From mboxrd@z Thu Jan 1 00:00:00 1970 Return-Path: Received: from mga03.intel.com (mga03.intel.com [134.134.136.65]) (using TLSv1.2 with cipher ECDHE-RSA-AES256-GCM-SHA384 (256/256 bits)) (No client certificate requested) by ml01.01.org (Postfix) with ESMTPS id 2EAF581C4A for ; Wed, 14 Dec 2016 00:33:37 -0800 (PST) Received: from fmsmga001.fm.intel.com ([10.253.24.23]) by orsmga103.jf.intel.com with ESMTP; 14 Dec 2016 00:33:36 -0800 X-ExtLoop1: 1 X-IronPort-AV: E=Sophos;i="5.33,346,1477983600"; d="scan'208";a="1081627735" Received: from shwdeopenpsi014.ccr.corp.intel.com ([10.239.9.34]) by fmsmga001.fm.intel.com with ESMTP; 14 Dec 2016 00:33:34 -0800 From: Hao Wu To: edk2-devel@lists.01.org Cc: Hao Wu , Michael Kinney , Jeff Fan Date: Wed, 14 Dec 2016 16:33:19 +0800 Message-Id: <1481704400-12044-4-git-send-email-hao.a.wu@intel.com> X-Mailer: git-send-email 1.9.5.msysgit.0 In-Reply-To: <1481704400-12044-1-git-send-email-hao.a.wu@intel.com> References: <1481704400-12044-1-git-send-email-hao.a.wu@intel.com> Subject: [PATCH 3/4] UefiCpuPkg/Include: Add Goldmont MSR header file with SDM (Sep.2016) X-BeenThere: edk2-devel@lists.01.org X-Mailman-Version: 2.1.21 Precedence: list List-Id: EDK II Development List-Unsubscribe: , List-Archive: List-Post: List-Help: List-Subscribe: , X-List-Received-Date: Wed, 14 Dec 2016 08:33:37 -0000 https://bugzilla.tianocore.org/show_bug.cgi?id=176 Add the MSR header file of Goldmont processor according to Intel(R) 64 and IA-32 Architectures Software Developer's Manual, Volume 3, September 2016, Chapter 35 Model-Specific-Registers (MSR), Section 35.5. Cc: Michael Kinney Cc: Jeff Fan Contributed-under: TianoCore Contribution Agreement 1.0 Signed-off-by: Hao Wu Reviewed-by: Jeff Fan --- UefiCpuPkg/Include/Register/Msr.h | 3 +- UefiCpuPkg/Include/Register/Msr/GoldmontMsr.h | 2515 +++++++++++++++++++++++++ 2 files changed, 2517 insertions(+), 1 deletion(-) create mode 100644 UefiCpuPkg/Include/Register/Msr/GoldmontMsr.h diff --git a/UefiCpuPkg/Include/Register/Msr.h b/UefiCpuPkg/Include/Register/Msr.h index ffa6d44..0ac8d5b 100644 --- a/UefiCpuPkg/Include/Register/Msr.h +++ b/UefiCpuPkg/Include/Register/Msr.h @@ -17,7 +17,7 @@ @par Specification Reference: Intel(R) 64 and IA-32 Architectures Software Developer's Manual, Volume 3, - December 2015, Chapter 35 Model-Specific-Registers (MSR), Chapter 35. + September 2016, Chapter 35 Model-Specific-Registers (MSR), Chapter 35. **/ @@ -28,6 +28,7 @@ #include #include #include +#include #include #include #include diff --git a/UefiCpuPkg/Include/Register/Msr/GoldmontMsr.h b/UefiCpuPkg/Include/Register/Msr/GoldmontMsr.h new file mode 100644 index 0000000..58b9c57 --- /dev/null +++ b/UefiCpuPkg/Include/Register/Msr/GoldmontMsr.h @@ -0,0 +1,2515 @@ +/** @file + MSR Definitions for Intel Atom processors based on the Goldmont microarchitecture. + + Provides defines for Machine Specific Registers(MSR) indexes. Data structures + are provided for MSRs that contain one or more bit fields. If the MSR value + returned is a single 32-bit or 64-bit value, then a data structure is not + provided for that MSR. + + Copyright (c) 2016, Intel Corporation. All rights reserved.
+ This program and the accompanying materials + are licensed and made available under the terms and conditions of the BSD License + which accompanies this distribution. The full text of the license may be found at + http://opensource.org/licenses/bsd-license.php + + THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, + WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED. + + @par Specification Reference: + Intel(R) 64 and IA-32 Architectures Software Developer's Manual, Volume 3, + September 2016, Chapter 35 Model-Specific-Registers (MSR), Section 35.5. + +**/ + +#ifndef __GOLDMONT_MSR_H__ +#define __GOLDMONT_MSR_H__ + +#include + +/** + Core. Control Features in Intel 64Processor (R/W). + + @param ECX MSR_GOLDMONT_FEATURE_CONTROL (0x0000003A) + @param EAX Lower 32-bits of MSR value. + Described by the type MSR_GOLDMONT_FEATURE_CONTROL_REGISTER. + @param EDX Upper 32-bits of MSR value. + Described by the type MSR_GOLDMONT_FEATURE_CONTROL_REGISTER. + + Example usage + @code + MSR_GOLDMONT_FEATURE_CONTROL_REGISTER Msr; + + Msr.Uint64 = AsmReadMsr64 (MSR_GOLDMONT_FEATURE_CONTROL); + AsmWriteMsr64 (MSR_GOLDMONT_FEATURE_CONTROL, Msr.Uint64); + @endcode + @note MSR_GOLDMONT_FEATURE_CONTROL is defined as IA32_FEATURE_CONTROL in SDM. +**/ +#define MSR_GOLDMONT_FEATURE_CONTROL 0x0000003A + +/** + MSR information returned for MSR index #MSR_GOLDMONT_FEATURE_CONTROL +**/ +typedef union { + /// + /// Individual bit fields + /// + struct { + /// + /// [Bit 0] Lock bit (R/WL) + /// + UINT32 Lock:1; + /// + /// [Bit 1] Enable VMX inside SMX operation (R/WL) + /// + UINT32 EnableVmxInsideSmx:1; + /// + /// [Bit 2] Enable VMX outside SMX operation (R/WL) + /// + UINT32 EnableVmxOutsideSmx:1; + UINT32 Reserved1:5; + /// + /// [Bits 14:8] SENTER local function enables (R/WL) + /// + UINT32 SenterLocalFunctionEnables:7; + /// + /// [Bit 15] SENTER global functions enable (R/WL) + /// + UINT32 SenterGlobalEnable:1; + UINT32 Reserved2:2; + /// + /// [Bit 18] SGX global functions enable (R/WL) + /// + UINT32 SgxEnable:1; + UINT32 Reserved3:13; + UINT32 Reserved4:32; + } Bits; + /// + /// All bit fields as a 32-bit value + /// + UINT32 Uint32; + /// + /// All bit fields as a 64-bit value + /// + UINT64 Uint64; +} MSR_GOLDMONT_FEATURE_CONTROL_REGISTER; + + +/** + Package. See http://biosbits.org. + + @param ECX MSR_GOLDMONT_PLATFORM_INFO (0x000000CE) + @param EAX Lower 32-bits of MSR value. + Described by the type MSR_GOLDMONT_PLATFORM_INFO_REGISTER. + @param EDX Upper 32-bits of MSR value. + Described by the type MSR_GOLDMONT_PLATFORM_INFO_REGISTER. + + Example usage + @code + MSR_GOLDMONT_PLATFORM_INFO_REGISTER Msr; + + Msr.Uint64 = AsmReadMsr64 (MSR_GOLDMONT_PLATFORM_INFO); + AsmWriteMsr64 (MSR_GOLDMONT_PLATFORM_INFO, Msr.Uint64); + @endcode + @note MSR_GOLDMONT_PLATFORM_INFO is defined as MSR_PLATFORM_INFO in SDM. +**/ +#define MSR_GOLDMONT_PLATFORM_INFO 0x000000CE + +/** + MSR information returned for MSR index #MSR_GOLDMONT_PLATFORM_INFO +**/ +typedef union { + /// + /// Individual bit fields + /// + struct { + UINT32 Reserved1:8; + /// + /// [Bits 15:8] Package. Maximum Non-Turbo Ratio (R/O) The is the ratio + /// of the frequency that invariant TSC runs at. Frequency = ratio * 100 + /// MHz. + /// + UINT32 MaximumNonTurboRatio:8; + UINT32 Reserved2:12; + /// + /// [Bit 28] Package. Programmable Ratio Limit for Turbo Mode (R/O) When + /// set to 1, indicates that Programmable Ratio Limits for Turbo mode is + /// enabled, and when set to 0, indicates Programmable Ratio Limits for + /// Turbo mode is disabled. + /// + UINT32 RatioLimit:1; + /// + /// [Bit 29] Package. Programmable TDP Limit for Turbo Mode (R/O) When + /// set to 1, indicates that TDP Limits for Turbo mode are programmable, + /// and when set to 0, indicates TDP Limit for Turbo mode is not + /// programmable. + /// + UINT32 TDPLimit:1; + /// + /// [Bit 30] Package. Programmable TJ OFFSET (R/O) When set to 1, + /// indicates that MSR_TEMPERATURE_TARGET.[27:24] is valid and writable to + /// specify an temperature offset. + /// + UINT32 TJOFFSET:1; + UINT32 Reserved3:1; + UINT32 Reserved4:8; + /// + /// [Bits 47:40] Package. Maximum Efficiency Ratio (R/O) The is the + /// minimum ratio (maximum efficiency) that the processor can operates, in + /// units of 100MHz. + /// + UINT32 MaximumEfficiencyRatio:8; + UINT32 Reserved5:16; + } Bits; + /// + /// All bit fields as a 64-bit value + /// + UINT64 Uint64; +} MSR_GOLDMONT_PLATFORM_INFO_REGISTER; + + +/** + Core. C-State Configuration Control (R/W) Note: C-state values are + processor specific C-state code names, unrelated to MWAIT extension C-state + parameters or ACPI CStates. See http://biosbits.org. + + @param ECX MSR_GOLDMONT_PKG_CST_CONFIG_CONTROL (0x000000E2) + @param EAX Lower 32-bits of MSR value. + Described by the type + MSR_GOLDMONT_PKG_CST_CONFIG_CONTROL_REGISTER. + @param EDX Upper 32-bits of MSR value. + Described by the type + MSR_GOLDMONT_PKG_CST_CONFIG_CONTROL_REGISTER. + + Example usage + @code + MSR_GOLDMONT_PKG_CST_CONFIG_CONTROL_REGISTER Msr; + + Msr.Uint64 = AsmReadMsr64 (MSR_GOLDMONT_PKG_CST_CONFIG_CONTROL); + AsmWriteMsr64 (MSR_GOLDMONT_PKG_CST_CONFIG_CONTROL, Msr.Uint64); + @endcode + @note MSR_GOLDMONT_PKG_CST_CONFIG_CONTROL is defined as MSR_PKG_CST_CONFIG_CONTROL in SDM. +**/ +#define MSR_GOLDMONT_PKG_CST_CONFIG_CONTROL 0x000000E2 + +/** + MSR information returned for MSR index #MSR_GOLDMONT_PKG_CST_CONFIG_CONTROL +**/ +typedef union { + /// + /// Individual bit fields + /// + struct { + /// + /// [Bits 3:0] Package C-State Limit (R/W) Specifies the lowest + /// processor-specific C-state code name (consuming the least power). for + /// the package. The default is set as factory-configured package C-state + /// limit. The following C-state code name encodings are supported: 0000b: + /// No limit 0001b: C1 0010b: C3 0011b: C6 0100b: C7 0101b: C7S 0110b: C8 + /// 0111b: C9 1000b: C10. + /// + UINT32 Limit:4; + UINT32 Reserved1:6; + /// + /// [Bit 10] I/O MWAIT Redirection Enable (R/W) When set, will map + /// IO_read instructions sent to IO register specified by + /// MSR_PMG_IO_CAPTURE_BASE to MWAIT instructions. + /// + UINT32 IO_MWAIT:1; + UINT32 Reserved2:4; + /// + /// [Bit 15] CFG Lock (R/WO) When set, lock bits 15:0 of this register + /// until next reset. + /// + UINT32 CFGLock:1; + UINT32 Reserved3:16; + UINT32 Reserved4:32; + } Bits; + /// + /// All bit fields as a 32-bit value + /// + UINT32 Uint32; + /// + /// All bit fields as a 64-bit value + /// + UINT64 Uint64; +} MSR_GOLDMONT_PKG_CST_CONFIG_CONTROL_REGISTER; + + +/** + Core. Enhanced SMM Capabilities (SMM-RO) Reports SMM capability Enhancement. + Accessible only while in SMM. + + @param ECX MSR_GOLDMONT_SMM_MCA_CAP (0x0000017D) + @param EAX Lower 32-bits of MSR value. + Described by the type MSR_GOLDMONT_SMM_MCA_CAP_REGISTER. + @param EDX Upper 32-bits of MSR value. + Described by the type MSR_GOLDMONT_SMM_MCA_CAP_REGISTER. + + Example usage + @code + MSR_GOLDMONT_SMM_MCA_CAP_REGISTER Msr; + + Msr.Uint64 = AsmReadMsr64 (MSR_GOLDMONT_SMM_MCA_CAP); + AsmWriteMsr64 (MSR_GOLDMONT_SMM_MCA_CAP, Msr.Uint64); + @endcode + @note MSR_GOLDMONT_SMM_MCA_CAP is defined as MSR_SMM_MCA_CAP in SDM. +**/ +#define MSR_GOLDMONT_SMM_MCA_CAP 0x0000017D + +/** + MSR information returned for MSR index #MSR_GOLDMONT_SMM_MCA_CAP +**/ +typedef union { + /// + /// Individual bit fields + /// + struct { + UINT32 Reserved1:32; + UINT32 Reserved2:26; + /// + /// [Bit 58] SMM_Code_Access_Chk (SMM-RO) If set to 1 indicates that the + /// SMM code access restriction is supported and the + /// MSR_SMM_FEATURE_CONTROL is supported. + /// + UINT32 SMM_Code_Access_Chk:1; + /// + /// [Bit 59] Long_Flow_Indication (SMM-RO) If set to 1 indicates that the + /// SMM long flow indicator is supported and the MSR_SMM_DELAYED is + /// supported. + /// + UINT32 Long_Flow_Indication:1; + UINT32 Reserved3:4; + } Bits; + /// + /// All bit fields as a 64-bit value + /// + UINT64 Uint64; +} MSR_GOLDMONT_SMM_MCA_CAP_REGISTER; + + +/** + Enable Misc. Processor Features (R/W) Allows a variety of processor + functions to be enabled and disabled. + + @param ECX MSR_GOLDMONT_IA32_MISC_ENABLE (0x000001A0) + @param EAX Lower 32-bits of MSR value. + Described by the type MSR_GOLDMONT_IA32_MISC_ENABLE_REGISTER. + @param EDX Upper 32-bits of MSR value. + Described by the type MSR_GOLDMONT_IA32_MISC_ENABLE_REGISTER. + + Example usage + @code + MSR_GOLDMONT_IA32_MISC_ENABLE_REGISTER Msr; + + Msr.Uint64 = AsmReadMsr64 (MSR_GOLDMONT_IA32_MISC_ENABLE); + AsmWriteMsr64 (MSR_GOLDMONT_IA32_MISC_ENABLE, Msr.Uint64); + @endcode + @note MSR_GOLDMONT_IA32_MISC_ENABLE is defined as IA32_MISC_ENABLE in SDM. +**/ +#define MSR_GOLDMONT_IA32_MISC_ENABLE 0x000001A0 + +/** + MSR information returned for MSR index #MSR_GOLDMONT_IA32_MISC_ENABLE +**/ +typedef union { + /// + /// Individual bit fields + /// + struct { + /// + /// [Bit 0] Core. Fast-Strings Enable See Table 35-2. + /// + UINT32 FastStrings:1; + UINT32 Reserved1:2; + /// + /// [Bit 3] Package. Automatic Thermal Control Circuit Enable (R/W) See + /// Table 35-2. Default value is 1. + /// + UINT32 AutomaticThermalControlCircuit:1; + UINT32 Reserved2:3; + /// + /// [Bit 7] Core. Performance Monitoring Available (R) See Table 35-2. + /// + UINT32 PerformanceMonitoring:1; + UINT32 Reserved3:3; + /// + /// [Bit 11] Core. Branch Trace Storage Unavailable (RO) See Table 35-2. + /// + UINT32 BTS:1; + /// + /// [Bit 12] Core. Processor Event Based Sampling Unavailable (RO) See + /// Table 35-2. + /// + UINT32 PEBS:1; + UINT32 Reserved4:3; + /// + /// [Bit 16] Package. Enhanced Intel SpeedStep Technology Enable (R/W) See + /// Table 35-2. + /// + UINT32 EIST:1; + UINT32 Reserved5:1; + /// + /// [Bit 18] Core. ENABLE MONITOR FSM (R/W) See Table 35-2. + /// + UINT32 MONITOR:1; + UINT32 Reserved6:3; + /// + /// [Bit 22] Core. Limit CPUID Maxval (R/W) See Table 35-2. + /// + UINT32 LimitCpuidMaxval:1; + /// + /// [Bit 23] Package. xTPR Message Disable (R/W) See Table 35-2. + /// + UINT32 xTPR_Message_Disable:1; + UINT32 Reserved7:8; + UINT32 Reserved8:2; + /// + /// [Bit 34] Core. XD Bit Disable (R/W) See Table 35-2. + /// + UINT32 XD:1; + UINT32 Reserved9:3; + /// + /// [Bit 38] Package. Turbo Mode Disable (R/W) When set to 1 on processors + /// that support Intel Turbo Boost Technology, the turbo mode feature is + /// disabled and the IDA_Enable feature flag will be clear (CPUID.06H: + /// EAX[1]=0). When set to a 0 on processors that support IDA, CPUID.06H: + /// EAX[1] reports the processor's support of turbo mode is enabled. Note: + /// the power-on default value is used by BIOS to detect hardware support + /// of turbo mode. If power-on default value is 1, turbo mode is available + /// in the processor. If power-on default value is 0, turbo mode is not + /// available. + /// + UINT32 TurboModeDisable:1; + UINT32 Reserved10:25; + } Bits; + /// + /// All bit fields as a 64-bit value + /// + UINT64 Uint64; +} MSR_GOLDMONT_IA32_MISC_ENABLE_REGISTER; + + +/** + Miscellaneous Feature Control (R/W). + + @param ECX MSR_GOLDMONT_MISC_FEATURE_CONTROL (0x000001A4) + @param EAX Lower 32-bits of MSR value. + Described by the type MSR_GOLDMONT_MISC_FEATURE_CONTROL_REGISTER. + @param EDX Upper 32-bits of MSR value. + Described by the type MSR_GOLDMONT_MISC_FEATURE_CONTROL_REGISTER. + + Example usage + @code + MSR_GOLDMONT_MISC_FEATURE_CONTROL_REGISTER Msr; + + Msr.Uint64 = AsmReadMsr64 (MSR_GOLDMONT_MISC_FEATURE_CONTROL); + AsmWriteMsr64 (MSR_GOLDMONT_MISC_FEATURE_CONTROL, Msr.Uint64); + @endcode + @note MSR_GOLDMONT_MISC_FEATURE_CONTROL is defined as MSR_MISC_FEATURE_CONTROL in SDM. +**/ +#define MSR_GOLDMONT_MISC_FEATURE_CONTROL 0x000001A4 + +/** + MSR information returned for MSR index #MSR_GOLDMONT_MISC_FEATURE_CONTROL +**/ +typedef union { + /// + /// Individual bit fields + /// + struct { + /// + /// [Bit 0] Core. L2 Hardware Prefetcher Disable (R/W) If 1, disables the + /// L2 hardware prefetcher, which fetches additional lines of code or data + /// into the L2 cache. + /// + UINT32 L2HardwarePrefetcherDisable:1; + UINT32 Reserved1:1; + /// + /// [Bit 2] Core. DCU Hardware Prefetcher Disable (R/W) If 1, disables + /// the L1 data cache prefetcher, which fetches the next cache line into + /// L1 data cache. + /// + UINT32 DCUHardwarePrefetcherDisable:1; + UINT32 Reserved2:29; + UINT32 Reserved3:32; + } Bits; + /// + /// All bit fields as a 32-bit value + /// + UINT32 Uint32; + /// + /// All bit fields as a 64-bit value + /// + UINT64 Uint64; +} MSR_GOLDMONT_MISC_FEATURE_CONTROL_REGISTER; + + +/** + Package. See http://biosbits.org. + + @param ECX MSR_GOLDMONT_MISC_PWR_MGMT (0x000001AA) + @param EAX Lower 32-bits of MSR value. + Described by the type MSR_GOLDMONT_MISC_PWR_MGMT_REGISTER. + @param EDX Upper 32-bits of MSR value. + Described by the type MSR_GOLDMONT_MISC_PWR_MGMT_REGISTER. + + Example usage + @code + MSR_GOLDMONT_MISC_PWR_MGMT_REGISTER Msr; + + Msr.Uint64 = AsmReadMsr64 (MSR_GOLDMONT_MISC_PWR_MGMT); + AsmWriteMsr64 (MSR_GOLDMONT_MISC_PWR_MGMT, Msr.Uint64); + @endcode + @note MSR_GOLDMONT_MISC_PWR_MGMT is defined as MSR_MISC_PWR_MGMT in SDM. +**/ +#define MSR_GOLDMONT_MISC_PWR_MGMT 0x000001AA + +/** + MSR information returned for MSR index #MSR_GOLDMONT_MISC_PWR_MGMT +**/ +typedef union { + /// + /// Individual bit fields + /// + struct { + /// + /// [Bit 0] EIST Hardware Coordination Disable (R/W) When 0, enables + /// hardware coordination of Enhanced Intel Speedstep Technology request + /// from processor cores; When 1, disables hardware coordination of + /// Enhanced Intel Speedstep Technology requests. + /// + UINT32 EISTHardwareCoordinationDisable:1; + UINT32 Reserved1:21; + /// + /// [Bit 22] Thermal Interrupt Coordination Enable (R/W) If set, then + /// thermal interrupt on one core is routed to all cores. + /// + UINT32 ThermalInterruptCoordinationEnable:1; + UINT32 Reserved2:9; + UINT32 Reserved3:32; + } Bits; + /// + /// All bit fields as a 32-bit value + /// + UINT32 Uint32; + /// + /// All bit fields as a 64-bit value + /// + UINT64 Uint64; +} MSR_GOLDMONT_MISC_PWR_MGMT_REGISTER; + + +/** + Package. Maximum Ratio Limit of Turbo Mode by Core Groups (RW) Specifies + Maximum Ratio Limit for each Core Group. Max ratio for groups with more + cores must decrease monotonically. For groups with less than 4 cores, the + max ratio must be 32 or less. For groups with 4-5 cores, the max ratio must + be 22 or less. For groups with more than 5 cores, the max ratio must be 16 + or less.. + + @param ECX MSR_GOLDMONT_TURBO_RATIO_LIMIT (0x000001AD) + @param EAX Lower 32-bits of MSR value. + Described by the type MSR_GOLDMONT_TURBO_RATIO_LIMIT_REGISTER. + @param EDX Upper 32-bits of MSR value. + Described by the type MSR_GOLDMONT_TURBO_RATIO_LIMIT_REGISTER. + + Example usage + @code + MSR_GOLDMONT_TURBO_RATIO_LIMIT_REGISTER Msr; + + Msr.Uint64 = AsmReadMsr64 (MSR_GOLDMONT_TURBO_RATIO_LIMIT); + AsmWriteMsr64 (MSR_GOLDMONT_TURBO_RATIO_LIMIT, Msr.Uint64); + @endcode + @note MSR_GOLDMONT_TURBO_RATIO_LIMIT is defined as MSR_TURBO_RATIO_LIMIT in SDM. +**/ +#define MSR_GOLDMONT_TURBO_RATIO_LIMIT 0x000001AD + +/** + MSR information returned for MSR index #MSR_GOLDMONT_TURBO_RATIO_LIMIT +**/ +typedef union { + /// + /// Individual bit fields + /// + struct { + /// + /// [Bits 7:0] Package. Maximum Ratio Limit for Active cores in Group 0 + /// Maximum turbo ratio limit when number of active cores is less or equal + /// to Group 0 threshold. + /// + UINT32 MaxRatioLimitGroup0:8; + /// + /// [Bits 15:8] Package. Maximum Ratio Limit for Active cores in Group 1 + /// Maximum turbo ratio limit when number of active cores is less or equal + /// to Group 1 threshold and greater than Group 0 threshold. + /// + UINT32 MaxRatioLimitGroup1:8; + /// + /// [Bits 23:16] Package. Maximum Ratio Limit for Active cores in Group 2 + /// Maximum turbo ratio limit when number of active cores is less or equal + /// to Group 2 threshold and greater than Group 1 threshold. + /// + UINT32 MaxRatioLimitGroup2:8; + /// + /// [Bits 31:24] Package. Maximum Ratio Limit for Active cores in Group 3 + /// Maximum turbo ratio limit when number of active cores is less or equal + /// to Group 3 threshold and greater than Group 2 threshold. + /// + UINT32 MaxRatioLimitGroup3:8; + /// + /// [Bits 39:32] Package. Maximum Ratio Limit for Active cores in Group 4 + /// Maximum turbo ratio limit when number of active cores is less or equal + /// to Group 4 threshold and greater than Group 3 threshold. + /// + UINT32 MaxRatioLimitGroup4:8; + /// + /// [Bits 47:40] Package. Maximum Ratio Limit for Active cores in Group 5 + /// Maximum turbo ratio limit when number of active cores is less or equal + /// to Group 5 threshold and greater than Group 4 threshold. + /// + UINT32 MaxRatioLimitGroup5:8; + /// + /// [Bits 55:48] Package. Maximum Ratio Limit for Active cores in Group 6 + /// Maximum turbo ratio limit when number of active cores is less or equal + /// to Group 6 threshold and greater than Group 5 threshold. + /// + UINT32 MaxRatioLimitGroup6:8; + /// + /// [Bits 63:56] Package. Maximum Ratio Limit for Active cores in Group 7 + /// Maximum turbo ratio limit when number of active cores is less or equal + /// to Group 7 threshold and greater than Group 6 threshold. + /// + UINT32 MaxRatioLimitGroup7:8; + } Bits; + /// + /// All bit fields as a 64-bit value + /// + UINT64 Uint64; +} MSR_GOLDMONT_TURBO_RATIO_LIMIT_REGISTER; + + +/** + Package. Group Size of Active Cores for Turbo Mode Operation (RW) Writes of + 0 threshold is ignored. + + @param ECX MSR_GOLDMONT_TURBO_GROUP_CORECNT (0x000001AE) + @param EAX Lower 32-bits of MSR value. + Described by the type MSR_GOLDMONT_TURBO_GROUP_CORECNT_REGISTER. + @param EDX Upper 32-bits of MSR value. + Described by the type MSR_GOLDMONT_TURBO_GROUP_CORECNT_REGISTER. + + Example usage + @code + MSR_GOLDMONT_TURBO_GROUP_CORECNT_REGISTER Msr; + + Msr.Uint64 = AsmReadMsr64 (MSR_GOLDMONT_TURBO_GROUP_CORECNT); + AsmWriteMsr64 (MSR_GOLDMONT_TURBO_GROUP_CORECNT, Msr.Uint64); + @endcode + @note MSR_GOLDMONT_TURBO_GROUP_CORECNT is defined as MSR_TURBO_GROUP_CORECNT in SDM. +**/ +#define MSR_GOLDMONT_TURBO_GROUP_CORECNT 0x000001AE + +/** + MSR information returned for MSR index #MSR_GOLDMONT_TURBO_GROUP_CORECNT +**/ +typedef union { + /// + /// Individual bit fields + /// + struct { + /// + /// [Bits 7:0] Package. Group 0 Core Count Threshold Maximum number of + /// active cores to operate under Group 0 Max Turbo Ratio limit. + /// + UINT32 CoreCountThresholdGroup0:8; + /// + /// [Bits 15:8] Package. Group 1 Core Count Threshold Maximum number of + /// active cores to operate under Group 1 Max Turbo Ratio limit. Must be + /// greater than Group 0 Core Count. + /// + UINT32 CoreCountThresholdGroup1:8; + /// + /// [Bits 23:16] Package. Group 2 Core Count Threshold Maximum number of + /// active cores to operate under Group 2 Max Turbo Ratio limit. Must be + /// greater than Group 1 Core Count. + /// + UINT32 CoreCountThresholdGroup2:8; + /// + /// [Bits 31:24] Package. Group 3 Core Count Threshold Maximum number of + /// active cores to operate under Group 3 Max Turbo Ratio limit. Must be + /// greater than Group 2 Core Count. + /// + UINT32 CoreCountThresholdGroup3:8; + /// + /// [Bits 39:32] Package. Group 4 Core Count Threshold Maximum number of + /// active cores to operate under Group 4 Max Turbo Ratio limit. Must be + /// greater than Group 3 Core Count. + /// + UINT32 CoreCountThresholdGroup4:8; + /// + /// [Bits 47:40] Package. Group 5 Core Count Threshold Maximum number of + /// active cores to operate under Group 5 Max Turbo Ratio limit. Must be + /// greater than Group 4 Core Count. + /// + UINT32 CoreCountThresholdGroup5:8; + /// + /// [Bits 55:48] Package. Group 6 Core Count Threshold Maximum number of + /// active cores to operate under Group 6 Max Turbo Ratio limit. Must be + /// greater than Group 5 Core Count. + /// + UINT32 CoreCountThresholdGroup6:8; + /// + /// [Bits 63:56] Package. Group 7 Core Count Threshold Maximum number of + /// active cores to operate under Group 7 Max Turbo Ratio limit. Must be + /// greater than Group 6 Core Count and not less than the total number of + /// processor cores in the package. E.g. specify 255. + /// + UINT32 CoreCountThresholdGroup7:8; + } Bits; + /// + /// All bit fields as a 64-bit value + /// + UINT64 Uint64; +} MSR_GOLDMONT_TURBO_GROUP_CORECNT_REGISTER; + + +/** + Core. Last Branch Record Filtering Select Register (R/W) See Section + 17.7.2, "Filtering of Last Branch Records.". + + @param ECX MSR_GOLDMONT_LBR_SELECT (0x000001C8) + @param EAX Lower 32-bits of MSR value. + Described by the type MSR_GOLDMONT_LBR_SELECT_REGISTER. + @param EDX Upper 32-bits of MSR value. + Described by the type MSR_GOLDMONT_LBR_SELECT_REGISTER. + + Example usage + @code + MSR_GOLDMONT_LBR_SELECT_REGISTER Msr; + + Msr.Uint64 = AsmReadMsr64 (MSR_GOLDMONT_LBR_SELECT); + AsmWriteMsr64 (MSR_GOLDMONT_LBR_SELECT, Msr.Uint64); + @endcode + @note MSR_GOLDMONT_LBR_SELECT is defined as MSR_LBR_SELECT in SDM. +**/ +#define MSR_GOLDMONT_LBR_SELECT 0x000001C8 + +/** + MSR information returned for MSR index #MSR_GOLDMONT_LBR_SELECT +**/ +typedef union { + /// + /// Individual bit fields + /// + struct { + /// + /// [Bit 0] CPL_EQ_0. + /// + UINT32 CPL_EQ_0:1; + /// + /// [Bit 1] CPL_NEQ_0. + /// + UINT32 CPL_NEQ_0:1; + /// + /// [Bit 2] JCC. + /// + UINT32 JCC:1; + /// + /// [Bit 3] NEAR_REL_CALL. + /// + UINT32 NEAR_REL_CALL:1; + /// + /// [Bit 4] NEAR_IND_CALL. + /// + UINT32 NEAR_IND_CALL:1; + /// + /// [Bit 5] NEAR_RET. + /// + UINT32 NEAR_RET:1; + /// + /// [Bit 6] NEAR_IND_JMP. + /// + UINT32 NEAR_IND_JMP:1; + /// + /// [Bit 7] NEAR_REL_JMP. + /// + UINT32 NEAR_REL_JMP:1; + /// + /// [Bit 8] FAR_BRANCH. + /// + UINT32 FAR_BRANCH:1; + /// + /// [Bit 9] EN_CALL_STACK. + /// + UINT32 EN_CALL_STACK:1; + UINT32 Reserved1:22; + UINT32 Reserved2:32; + } Bits; + /// + /// All bit fields as a 32-bit value + /// + UINT32 Uint32; + /// + /// All bit fields as a 64-bit value + /// + UINT64 Uint64; +} MSR_GOLDMONT_LBR_SELECT_REGISTER; + + +/** + Core. Last Branch Record Stack TOS (R/W) Contains an index (bits 0-4) that + points to the MSR containing the most recent branch record. See + MSR_LASTBRANCH_0_FROM_IP. + + @param ECX MSR_GOLDMONT_LASTBRANCH_TOS (0x000001C9) + @param EAX Lower 32-bits of MSR value. + @param EDX Upper 32-bits of MSR value. + + Example usage + @code + UINT64 Msr; + + Msr = AsmReadMsr64 (MSR_GOLDMONT_LASTBRANCH_TOS); + AsmWriteMsr64 (MSR_GOLDMONT_LASTBRANCH_TOS, Msr); + @endcode + @note MSR_GOLDMONT_LASTBRANCH_TOS is defined as MSR_LASTBRANCH_TOS in SDM. +**/ +#define MSR_GOLDMONT_LASTBRANCH_TOS 0x000001C9 + + +/** + Core. Power Control Register. See http://biosbits.org. + + @param ECX MSR_GOLDMONT_POWER_CTL (0x000001FC) + @param EAX Lower 32-bits of MSR value. + Described by the type MSR_GOLDMONT_POWER_CTL_REGISTER. + @param EDX Upper 32-bits of MSR value. + Described by the type MSR_GOLDMONT_POWER_CTL_REGISTER. + + Example usage + @code + MSR_GOLDMONT_POWER_CTL_REGISTER Msr; + + Msr.Uint64 = AsmReadMsr64 (MSR_GOLDMONT_POWER_CTL); + AsmWriteMsr64 (MSR_GOLDMONT_POWER_CTL, Msr.Uint64); + @endcode + @note MSR_GOLDMONT_POWER_CTL is defined as MSR_POWER_CTL in SDM. +**/ +#define MSR_GOLDMONT_POWER_CTL 0x000001FC + +/** + MSR information returned for MSR index #MSR_GOLDMONT_POWER_CTL +**/ +typedef union { + /// + /// Individual bit fields + /// + struct { + UINT32 Reserved1:1; + /// + /// [Bit 1] Package. C1E Enable (R/W) When set to '1', will enable the + /// CPU to switch to the Minimum Enhanced Intel SpeedStep Technology + /// operating point when all execution cores enter MWAIT (C1). + /// + UINT32 C1EEnable:1; + UINT32 Reserved2:30; + UINT32 Reserved3:32; + } Bits; + /// + /// All bit fields as a 32-bit value + /// + UINT32 Uint32; + /// + /// All bit fields as a 64-bit value + /// + UINT64 Uint64; +} MSR_GOLDMONT_POWER_CTL_REGISTER; + + +/** + Package. Lower 64 Bit OwnerEpoch Component of SGX Key (RO). Low 64 bits of + an 128-bit external entropy value for key derivation of an enclave. + + @param ECX MSR_GOLDMONT_SGXOWNER0 (0x00000300) + @param EAX Lower 32-bits of MSR value. + @param EDX Upper 32-bits of MSR value. + + Example usage + @code + UINT64 Msr; + + Msr = AsmReadMsr64 (MSR_GOLDMONT_SGXOWNER0); + @endcode + @note MSR_GOLDMONT_SGXOWNER0 is defined as MSR_SGXOWNER0 in SDM. +**/ +#define MSR_GOLDMONT_SGXOWNER0 0x00000300 + + +/** + Package. Upper 64 Bit OwnerEpoch Component of SGX Key (RO). Upper 64 bits of + an 128-bit external entropy value for key derivation of an enclave. + + @param ECX MSR_GOLDMONT_SGXOWNER1 (0x00000301) + @param EAX Lower 32-bits of MSR value. + @param EDX Upper 32-bits of MSR value. + + Example usage + @code + UINT64 Msr; + + Msr = AsmReadMsr64 (MSR_GOLDMONT_SGXOWNER1); + @endcode + @note MSR_GOLDMONT_SGXOWNER1 is defined as MSR_SGXOWNER1 in SDM. +**/ +#define MSR_GOLDMONT_SGXOWNER1 0x00000301 + + +/** + Core. See Table 35-2. See Section 18.2.4, "Architectural Performance + Monitoring Version 4.". + + @param ECX MSR_GOLDMONT_IA32_PERF_GLOBAL_STATUS_RESET (0x00000390) + @param EAX Lower 32-bits of MSR value. + Described by the type MSR_GOLDMONT_IA32_PERF_GLOBAL_STATUS_RESET_REGISTER. + @param EDX Upper 32-bits of MSR value. + Described by the type MSR_GOLDMONT_IA32_PERF_GLOBAL_STATUS_RESET_REGISTER. + + Example usage + @code + MSR_GOLDMONT_IA32_PERF_GLOBAL_STATUS_RESET_REGISTER Msr; + + Msr.Uint64 = AsmReadMsr64 (MSR_GOLDMONT_IA32_PERF_GLOBAL_STATUS_RESET); + AsmWriteMsr64 (MSR_GOLDMONT_IA32_PERF_GLOBAL_STATUS_RESET, Msr.Uint64); + @endcode + @note MSR_GOLDMONT_IA32_PERF_GLOBAL_STATUS_RESET is defined as IA32_PERF_GLOBAL_STATUS_RESET in SDM. +**/ +#define MSR_GOLDMONT_IA32_PERF_GLOBAL_STATUS_RESET 0x00000390 + +/** + MSR information returned for MSR index + #MSR_GOLDMONT_IA32_PERF_GLOBAL_STATUS_RESET +**/ +typedef union { + /// + /// Individual bit fields + /// + struct { + /// + /// [Bit 0] Set 1 to clear Ovf_PMC0. + /// + UINT32 Ovf_PMC0:1; + /// + /// [Bit 1] Set 1 to clear Ovf_PMC1. + /// + UINT32 Ovf_PMC1:1; + /// + /// [Bit 2] Set 1 to clear Ovf_PMC2. + /// + UINT32 Ovf_PMC2:1; + /// + /// [Bit 3] Set 1 to clear Ovf_PMC3. + /// + UINT32 Ovf_PMC3:1; + UINT32 Reserved1:28; + /// + /// [Bit 32] Set 1 to clear Ovf_FixedCtr0. + /// + UINT32 Ovf_FixedCtr0:1; + /// + /// [Bit 33] Set 1 to clear Ovf_FixedCtr1. + /// + UINT32 Ovf_FixedCtr1:1; + /// + /// [Bit 34] Set 1 to clear Ovf_FixedCtr2. + /// + UINT32 Ovf_FixedCtr2:1; + UINT32 Reserved2:20; + /// + /// [Bit 55] Set 1 to clear Trace_ToPA_PMI. + /// + UINT32 Trace_ToPA_PMI:1; + UINT32 Reserved3:2; + /// + /// [Bit 58] Set 1 to clear LBR_Frz. + /// + UINT32 LBR_Frz:1; + /// + /// [Bit 59] Set 1 to clear CTR_Frz. + /// + UINT32 CTR_Frz:1; + /// + /// [Bit 60] Set 1 to clear ASCI. + /// + UINT32 ASCI:1; + /// + /// [Bit 61] Set 1 to clear Ovf_Uncore. + /// + UINT32 Ovf_Uncore:1; + /// + /// [Bit 62] Set 1 to clear Ovf_BufDSSAVE. + /// + UINT32 Ovf_BufDSSAVE:1; + /// + /// [Bit 63] Set 1 to clear CondChgd. + /// + UINT32 CondChgd:1; + } Bits; + /// + /// All bit fields as a 64-bit value + /// + UINT64 Uint64; +} MSR_GOLDMONT_IA32_PERF_GLOBAL_STATUS_RESET_REGISTER; + + +/** + Core. See Table 35-2. See Section 18.2.4, "Architectural Performance + Monitoring Version 4.". + + @param ECX MSR_GOLDMONT_IA32_PERF_GLOBAL_STATUS_SET (0x00000391) + @param EAX Lower 32-bits of MSR value. + Described by the type MSR_GOLDMONT_IA32_PERF_GLOBAL_STATUS_SET_REGISTER. + @param EDX Upper 32-bits of MSR value. + Described by the type MSR_GOLDMONT_IA32_PERF_GLOBAL_STATUS_SET_REGISTER. + + Example usage + @code + MSR_GOLDMONT_IA32_PERF_GLOBAL_STATUS_SET_REGISTER Msr; + + Msr.Uint64 = AsmReadMsr64 (MSR_GOLDMONT_IA32_PERF_GLOBAL_STATUS_SET); + AsmWriteMsr64 (MSR_GOLDMONT_IA32_PERF_GLOBAL_STATUS_SET, Msr.Uint64); + @endcode + @note MSR_GOLDMONT_IA32_PERF_GLOBAL_STATUS_SET is defined as IA32_PERF_GLOBAL_STATUS_SET in SDM. +**/ +#define MSR_GOLDMONT_IA32_PERF_GLOBAL_STATUS_SET 0x00000391 + +/** + MSR information returned for MSR index + #MSR_GOLDMONT_IA32_PERF_GLOBAL_STATUS_SET +**/ +typedef union { + /// + /// Individual bit fields + /// + struct { + /// + /// [Bit 0] Set 1 to cause Ovf_PMC0 = 1. + /// + UINT32 Ovf_PMC0:1; + /// + /// [Bit 1] Set 1 to cause Ovf_PMC1 = 1. + /// + UINT32 Ovf_PMC1:1; + /// + /// [Bit 2] Set 1 to cause Ovf_PMC2 = 1. + /// + UINT32 Ovf_PMC2:1; + /// + /// [Bit 3] Set 1 to cause Ovf_PMC3 = 1. + /// + UINT32 Ovf_PMC3:1; + UINT32 Reserved1:28; + /// + /// [Bit 32] Set 1 to cause Ovf_FixedCtr0 = 1. + /// + UINT32 Ovf_FixedCtr0:1; + /// + /// [Bit 33] Set 1 to cause Ovf_FixedCtr1 = 1. + /// + UINT32 Ovf_FixedCtr1:1; + /// + /// [Bit 34] Set 1 to cause Ovf_FixedCtr2 = 1. + /// + UINT32 Ovf_FixedCtr2:1; + UINT32 Reserved2:20; + /// + /// [Bit 55] Set 1 to cause Trace_ToPA_PMI = 1. + /// + UINT32 Trace_ToPA_PMI:1; + UINT32 Reserved3:2; + /// + /// [Bit 58] Set 1 to cause LBR_Frz = 1. + /// + UINT32 LBR_Frz:1; + /// + /// [Bit 59] Set 1 to cause CTR_Frz = 1. + /// + UINT32 CTR_Frz:1; + /// + /// [Bit 60] Set 1 to cause ASCI = 1. + /// + UINT32 ASCI:1; + /// + /// [Bit 61] Set 1 to cause Ovf_Uncore. + /// + UINT32 Ovf_Uncore:1; + /// + /// [Bit 62] Set 1 to cause Ovf_BufDSSAVE. + /// + UINT32 Ovf_BufDSSAVE:1; + UINT32 Reserved4:1; + } Bits; + /// + /// All bit fields as a 64-bit value + /// + UINT64 Uint64; +} MSR_GOLDMONT_IA32_PERF_GLOBAL_STATUS_SET_REGISTER; + + +/** + Core. See Table 35-2. See Section 18.4.4, "Processor Event Based Sampling + (PEBS).". + + @param ECX MSR_GOLDMONT_PEBS_ENABLE (0x000003F1) + @param EAX Lower 32-bits of MSR value. + Described by the type MSR_GOLDMONT_PEBS_ENABLE_REGISTER. + @param EDX Upper 32-bits of MSR value. + Described by the type MSR_GOLDMONT_PEBS_ENABLE_REGISTER. + + Example usage + @code + MSR_GOLDMONT_PEBS_ENABLE_REGISTER Msr; + + Msr.Uint64 = AsmReadMsr64 (MSR_GOLDMONT_PEBS_ENABLE); + AsmWriteMsr64 (MSR_GOLDMONT_PEBS_ENABLE, Msr.Uint64); + @endcode + @note MSR_GOLDMONT_PEBS_ENABLE is defined as MSR_PEBS_ENABLE in SDM. +**/ +#define MSR_GOLDMONT_PEBS_ENABLE 0x000003F1 + +/** + MSR information returned for MSR index #MSR_GOLDMONT_PEBS_ENABLE +**/ +typedef union { + /// + /// Individual bit fields + /// + struct { + /// + /// [Bit 0] Enable PEBS trigger and recording for the programmed event + /// (precise or otherwise) on IA32_PMC0. (R/W). + /// + UINT32 Enable:1; + UINT32 Reserved1:31; + UINT32 Reserved2:32; + } Bits; + /// + /// All bit fields as a 32-bit value + /// + UINT32 Uint32; + /// + /// All bit fields as a 64-bit value + /// + UINT64 Uint64; +} MSR_GOLDMONT_PEBS_ENABLE_REGISTER; + + +/** + Package. Note: C-state values are processor specific C-state code names, + unrelated to MWAIT extension C-state parameters or ACPI CStates. Package C3 + Residency Counter. (R/O) Value since last reset that this package is in + processor-specific C3 states. Count at the same frequency as the TSC. + + @param ECX MSR_GOLDMONT_PKG_C3_RESIDENCY (0x000003F8) + @param EAX Lower 32-bits of MSR value. + @param EDX Upper 32-bits of MSR value. + + Example usage + @code + UINT64 Msr; + + Msr = AsmReadMsr64 (MSR_GOLDMONT_PKG_C3_RESIDENCY); + AsmWriteMsr64 (MSR_GOLDMONT_PKG_C3_RESIDENCY, Msr); + @endcode + @note MSR_GOLDMONT_PKG_C3_RESIDENCY is defined as MSR_PKG_C3_RESIDENCY in SDM. +**/ +#define MSR_GOLDMONT_PKG_C3_RESIDENCY 0x000003F8 + + +/** + Package. Note: C-state values are processor specific C-state code names, + unrelated to MWAIT extension C-state parameters or ACPI CStates. Package C6 + Residency Counter. (R/O) Value since last reset that this package is in + processor-specific C6 states. Count at the same frequency as the TSC. + + @param ECX MSR_GOLDMONT_PKG_C6_RESIDENCY (0x000003F9) + @param EAX Lower 32-bits of MSR value. + @param EDX Upper 32-bits of MSR value. + + Example usage + @code + UINT64 Msr; + + Msr = AsmReadMsr64 (MSR_GOLDMONT_PKG_C6_RESIDENCY); + AsmWriteMsr64 (MSR_GOLDMONT_PKG_C6_RESIDENCY, Msr); + @endcode + @note MSR_GOLDMONT_PKG_C6_RESIDENCY is defined as MSR_PKG_C6_RESIDENCY in SDM. +**/ +#define MSR_GOLDMONT_PKG_C6_RESIDENCY 0x000003F9 + + +/** + Core. Note: C-state values are processor specific C-state code names, + unrelated to MWAIT extension C-state parameters or ACPI CStates. CORE C3 + Residency Counter. (R/O) Value since last reset that this core is in + processor-specific C3 states. Count at the same frequency as the TSC. + + @param ECX MSR_GOLDMONT_CORE_C3_RESIDENCY (0x000003FC) + @param EAX Lower 32-bits of MSR value. + @param EDX Upper 32-bits of MSR value. + + Example usage + @code + UINT64 Msr; + + Msr = AsmReadMsr64 (MSR_GOLDMONT_CORE_C3_RESIDENCY); + AsmWriteMsr64 (MSR_GOLDMONT_CORE_C3_RESIDENCY, Msr); + @endcode + @note MSR_GOLDMONT_CORE_C3_RESIDENCY is defined as MSR_CORE_C3_RESIDENCY in SDM. +**/ +#define MSR_GOLDMONT_CORE_C3_RESIDENCY 0x000003FC + + +/** + Package. Enhanced SMM Feature Control (SMM-RW) Reports SMM capability + Enhancement. Accessible only while in SMM. + + @param ECX MSR_GOLDMONT_SMM_FEATURE_CONTROL (0x000004E0) + @param EAX Lower 32-bits of MSR value. + Described by the type MSR_GOLDMONT_SMM_FEATURE_CONTROL_REGISTER. + @param EDX Upper 32-bits of MSR value. + Described by the type MSR_GOLDMONT_SMM_FEATURE_CONTROL_REGISTER. + + Example usage + @code + MSR_GOLDMONT_SMM_FEATURE_CONTROL_REGISTER Msr; + + Msr.Uint64 = AsmReadMsr64 (MSR_GOLDMONT_SMM_FEATURE_CONTROL); + AsmWriteMsr64 (MSR_GOLDMONT_SMM_FEATURE_CONTROL, Msr.Uint64); + @endcode + @note MSR_GOLDMONT_SMM_FEATURE_CONTROL is defined as MSR_SMM_FEATURE_CONTROL in SDM. +**/ +#define MSR_GOLDMONT_SMM_FEATURE_CONTROL 0x000004E0 + +/** + MSR information returned for MSR index #MSR_GOLDMONT_SMM_FEATURE_CONTROL +**/ +typedef union { + /// + /// Individual bit fields + /// + struct { + /// + /// [Bit 0] Lock (SMM-RWO) When set to '1' locks this register from + /// further changes. + /// + UINT32 Lock:1; + UINT32 Reserved1:1; + /// + /// [Bit 2] SMM_Code_Chk_En (SMM-RW) This control bit is available only if + /// MSR_SMM_MCA_CAP[58] == 1. When set to '0' (default) none of the + /// logical processors are prevented from executing SMM code outside the + /// ranges defined by the SMRR. When set to '1' any logical processor in + /// the package that attempts to execute SMM code not within the ranges + /// defined by the SMRR will assert an unrecoverable MCE. + /// + UINT32 SMM_Code_Chk_En:1; + UINT32 Reserved2:29; + UINT32 Reserved3:32; + } Bits; + /// + /// All bit fields as a 32-bit value + /// + UINT32 Uint32; + /// + /// All bit fields as a 64-bit value + /// + UINT64 Uint64; +} MSR_GOLDMONT_SMM_FEATURE_CONTROL_REGISTER; + + +/** + Package. SMM Delayed (SMM-RO) Reports the interruptible state of all logical + processors in the package. Available only while in SMM and + MSR_SMM_MCA_CAP[LONG_FLOW_INDICATION] == 1. + + @param ECX MSR_GOLDMONT_SMM_DELAYED (0x000004E2) + @param EAX Lower 32-bits of MSR value. + Described by the type MSR_GOLDMONT_SMM_DELAYED_REGISTER. + @param EDX Upper 32-bits of MSR value. + Described by the type MSR_GOLDMONT_SMM_DELAYED_REGISTER. + + Example usage + @code + MSR_GOLDMONT_SMM_DELAYED_REGISTER Msr; + + Msr.Uint64 = AsmReadMsr64 (MSR_GOLDMONT_SMM_DELAYED); + AsmWriteMsr64 (MSR_GOLDMONT_SMM_DELAYED, Msr.Uint64); + @endcode + @note MSR_GOLDMONT_SMM_DELAYED is defined as MSR_SMM_DELAYED in SDM. +**/ +#define MSR_GOLDMONT_SMM_DELAYED 0x000004E2 + + +/** + Package. SMM Blocked (SMM-RO) Reports the blocked state of all logical + processors in the package. Available only while in SMM. + + @param ECX MSR_GOLDMONT_SMM_BLOCKED (0x000004E3) + @param EAX Lower 32-bits of MSR value. + Described by the type MSR_GOLDMONT_SMM_BLOCKED_REGISTER. + @param EDX Upper 32-bits of MSR value. + Described by the type MSR_GOLDMONT_SMM_BLOCKED_REGISTER. + + Example usage + @code + MSR_GOLDMONT_SMM_BLOCKED_REGISTER Msr; + + Msr.Uint64 = AsmReadMsr64 (MSR_GOLDMONT_SMM_BLOCKED); + AsmWriteMsr64 (MSR_GOLDMONT_SMM_BLOCKED, Msr.Uint64); + @endcode + @note MSR_GOLDMONT_SMM_BLOCKED is defined as MSR_SMM_BLOCKED in SDM. +**/ +#define MSR_GOLDMONT_SMM_BLOCKED 0x000004E3 + + +/** + Core. Trace Control Register (R/W). + + @param ECX MSR_GOLDMONT_IA32_RTIT_CTL (0x00000570) + @param EAX Lower 32-bits of MSR value. + Described by the type MSR_GOLDMONT_IA32_RTIT_CTL_REGISTER. + @param EDX Upper 32-bits of MSR value. + Described by the type MSR_GOLDMONT_IA32_RTIT_CTL_REGISTER. + + Example usage + @code + MSR_GOLDMONT_IA32_RTIT_CTL_REGISTER Msr; + + Msr.Uint64 = AsmReadMsr64 (MSR_GOLDMONT_IA32_RTIT_CTL); + AsmWriteMsr64 (MSR_GOLDMONT_IA32_RTIT_CTL, Msr.Uint64); + @endcode + @note MSR_GOLDMONT_IA32_RTIT_CTL is defined as IA32_RTIT_CTL in SDM. +**/ +#define MSR_IA32_RTIT_CTL 0x00000570 + +/** + MSR information returned for MSR index #MSR_IA32_RTIT_CTL +**/ +typedef union { + /// + /// Individual bit fields + /// + struct { + /// + /// [Bit 0] TraceEn. + /// + UINT32 TraceEn:1; + /// + /// [Bit 1] CYCEn. + /// + UINT32 CYCEn:1; + /// + /// [Bit 2] OS. + /// + UINT32 OS:1; + /// + /// [Bit 3] User. + /// + UINT32 User:1; + UINT32 Reserved1:3; + /// + /// [Bit 7] CR3 filter. + /// + UINT32 CR3:1; + /// + /// [Bit 8] ToPA. Writing 0 will #GP if also setting TraceEn. + /// + UINT32 ToPA:1; + /// + /// [Bit 9] MTCEn. + /// + UINT32 MTCEn:1; + /// + /// [Bit 10] TSCEn. + /// + UINT32 TSCEn:1; + /// + /// [Bit 11] DisRETC. + /// + UINT32 DisRETC:1; + UINT32 Reserved2:1; + /// + /// [Bit 13] BranchEn. + /// + UINT32 BranchEn:1; + /// + /// [Bits 17:14] MTCFreq. + /// + UINT32 MTCFreq:4; + UINT32 Reserved3:1; + /// + /// [Bits 22:19] CYCThresh. + /// + UINT32 CYCThresh:4; + UINT32 Reserved4:1; + /// + /// [Bits 27:24] PSBFreq. + /// + UINT32 PSBFreq:4; + UINT32 Reserved5:4; + /// + /// [Bits 35:32] ADDR0_CFG. + /// + UINT32 ADDR0_CFG:4; + /// + /// [Bits 39:36] ADDR1_CFG. + /// + UINT32 ADDR1_CFG:4; + UINT32 Reserved6:24; + } Bits; + /// + /// All bit fields as a 64-bit value + /// + UINT64 Uint64; +} MSR_GOLDMONT_IA32_RTIT_CTL_REGISTER; + + +/** + Package. Unit Multipliers used in RAPL Interfaces (R/O) See Section 14.9.1, + "RAPL Interfaces.". + + @param ECX MSR_GOLDMONT_RAPL_POWER_UNIT (0x00000606) + @param EAX Lower 32-bits of MSR value. + Described by the type MSR_GOLDMONT_RAPL_POWER_UNIT_REGISTER. + @param EDX Upper 32-bits of MSR value. + Described by the type MSR_GOLDMONT_RAPL_POWER_UNIT_REGISTER. + + Example usage + @code + MSR_GOLDMONT_RAPL_POWER_UNIT_REGISTER Msr; + + Msr.Uint64 = AsmReadMsr64 (MSR_GOLDMONT_RAPL_POWER_UNIT); + @endcode + @note MSR_GOLDMONT_RAPL_POWER_UNIT is defined as MSR_RAPL_POWER_UNIT in SDM. +**/ +#define MSR_GOLDMONT_RAPL_POWER_UNIT 0x00000606 + +/** + MSR information returned for MSR index #MSR_GOLDMONT_RAPL_POWER_UNIT +**/ +typedef union { + /// + /// Individual bit fields + /// + struct { + /// + /// [Bits 3:0] Power Units. Power related information (in Watts) is in + /// unit of, 1W/2^PU; where PU is an unsigned integer represented by bits + /// 3:0. Default value is 1000b, indicating power unit is in 3.9 + /// milliWatts increment. + /// + UINT32 PowerUnits:4; + UINT32 Reserved1:4; + /// + /// [Bits 12:8] Energy Status Units. Energy related information (in + /// Joules) is in unit of, 1Joule/ (2^ESU); where ESU is an unsigned + /// integer represented by bits 12:8. Default value is 01110b, indicating + /// energy unit is in 61 microJoules. + /// + UINT32 EnergyStatusUnits:5; + UINT32 Reserved2:3; + /// + /// [Bits 19:16] Time Unit. Time related information (in seconds) is in + /// unit of, 1S/2^TU; where TU is an unsigned integer represented by bits + /// 19:16. Default value is 1010b, indicating power unit is in 0.977 + /// millisecond. + /// + UINT32 TimeUnit:4; + UINT32 Reserved3:12; + UINT32 Reserved4:32; + } Bits; + /// + /// All bit fields as a 32-bit value + /// + UINT32 Uint32; + /// + /// All bit fields as a 64-bit value + /// + UINT64 Uint64; +} MSR_GOLDMONT_RAPL_POWER_UNIT_REGISTER; + + +/** + Package. Package C3 Interrupt Response Limit (R/W) Note: C-state values are + processor specific C-state code names, unrelated to MWAIT extension C-state + parameters or ACPI CStates. + + @param ECX MSR_GOLDMONT_PKGC3_IRTL (0x0000060A) + @param EAX Lower 32-bits of MSR value. + Described by the type MSR_GOLDMONT_PKGC3_IRTL_REGISTER. + @param EDX Upper 32-bits of MSR value. + Described by the type MSR_GOLDMONT_PKGC3_IRTL_REGISTER. + + Example usage + @code + MSR_GOLDMONT_PKGC3_IRTL_REGISTER Msr; + + Msr.Uint64 = AsmReadMsr64 (MSR_GOLDMONT_PKGC3_IRTL); + AsmWriteMsr64 (MSR_GOLDMONT_PKGC3_IRTL, Msr.Uint64); + @endcode + @note MSR_GOLDMONT_PKGC3_IRTL is defined as MSR_PKGC3_IRTL in SDM. +**/ +#define MSR_GOLDMONT_PKGC3_IRTL 0x0000060A + +/** + MSR information returned for MSR index #MSR_GOLDMONT_PKGC3_IRTL +**/ +typedef union { + /// + /// Individual bit fields + /// + struct { + /// + /// [Bits 9:0] Interrupt response time limit (R/W) Specifies the limit + /// that should be used to decide if the package should be put into a + /// package C3 state. + /// + UINT32 InterruptResponseTimeLimit:10; + /// + /// [Bits 12:10] Time Unit (R/W) Specifies the encoding value of time + /// unit of the interrupt response time limit. See Table 35-18 for + /// supported time unit encodings. + /// + UINT32 TimeUnit:3; + UINT32 Reserved1:2; + /// + /// [Bit 15] Valid (R/W) Indicates whether the values in bits 12:0 are + /// valid and can be used by the processor for package C-sate management. + /// + UINT32 Valid:1; + UINT32 Reserved2:16; + UINT32 Reserved3:32; + } Bits; + /// + /// All bit fields as a 32-bit value + /// + UINT32 Uint32; + /// + /// All bit fields as a 64-bit value + /// + UINT64 Uint64; +} MSR_GOLDMONT_PKGC3_IRTL_REGISTER; + + +/** + Package. Package C6/C7S Interrupt Response Limit 1 (R/W) This MSR defines + the interrupt response time limit used by the processor to manage transition + to package C6 or C7S state. Note: C-state values are processor specific + C-state code names, unrelated to MWAIT extension C-state parameters or ACPI + CStates. + + @param ECX MSR_GOLDMONT_PKGC_IRTL1 (0x0000060B) + @param EAX Lower 32-bits of MSR value. + Described by the type MSR_GOLDMONT_PKGC_IRTL1_REGISTER. + @param EDX Upper 32-bits of MSR value. + Described by the type MSR_GOLDMONT_PKGC_IRTL1_REGISTER. + + Example usage + @code + MSR_GOLDMONT_PKGC_IRTL1_REGISTER Msr; + + Msr.Uint64 = AsmReadMsr64 (MSR_GOLDMONT_PKGC_IRTL1); + AsmWriteMsr64 (MSR_GOLDMONT_PKGC_IRTL1, Msr.Uint64); + @endcode + @note MSR_GOLDMONT_PKGC_IRTL1 is defined as MSR_PKGC_IRTL1 in SDM. +**/ +#define MSR_GOLDMONT_PKGC_IRTL1 0x0000060B + +/** + MSR information returned for MSR index #MSR_GOLDMONT_PKGC_IRTL1 +**/ +typedef union { + /// + /// Individual bit fields + /// + struct { + /// + /// [Bits 9:0] Interrupt response time limit (R/W) Specifies the limit + /// that should be used to decide if the package should be put into a + /// package C6 or C7S state. + /// + UINT32 InterruptResponseTimeLimit:10; + /// + /// [Bits 12:10] Time Unit (R/W) Specifies the encoding value of time + /// unit of the interrupt response time limit. See Table 35-18 for + /// supported time unit encodings. + /// + UINT32 TimeUnit:3; + UINT32 Reserved1:2; + /// + /// [Bit 15] Valid (R/W) Indicates whether the values in bits 12:0 are + /// valid and can be used by the processor for package C-sate management. + /// + UINT32 Valid:1; + UINT32 Reserved2:16; + UINT32 Reserved3:32; + } Bits; + /// + /// All bit fields as a 32-bit value + /// + UINT32 Uint32; + /// + /// All bit fields as a 64-bit value + /// + UINT64 Uint64; +} MSR_GOLDMONT_PKGC_IRTL1_REGISTER; + + +/** + Package. Package C7 Interrupt Response Limit 2 (R/W) This MSR defines the + interrupt response time limit used by the processor to manage transition to + package C7 state. Note: C-state values are processor specific C-state code + names, unrelated to MWAIT extension C-state parameters or ACPI CStates. + + @param ECX MSR_GOLDMONT_PKGC_IRTL2 (0x0000060C) + @param EAX Lower 32-bits of MSR value. + Described by the type MSR_GOLDMONT_PKGC_IRTL2_REGISTER. + @param EDX Upper 32-bits of MSR value. + Described by the type MSR_GOLDMONT_PKGC_IRTL2_REGISTER. + + Example usage + @code + MSR_GOLDMONT_PKGC_IRTL2_REGISTER Msr; + + Msr.Uint64 = AsmReadMsr64 (MSR_GOLDMONT_PKGC_IRTL2); + AsmWriteMsr64 (MSR_GOLDMONT_PKGC_IRTL2, Msr.Uint64); + @endcode + @note MSR_GOLDMONT_PKGC_IRTL2 is defined as MSR_PKGC_IRTL2 in SDM. +**/ +#define MSR_GOLDMONT_PKGC_IRTL2 0x0000060C + +/** + MSR information returned for MSR index #MSR_GOLDMONT_PKGC_IRTL2 +**/ +typedef union { + /// + /// Individual bit fields + /// + struct { + /// + /// [Bits 9:0] Interrupt response time limit (R/W) Specifies the limit + /// that should be used to decide if the package should be put into a + /// package C7 state. + /// + UINT32 InterruptResponseTimeLimit:10; + /// + /// [Bits 12:10] Time Unit (R/W) Specifies the encoding value of time + /// unit of the interrupt response time limit. See Table 35-18 for + /// supported time unit encodings. + /// + UINT32 TimeUnit:3; + UINT32 Reserved1:2; + /// + /// [Bit 15] Valid (R/W) Indicates whether the values in bits 12:0 are + /// valid and can be used by the processor for package C-sate management. + /// + UINT32 Valid:1; + UINT32 Reserved2:16; + UINT32 Reserved3:32; + } Bits; + /// + /// All bit fields as a 32-bit value + /// + UINT32 Uint32; + /// + /// All bit fields as a 64-bit value + /// + UINT64 Uint64; +} MSR_GOLDMONT_PKGC_IRTL2_REGISTER; + + +/** + Package. Note: C-state values are processor specific C-state code names, + unrelated to MWAIT extension C-state parameters or ACPI CStates. Package C2 + Residency Counter. (R/O) Value since last reset that this package is in + processor-specific C2 states. Count at the same frequency as the TSC. + + @param ECX MSR_GOLDMONT_PKG_C2_RESIDENCY (0x0000060D) + @param EAX Lower 32-bits of MSR value. + @param EDX Upper 32-bits of MSR value. + + Example usage + @code + UINT64 Msr; + + Msr = AsmReadMsr64 (MSR_GOLDMONT_PKG_C2_RESIDENCY); + AsmWriteMsr64 (MSR_GOLDMONT_PKG_C2_RESIDENCY, Msr); + @endcode + @note MSR_GOLDMONT_PKG_C2_RESIDENCY is defined as MSR_PKG_C2_RESIDENCY in SDM. +**/ +#define MSR_GOLDMONT_PKG_C2_RESIDENCY 0x0000060D + + +/** + Package. PKG RAPL Power Limit Control (R/W) See Section 14.9.3, "Package + RAPL Domain.". + + @param ECX MSR_GOLDMONT_PKG_POWER_LIMIT (0x00000610) + @param EAX Lower 32-bits of MSR value. + @param EDX Upper 32-bits of MSR value. + + Example usage + @code + UINT64 Msr; + + Msr = AsmReadMsr64 (MSR_GOLDMONT_PKG_POWER_LIMIT); + AsmWriteMsr64 (MSR_GOLDMONT_PKG_POWER_LIMIT, Msr); + @endcode + @note MSR_GOLDMONT_PKG_POWER_LIMIT is defined as MSR_PKG_POWER_LIMIT in SDM. +**/ +#define MSR_GOLDMONT_PKG_POWER_LIMIT 0x00000610 + + +/** + Package. PKG Energy Status (R/O) See Section 14.9.3, "Package RAPL Domain.". + + @param ECX MSR_GOLDMONT_PKG_ENERGY_STATUS (0x00000611) + @param EAX Lower 32-bits of MSR value. + @param EDX Upper 32-bits of MSR value. + + Example usage + @code + UINT64 Msr; + + Msr = AsmReadMsr64 (MSR_GOLDMONT_PKG_ENERGY_STATUS); + @endcode + @note MSR_GOLDMONT_PKG_ENERGY_STATUS is defined as MSR_PKG_ENERGY_STATUS in SDM. +**/ +#define MSR_GOLDMONT_PKG_ENERGY_STATUS 0x00000611 + + +/** + Package. PKG Perf Status (R/O) See Section 14.9.3, "Package RAPL Domain.". + + @param ECX MSR_GOLDMONT_PKG_PERF_STATUS (0x00000613) + @param EAX Lower 32-bits of MSR value. + @param EDX Upper 32-bits of MSR value. + + Example usage + @code + UINT64 Msr; + + Msr = AsmReadMsr64 (MSR_GOLDMONT_PKG_PERF_STATUS); + @endcode + @note MSR_GOLDMONT_PKG_PERF_STATUS is defined as MSR_PKG_PERF_STATUS in SDM. +**/ +#define MSR_GOLDMONT_PKG_PERF_STATUS 0x00000613 + + +/** + Package. PKG RAPL Parameters (R/W). + + @param ECX MSR_GOLDMONT_PKG_POWER_INFO (0x00000614) + @param EAX Lower 32-bits of MSR value. + Described by the type MSR_GOLDMONT_PKG_POWER_INFO_REGISTER. + @param EDX Upper 32-bits of MSR value. + Described by the type MSR_GOLDMONT_PKG_POWER_INFO_REGISTER. + + Example usage + @code + MSR_GOLDMONT_PKG_POWER_INFO_REGISTER Msr; + + Msr.Uint64 = AsmReadMsr64 (MSR_GOLDMONT_PKG_POWER_INFO); + AsmWriteMsr64 (MSR_GOLDMONT_PKG_POWER_INFO, Msr.Uint64); + @endcode + @note MSR_GOLDMONT_PKG_POWER_INFO is defined as MSR_PKG_POWER_INFO in SDM. +**/ +#define MSR_GOLDMONT_PKG_POWER_INFO 0x00000614 + +/** + MSR information returned for MSR index #MSR_GOLDMONT_PKG_POWER_INFO +**/ +typedef union { + /// + /// Individual bit fields + /// + struct { + /// + /// [Bits 14:0] Thermal Spec Power (R/W) See Section 14.9.3, "Package + /// RAPL Domain.". + /// + UINT32 ThermalSpecPower:15; + UINT32 Reserved1:1; + /// + /// [Bits 30:16] Minimum Power (R/W) See Section 14.9.3, "Package RAPL + /// Domain.". + /// + UINT32 MinimumPower:15; + UINT32 Reserved2:1; + /// + /// [Bits 46:32] Maximum Power (R/W) See Section 14.9.3, "Package RAPL + /// Domain.". + /// + UINT32 MaximumPower:15; + UINT32 Reserved3:1; + /// + /// [Bits 54:48] Maximum Time Window (R/W) Specified by 2^Y * (1.0 + + /// Z/4.0) * Time_Unit, where "Y" is the unsigned integer value + /// represented. by bits 52:48, "Z" is an unsigned integer represented by + /// bits 54:53. "Time_Unit" is specified by the "Time Units" field of + /// MSR_RAPL_POWER_UNIT. + /// + UINT32 MaximumTimeWindow:7; + UINT32 Reserved4:9; + } Bits; + /// + /// All bit fields as a 64-bit value + /// + UINT64 Uint64; +} MSR_GOLDMONT_PKG_POWER_INFO_REGISTER; + + +/** + Package. DRAM RAPL Power Limit Control (R/W) See Section 14.9.5, "DRAM RAPL + Domain.". + + @param ECX MSR_GOLDMONT_DRAM_POWER_LIMIT (0x00000618) + @param EAX Lower 32-bits of MSR value. + @param EDX Upper 32-bits of MSR value. + + Example usage + @code + UINT64 Msr; + + Msr = AsmReadMsr64 (MSR_GOLDMONT_DRAM_POWER_LIMIT); + AsmWriteMsr64 (MSR_GOLDMONT_DRAM_POWER_LIMIT, Msr); + @endcode + @note MSR_GOLDMONT_DRAM_POWER_LIMIT is defined as MSR_DRAM_POWER_LIMIT in SDM. +**/ +#define MSR_GOLDMONT_DRAM_POWER_LIMIT 0x00000618 + + +/** + Package. DRAM Energy Status (R/O) See Section 14.9.5, "DRAM RAPL Domain.". + + @param ECX MSR_GOLDMONT_DRAM_ENERGY_STATUS (0x00000619) + @param EAX Lower 32-bits of MSR value. + @param EDX Upper 32-bits of MSR value. + + Example usage + @code + UINT64 Msr; + + Msr = AsmReadMsr64 (MSR_GOLDMONT_DRAM_ENERGY_STATUS); + @endcode + @note MSR_GOLDMONT_DRAM_ENERGY_STATUS is defined as MSR_DRAM_ENERGY_STATUS in SDM. +**/ +#define MSR_GOLDMONT_DRAM_ENERGY_STATUS 0x00000619 + + +/** + Package. DRAM Performance Throttling Status (R/O) See Section 14.9.5, "DRAM + RAPL Domain.". + + @param ECX MSR_GOLDMONT_DRAM_PERF_STATUS (0x0000061B) + @param EAX Lower 32-bits of MSR value. + @param EDX Upper 32-bits of MSR value. + + Example usage + @code + UINT64 Msr; + + Msr = AsmReadMsr64 (MSR_GOLDMONT_DRAM_PERF_STATUS); + @endcode + @note MSR_GOLDMONT_DRAM_PERF_STATUS is defined as MSR_DRAM_PERF_STATUS in SDM. +**/ +#define MSR_GOLDMONT_DRAM_PERF_STATUS 0x0000061B + + +/** + Package. DRAM RAPL Parameters (R/W) See Section 14.9.5, "DRAM RAPL Domain.". + + @param ECX MSR_GOLDMONT_DRAM_POWER_INFO (0x0000061C) + @param EAX Lower 32-bits of MSR value. + @param EDX Upper 32-bits of MSR value. + + Example usage + @code + UINT64 Msr; + + Msr = AsmReadMsr64 (MSR_GOLDMONT_DRAM_POWER_INFO); + AsmWriteMsr64 (MSR_GOLDMONT_DRAM_POWER_INFO, Msr); + @endcode + @note MSR_GOLDMONT_DRAM_POWER_INFO is defined as MSR_DRAM_POWER_INFO in SDM. +**/ +#define MSR_GOLDMONT_DRAM_POWER_INFO 0x0000061C + + +/** + Package. Note: C-state values are processor specific C-state code names,. + Package C10 Residency Counter. (R/O) Value since last reset that the entire + SOC is in an S0i3 state. Count at the same frequency as the TSC. + + @param ECX MSR_GOLDMONT_PKG_C10_RESIDENCY (0x00000632) + @param EAX Lower 32-bits of MSR value. + @param EDX Upper 32-bits of MSR value. + + Example usage + @code + UINT64 Msr; + + Msr = AsmReadMsr64 (MSR_GOLDMONT_PKG_C10_RESIDENCY); + AsmWriteMsr64 (MSR_GOLDMONT_PKG_C10_RESIDENCY, Msr); + @endcode + @note MSR_GOLDMONT_PKG_C10_RESIDENCY is defined as MSR_PKG_C10_RESIDENCY in SDM. +**/ +#define MSR_GOLDMONT_PKG_C10_RESIDENCY 0x00000632 + + +/** + Package. PP0 Energy Status (R/O) See Section 14.9.4, "PP0/PP1 RAPL + Domains.". + + @param ECX MSR_GOLDMONT_PP0_ENERGY_STATUS (0x00000639) + @param EAX Lower 32-bits of MSR value. + @param EDX Upper 32-bits of MSR value. + + Example usage + @code + UINT64 Msr; + + Msr = AsmReadMsr64 (MSR_GOLDMONT_PP0_ENERGY_STATUS); + @endcode + @note MSR_GOLDMONT_PP0_ENERGY_STATUS is defined as MSR_PP0_ENERGY_STATUS in SDM. +**/ +#define MSR_GOLDMONT_PP0_ENERGY_STATUS 0x00000639 + + +/** + Package. PP1 Energy Status (R/O) See Section 14.9.4, "PP0/PP1 RAPL + Domains.". + + @param ECX MSR_GOLDMONT_PP1_ENERGY_STATUS (0x00000641) + @param EAX Lower 32-bits of MSR value. + @param EDX Upper 32-bits of MSR value. + + Example usage + @code + UINT64 Msr; + + Msr = AsmReadMsr64 (MSR_GOLDMONT_PP1_ENERGY_STATUS); + @endcode + @note MSR_GOLDMONT_PP1_ENERGY_STATUS is defined as MSR_PP1_ENERGY_STATUS in SDM. +**/ +#define MSR_GOLDMONT_PP1_ENERGY_STATUS 0x00000641 + + +/** + Package. ConfigTDP Control (R/W). + + @param ECX MSR_GOLDMONT_TURBO_ACTIVATION_RATIO (0x0000064C) + @param EAX Lower 32-bits of MSR value. + Described by the type MSR_GOLDMONT_TURBO_ACTIVATION_RATIO_REGISTER. + @param EDX Upper 32-bits of MSR value. + Described by the type MSR_GOLDMONT_TURBO_ACTIVATION_RATIO_REGISTER. + + Example usage + @code + MSR_GOLDMONT_TURBO_ACTIVATION_RATIO_REGISTER Msr; + + Msr.Uint64 = AsmReadMsr64 (MSR_GOLDMONT_TURBO_ACTIVATION_RATIO); + AsmWriteMsr64 (MSR_GOLDMONT_TURBO_ACTIVATION_RATIO, Msr.Uint64); + @endcode + @note MSR_GOLDMONT_TURBO_ACTIVATION_RATIO is defined as MSR_TURBO_ACTIVATION_RATIO in SDM. +**/ +#define MSR_GOLDMONT_TURBO_ACTIVATION_RATIO 0x0000064C + +/** + MSR information returned for MSR index #MSR_GOLDMONT_TURBO_ACTIVATION_RATIO +**/ +typedef union { + /// + /// Individual bit fields + /// + struct { + /// + /// [Bits 7:0] MAX_NON_TURBO_RATIO (RW/L) System BIOS can program this + /// field. + /// + UINT32 MAX_NON_TURBO_RATIO:8; + UINT32 Reserved1:23; + /// + /// [Bit 31] TURBO_ACTIVATION_RATIO_Lock (RW/L) When this bit is set, the + /// content of this register is locked until a reset. + /// + UINT32 TURBO_ACTIVATION_RATIO_Lock:1; + UINT32 Reserved2:32; + } Bits; + /// + /// All bit fields as a 32-bit value + /// + UINT32 Uint32; + /// + /// All bit fields as a 64-bit value + /// + UINT64 Uint64; +} MSR_GOLDMONT_TURBO_ACTIVATION_RATIO_REGISTER; + + +/** + Package. Indicator of Frequency Clipping in Processor Cores (R/W) (frequency + refers to processor core frequency). + + @param ECX MSR_GOLDMONT_CORE_PERF_LIMIT_REASONS (0x0000064F) + @param EAX Lower 32-bits of MSR value. + Described by the type MSR_GOLDMONT_CORE_PERF_LIMIT_REASONS_REGISTER. + @param EDX Upper 32-bits of MSR value. + Described by the type MSR_GOLDMONT_CORE_PERF_LIMIT_REASONS_REGISTER. + + Example usage + @code + MSR_GOLDMONT_CORE_PERF_LIMIT_REASONS_REGISTER Msr; + + Msr.Uint64 = AsmReadMsr64 (MSR_GOLDMONT_CORE_PERF_LIMIT_REASONS); + AsmWriteMsr64 (MSR_GOLDMONT_CORE_PERF_LIMIT_REASONS, Msr.Uint64); + @endcode + @note MSR_GOLDMONT_CORE_PERF_LIMIT_REASONS is defined as MSR_CORE_PERF_LIMIT_REASONS in SDM. +**/ +#define MSR_GOLDMONT_CORE_PERF_LIMIT_REASONS 0x0000064F + +/** + MSR information returned for MSR index #MSR_GOLDMONT_CORE_PERF_LIMIT_REASONS +**/ +typedef union { + /// + /// Individual bit fields + /// + struct { + /// + /// [Bit 0] PROCHOT Status (R0) When set, processor core frequency is + /// reduced below the operating system request due to assertion of + /// external PROCHOT. + /// + UINT32 PROCHOTStatus:1; + /// + /// [Bit 1] Thermal Status (R0) When set, frequency is reduced below the + /// operating system request due to a thermal event. + /// + UINT32 ThermalStatus:1; + /// + /// [Bit 2] Package-Level Power Limiting PL1 Status (R0) When set, + /// frequency is reduced below the operating system request due to + /// package-level power limiting PL1. + /// + UINT32 PL1Status:1; + /// + /// [Bit 3] Package-Level PL2 Power Limiting Status (R0) When set, + /// frequency is reduced below the operating system request due to + /// package-level power limiting PL2. + /// + UINT32 PL2Status:1; + UINT32 Reserved1:5; + /// + /// [Bit 9] Core Power Limiting Status (R0) When set, frequency is reduced + /// below the operating system request due to domain-level power limiting. + /// + UINT32 PowerLimitingStatus:1; + /// + /// [Bit 10] VR Therm Alert Status (R0) When set, frequency is reduced + /// below the operating system request due to a thermal alert from the + /// Voltage Regulator. + /// + UINT32 VRThermAlertStatus:1; + /// + /// [Bit 11] Max Turbo Limit Status (R0) When set, frequency is reduced + /// below the operating system request due to multi-core turbo limits. + /// + UINT32 MaxTurboLimitStatus:1; + /// + /// [Bit 12] Electrical Design Point Status (R0) When set, frequency is + /// reduced below the operating system request due to electrical design + /// point constraints (e.g. maximum electrical current consumption). + /// + UINT32 ElectricalDesignPointStatus:1; + /// + /// [Bit 13] Turbo Transition Attenuation Status (R0) When set, frequency + /// is reduced below the operating system request due to Turbo transition + /// attenuation. This prevents performance degradation due to frequent + /// operating ratio changes. + /// + UINT32 TurboTransitionAttenuationStatus:1; + /// + /// [Bit 14] Maximum Efficiency Frequency Status (R0) When set, frequency + /// is reduced below the maximum efficiency frequency. + /// + UINT32 MaximumEfficiencyFrequencyStatus:1; + UINT32 Reserved2:1; + /// + /// [Bit 16] PROCHOT Log When set, indicates that the PROCHOT Status bit + /// has asserted since the log bit was last cleared. This log bit will + /// remain set until cleared by software writing 0. + /// + UINT32 PROCHOT:1; + /// + /// [Bit 17] Thermal Log When set, indicates that the Thermal Status bit + /// has asserted since the log bit was last cleared. This log bit will + /// remain set until cleared by software writing 0. + /// + UINT32 ThermalLog:1; + /// + /// [Bit 18] Package-Level PL1 Power Limiting Log When set, indicates + /// that the Package Level PL1 Power Limiting Status bit has asserted + /// since the log bit was last cleared. This log bit will remain set until + /// cleared by software writing 0. + /// + UINT32 PL1Log:1; + /// + /// [Bit 19] Package-Level PL2 Power Limiting Log When set, indicates that + /// the Package Level PL2 Power Limiting Status bit has asserted since the + /// log bit was last cleared. This log bit will remain set until cleared + /// by software writing 0. + /// + UINT32 PL2Log:1; + UINT32 Reserved3:5; + /// + /// [Bit 25] Core Power Limiting Log When set, indicates that the Core + /// Power Limiting Status bit has asserted since the log bit was last + /// cleared. This log bit will remain set until cleared by software + /// writing 0. + /// + UINT32 CorePowerLimitingLog:1; + /// + /// [Bit 26] VR Therm Alert Log When set, indicates that the VR Therm + /// Alert Status bit has asserted since the log bit was last cleared. This + /// log bit will remain set until cleared by software writing 0. + /// + UINT32 VRThermAlertLog:1; + /// + /// [Bit 27] Max Turbo Limit Log When set, indicates that the Max Turbo + /// Limit Status bit has asserted since the log bit was last cleared. This + /// log bit will remain set until cleared by software writing 0. + /// + UINT32 MaxTurboLimitLog:1; + /// + /// [Bit 28] Electrical Design Point Log When set, indicates that the EDP + /// Status bit has asserted since the log bit was last cleared. This log + /// bit will remain set until cleared by software writing 0. + /// + UINT32 ElectricalDesignPointLog:1; + /// + /// [Bit 29] Turbo Transition Attenuation Log When set, indicates that the + /// Turbo Transition Attenuation Status bit has asserted since the log bit + /// was last cleared. This log bit will remain set until cleared by + /// software writing 0. + /// + UINT32 TurboTransitionAttenuationLog:1; + /// + /// [Bit 30] Maximum Efficiency Frequency Log When set, indicates that + /// the Maximum Efficiency Frequency Status bit has asserted since the log + /// bit was last cleared. This log bit will remain set until cleared by + /// software writing 0. + /// + UINT32 MaximumEfficiencyFrequencyLog:1; + UINT32 Reserved4:1; + UINT32 Reserved5:32; + } Bits; + /// + /// All bit fields as a 32-bit value + /// + UINT32 Uint32; + /// + /// All bit fields as a 64-bit value + /// + UINT64 Uint64; +} MSR_GOLDMONT_CORE_PERF_LIMIT_REASONS_REGISTER; + + +/** + Core. Last Branch Record n From IP (R/W) One of 32 pairs of last branch + record registers on the last branch record stack. The From_IP part of the + stack contains pointers to the source instruction . See also: - Last Branch + Record Stack TOS at 1C9H - Section 17.6 and record format in Section + 17.4.8.1. + + @param ECX MSR_GOLDMONT_LASTBRANCH_n_FROM_IP + @param EAX Lower 32-bits of MSR value. + Described by the type MSR_GOLDMONT_LASTBRANCH_FROM_IP_REGISTER. + @param EDX Upper 32-bits of MSR value. + Described by the type MSR_GOLDMONT_LASTBRANCH_FROM_IP_REGISTER. + + Example usage + @code + MSR_GOLDMONT_LASTBRANCH_FROM_IP_REGISTER Msr; + + Msr.Uint64 = AsmReadMsr64 (MSR_GOLDMONT_LASTBRANCH_n_FROM_IP); + AsmWriteMsr64 (MSR_GOLDMONT_LASTBRANCH_n_FROM_IP, Msr.Uint64); + @endcode + @note MSR_GOLDMONT_LASTBRANCH_0_FROM_IP is defined as MSR_LASTBRANCH_0_FROM_IP in SDM. + MSR_GOLDMONT_LASTBRANCH_1_FROM_IP is defined as MSR_LASTBRANCH_1_FROM_IP in SDM. + MSR_GOLDMONT_LASTBRANCH_2_FROM_IP is defined as MSR_LASTBRANCH_2_FROM_IP in SDM. + MSR_GOLDMONT_LASTBRANCH_3_FROM_IP is defined as MSR_LASTBRANCH_3_FROM_IP in SDM. + MSR_GOLDMONT_LASTBRANCH_4_FROM_IP is defined as MSR_LASTBRANCH_4_FROM_IP in SDM. + MSR_GOLDMONT_LASTBRANCH_5_FROM_IP is defined as MSR_LASTBRANCH_5_FROM_IP in SDM. + MSR_GOLDMONT_LASTBRANCH_6_FROM_IP is defined as MSR_LASTBRANCH_6_FROM_IP in SDM. + MSR_GOLDMONT_LASTBRANCH_7_FROM_IP is defined as MSR_LASTBRANCH_7_FROM_IP in SDM. + MSR_GOLDMONT_LASTBRANCH_8_FROM_IP is defined as MSR_LASTBRANCH_8_FROM_IP in SDM. + MSR_GOLDMONT_LASTBRANCH_9_FROM_IP is defined as MSR_LASTBRANCH_9_FROM_IP in SDM. + MSR_GOLDMONT_LASTBRANCH_10_FROM_IP is defined as MSR_LASTBRANCH_10_FROM_IP in SDM. + MSR_GOLDMONT_LASTBRANCH_11_FROM_IP is defined as MSR_LASTBRANCH_11_FROM_IP in SDM. + MSR_GOLDMONT_LASTBRANCH_12_FROM_IP is defined as MSR_LASTBRANCH_12_FROM_IP in SDM. + MSR_GOLDMONT_LASTBRANCH_13_FROM_IP is defined as MSR_LASTBRANCH_13_FROM_IP in SDM. + MSR_GOLDMONT_LASTBRANCH_14_FROM_IP is defined as MSR_LASTBRANCH_14_FROM_IP in SDM. + MSR_GOLDMONT_LASTBRANCH_15_FROM_IP is defined as MSR_LASTBRANCH_15_FROM_IP in SDM. + MSR_GOLDMONT_LASTBRANCH_16_FROM_IP is defined as MSR_LASTBRANCH_16_FROM_IP in SDM. + MSR_GOLDMONT_LASTBRANCH_17_FROM_IP is defined as MSR_LASTBRANCH_17_FROM_IP in SDM. + MSR_GOLDMONT_LASTBRANCH_18_FROM_IP is defined as MSR_LASTBRANCH_18_FROM_IP in SDM. + MSR_GOLDMONT_LASTBRANCH_19_FROM_IP is defined as MSR_LASTBRANCH_19_FROM_IP in SDM. + MSR_GOLDMONT_LASTBRANCH_20_FROM_IP is defined as MSR_LASTBRANCH_20_FROM_IP in SDM. + MSR_GOLDMONT_LASTBRANCH_21_FROM_IP is defined as MSR_LASTBRANCH_21_FROM_IP in SDM. + MSR_GOLDMONT_LASTBRANCH_22_FROM_IP is defined as MSR_LASTBRANCH_22_FROM_IP in SDM. + MSR_GOLDMONT_LASTBRANCH_23_FROM_IP is defined as MSR_LASTBRANCH_23_FROM_IP in SDM. + MSR_GOLDMONT_LASTBRANCH_24_FROM_IP is defined as MSR_LASTBRANCH_24_FROM_IP in SDM. + MSR_GOLDMONT_LASTBRANCH_25_FROM_IP is defined as MSR_LASTBRANCH_25_FROM_IP in SDM. + MSR_GOLDMONT_LASTBRANCH_26_FROM_IP is defined as MSR_LASTBRANCH_26_FROM_IP in SDM. + MSR_GOLDMONT_LASTBRANCH_27_FROM_IP is defined as MSR_LASTBRANCH_27_FROM_IP in SDM. + MSR_GOLDMONT_LASTBRANCH_28_FROM_IP is defined as MSR_LASTBRANCH_28_FROM_IP in SDM. + MSR_GOLDMONT_LASTBRANCH_29_FROM_IP is defined as MSR_LASTBRANCH_29_FROM_IP in SDM. + MSR_GOLDMONT_LASTBRANCH_30_FROM_IP is defined as MSR_LASTBRANCH_30_FROM_IP in SDM. + MSR_GOLDMONT_LASTBRANCH_31_FROM_IP is defined as MSR_LASTBRANCH_31_FROM_IP in SDM. + @{ +**/ +#define MSR_GOLDMONT_LASTBRANCH_0_FROM_IP 0x00000680 +#define MSR_GOLDMONT_LASTBRANCH_1_FROM_IP 0x00000681 +#define MSR_GOLDMONT_LASTBRANCH_2_FROM_IP 0x00000682 +#define MSR_GOLDMONT_LASTBRANCH_3_FROM_IP 0x00000683 +#define MSR_GOLDMONT_LASTBRANCH_4_FROM_IP 0x00000684 +#define MSR_GOLDMONT_LASTBRANCH_5_FROM_IP 0x00000685 +#define MSR_GOLDMONT_LASTBRANCH_6_FROM_IP 0x00000686 +#define MSR_GOLDMONT_LASTBRANCH_7_FROM_IP 0x00000687 +#define MSR_GOLDMONT_LASTBRANCH_8_FROM_IP 0x00000688 +#define MSR_GOLDMONT_LASTBRANCH_9_FROM_IP 0x00000689 +#define MSR_GOLDMONT_LASTBRANCH_10_FROM_IP 0x0000068A +#define MSR_GOLDMONT_LASTBRANCH_11_FROM_IP 0x0000068B +#define MSR_GOLDMONT_LASTBRANCH_12_FROM_IP 0x0000068C +#define MSR_GOLDMONT_LASTBRANCH_13_FROM_IP 0x0000068D +#define MSR_GOLDMONT_LASTBRANCH_14_FROM_IP 0x0000068E +#define MSR_GOLDMONT_LASTBRANCH_15_FROM_IP 0x0000068F +#define MSR_GOLDMONT_LASTBRANCH_16_FROM_IP 0x00000690 +#define MSR_GOLDMONT_LASTBRANCH_17_FROM_IP 0x00000691 +#define MSR_GOLDMONT_LASTBRANCH_18_FROM_IP 0x00000692 +#define MSR_GOLDMONT_LASTBRANCH_19_FROM_IP 0x00000693 +#define MSR_GOLDMONT_LASTBRANCH_20_FROM_IP 0x00000694 +#define MSR_GOLDMONT_LASTBRANCH_21_FROM_IP 0x00000695 +#define MSR_GOLDMONT_LASTBRANCH_22_FROM_IP 0x00000696 +#define MSR_GOLDMONT_LASTBRANCH_23_FROM_IP 0x00000697 +#define MSR_GOLDMONT_LASTBRANCH_24_FROM_IP 0x00000698 +#define MSR_GOLDMONT_LASTBRANCH_25_FROM_IP 0x00000699 +#define MSR_GOLDMONT_LASTBRANCH_26_FROM_IP 0x0000069A +#define MSR_GOLDMONT_LASTBRANCH_27_FROM_IP 0x0000069B +#define MSR_GOLDMONT_LASTBRANCH_28_FROM_IP 0x0000069C +#define MSR_GOLDMONT_LASTBRANCH_29_FROM_IP 0x0000069D +#define MSR_GOLDMONT_LASTBRANCH_30_FROM_IP 0x0000069E +#define MSR_GOLDMONT_LASTBRANCH_31_FROM_IP 0x0000069F +/// @} + +/** + MSR information returned for MSR indexes #MSR_GOLDMONT_LASTBRANCH_0_FROM_IP + to #MSR_GOLDMONT_LASTBRANCH_31_FROM_IP. +**/ +typedef union { + /// + /// Individual bit fields + /// + struct { + /// + /// [Bit 31:0] From Linear Address (R/W). + /// + UINT32 FromLinearAddress:32; + /// + /// [Bit 47:32] From Linear Address (R/W). + /// + UINT32 FromLinearAddressHi:16; + /// + /// [Bits 62:48] Signed extension of bits 47:0. + /// + UINT32 SignedExtension:15; + /// + /// [Bit 63] Mispred. + /// + UINT32 Mispred:1; + } Bits; + /// + /// All bit fields as a 32-bit value + /// + UINT32 Uint32; + /// + /// All bit fields as a 64-bit value + /// + UINT64 Uint64; +} MSR_GOLDMONT_LASTBRANCH_FROM_IP_REGISTER; + + +/** + Core. Last Branch Record n To IP (R/W) One of 32 pairs of last branch record + registers on the last branch record stack. The To_IP part of the stack + contains pointers to the Destination instruction and elapsed cycles from + last LBR update. See also: - Section 17.6. + + @param ECX MSR_GOLDMONT_LASTBRANCH_n_TO_IP + @param EAX Lower 32-bits of MSR value. + Described by the type MSR_GOLDMONT_LASTBRANCH_TO_IP_REGISTER. + @param EDX Upper 32-bits of MSR value. + Described by the type MSR_GOLDMONT_LASTBRANCH_TO_IP_REGISTER. + + Example usage + @code + MSR_GOLDMONT_LASTBRANCH_TO_IP_REGISTER Msr; + + Msr.Uint64 = AsmReadMsr64 (MSR_GOLDMONT_LASTBRANCH_0_TO_IP); + AsmWriteMsr64 (MSR_GOLDMONT_LASTBRANCH_0_TO_IP, Msr.Uint64); + @endcode + @note MSR_GOLDMONT_LASTBRANCH_0_TO_IP is defined as MSR_LASTBRANCH_0_TO_IP in SDM. + MSR_GOLDMONT_LASTBRANCH_1_TO_IP is defined as MSR_LASTBRANCH_1_TO_IP in SDM. + MSR_GOLDMONT_LASTBRANCH_2_TO_IP is defined as MSR_LASTBRANCH_2_TO_IP in SDM. + MSR_GOLDMONT_LASTBRANCH_3_TO_IP is defined as MSR_LASTBRANCH_3_TO_IP in SDM. + MSR_GOLDMONT_LASTBRANCH_4_TO_IP is defined as MSR_LASTBRANCH_4_TO_IP in SDM. + MSR_GOLDMONT_LASTBRANCH_5_TO_IP is defined as MSR_LASTBRANCH_5_TO_IP in SDM. + MSR_GOLDMONT_LASTBRANCH_6_TO_IP is defined as MSR_LASTBRANCH_6_TO_IP in SDM. + MSR_GOLDMONT_LASTBRANCH_7_TO_IP is defined as MSR_LASTBRANCH_7_TO_IP in SDM. + MSR_GOLDMONT_LASTBRANCH_8_TO_IP is defined as MSR_LASTBRANCH_8_TO_IP in SDM. + MSR_GOLDMONT_LASTBRANCH_9_TO_IP is defined as MSR_LASTBRANCH_9_TO_IP in SDM. + MSR_GOLDMONT_LASTBRANCH_10_TO_IP is defined as MSR_LASTBRANCH_10_TO_IP in SDM. + MSR_GOLDMONT_LASTBRANCH_11_TO_IP is defined as MSR_LASTBRANCH_11_TO_IP in SDM. + MSR_GOLDMONT_LASTBRANCH_12_TO_IP is defined as MSR_LASTBRANCH_12_TO_IP in SDM. + MSR_GOLDMONT_LASTBRANCH_13_TO_IP is defined as MSR_LASTBRANCH_13_TO_IP in SDM. + MSR_GOLDMONT_LASTBRANCH_14_TO_IP is defined as MSR_LASTBRANCH_14_TO_IP in SDM. + MSR_GOLDMONT_LASTBRANCH_15_TO_IP is defined as MSR_LASTBRANCH_15_TO_IP in SDM. + MSR_GOLDMONT_LASTBRANCH_16_TO_IP is defined as MSR_LASTBRANCH_16_TO_IP in SDM. + MSR_GOLDMONT_LASTBRANCH_17_TO_IP is defined as MSR_LASTBRANCH_17_TO_IP in SDM. + MSR_GOLDMONT_LASTBRANCH_18_TO_IP is defined as MSR_LASTBRANCH_18_TO_IP in SDM. + MSR_GOLDMONT_LASTBRANCH_19_TO_IP is defined as MSR_LASTBRANCH_19_TO_IP in SDM. + MSR_GOLDMONT_LASTBRANCH_20_TO_IP is defined as MSR_LASTBRANCH_20_TO_IP in SDM. + MSR_GOLDMONT_LASTBRANCH_21_TO_IP is defined as MSR_LASTBRANCH_21_TO_IP in SDM. + MSR_GOLDMONT_LASTBRANCH_22_TO_IP is defined as MSR_LASTBRANCH_22_TO_IP in SDM. + MSR_GOLDMONT_LASTBRANCH_23_TO_IP is defined as MSR_LASTBRANCH_23_TO_IP in SDM. + MSR_GOLDMONT_LASTBRANCH_24_TO_IP is defined as MSR_LASTBRANCH_24_TO_IP in SDM. + MSR_GOLDMONT_LASTBRANCH_25_TO_IP is defined as MSR_LASTBRANCH_25_TO_IP in SDM. + MSR_GOLDMONT_LASTBRANCH_26_TO_IP is defined as MSR_LASTBRANCH_26_TO_IP in SDM. + MSR_GOLDMONT_LASTBRANCH_27_TO_IP is defined as MSR_LASTBRANCH_27_TO_IP in SDM. + MSR_GOLDMONT_LASTBRANCH_28_TO_IP is defined as MSR_LASTBRANCH_28_TO_IP in SDM. + MSR_GOLDMONT_LASTBRANCH_29_TO_IP is defined as MSR_LASTBRANCH_29_TO_IP in SDM. + MSR_GOLDMONT_LASTBRANCH_30_TO_IP is defined as MSR_LASTBRANCH_30_TO_IP in SDM. + MSR_GOLDMONT_LASTBRANCH_31_TO_IP is defined as MSR_LASTBRANCH_31_TO_IP in SDM. + @{ +**/ +#define MSR_GOLDMONT_LASTBRANCH_0_TO_IP 0x000006C0 +#define MSR_GOLDMONT_LASTBRANCH_1_TO_IP 0x000006C1 +#define MSR_GOLDMONT_LASTBRANCH_2_TO_IP 0x000006C2 +#define MSR_GOLDMONT_LASTBRANCH_3_TO_IP 0x000006C3 +#define MSR_GOLDMONT_LASTBRANCH_4_TO_IP 0x000006C4 +#define MSR_GOLDMONT_LASTBRANCH_5_TO_IP 0x000006C5 +#define MSR_GOLDMONT_LASTBRANCH_6_TO_IP 0x000006C6 +#define MSR_GOLDMONT_LASTBRANCH_7_TO_IP 0x000006C7 +#define MSR_GOLDMONT_LASTBRANCH_8_TO_IP 0x000006C8 +#define MSR_GOLDMONT_LASTBRANCH_9_TO_IP 0x000006C9 +#define MSR_GOLDMONT_LASTBRANCH_10_TO_IP 0x000006CA +#define MSR_GOLDMONT_LASTBRANCH_11_TO_IP 0x000006CB +#define MSR_GOLDMONT_LASTBRANCH_12_TO_IP 0x000006CC +#define MSR_GOLDMONT_LASTBRANCH_13_TO_IP 0x000006CD +#define MSR_GOLDMONT_LASTBRANCH_14_TO_IP 0x000006CE +#define MSR_GOLDMONT_LASTBRANCH_15_TO_IP 0x000006CF +#define MSR_GOLDMONT_LASTBRANCH_16_TO_IP 0x000006D0 +#define MSR_GOLDMONT_LASTBRANCH_17_TO_IP 0x000006D1 +#define MSR_GOLDMONT_LASTBRANCH_18_TO_IP 0x000006D2 +#define MSR_GOLDMONT_LASTBRANCH_19_TO_IP 0x000006D3 +#define MSR_GOLDMONT_LASTBRANCH_20_TO_IP 0x000006D4 +#define MSR_GOLDMONT_LASTBRANCH_21_TO_IP 0x000006D5 +#define MSR_GOLDMONT_LASTBRANCH_22_TO_IP 0x000006D6 +#define MSR_GOLDMONT_LASTBRANCH_23_TO_IP 0x000006D7 +#define MSR_GOLDMONT_LASTBRANCH_24_TO_IP 0x000006D8 +#define MSR_GOLDMONT_LASTBRANCH_25_TO_IP 0x000006D9 +#define MSR_GOLDMONT_LASTBRANCH_26_TO_IP 0x000006DA +#define MSR_GOLDMONT_LASTBRANCH_27_TO_IP 0x000006DB +#define MSR_GOLDMONT_LASTBRANCH_28_TO_IP 0x000006DC +#define MSR_GOLDMONT_LASTBRANCH_29_TO_IP 0x000006DD +#define MSR_GOLDMONT_LASTBRANCH_30_TO_IP 0x000006DE +#define MSR_GOLDMONT_LASTBRANCH_31_TO_IP 0x000006DF +/// @} + +/** + MSR information returned for MSR indexes #MSR_GOLDMONT_LASTBRANCH_0_TO_IP to + #MSR_GOLDMONT_LASTBRANCH_31_TO_IP. +**/ +typedef union { + /// + /// Individual bit fields + /// + struct { + /// + /// [Bit 31:0] Target Linear Address (R/W). + /// + UINT32 TargetLinearAddress:32; + /// + /// [Bit 47:32] Target Linear Address (R/W). + /// + UINT32 TargetLinearAddressHi:16; + /// + /// [Bits 63:48] Elapsed cycles from last update to the LBR. + /// + UINT32 ElapsedCycles:16; + } Bits; + /// + /// All bit fields as a 32-bit value + /// + UINT32 Uint32; + /// + /// All bit fields as a 64-bit value + /// + UINT64 Uint64; +} MSR_GOLDMONT_LASTBRANCH_TO_IP_REGISTER; + + +/** + Core. Resource Association Register (R/W). + + @param ECX MSR_GOLDMONT_IA32_PQR_ASSOC (0x00000C8F) + @param EAX Lower 32-bits of MSR value. + Described by the type MSR_GOLDMONT_IA32_PQR_ASSOC_REGISTER. + @param EDX Upper 32-bits of MSR value. + Described by the type MSR_GOLDMONT_IA32_PQR_ASSOC_REGISTER. + + Example usage + @code + MSR_GOLDMONT_IA32_PQR_ASSOC_REGISTER Msr; + + Msr.Uint64 = AsmReadMsr64 (MSR_GOLDMONT_IA32_PQR_ASSOC); + AsmWriteMsr64 (MSR_GOLDMONT_IA32_PQR_ASSOC, Msr.Uint64); + @endcode + @note MSR_GOLDMONT_IA32_PQR_ASSOC is defined as IA32_PQR_ASSOC in SDM. +**/ +#define MSR_GOLDMONT_IA32_PQR_ASSOC 0x00000C8F + +/** + MSR information returned for MSR index #MSR_GOLDMONT_IA32_PQR_ASSOC +**/ +typedef union { + /// + /// Individual bit fields + /// + struct { + UINT32 Reserved1:32; + /// + /// [Bits 33:32] COS (R/W). + /// + UINT32 COS:2; + UINT32 Reserved2:30; + } Bits; + /// + /// All bit fields as a 64-bit value + /// + UINT64 Uint64; +} MSR_GOLDMONT_IA32_PQR_ASSOC_REGISTER; + + +/** + Module. L2 Class Of Service Mask - COS n (R/W) if CPUID.(EAX=10H, + ECX=1):EDX.COS_MAX[15:0] >=n. + + @param ECX MSR_GOLDMONT_IA32_L2_QOS_MASK_n + @param EAX Lower 32-bits of MSR value. + Described by the type MSR_GOLDMONT_IA32_L2_QOS_MASK_REGISTER. + @param EDX Upper 32-bits of MSR value. + Described by the type MSR_GOLDMONT_IA32_L2_QOS_MASK_REGISTER. + + Example usage + @code + MSR_GOLDMONT_IA32_L2_QOS_MASK_REGISTER Msr; + + Msr.Uint64 = AsmReadMsr64 (MSR_GOLDMONT_IA32_L2_QOS_MASK_n); + AsmWriteMsr64 (MSR_GOLDMONT_IA32_L2_QOS_MASK_n, Msr.Uint64); + @endcode + @note MSR_GOLDMONT_IA32_L2_QOS_MASK_0 is defined as IA32_L2_QOS_MASK_0 in SDM. + MSR_GOLDMONT_IA32_L2_QOS_MASK_1 is defined as IA32_L2_QOS_MASK_1 in SDM. + MSR_GOLDMONT_IA32_L2_QOS_MASK_2 is defined as IA32_L2_QOS_MASK_2 in SDM. + @{ +**/ +#define MSR_GOLDMONT_IA32_L2_QOS_MASK_0 0x00000D10 +#define MSR_GOLDMONT_IA32_L2_QOS_MASK_1 0x00000D11 +#define MSR_GOLDMONT_IA32_L2_QOS_MASK_2 0x00000D12 +/// @} + +/** + MSR information returned for MSR indexes #MSR_GOLDMONT_IA32_L2_QOS_MASK_0 to + #MSR_GOLDMONT_IA32_L2_QOS_MASK_2. +**/ +typedef union { + /// + /// Individual bit fields + /// + struct { + /// + /// [Bits 7:0] CBM: Bit vector of available L2 ways for COS 0 enforcement + /// + UINT32 CBM:8; + UINT32 Reserved1:24; + UINT32 Reserved2:32; + } Bits; + /// + /// All bit fields as a 32-bit value + /// + UINT32 Uint32; + /// + /// All bit fields as a 64-bit value + /// + UINT64 Uint64; +} MSR_GOLDMONT_IA32_L2_QOS_MASK_REGISTER; + + +/** + Package. L2 Class Of Service Mask - COS 3 (R/W) if CPUID.(EAX=10H, + ECX=1):EDX.COS_MAX[15:0] >=3. + + @param ECX MSR_GOLDMONT_IA32_L2_QOS_MASK_3 + @param EAX Lower 32-bits of MSR value. + Described by the type MSR_GOLDMONT_IA32_L2_QOS_MASK_3_REGISTER. + @param EDX Upper 32-bits of MSR value. + Described by the type MSR_GOLDMONT_IA32_L2_QOS_MASK_3_REGISTER. + + Example usage + @code + MSR_GOLDMONT_IA32_L2_QOS_MASK_3_REGISTER Msr; + + Msr.Uint64 = AsmReadMsr64 (MSR_GOLDMONT_IA32_L2_QOS_MASK_3); + AsmWriteMsr64 (MSR_GOLDMONT_IA32_L2_QOS_MASK_3, Msr.Uint64); + @endcode + @note MSR_GOLDMONT_IA32_L2_QOS_MASK_3 is defined as IA32_L2_QOS_MASK_3 in SDM. +**/ +#define MSR_GOLDMONT_IA32_L2_QOS_MASK_3 0x00000D13 + +/** + MSR information returned for MSR index #MSR_GOLDMONT_IA32_L2_QOS_MASK_3. +**/ +typedef union { + /// + /// Individual bit fields + /// + struct { + /// + /// [Bits 19:0] CBM: Bit vector of available L2 ways for COS 0 enforcement + /// + UINT32 CBM:20; + UINT32 Reserved1:12; + UINT32 Reserved2:32; + } Bits; + /// + /// All bit fields as a 32-bit value + /// + UINT32 Uint32; + /// + /// All bit fields as a 64-bit value + /// + UINT64 Uint64; +} MSR_GOLDMONT_IA32_L2_QOS_MASK_3_REGISTER; + + +#endif -- 1.9.5.msysgit.0