561 lines
19 KiB
C
561 lines
19 KiB
C
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#pragma once
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#include <ATen/CPUGeneratorImpl.h>
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#include <ATen/DeviceAccelerator.h>
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#include <ATen/LinalgBackend.h>
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#include <ATen/core/ATenGeneral.h>
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#include <ATen/core/DeprecatedTypeProperties.h>
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#include <ATen/core/Generator.h>
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#include <ATen/core/LegacyTypeDispatch.h>
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#include <ATen/detail/AcceleratorHooksInterface.h>
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#include <ATen/detail/CUDAHooksInterface.h>
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#include <ATen/detail/HIPHooksInterface.h>
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#include <ATen/detail/IPUHooksInterface.h>
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#include <ATen/detail/MPSHooksInterface.h>
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#include <ATen/detail/MTIAHooksInterface.h>
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#include <ATen/detail/ORTHooksInterface.h>
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#include <ATen/detail/PrivateUse1HooksInterface.h>
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#include <ATen/detail/XPUHooksInterface.h>
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#include <c10/core/QEngine.h>
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#include <c10/core/impl/DeviceGuardImplInterface.h>
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#include <c10/util/CallOnce.h>
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#include <c10/util/Exception.h>
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#include <c10/util/env.h>
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#include <c10/util/irange.h>
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#include <cstdint>
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#include <mutex>
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namespace at {
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class Tensor;
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enum class TORCH_API Float32MatmulPrecision { HIGHEST, HIGH, MEDIUM };
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class TORCH_API Context {
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public:
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Context();
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const Generator& defaultGenerator(Device device) {
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c10::DeviceType device_type = device.type();
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initCUDAIfNeeded(device_type);
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initHIPIfNeeded(device_type);
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if (device_type == at::kCPU) {
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return at::detail::getDefaultCPUGenerator();
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} else if (device_type == at::kCUDA) {
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return at::detail::getCUDAHooks().getDefaultCUDAGenerator(device.index());
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} else if (device_type == at::kMPS) {
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return at::detail::getMPSHooks().getDefaultMPSGenerator();
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} else if (device_type == at::kXPU) {
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return at::detail::getXPUHooks().getDefaultXPUGenerator(device.index());
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} else if (device_type == at::kIPU) {
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return at::detail::getIPUHooks().getDefaultIPUGenerator(device.index());
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} else if (device_type == at::kPrivateUse1) {
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return at::GetPrivateUse1HooksInterface()->getDefaultGenerator(
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device.index());
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} else {
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AT_ERROR(c10::DeviceTypeName(device_type), " device type not enabled.");
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}
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}
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const AcceleratorHooksInterface& getAcceleratorHooksInterface(
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c10::optional<c10::DeviceType> opt_device_type = c10::nullopt) {
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c10::DeviceType device_type = opt_device_type.has_value()
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? opt_device_type.value()
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: at::getAccelerator(true).value();
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if (device_type == at::kCUDA) {
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return at::detail::getCUDAHooks();
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} else if (device_type == at::kMPS) {
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return at::detail::getMPSHooks();
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} else if (device_type == at::kPrivateUse1) {
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return at::detail::getPrivateUse1Hooks();
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} else {
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AT_ERROR(
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c10::DeviceTypeName(device_type), " device type not an accelerator.");
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}
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}
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Device getDeviceFromPtr(void* data, c10::DeviceType device_type) {
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initCUDAIfNeeded(device_type);
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initHIPIfNeeded(device_type);
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initXPUIfNeeded(device_type);
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if (device_type == at::kCPU) {
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return c10::DeviceType::CPU;
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} else if (device_type == at::kCUDA) {
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return at::detail::getCUDAHooks().getDeviceFromPtr(data);
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} else if (device_type == at::kXPU) {
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return at::detail::getXPUHooks().getDeviceFromPtr(data);
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} else if (device_type == at::kPrivateUse1) {
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return at::GetPrivateUse1HooksInterface()->getDeviceFromPtr(data);
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} else {
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AT_ERROR(c10::DeviceTypeName(device_type), " device type not enabled.");
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}
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}
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static bool isPinnedPtr(const void* data) {
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return detail::getCUDAHooks().isPinnedPtr(data);
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}
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static bool hasOpenMP();
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static bool hasMKL();
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static bool hasLAPACK();
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static bool hasMKLDNN();
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static bool hasMAGMA() {
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return detail::getCUDAHooks().hasMAGMA();
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}
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static bool hasCUDA() {
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return detail::getCUDAHooks().hasCUDA();
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}
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static bool hasMTIA() {
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return detail::getMTIAHooks().hasMTIA();
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}
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static bool hasCUDART() {
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return detail::getCUDAHooks().hasCUDART();
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}
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static long versionCUDART() {
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return detail::getCUDAHooks().versionCUDART();
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}
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static bool hasCuDNN() {
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return detail::getCUDAHooks().hasCuDNN();
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}
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static long versionCuDNN() {
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return detail::getCUDAHooks().versionCuDNN();
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}
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static bool hasCuSOLVER() {
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return detail::getCUDAHooks().hasCuSOLVER();
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}
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static bool hasHIP() {
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return detail::getHIPHooks().hasHIP();
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}
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static bool hasMPS() {
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return detail::getMPSHooks().hasMPS();
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}
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static bool hasIPU() {
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return c10::impl::hasDeviceGuardImpl(c10::DeviceType::IPU);
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}
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static bool hasXLA() {
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return c10::impl::hasDeviceGuardImpl(c10::DeviceType::XLA);
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}
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static bool hasXPU() {
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return detail::getXPUHooks().hasXPU();
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}
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static bool hasLazy() {
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return c10::impl::hasDeviceGuardImpl(c10::DeviceType::Lazy);
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}
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static bool hasORT() {
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return c10::impl::hasDeviceGuardImpl(c10::DeviceType::ORT);
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}
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// defined in header so that getNonVariableType has ability to inline
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// call_once check. getNonVariableType is called fairly frequently
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void lazyInitCUDA() {
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c10::call_once(thc_init, [&] { detail::getCUDAHooks().initCUDA(); });
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}
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void lazyInitHIP() {
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c10::call_once(thh_init, [&] { detail::getHIPHooks().initHIP(); });
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}
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void lazyInitXPU() {
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c10::call_once(thx_init, [&] { detail::getXPUHooks().initXPU(); });
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}
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void lazyInitPrivateUse1() {
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c10::call_once(thp_init, [&] {
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if (isPrivateUse1HooksRegistered()) {
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at::GetPrivateUse1HooksInterface()->initPrivateUse1();
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}
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});
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}
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static const at::cuda::NVRTC& getNVRTC() {
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return detail::getCUDAHooks().nvrtc();
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}
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static bool setFlushDenormal(bool on);
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// NB: This method is *purely* whether or not a user requested
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// that CuDNN was enabled, it doesn't actually say anything about
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// whether or not CuDNN is actually usable. Use cudnn_is_acceptable
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// to test this instead
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bool userEnabledCuDNN() const;
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void setUserEnabledCuDNN(bool e);
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bool userEnabledMkldnn() const;
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void setUserEnabledMkldnn(bool e);
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bool benchmarkCuDNN() const;
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void setBenchmarkCuDNN(bool);
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int benchmarkLimitCuDNN() const;
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void setBenchmarkLimitCuDNN(int);
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bool deterministicCuDNN() const;
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void setDeterministicCuDNN(bool);
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bool userEnabledNNPACK() const;
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void setUserEnabledNNPACK(bool e);
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// Note [Disabling Fused SDP Kernels]
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// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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// Flash and Memory Efficient SDP kernels are enabled by default.
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// However, they can be disabled by setting
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// at::globalContext().setUserEnabledFlashSDP(false) flag.
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// This is useful for debugging purposes. For example, if you want to
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// compare the performance of the flash SDP kernels with the unfused
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// kernel, you can disable the flash SDP kernels. By disabling
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// the math SDP kernel, you can force your code to use flash kernels.
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// The math SDP kernel can be disabled by setting
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// at::globalContext().setUserEnabledMathSDP(false) flag.
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void setSDPUseFlash(bool);
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bool userEnabledFlashSDP() const;
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void setSDPUseMemEfficient(bool);
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bool userEnabledMemEfficientSDP() const;
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void setSDPUseMath(bool);
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bool userEnabledMathSDP() const;
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void setSDPUseCuDNN(bool);
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bool userEnabledCuDNNSDP() const;
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at::LinalgBackend linalgPreferredBackend() const;
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void setLinalgPreferredBackend(at::LinalgBackend);
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// Note [Enabling Deterministic Operations]
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// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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// Operations in PyTorch that normally act nondeterministically, but have an
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// alternate deterministic implementation, should satisfy the following
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// requirements:
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//
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// * Include this comment: "See Note [Enabling Deterministic Operations]"
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//
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// * Check the value of `at::globalContext().deterministicAlgorithms()` to
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// toggle
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// between nondeterministic and deterministic implementations.
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//
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// * Have an entry in the list of PyTorch operations that toggle between
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// nondeterministic
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// and deterministic implementations, in the docstring of
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// `use_deterministic_algorithms()` in torch/__init__.py
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//
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// `example_func()` below shows an example of toggling between
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// nondeterministic and deterministic implementations:
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//
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// void example_func() {
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// // See Note [Enabling Deterministic Operations]
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// if (at::globalContext().deterministicAlgorithms()) {
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// example_func_deterministic();
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// } else {
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// example_func_nondeterministic();
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// }
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// }
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bool deterministicAlgorithms() const;
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bool deterministicAlgorithmsWarnOnly() const;
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void setDeterministicAlgorithms(bool, bool);
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bool deterministicFillUninitializedMemory() const;
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void setDeterministicFillUninitializedMemory(bool);
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// Note [Writing Nondeterministic Operations]
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// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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// Operations in PyTorch that act nondeterministically and do not have an
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// alternate deterministic implementation should satisfy the following
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// requirements:
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//
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// * Include this comment: "See Note [Writing Nondeterministic Operations]"
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//
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// * Include a comment explaining why the operation is nondeterministic.
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//
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// * Throw an error when `Context::deterministicAlgorithms()` is true. Most
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// of the time, this should be accomplished by calling
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// `at::globalContext().alertNotDeterminstic()`. However, if the
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// nondeterministic behavior is caused by the CuBLAS workspace
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// configuration in CUDA >= 10.2,
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// `at::globalContext().alertCuBLASConfigNotDeterministic()` should be
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// called instead (in this case, a comment explaining why the operation is
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// nondeterministic is not necessary). See below for details on these
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// methods.
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//
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// * Have an entry in the list of nondeterministic PyTorch operations in the
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// docstring of `use_deterministic_algorithms()` in torch/__init__.py
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//
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// * Have a test function in `test/test_torch.py` whose name begins with
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// `test_nondeterministic_alert_`. Alternatively, if CuBLAS workspace
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// configuration is the reason for nondeterminism, the operation should be
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// included in the `test_cublas_config_nondeterministic_alert` test. Any new
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// tests should ideally follow a pattern similar to the existing ones.
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//
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// `example_func()` below shows an example of the comments and error-throwing
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// code for a nondeterministic operation:
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//
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// void example_func() {
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// // See Note [Writing Nondeterministic Operations]
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// // Nondeterministic because <reason>
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// at::globalContext().alertNondeterministic("example_func");
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// ...
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// }
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// Throws an error if `Context::deterministicAlgorithms()` is true
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static void alertNotDeterministic(c10::string_view const& caller);
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// Throws an error if `Context::deterministicAlgorithms()` is true, CUDA
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// >= 10.2, and CUBLAS_WORKSPACE_CONFIG is not set to either ":16:8" or
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// ":4096:8". For more details:
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// https://docs.nvidia.com/cuda/cublas/index.html#results-reproducibility
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void alertCuBLASConfigNotDeterministic() const;
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void setFloat32MatmulPrecision(const std::string& s);
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bool allowTF32CuDNN() const;
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void setAllowTF32CuDNN(bool);
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bool allowTF32CuBLAS() const;
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void setAllowTF32CuBLAS(bool);
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Float32MatmulPrecision float32MatmulPrecision() const;
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void setFloat32MatmulPrecision(Float32MatmulPrecision p);
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bool allowFP16ReductionCuBLAS() const;
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void setAllowFP16ReductionCuBLAS(bool);
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bool allowBF16ReductionCuBLAS() const;
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void setAllowBF16ReductionCuBLAS(bool);
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at::QEngine qEngine() const;
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void setQEngine(at::QEngine e);
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static const std::vector<at::QEngine>& supportedQEngines();
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static bool isXNNPACKAvailable();
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void setCheckSparseTensorInvariants(bool e);
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bool checkSparseTensorInvariants() const;
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// This method is used to release the original weight after pre-packing.
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// It should be called once before loading/running the model.
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// NB: By default it is set to true for mobile builds.
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void setReleaseWeightsWhenPrepacking(bool e);
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bool releaseWeightsWhenPrepacking() const;
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void setDisplayVmapFallbackWarnings(bool enabled);
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bool areVmapFallbackWarningsEnabled() const;
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void setDefaultMobileCPUAllocator();
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void unsetDefaultMobileCPUAllocator();
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bool allowFP16ReductionCPU() const;
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void setAllowFP16ReductionCPU(bool);
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private:
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void initCUDAIfNeeded(c10::DeviceType p) {
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if (p == c10::DeviceType::CUDA) {
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lazyInitCUDA();
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}
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}
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void initHIPIfNeeded(c10::DeviceType p) {
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if (p == c10::DeviceType::HIP) {
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lazyInitHIP();
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}
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}
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void initXPUIfNeeded(c10::DeviceType p) {
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if (p == c10::DeviceType::XPU) {
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lazyInitXPU();
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}
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}
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static bool checkCuBLASConfigDeterministic();
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c10::once_flag thc_init;
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c10::once_flag thh_init;
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c10::once_flag thx_init;
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c10::once_flag thp_init;
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bool enabled_cudnn = true;
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bool deterministic_cudnn = false;
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bool _deterministic_algorithms = false;
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bool _deterministic_algorithms_warn_only = false;
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bool _deterministic_fill_uninitialized_memory = true;
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bool enabled_flashSDP = true;
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bool enabled_mem_efficientSDP = true;
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bool enabled_mathSDP = true;
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bool enabled_cudnnSDP = false;
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#ifdef USE_ROCM
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bool benchmark_cudnn = true;
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#else
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bool benchmark_cudnn = false;
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#endif
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Float32MatmulPrecision float32_matmul_precision =
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c10::utils::check_env("TORCH_ALLOW_TF32_CUBLAS_OVERRIDE") == true
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? at::Float32MatmulPrecision::HIGH
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: at::Float32MatmulPrecision::HIGHEST;
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int benchmark_limit_cudnn = 10;
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bool allow_tf32_cudnn = true;
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bool allow_fp16_reduction_cublas = true;
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bool allow_bf16_reduction_cublas = true;
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bool enabled_mkldnn = true;
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bool enabled_nnpack = true;
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at::LinalgBackend linalg_preferred_backend =
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c10::utils::check_env("TORCH_LINALG_PREFER_CUSOLVER") == true
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? at::LinalgBackend::Cusolver
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: at::LinalgBackend::Default;
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#ifdef C10_MOBILE
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bool release_original_weights = true;
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#else
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bool release_original_weights = false;
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#endif
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bool display_vmap_fallback_warnings_ = false;
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c10::optional<at::QEngine> quantized_engine = c10::nullopt;
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bool enable_sparse_tensor_invariant_checks = false;
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bool allow_fp16_reduction_cpu = false;
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Allocator* prev_allocator_ptr_{nullptr};
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};
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TORCH_API Context& globalContext();
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static inline void init() {
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globalContext();
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}
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|
||
|
TORCH_API Allocator* getCPUAllocator();
|
||
|
|
||
|
static inline DeprecatedTypeProperties& getDeprecatedTypeProperties(
|
||
|
Backend p,
|
||
|
ScalarType s) {
|
||
|
return globalDeprecatedTypePropertiesRegistry().getDeprecatedTypeProperties(
|
||
|
p, s);
|
||
|
}
|
||
|
|
||
|
static inline DeprecatedTypeProperties& CPU(ScalarType s) {
|
||
|
return globalDeprecatedTypePropertiesRegistry().getDeprecatedTypeProperties(
|
||
|
Backend::CPU, s);
|
||
|
}
|
||
|
|
||
|
static inline DeprecatedTypeProperties& CUDA(ScalarType s) {
|
||
|
return globalDeprecatedTypePropertiesRegistry().getDeprecatedTypeProperties(
|
||
|
Backend::CUDA, s);
|
||
|
}
|
||
|
|
||
|
static inline DeprecatedTypeProperties& HIP(ScalarType s) {
|
||
|
return globalDeprecatedTypePropertiesRegistry().getDeprecatedTypeProperties(
|
||
|
Backend::HIP, s);
|
||
|
}
|
||
|
|
||
|
static inline DeprecatedTypeProperties& MPS(ScalarType s) {
|
||
|
return globalDeprecatedTypePropertiesRegistry().getDeprecatedTypeProperties(
|
||
|
Backend::MPS, s);
|
||
|
}
|
||
|
|
||
|
static inline bool hasCUDA() {
|
||
|
return globalContext().hasCUDA();
|
||
|
}
|
||
|
|
||
|
static inline bool hasMTIA() {
|
||
|
return globalContext().hasMTIA();
|
||
|
}
|
||
|
|
||
|
static inline bool hasHIP() {
|
||
|
return globalContext().hasHIP();
|
||
|
}
|
||
|
|
||
|
static inline bool hasIPU() {
|
||
|
return globalContext().hasIPU();
|
||
|
}
|
||
|
|
||
|
static inline bool hasXLA() {
|
||
|
return globalContext().hasXLA();
|
||
|
}
|
||
|
|
||
|
static inline bool hasMPS() {
|
||
|
return globalContext().hasMPS();
|
||
|
}
|
||
|
|
||
|
static inline bool hasORT() {
|
||
|
return globalContext().hasORT();
|
||
|
}
|
||
|
|
||
|
static inline bool hasXPU() {
|
||
|
return globalContext().hasXPU();
|
||
|
}
|
||
|
|
||
|
// Despite its name, this function returns the number of *CUDA* GPUs.
|
||
|
static inline size_t getNumGPUs() {
|
||
|
// WARNING: DO NOT ADD LOGIC TO HANDLE OTHER DEVICE TYPES TO THIS
|
||
|
// FUNCTION. If you are interested in interrogating the number of
|
||
|
// devices for a specific device type, add that function to the
|
||
|
// relevant library (e.g., similar to at::cuda::device_count())
|
||
|
if (hasCUDA() && hasHIP()) {
|
||
|
throw std::runtime_error(
|
||
|
"Enabling both CUDA and HIP in ATen is not supported, as HIP masquerades "
|
||
|
"to be CUDA (e.g., when you say CUDA, on a HIP build of ATen, this actually "
|
||
|
"means HIP. Rebuild PyTorch with one or the other disabled.");
|
||
|
} else if (hasCUDA()) {
|
||
|
return detail::getCUDAHooks().getNumGPUs();
|
||
|
} else if (hasHIP()) {
|
||
|
return detail::getHIPHooks().getNumGPUs();
|
||
|
} else {
|
||
|
return 0;
|
||
|
}
|
||
|
}
|
||
|
|
||
|
static inline bool hasOpenMP() {
|
||
|
return globalContext().hasOpenMP();
|
||
|
}
|
||
|
|
||
|
static inline bool hasMKL() {
|
||
|
return globalContext().hasMKL();
|
||
|
}
|
||
|
|
||
|
static inline bool hasLAPACK() {
|
||
|
return globalContext().hasLAPACK();
|
||
|
}
|
||
|
|
||
|
static inline bool hasMAGMA() {
|
||
|
return globalContext().hasMAGMA();
|
||
|
}
|
||
|
|
||
|
static inline bool hasMKLDNN() {
|
||
|
return globalContext().hasMKLDNN();
|
||
|
}
|
||
|
|
||
|
static inline void manual_seed(uint64_t seed) {
|
||
|
auto gen = globalContext().defaultGenerator(c10::DeviceType::CPU);
|
||
|
{
|
||
|
// See Note [Acquire lock when using random generators]
|
||
|
std::lock_guard<std::mutex> lock(gen.mutex());
|
||
|
gen.set_current_seed(seed);
|
||
|
}
|
||
|
// NB: Sometimes we build with CUDA, but we don't have any GPUs
|
||
|
// available. In that case, we must not seed CUDA; it will fail!
|
||
|
const auto cuda_num_gpus = detail::getCUDAHooks().getNumGPUs();
|
||
|
if (hasCUDA() && cuda_num_gpus > 0) {
|
||
|
for (const auto i : c10::irange(cuda_num_gpus)) {
|
||
|
auto cuda_gen = globalContext().defaultGenerator(
|
||
|
Device(at::kCUDA, static_cast<c10::DeviceIndex>(i)));
|
||
|
{
|
||
|
// See Note [Acquire lock when using random generators]
|
||
|
std::lock_guard<std::mutex> lock(cuda_gen.mutex());
|
||
|
cuda_gen.set_current_seed(seed);
|
||
|
}
|
||
|
}
|
||
|
}
|
||
|
|
||
|
const auto xpu_num_gpus = detail::getXPUHooks().getNumGPUs();
|
||
|
if (hasXPU() && xpu_num_gpus) {
|
||
|
for (const auto i : c10::irange(xpu_num_gpus)) {
|
||
|
auto xpu_gen = globalContext().defaultGenerator(
|
||
|
Device(at::kXPU, static_cast<c10::DeviceIndex>(i)));
|
||
|
{
|
||
|
// See Note [Acquire lock when using random generators]
|
||
|
std::lock_guard<std::mutex> lock(xpu_gen.mutex());
|
||
|
xpu_gen.set_current_seed(seed);
|
||
|
}
|
||
|
}
|
||
|
}
|
||
|
|
||
|
if (hasMPS()) {
|
||
|
auto mps_gen = globalContext().defaultGenerator(c10::DeviceType::MPS);
|
||
|
// See Note [Acquire lock when using random generators]
|
||
|
std::lock_guard<std::mutex> lock(mps_gen.mutex());
|
||
|
mps_gen.set_current_seed(seed);
|
||
|
}
|
||
|
}
|
||
|
|
||
|
// When the global flag `allow_tf32` is set to true, cuBLAS handles are
|
||
|
// automatically configured to use math mode CUBLAS_TF32_TENSOR_OP_MATH.
|
||
|
// For some operators, such as addmv, TF32 offers no performance improvement
|
||
|
// but causes precision loss. To help this case, this class implements
|
||
|
// a RAII guard that can be used to quickly disable TF32 within its scope.
|
||
|
//
|
||
|
// Usage:
|
||
|
// NoTF32Guard disable_tf32;
|
||
|
struct TORCH_API NoTF32Guard {
|
||
|
NoTF32Guard();
|
||
|
~NoTF32Guard();
|
||
|
static bool should_disable_tf32();
|
||
|
|
||
|
private:
|
||
|
bool changed = false;
|
||
|
};
|
||
|
|
||
|
struct TORCH_API ROCmBackwardPassGuard {
|
||
|
ROCmBackwardPassGuard();
|
||
|
~ROCmBackwardPassGuard();
|
||
|
static bool is_backward_pass();
|
||
|
};
|
||
|
|
||
|
} // namespace at
|