/* * Copyright (C) 2018-2019 Intel Corporation * * SPDX-License-Identifier: MIT * */ #include "runtime/helpers/hw_helper.h" #include "test.h" #include "unit_tests/fixtures/device_fixture.h" using namespace NEO; typedef Test Gen11DeviceCaps; LKFTEST_F(Gen11DeviceCaps, givenLKFWhenCheckedOCLVersionThen21IsReported) { const auto &caps = pDevice->getDeviceInfo(); EXPECT_STREQ("OpenCL 1.2 NEO ", caps.clVersion); EXPECT_STREQ("OpenCL C 1.2 ", caps.clCVersion); } LKFTEST_F(Gen11DeviceCaps, givenLKFWhenCheckedSvmSupportThenNoSvmIsReported) { const auto &caps = pDevice->getDeviceInfo(); EXPECT_EQ(caps.svmCapabilities, 0u); } LKFTEST_F(Gen11DeviceCaps, givenLkfWhenDoublePrecissionIsCheckedThenFalseIsReturned) { EXPECT_FALSE(pDevice->getHardwareInfo().capabilityTable.ftrSupportsFP64); EXPECT_FALSE(pDevice->getHardwareInfo().capabilityTable.ftrSupports64BitMath); } LKFTEST_F(Gen11DeviceCaps, givenLkfWhenExtensionStringIsCheckedThenFP64IsNotReported) { const auto &caps = pDevice->getDeviceInfo(); std::string extensionString = caps.deviceExtensions; EXPECT_EQ(std::string::npos, extensionString.find(std::string("cl_khr_fp64"))); EXPECT_EQ(0u, caps.doubleFpConfig); } LKFTEST_F(Gen11DeviceCaps, givenLkfWhenSlmSizeIsRequiredThenReturnCorrectValue) { EXPECT_EQ(64u, pDevice->getHardwareInfo().capabilityTable.slmSize); } ICLLPTEST_F(Gen11DeviceCaps, lpSkusDontSupportFP64) { const auto &caps = pDevice->getDeviceInfo(); std::string extensionString = caps.deviceExtensions; EXPECT_EQ(std::string::npos, extensionString.find(std::string("cl_khr_fp64"))); EXPECT_EQ(0u, caps.doubleFpConfig); } ICLLPTEST_F(Gen11DeviceCaps, lpSkusDontSupportCorrectlyRoundedDivideSqrt) { const auto &caps = pDevice->getDeviceInfo(); EXPECT_EQ(0u, caps.singleFpConfig & CL_FP_CORRECTLY_ROUNDED_DIVIDE_SQRT); } ICLLPTEST_F(Gen11DeviceCaps, givenIclLpWhenSlmSizeIsRequiredThenReturnCorrectValue) { EXPECT_EQ(64u, pDevice->getHardwareInfo().capabilityTable.slmSize); } GEN11TEST_F(Gen11DeviceCaps, defaultPreemptionMode) { EXPECT_TRUE(PreemptionMode::MidThread == pDevice->getHardwareInfo().capabilityTable.defaultPreemptionMode); } GEN11TEST_F(Gen11DeviceCaps, profilingTimerResolution) { const auto &caps = pDevice->getDeviceInfo(); EXPECT_EQ(83u, caps.outProfilingTimerResolution); } GEN11TEST_F(Gen11DeviceCaps, kmdNotifyMechanism) { EXPECT_FALSE(pDevice->getHardwareInfo().capabilityTable.kmdNotifyProperties.enableKmdNotify); EXPECT_EQ(0, pDevice->getHardwareInfo().capabilityTable.kmdNotifyProperties.delayKmdNotifyMicroseconds); EXPECT_FALSE(pDevice->getHardwareInfo().capabilityTable.kmdNotifyProperties.enableQuickKmdSleep); EXPECT_EQ(0, pDevice->getHardwareInfo().capabilityTable.kmdNotifyProperties.delayQuickKmdSleepMicroseconds); EXPECT_FALSE(pDevice->getHardwareInfo().capabilityTable.kmdNotifyProperties.enableQuickKmdSleepForSporadicWaits); EXPECT_EQ(0, pDevice->getHardwareInfo().capabilityTable.kmdNotifyProperties.delayQuickKmdSleepForSporadicWaitsMicroseconds); } GEN11TEST_F(Gen11DeviceCaps, compression) { EXPECT_FALSE(pDevice->getHardwareInfo().capabilityTable.ftrRenderCompressedBuffers); EXPECT_FALSE(pDevice->getHardwareInfo().capabilityTable.ftrRenderCompressedImages); } GEN11TEST_F(Gen11DeviceCaps, givenHwInfoWhenRequestedComputeUnitsUsedForScratchThenReturnValidValue) { const auto &hwInfo = pDevice->getHardwareInfo(); auto &hwHelper = HwHelper::get(hwInfo.platform.eRenderCoreFamily); uint32_t expectedValue = hwInfo.gtSystemInfo.MaxSubSlicesSupported * hwInfo.gtSystemInfo.MaxEuPerSubSlice * 8; EXPECT_EQ(expectedValue, hwHelper.getComputeUnitsUsedForScratch(&hwInfo)); EXPECT_EQ(expectedValue, pDevice->getDeviceInfo().computeUnitsUsedForScratch); } GEN11TEST_F(Gen11DeviceCaps, givenHwInfoWhenRequestedMaxFrontEndThreadsThenReturnValidValue) { const auto &hwInfo = pDevice->getHardwareInfo(); EXPECT_EQ(HwHelper::getMaxThreadsForVfe(hwInfo), pDevice->getDeviceInfo().maxFrontEndThreads); } GEN11TEST_F(Gen11DeviceCaps, givenGen11WhenCheckSupportCacheFlushAfterWalkerThenFalse) { EXPECT_FALSE(pDevice->getHardwareInfo().capabilityTable.supportCacheFlushAfterWalker); } GEN11TEST_F(Gen11DeviceCaps, givenGen11WhenCheckBlitterOperationsSupportThenReturnFalse) { EXPECT_FALSE(pDevice->getHardwareInfo().capabilityTable.blitterOperationsSupported); } GEN11TEST_F(Gen11DeviceCaps, givenGen11WhenCheckingImageSupportThenReturnTrue) { EXPECT_TRUE(pDevice->getHardwareInfo().capabilityTable.supportsImages); } typedef Test IclLpUsDeviceIdTest; ICLLPTEST_F(IclLpUsDeviceIdTest, isSimulationCap) { unsigned short iclLpSimulationIds[2] = { IICL_LP_GT1_MOB_DEVICE_F0_ID, 0, // default, non-simulation }; NEO::MockDevice *mockDevice = nullptr; for (auto id : iclLpSimulationIds) { mockDevice = createWithUsDeviceId(id); ASSERT_NE(mockDevice, nullptr); if (id == 0) EXPECT_FALSE(mockDevice->isSimulation()); else EXPECT_TRUE(mockDevice->isSimulation()); delete mockDevice; } } ICLLPTEST_F(IclLpUsDeviceIdTest, GivenICLLPWhenCheckftr64KBpagesThenFalse) { EXPECT_FALSE(pDevice->getHardwareInfo().capabilityTable.ftr64KBpages); } typedef Test LkfUsDeviceIdTest; LKFTEST_F(LkfUsDeviceIdTest, isSimulationCap) { unsigned short lkfSimulationIds[2] = { ILKF_1x8x8_DESK_DEVICE_F0_ID, 0, // default, non-simulation }; NEO::MockDevice *mockDevice = nullptr; for (auto id : lkfSimulationIds) { mockDevice = createWithUsDeviceId(id); ASSERT_NE(mockDevice, nullptr); if (id == 0) EXPECT_FALSE(mockDevice->isSimulation()); else EXPECT_TRUE(mockDevice->isSimulation()); delete mockDevice; } }