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/*
* Copyright (C) 2025 Intel Corporation
*
* SPDX-License-Identifier: MIT
*
*/
#include "shared/source/direct_submission/direct_submission_hw.h"
namespace NEO {
template <typename GfxFamily, typename Dispatcher>
void DirectSubmissionHw<GfxFamily, Dispatcher>::dispatchStaticRelaxedOrderingScheduler() {
LinearStream schedulerCmdStream(this->relaxedOrderingSchedulerAllocation);
uint64_t schedulerStartAddress = schedulerCmdStream.getGpuBase();
uint64_t deferredTasksListGpuVa = deferredTasksListAllocation->getGpuAddress();
uint64_t loopSectionStartAddress = schedulerStartAddress + RelaxedOrderingHelper::StaticSchedulerSizeAndOffsetSection<GfxFamily>::loopStartSectionStart;
const uint32_t miMathMocs = this->rootDeviceEnvironment.getGmmHelper()->getL3EnabledMOCS();
constexpr bool isBcs = Dispatcher::isCopy();
// 1. Init section
{
EncodeMiPredicate<GfxFamily>::encode(schedulerCmdStream, MiPredicateType::disable);
EncodeSetMMIO<GfxFamily>::encodeREG(schedulerCmdStream, RegisterOffsets::csGprR0, RegisterOffsets::csGprR9, isBcs);
EncodeSetMMIO<GfxFamily>::encodeREG(schedulerCmdStream, RegisterOffsets::csGprR0 + 4, RegisterOffsets::csGprR9 + 4, isBcs);
EncodeBatchBufferStartOrEnd<GfxFamily>::programConditionalDataRegBatchBufferStart(schedulerCmdStream, 0, RegisterOffsets::csGprR1, 0, CompareOperation::equal, true, false, isBcs);
LriHelper<GfxFamily>::program(&schedulerCmdStream, RegisterOffsets::csGprR2, 0, true, isBcs);
LriHelper<GfxFamily>::program(&schedulerCmdStream, RegisterOffsets::csGprR2 + 4, 0, true, isBcs);
uint64_t removeTaskVa = schedulerStartAddress + RelaxedOrderingHelper::StaticSchedulerSizeAndOffsetSection<GfxFamily>::removeTaskSectionStart;
LriHelper<GfxFamily>::program(&schedulerCmdStream, RegisterOffsets::csGprR3, static_cast<uint32_t>(removeTaskVa & 0xFFFF'FFFFULL), true, isBcs);
LriHelper<GfxFamily>::program(&schedulerCmdStream, RegisterOffsets::csGprR3 + 4, static_cast<uint32_t>(removeTaskVa >> 32), true, isBcs);
uint64_t walkersLoopConditionCheckVa = schedulerStartAddress + RelaxedOrderingHelper::StaticSchedulerSizeAndOffsetSection<GfxFamily>::tasksListLoopCheckSectionStart;
LriHelper<GfxFamily>::program(&schedulerCmdStream, RegisterOffsets::csGprR4, static_cast<uint32_t>(walkersLoopConditionCheckVa & 0xFFFF'FFFFULL), true, isBcs);
LriHelper<GfxFamily>::program(&schedulerCmdStream, RegisterOffsets::csGprR4 + 4, static_cast<uint32_t>(walkersLoopConditionCheckVa >> 32), true, isBcs);
}
// 2. Dispatch task section (loop start)
{
UNRECOVERABLE_IF(schedulerCmdStream.getUsed() != RelaxedOrderingHelper::StaticSchedulerSizeAndOffsetSection<GfxFamily>::loopStartSectionStart);
EncodeMiPredicate<GfxFamily>::encode(schedulerCmdStream, MiPredicateType::disable);
LriHelper<GfxFamily>::program(&schedulerCmdStream, RegisterOffsets::csGprR6, 8, true, isBcs);
LriHelper<GfxFamily>::program(&schedulerCmdStream, RegisterOffsets::csGprR6 + 4, 0, true, isBcs);
LriHelper<GfxFamily>::program(&schedulerCmdStream, RegisterOffsets::csGprR8, static_cast<uint32_t>(deferredTasksListGpuVa & 0xFFFF'FFFFULL), true, isBcs);
LriHelper<GfxFamily>::program(&schedulerCmdStream, RegisterOffsets::csGprR8 + 4, static_cast<uint32_t>(deferredTasksListGpuVa >> 32), true, isBcs);
EncodeAluHelper<GfxFamily, 10> aluHelper({{
{AluRegisters::opcodeLoad, AluRegisters::srca, AluRegisters::gpr2},
{AluRegisters::opcodeLoad, AluRegisters::srcb, AluRegisters::gpr6},
{AluRegisters::opcodeShl, AluRegisters::opcodeNone, AluRegisters::opcodeNone},
{AluRegisters::opcodeStore, AluRegisters::gpr7, AluRegisters::accu},
{AluRegisters::opcodeLoad, AluRegisters::srca, AluRegisters::gpr7},
{AluRegisters::opcodeLoad, AluRegisters::srcb, AluRegisters::gpr8},
{AluRegisters::opcodeAdd, AluRegisters::opcodeNone, AluRegisters::opcodeNone},
{AluRegisters::opcodeStore, AluRegisters::gpr6, AluRegisters::accu},
{AluRegisters::opcodeLoadind, AluRegisters::gpr0, AluRegisters::accu},
{AluRegisters::opcodeFenceRd, AluRegisters::opcodeNone, AluRegisters::opcodeNone},
}});
aluHelper.setMocs(miMathMocs);
aluHelper.copyToCmdStream(schedulerCmdStream);
EncodeBatchBufferStartOrEnd<GfxFamily>::programBatchBufferStart(&schedulerCmdStream, 0, false, true, false);
}
// 3. Remove task section
{
UNRECOVERABLE_IF(schedulerCmdStream.getUsed() != RelaxedOrderingHelper::StaticSchedulerSizeAndOffsetSection<GfxFamily>::removeTaskSectionStart);
EncodeMiPredicate<GfxFamily>::encode(schedulerCmdStream, MiPredicateType::disable);
EncodeMathMMIO<GfxFamily>::encodeDecrement(schedulerCmdStream, AluRegisters::gpr1, isBcs);
EncodeMathMMIO<GfxFamily>::encodeDecrement(schedulerCmdStream, AluRegisters::gpr2, isBcs);
EncodeSetMMIO<GfxFamily>::encodeREG(schedulerCmdStream, RegisterOffsets::csGprR0, RegisterOffsets::csGprR9, isBcs);
EncodeSetMMIO<GfxFamily>::encodeREG(schedulerCmdStream, RegisterOffsets::csGprR0 + 4, RegisterOffsets::csGprR9 + 4, isBcs);
EncodeBatchBufferStartOrEnd<GfxFamily>::programConditionalDataRegBatchBufferStart(schedulerCmdStream, 0, RegisterOffsets::csGprR1, 0, CompareOperation::equal, true, false, isBcs);
LriHelper<GfxFamily>::program(&schedulerCmdStream, RegisterOffsets::csGprR7, 8, true, isBcs);
LriHelper<GfxFamily>::program(&schedulerCmdStream, RegisterOffsets::csGprR7 + 4, 0, true, isBcs);
LriHelper<GfxFamily>::program(&schedulerCmdStream, RegisterOffsets::csGprR8, static_cast<uint32_t>(deferredTasksListGpuVa & 0xFFFF'FFFFULL), true, isBcs);
LriHelper<GfxFamily>::program(&schedulerCmdStream, RegisterOffsets::csGprR8 + 4, static_cast<uint32_t>(deferredTasksListGpuVa >> 32), true, isBcs);
EncodeAluHelper<GfxFamily, 14> aluHelper({{
{AluRegisters::opcodeLoad, AluRegisters::srca, AluRegisters::gpr1},
{AluRegisters::opcodeLoad, AluRegisters::srcb, AluRegisters::gpr7},
{AluRegisters::opcodeShl, AluRegisters::opcodeNone, AluRegisters::opcodeNone},
{AluRegisters::opcodeStore, AluRegisters::gpr7, AluRegisters::accu},
{AluRegisters::opcodeLoad, AluRegisters::srca, AluRegisters::gpr7},
{AluRegisters::opcodeLoad, AluRegisters::srcb, AluRegisters::gpr8},
{AluRegisters::opcodeAdd, AluRegisters::opcodeNone, AluRegisters::opcodeNone},
{AluRegisters::opcodeLoadind, AluRegisters::gpr7, AluRegisters::accu},
{AluRegisters::opcodeFenceRd, AluRegisters::opcodeNone, AluRegisters::opcodeNone},
{AluRegisters::opcodeLoad, AluRegisters::srca, AluRegisters::gpr6},
{AluRegisters::opcodeLoad0, AluRegisters::srcb, AluRegisters::opcodeNone},
{AluRegisters::opcodeAdd, AluRegisters::opcodeNone, AluRegisters::opcodeNone},
{AluRegisters::opcodeStoreind, AluRegisters::accu, AluRegisters::gpr7},
{AluRegisters::opcodeFenceWr, AluRegisters::opcodeNone, AluRegisters::opcodeNone},
}});
aluHelper.setMocs(miMathMocs);
aluHelper.copyToCmdStream(schedulerCmdStream);
}
// 4. List loop check section
{
UNRECOVERABLE_IF(schedulerCmdStream.getUsed() != RelaxedOrderingHelper::StaticSchedulerSizeAndOffsetSection<GfxFamily>::tasksListLoopCheckSectionStart);
EncodeMiPredicate<GfxFamily>::encode(schedulerCmdStream, MiPredicateType::disable);
EncodeMathMMIO<GfxFamily>::encodeIncrement(schedulerCmdStream, AluRegisters::gpr2, isBcs);
EncodeBatchBufferStartOrEnd<GfxFamily>::programConditionalRegRegBatchBufferStart(
schedulerCmdStream,
loopSectionStartAddress,
AluRegisters::gpr1, AluRegisters::gpr2, CompareOperation::notEqual, false, isBcs);
LriHelper<GfxFamily>::program(&schedulerCmdStream, RegisterOffsets::csGprR2, 0, true, isBcs);
LriHelper<GfxFamily>::program(&schedulerCmdStream, RegisterOffsets::csGprR2 + 4, 0, true, isBcs);
}
// 5. Drain request section
{
UNRECOVERABLE_IF(schedulerCmdStream.getUsed() != RelaxedOrderingHelper::StaticSchedulerSizeAndOffsetSection<GfxFamily>::drainRequestSectionStart);
EncodeMiArbCheck<GfxFamily>::program(schedulerCmdStream, std::nullopt);
if (debugManager.flags.DirectSubmissionRelaxedOrderingQueueSizeLimit.get() != -1) {
currentRelaxedOrderingQueueSize = static_cast<uint32_t>(debugManager.flags.DirectSubmissionRelaxedOrderingQueueSizeLimit.get());
}
this->relaxedOrderingQueueSizeLimitValueVa = schedulerCmdStream.getCurrentGpuAddressPosition() + RelaxedOrderingHelper::getQueueSizeLimitValueOffset<GfxFamily>();
EncodeBatchBufferStartOrEnd<GfxFamily>::programConditionalDataRegBatchBufferStart(
schedulerCmdStream,
loopSectionStartAddress,
RegisterOffsets::csGprR1, currentRelaxedOrderingQueueSize, CompareOperation::greaterOrEqual, false, false, isBcs);
EncodeBatchBufferStartOrEnd<GfxFamily>::programConditionalDataRegBatchBufferStart(
schedulerCmdStream,
loopSectionStartAddress,
RegisterOffsets::csGprR5, 1, CompareOperation::equal, false, false, isBcs);
}
// 6. Scheduler loop check section
{
UNRECOVERABLE_IF(schedulerCmdStream.getUsed() != RelaxedOrderingHelper::StaticSchedulerSizeAndOffsetSection<GfxFamily>::schedulerLoopCheckSectionStart);
LriHelper<GfxFamily>::program(&schedulerCmdStream, RegisterOffsets::csGprR10, static_cast<uint32_t>(RelaxedOrderingHelper::DynamicSchedulerSizeAndOffsetSection<GfxFamily>::semaphoreSectionSize), true, isBcs);
LriHelper<GfxFamily>::program(&schedulerCmdStream, RegisterOffsets::csGprR10 + 4, 0, true, isBcs);
EncodeAluHelper<GfxFamily, 4> aluHelper({{
{AluRegisters::opcodeLoad, AluRegisters::srca, AluRegisters::gpr9},
{AluRegisters::opcodeLoad, AluRegisters::srcb, AluRegisters::gpr10},
{AluRegisters::opcodeAdd, AluRegisters::opcodeNone, AluRegisters::opcodeNone},
{AluRegisters::opcodeStore, AluRegisters::gpr0, AluRegisters::accu},
}});
aluHelper.setMocs(miMathMocs);
aluHelper.copyToCmdStream(schedulerCmdStream);
EncodeBatchBufferStartOrEnd<GfxFamily>::programConditionalRegMemBatchBufferStart(schedulerCmdStream, 0, semaphoreGpuVa, RegisterOffsets::csGprR11, CompareOperation::greaterOrEqual, true, isBcs);
EncodeBatchBufferStartOrEnd<GfxFamily>::programBatchBufferStart(&schedulerCmdStream, schedulerStartAddress + RelaxedOrderingHelper::StaticSchedulerSizeAndOffsetSection<GfxFamily>::loopStartSectionStart,
false, false, false);
}
UNRECOVERABLE_IF(schedulerCmdStream.getUsed() != RelaxedOrderingHelper::StaticSchedulerSizeAndOffsetSection<GfxFamily>::totalSize);
}
template <typename GfxFamily, typename Dispatcher>
void DirectSubmissionHw<GfxFamily, Dispatcher>::dispatchRelaxedOrderingSchedulerSection(uint32_t value) {
LinearStream schedulerCmdStream(this->preinitializedRelaxedOrderingScheduler.get(), RelaxedOrderingHelper::DynamicSchedulerSizeAndOffsetSection<GfxFamily>::totalSize);
// 1. Init section
uint64_t schedulerStartVa = ringCommandStream.getCurrentGpuAddressPosition();
uint64_t semaphoreSectionVa = schedulerStartVa + RelaxedOrderingHelper::DynamicSchedulerSizeAndOffsetSection<GfxFamily>::semaphoreSectionStart;
constexpr bool isBcs = Dispatcher::isCopy();
LriHelper<GfxFamily>::program(&schedulerCmdStream, RegisterOffsets::csGprR11, value, true, isBcs);
LriHelper<GfxFamily>::program(&schedulerCmdStream, RegisterOffsets::csGprR9, static_cast<uint32_t>(semaphoreSectionVa & 0xFFFF'FFFFULL), true, isBcs);
LriHelper<GfxFamily>::program(&schedulerCmdStream, RegisterOffsets::csGprR9 + 4, static_cast<uint32_t>(semaphoreSectionVa >> 32), true, isBcs);
schedulerCmdStream.getSpace(sizeof(typename GfxFamily::MI_BATCH_BUFFER_START)); // skip patching
// 2. Semaphore section
{
using COMPARE_OPERATION = typename GfxFamily::MI_SEMAPHORE_WAIT::COMPARE_OPERATION;
schedulerCmdStream.getSpace(EncodeMiPredicate<GfxFamily>::getCmdSize()); // skip patching
EncodeSemaphore<GfxFamily>::addMiSemaphoreWaitCommand(schedulerCmdStream, semaphoreGpuVa, value,
COMPARE_OPERATION::COMPARE_OPERATION_SAD_GREATER_THAN_OR_EQUAL_SDD, false, false, false, false, nullptr);
}
// skip patching End section
auto dst = ringCommandStream.getSpace(RelaxedOrderingHelper::DynamicSchedulerSizeAndOffsetSection<GfxFamily>::totalSize);
memcpy_s(dst, RelaxedOrderingHelper::DynamicSchedulerSizeAndOffsetSection<GfxFamily>::totalSize,
this->preinitializedRelaxedOrderingScheduler.get(), RelaxedOrderingHelper::DynamicSchedulerSizeAndOffsetSection<GfxFamily>::totalSize);
}
template <typename GfxFamily, typename Dispatcher>
void DirectSubmissionHw<GfxFamily, Dispatcher>::updateRelaxedOrderingQueueSize(uint32_t newSize) {
this->currentRelaxedOrderingQueueSize = newSize;
EncodeStoreMemory<GfxFamily>::programStoreDataImm(this->ringCommandStream, this->relaxedOrderingQueueSizeLimitValueVa,
this->currentRelaxedOrderingQueueSize, 0, false, false,
nullptr);
}
template <typename GfxFamily, typename Dispatcher>
void DirectSubmissionHw<GfxFamily, Dispatcher>::dispatchRelaxedOrderingQueueStall() {
LinearStream bbStartStream(ringCommandStream.getSpace(EncodeBatchBufferStartOrEnd<GfxFamily>::getCmdSizeConditionalDataRegBatchBufferStart(false)),
EncodeBatchBufferStartOrEnd<GfxFamily>::getCmdSizeConditionalDataRegBatchBufferStart(false));
constexpr bool isBcs = Dispatcher::isCopy();
LriHelper<GfxFamily>::program(&ringCommandStream, RegisterOffsets::csGprR5, 1, true, isBcs);
dispatchSemaphoreSection(currentQueueWorkCount);
// patch conditional bb_start with current GPU address
EncodeBatchBufferStartOrEnd<GfxFamily>::programConditionalDataRegBatchBufferStart(bbStartStream, ringCommandStream.getCurrentGpuAddressPosition(),
RegisterOffsets::csGprR1, 0, CompareOperation::equal, false, false, isBcs);
relaxedOrderingSchedulerRequired = false;
}
template <typename GfxFamily, typename Dispatcher>
size_t DirectSubmissionHw<GfxFamily, Dispatcher>::getSizeDispatchRelaxedOrderingQueueStall() {
return getSizeSemaphoreSection(true) + sizeof(typename GfxFamily::MI_LOAD_REGISTER_IMM) +
EncodeBatchBufferStartOrEnd<GfxFamily>::getCmdSizeConditionalDataRegBatchBufferStart(false);
}
template <typename GfxFamily, typename Dispatcher>
void DirectSubmissionHw<GfxFamily, Dispatcher>::dispatchRelaxedOrderingReturnPtrRegs(LinearStream &cmdStream, uint64_t returnPtr) {
constexpr bool isBcs = Dispatcher::isCopy();
LriHelper<GfxFamily>::program(&cmdStream, RegisterOffsets::csGprR4, static_cast<uint32_t>(returnPtr & 0xFFFF'FFFFULL), true, isBcs);
LriHelper<GfxFamily>::program(&cmdStream, RegisterOffsets::csGprR4 + 4, static_cast<uint32_t>(returnPtr >> 32), true, isBcs);
uint64_t returnPtrAfterTaskStoreSection = returnPtr;
returnPtrAfterTaskStoreSection += RelaxedOrderingHelper::getSizeTaskStoreSection<GfxFamily>();
LriHelper<GfxFamily>::program(&cmdStream, RegisterOffsets::csGprR3, static_cast<uint32_t>(returnPtrAfterTaskStoreSection & 0xFFFF'FFFFULL), true, isBcs);
LriHelper<GfxFamily>::program(&cmdStream, RegisterOffsets::csGprR3 + 4, static_cast<uint32_t>(returnPtrAfterTaskStoreSection >> 32), true, isBcs);
}
template <typename GfxFamily, typename Dispatcher>
void DirectSubmissionHw<GfxFamily, Dispatcher>::initRelaxedOrderingRegisters() {
constexpr bool isBcs = Dispatcher::isCopy();
LriHelper<GfxFamily>::program(&ringCommandStream, RegisterOffsets::csGprR1, 0, true, isBcs);
LriHelper<GfxFamily>::program(&ringCommandStream, RegisterOffsets::csGprR1 + 4, 0, true, isBcs);
LriHelper<GfxFamily>::program(&ringCommandStream, RegisterOffsets::csGprR5, 0, true, isBcs);
LriHelper<GfxFamily>::program(&ringCommandStream, RegisterOffsets::csGprR5 + 4, 0, true, isBcs);
}
template <typename GfxFamily, typename Dispatcher>
void DirectSubmissionHw<GfxFamily, Dispatcher>::preinitializeRelaxedOrderingSections() {
// Task store section
preinitializedTaskStoreSection = std::make_unique<uint8_t[]>(RelaxedOrderingHelper::getSizeTaskStoreSection<GfxFamily>());
LinearStream stream(preinitializedTaskStoreSection.get(), RelaxedOrderingHelper::getSizeTaskStoreSection<GfxFamily>());
EncodeMiPredicate<GfxFamily>::encode(stream, MiPredicateType::disable);
uint64_t deferredTasksListGpuVa = deferredTasksListAllocation->getGpuAddress();
constexpr bool isBcs = Dispatcher::isCopy();
LriHelper<GfxFamily>::program(&stream, RegisterOffsets::csGprR6, static_cast<uint32_t>(deferredTasksListGpuVa & 0xFFFF'FFFFULL), true, isBcs);
LriHelper<GfxFamily>::program(&stream, RegisterOffsets::csGprR6 + 4, static_cast<uint32_t>(deferredTasksListGpuVa >> 32), true, isBcs);
// Task start VA
LriHelper<GfxFamily>::program(&stream, RegisterOffsets::csGprR7, 0, true, isBcs);
LriHelper<GfxFamily>::program(&stream, RegisterOffsets::csGprR7 + 4, 0, true, isBcs);
// Shift by 8 = multiply by 256. Address must by 64b aligned (shift by 6), but SHL accepts only 1, 2, 4, 8, 16 and 32
LriHelper<GfxFamily>::program(&stream, RegisterOffsets::csGprR8, 8, true, isBcs);
LriHelper<GfxFamily>::program(&stream, RegisterOffsets::csGprR8 + 4, 0, true, isBcs);
const uint32_t miMathMocs = this->rootDeviceEnvironment.getGmmHelper()->getL3EnabledMOCS();
EncodeAluHelper<GfxFamily, 9> aluHelper({{
{AluRegisters::opcodeLoad, AluRegisters::srca, AluRegisters::gpr1},
{AluRegisters::opcodeLoad, AluRegisters::srcb, AluRegisters::gpr8},
{AluRegisters::opcodeShl, AluRegisters::opcodeNone, AluRegisters::opcodeNone},
{AluRegisters::opcodeStore, AluRegisters::gpr8, AluRegisters::accu},
{AluRegisters::opcodeLoad, AluRegisters::srca, AluRegisters::gpr8},
{AluRegisters::opcodeLoad, AluRegisters::srcb, AluRegisters::gpr6},
{AluRegisters::opcodeAdd, AluRegisters::opcodeNone, AluRegisters::opcodeNone},
{AluRegisters::opcodeStoreind, AluRegisters::accu, AluRegisters::gpr7},
{AluRegisters::opcodeFenceWr, AluRegisters::opcodeNone, AluRegisters::opcodeNone},
}});
aluHelper.setMocs(miMathMocs);
aluHelper.copyToCmdStream(stream);
EncodeMathMMIO<GfxFamily>::encodeIncrement(stream, AluRegisters::gpr1, isBcs);
UNRECOVERABLE_IF(stream.getUsed() != RelaxedOrderingHelper::getSizeTaskStoreSection<GfxFamily>());
// Scheduler section
preinitializedRelaxedOrderingScheduler = std::make_unique<uint8_t[]>(RelaxedOrderingHelper::DynamicSchedulerSizeAndOffsetSection<GfxFamily>::totalSize);
LinearStream schedulerStream(preinitializedRelaxedOrderingScheduler.get(), RelaxedOrderingHelper::DynamicSchedulerSizeAndOffsetSection<GfxFamily>::totalSize);
uint64_t schedulerStartAddress = relaxedOrderingSchedulerAllocation->getGpuAddress();
// 1. Init section
LriHelper<GfxFamily>::program(&schedulerStream, RegisterOffsets::csGprR11, 0, true, isBcs);
LriHelper<GfxFamily>::program(&schedulerStream, RegisterOffsets::csGprR9, 0, true, isBcs);
LriHelper<GfxFamily>::program(&schedulerStream, RegisterOffsets::csGprR9 + 4, 0, true, isBcs);
EncodeBatchBufferStartOrEnd<GfxFamily>::programBatchBufferStart(&schedulerStream, schedulerStartAddress, false, false, false);
// 2. Semaphore section
{
using COMPARE_OPERATION = typename GfxFamily::MI_SEMAPHORE_WAIT::COMPARE_OPERATION;
EncodeMiPredicate<GfxFamily>::encode(schedulerStream, MiPredicateType::disable);
EncodeSemaphore<GfxFamily>::addMiSemaphoreWaitCommand(schedulerStream, 0, 0, COMPARE_OPERATION::COMPARE_OPERATION_SAD_GREATER_THAN_OR_EQUAL_SDD, false, false, false, false, nullptr);
}
// 3. End section
{
EncodeMiPredicate<GfxFamily>::encode(schedulerStream, MiPredicateType::disable);
LriHelper<GfxFamily>::program(&schedulerStream, RegisterOffsets::csGprR5, 0, true, isBcs);
}
UNRECOVERABLE_IF(schedulerStream.getUsed() != RelaxedOrderingHelper::DynamicSchedulerSizeAndOffsetSection<GfxFamily>::totalSize);
}
template <typename GfxFamily, typename Dispatcher>
void DirectSubmissionHw<GfxFamily, Dispatcher>::dispatchTaskStoreSection(uint64_t taskStartSectionVa) {
using MI_LOAD_REGISTER_IMM = typename GfxFamily::MI_LOAD_REGISTER_IMM;
constexpr size_t patchOffset = EncodeMiPredicate<GfxFamily>::getCmdSize() + (2 * sizeof(MI_LOAD_REGISTER_IMM));
auto lri = reinterpret_cast<MI_LOAD_REGISTER_IMM *>(ptrOffset(preinitializedTaskStoreSection.get(), patchOffset));
lri->setDataDword(static_cast<uint32_t>(taskStartSectionVa & 0xFFFF'FFFFULL));
lri++;
lri->setDataDword(static_cast<uint32_t>(taskStartSectionVa >> 32));
auto dst = ringCommandStream.getSpace(RelaxedOrderingHelper::getSizeTaskStoreSection<GfxFamily>());
memcpy_s(dst, RelaxedOrderingHelper::getSizeTaskStoreSection<GfxFamily>(), preinitializedTaskStoreSection.get(), RelaxedOrderingHelper::getSizeTaskStoreSection<GfxFamily>());
}
} // namespace NEO
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