdma_hdp_flush_ = (var == "0") ? false : true;
var = os::GetEnvVar("HSA_REV_COPY_DIR");
rev_copy_dir_ = (var == "1") ? true : false;
var = os::GetEnvVar("HSA_FORCE_FINE_GRAIN_PCIE");
fine_grain_pcie_ = (var == "1") ? true : false;
var = os::GetEnvVar("HSA_NO_SCRATCH_RECLAIM");
no_scratch_reclaim_ = (var == "1") ? true : false;
var = os::GetEnvVar("HSA_NO_SCRATCH_THREAD_LIMITER");
no_scratch_thread_limit_ = (var == "1") ? true : false;
var = os::GetEnvVar("HSA_DISABLE_IMAGE");
disable_image_ = (var == "1") ? true : false;
var = os::GetEnvVar("HSA_LOADER_ENABLE_MMAP_URI");
loader_enable_mmap_uri_ = (var == "1") ? true : false;
var = os::GetEnvVar("HSA_FORCE_SDMA_SIZE");
force_sdma_size_ = var.empty() ? 1024 * 1024 : atoi(var.c_str());
var = os::GetEnvVar("HSA_IGNORE_SRAMECC_MISREPORT");
check_sramecc_validity_ = (var == "1") ? false : true;
// Legal values are zero "0" or one "1". Any other value will
// be interpreted as not defining the env variable.
var = os::GetEnvVar("HSA_XNACK");
xnack_ = (var == "0") ? XNACK_DISABLE : ((var == "1") ? XNACK_ENABLE : XNACK_UNCHANGED);
var = os::GetEnvVar("HSA_ENABLE_DEBUG");
debug_ = (var == "1") ? true : false;
var = os::GetEnvVar("HSA_CU_MASK_SKIP_INIT");
cu_mask_skip_init_ = (var == "1") ? true : false;
// Temporary opt-in for corrected HSA_AMD_AGENT_INFO_COOPERATIVE_COMPUTE_UNIT_COUNT behavior.
// Will become opt-out and possibly removed in future releases.
var = os::GetEnvVar("HSA_COOP_CU_COUNT");
coop_cu_count_ = (var == "1") ? true : false;
}
void parse_masks(uint32_t maxGpu, uint32_t maxCU) {
std::string var = os::GetEnvVar("HSA_CU_MASK");
parse_masks(var, maxGpu, maxCU);
}
bool check_flat_scratch() const { return check_flat_scratch_; }
bool enable_vm_fault_message() const { return enable_vm_fault_message_; }
bool enable_queue_fault_message() const { return enable_queue_fault_message_; }
bool enable_interrupt() const { return enable_interrupt_; }
bool enable_sdma_hdp_flush() const { return enable_sdma_hdp_flush_; }
bool running_valgrind() const { return running_valgrind_; }
bool sdma_wait_idle() const { return sdma_wait_idle_; }
bool report_tool_load_failures() const { return report_tool_load_failures_; }
bool disable_fragment_alloc() const { return disable_fragment_alloc_; }
bool rev_copy_dir() const { return rev_copy_dir_; }
bool fine_grain_pcie() const { return fine_grain_pcie_; }
bool no_scratch_reclaim() const { return no_scratch_reclaim_; }
bool no_scratch_thread_limiter() const { return no_scratch_thread_limit_; }
SDMA_OVERRIDE enable_sdma() const { return enable_sdma_; }
std::string visible_gpus() const { return visible_gpus_; }
bool filter_visible_gpus() const { return filter_visible_gpus_; }
uint32_t max_queues() const { return max_queues_; }
size_t scratch_mem_size() const { return scratch_mem_size_; }
std::string tools_lib_names() const { return tools_lib_names_; }
bool disable_image() const { return disable_image_; }
bool loader_enable_mmap_uri() const { return loader_enable_mmap_uri_; }
size_t force_sdma_size() const { return force_sdma_size_; }
bool check_sramecc_validity() const { return check_sramecc_validity_; }
XNACK_REQUEST xnack() const { return xnack_; }
bool debug() const { return debug_; }
const std::vector<uint32_t>& cu_mask(uint32_t gpu_index) const {
static const std::vector<uint32_t> empty;
auto it = cu_mask_.find(gpu_index);
if (it == cu_mask_.end()) return empty;
return it->second;
}
bool cu_mask_skip_init() const { return cu_mask_skip_init_; }
bool coop_cu_count() const { return coop_cu_count_; }
private:
bool check_flat_scratch_;
bool enable_vm_fault_message_;
bool enable_interrupt_;
bool enable_sdma_hdp_flush_;
bool running_valgrind_;
bool sdma_wait_idle_;
bool enable_queue_fault_message_;
bool report_tool_load_failures_;
bool disable_fragment_alloc_;
bool rev_copy_dir_;
bool fine_grain_pcie_;
bool no_scratch_reclaim_;
bool no_scratch_thread_limit_;
bool disable_image_;
bool loader_enable_mmap_uri_;
bool check_sramecc_validity_;
bool debug_;
bool cu_mask_skip_init_;
bool coop_cu_count_;
SDMA_OVERRIDE enable_sdma_;
bool filter_visible_gpus_;
std::string visible_gpus_;
uint32_t max_queues_;
size_t scratch_mem_size_;
std::string tools_lib_names_;
size_t force_sdma_size_;
// Indicates user preference for Xnack state.
XNACK_REQUEST xnack_;
// Map GPU index post RVD to its default cu mask.
std::map<uint32_t, std::vector<uint32_t>> cu_mask_;
void parse_masks(std::string& args, uint32_t maxGpu, uint32_t maxCU);
DISALLOW_COPY_AND_ASSIGN(Flag);
};
} // namespace rocr
#endif // header guard