/** @file MSR Definitions for Pentium(R) 4 Processors. 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.<BR> 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 35.18. **/ #ifndef __PENTIUM_4_MSR_H__ #define __PENTIUM_4_MSR_H__ #include <Register/ArchitecturalMsr.h> /** 3, 4, 6. Shared. See Section 8.10.5, "Monitor/Mwait Address Range Determination.". @param ECX MSR_PENTIUM_4_IA32_MONITOR_FILTER_LINE_SIZE (0x00000006) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_IA32_MONITOR_FILTER_LINE_SIZE); AsmWriteMsr64 (MSR_PENTIUM_4_IA32_MONITOR_FILTER_LINE_SIZE, Msr); @endcode @note MSR_PENTIUM_4_IA32_MONITOR_FILTER_LINE_SIZE is defined as IA32_MONITOR_FILTER_LINE_SIZE in SDM. **/ #define MSR_PENTIUM_4_IA32_MONITOR_FILTER_LINE_SIZE 0x00000006 /** 0, 1, 2, 3, 4, 6. Shared. Processor Hard Power-On Configuration (R/W) Enables and disables processor features; (R) indicates current processor configuration. @param ECX MSR_PENTIUM_4_EBC_HARD_POWERON (0x0000002A) @param EAX Lower 32-bits of MSR value. Described by the type MSR_PENTIUM_4_EBC_HARD_POWERON_REGISTER. @param EDX Upper 32-bits of MSR value. Described by the type MSR_PENTIUM_4_EBC_HARD_POWERON_REGISTER. <b>Example usage</b> @code MSR_PENTIUM_4_EBC_HARD_POWERON_REGISTER Msr; Msr.Uint64 = AsmReadMsr64 (MSR_PENTIUM_4_EBC_HARD_POWERON); AsmWriteMsr64 (MSR_PENTIUM_4_EBC_HARD_POWERON, Msr.Uint64); @endcode @note MSR_PENTIUM_4_EBC_HARD_POWERON is defined as MSR_EBC_HARD_POWERON in SDM. **/ #define MSR_PENTIUM_4_EBC_HARD_POWERON 0x0000002A /** MSR information returned for MSR index #MSR_PENTIUM_4_EBC_HARD_POWERON **/ typedef union { /// /// Individual bit fields /// struct { /// /// [Bit 0] Output Tri-state Enabled (R) Indicates whether tri-state /// output is enabled (1) or disabled (0) as set by the strapping of SMI#. /// The value in this bit is written on the deassertion of RESET#; the bit /// is set to 1 when the address bus signal is asserted. /// UINT32 OutputTriStateEnabled:1; /// /// [Bit 1] Execute BIST (R) Indicates whether the execution of the BIST /// is enabled (1) or disabled (0) as set by the strapping of INIT#. The /// value in this bit is written on the deassertion of RESET#; the bit is /// set to 1 when the address bus signal is asserted. /// UINT32 ExecuteBIST:1; /// /// [Bit 2] In Order Queue Depth (R) Indicates whether the in order queue /// depth for the system bus is 1 (1) or up to 12 (0) as set by the /// strapping of A7#. The value in this bit is written on the deassertion /// of RESET#; the bit is set to 1 when the address bus signal is asserted. /// UINT32 InOrderQueueDepth:1; /// /// [Bit 3] MCERR# Observation Disabled (R) Indicates whether MCERR# /// observation is enabled (0) or disabled (1) as determined by the /// strapping of A9#. The value in this bit is written on the deassertion /// of RESET#; the bit is set to 1 when the address bus signal is asserted. /// UINT32 MCERR_ObservationDisabled:1; /// /// [Bit 4] BINIT# Observation Enabled (R) Indicates whether BINIT# /// observation is enabled (0) or disabled (1) as determined by the /// strapping of A10#. The value in this bit is written on the deassertion /// of RESET#; the bit is set to 1 when the address bus signal is asserted. /// UINT32 BINIT_ObservationEnabled:1; /// /// [Bits 6:5] APIC Cluster ID (R) Contains the logical APIC cluster ID /// value as set by the strapping of A12# and A11#. The logical cluster ID /// value is written into the field on the deassertion of RESET#; the /// field is set to 1 when the address bus signal is asserted. /// UINT32 APICClusterID:2; /// /// [Bit 7] Bus Park Disable (R) Indicates whether bus park is enabled /// (0) or disabled (1) as set by the strapping of A15#. The value in this /// bit is written on the deassertion of RESET#; the bit is set to 1 when /// the address bus signal is asserted. /// UINT32 BusParkDisable:1; UINT32 Reserved1:4; /// /// [Bits 13:12] Agent ID (R) Contains the logical agent ID value as set /// by the strapping of BR[3:0]. The logical ID value is written into the /// field on the deassertion of RESET#; the field is set to 1 when the /// address bus signal is asserted. /// UINT32 AgentID:2; UINT32 Reserved2:18; 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_PENTIUM_4_EBC_HARD_POWERON_REGISTER; /** 0, 1, 2, 3, 4, 6. Shared. Processor Soft Power-On Configuration (R/W) Enables and disables processor features. @param ECX MSR_PENTIUM_4_EBC_SOFT_POWERON (0x0000002B) @param EAX Lower 32-bits of MSR value. Described by the type MSR_PENTIUM_4_EBC_SOFT_POWERON_REGISTER. @param EDX Upper 32-bits of MSR value. Described by the type MSR_PENTIUM_4_EBC_SOFT_POWERON_REGISTER. <b>Example usage</b> @code MSR_PENTIUM_4_EBC_SOFT_POWERON_REGISTER Msr; Msr.Uint64 = AsmReadMsr64 (MSR_PENTIUM_4_EBC_SOFT_POWERON); AsmWriteMsr64 (MSR_PENTIUM_4_EBC_SOFT_POWERON, Msr.Uint64); @endcode @note MSR_PENTIUM_4_EBC_SOFT_POWERON is defined as MSR_EBC_SOFT_POWERON in SDM. **/ #define MSR_PENTIUM_4_EBC_SOFT_POWERON 0x0000002B /** MSR information returned for MSR index #MSR_PENTIUM_4_EBC_SOFT_POWERON **/ typedef union { /// /// Individual bit fields /// struct { /// /// [Bit 0] RCNT/SCNT On Request Encoding Enable (R/W) Controls the /// driving of RCNT/SCNT on the request encoding. Set to enable (1); clear /// to disabled (0, default). /// UINT32 RCNT_SCNT:1; /// /// [Bit 1] Data Error Checking Disable (R/W) Set to disable system data /// bus parity checking; clear to enable parity checking. /// UINT32 DataErrorCheckingDisable:1; /// /// [Bit 2] Response Error Checking Disable (R/W) Set to disable /// (default); clear to enable. /// UINT32 ResponseErrorCheckingDisable:1; /// /// [Bit 3] Address/Request Error Checking Disable (R/W) Set to disable /// (default); clear to enable. /// UINT32 AddressRequestErrorCheckingDisable:1; /// /// [Bit 4] Initiator MCERR# Disable (R/W) Set to disable MCERR# driving /// for initiator bus requests (default); clear to enable. /// UINT32 InitiatorMCERR_Disable:1; /// /// [Bit 5] Internal MCERR# Disable (R/W) Set to disable MCERR# driving /// for initiator internal errors (default); clear to enable. /// UINT32 InternalMCERR_Disable:1; /// /// [Bit 6] BINIT# Driver Disable (R/W) Set to disable BINIT# driver /// (default); clear to enable driver. /// UINT32 BINIT_DriverDisable:1; UINT32 Reserved1:25; 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_PENTIUM_4_EBC_SOFT_POWERON_REGISTER; /** 2,3, 4, 6. Shared. Processor Frequency Configuration The bit field layout of this MSR varies according to the MODEL value in the CPUID version information. The following bit field layout applies to Pentium 4 and Xeon Processors with MODEL encoding equal or greater than 2. (R) The field Indicates the current processor frequency configuration. @param ECX MSR_PENTIUM_4_EBC_FREQUENCY_ID (0x0000002C) @param EAX Lower 32-bits of MSR value. Described by the type MSR_PENTIUM_4_EBC_FREQUENCY_ID_REGISTER. @param EDX Upper 32-bits of MSR value. Described by the type MSR_PENTIUM_4_EBC_FREQUENCY_ID_REGISTER. <b>Example usage</b> @code MSR_PENTIUM_4_EBC_FREQUENCY_ID_REGISTER Msr; Msr.Uint64 = AsmReadMsr64 (MSR_PENTIUM_4_EBC_FREQUENCY_ID); @endcode @note MSR_PENTIUM_4_EBC_FREQUENCY_ID is defined as MSR_EBC_FREQUENCY_ID in SDM. **/ #define MSR_PENTIUM_4_EBC_FREQUENCY_ID 0x0000002C /** MSR information returned for MSR index #MSR_PENTIUM_4_EBC_FREQUENCY_ID **/ typedef union { /// /// Individual bit fields /// struct { UINT32 Reserved1:16; /// /// [Bits 18:16] Scalable Bus Speed (R/W) Indicates the intended scalable /// bus speed: *EncodingScalable Bus Speed* /// /// 000B 100 MHz (Model 2). /// 000B 266 MHz (Model 3 or 4) /// 001B 133 MHz /// 010B 200 MHz /// 011B 166 MHz /// 100B 333 MHz (Model 6) /// /// 133.33 MHz should be utilized if performing calculation with System /// Bus Speed when encoding is 001B. 166.67 MHz should be utilized if /// performing calculation with System Bus Speed when encoding is 011B. /// 266.67 MHz should be utilized if performing calculation with System /// Bus Speed when encoding is 000B and model encoding = 3 or 4. 333.33 /// MHz should be utilized if performing calculation with System Bus /// Speed when encoding is 100B and model encoding = 6. All other values /// are reserved. /// UINT32 ScalableBusSpeed:3; UINT32 Reserved2:5; /// /// [Bits 31:24] Core Clock Frequency to System Bus Frequency Ratio (R) /// The processor core clock frequency to system bus frequency ratio /// observed at the de-assertion of the reset pin. /// UINT32 ClockRatio:8; 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_PENTIUM_4_EBC_FREQUENCY_ID_REGISTER; /** 0, 1. Shared. Processor Frequency Configuration (R) The bit field layout of this MSR varies according to the MODEL value of the CPUID version information. This bit field layout applies to Pentium 4 and Xeon Processors with MODEL encoding less than 2. Indicates current processor frequency configuration. @param ECX MSR_PENTIUM_4_EBC_FREQUENCY_ID_1 (0x0000002C) @param EAX Lower 32-bits of MSR value. Described by the type MSR_PENTIUM_4_EBC_FREQUENCY_ID_1_REGISTER. @param EDX Upper 32-bits of MSR value. Described by the type MSR_PENTIUM_4_EBC_FREQUENCY_ID_1_REGISTER. <b>Example usage</b> @code MSR_PENTIUM_4_EBC_FREQUENCY_ID_1_REGISTER Msr; Msr.Uint64 = AsmReadMsr64 (MSR_PENTIUM_4_EBC_FREQUENCY_ID_1); @endcode @note MSR_PENTIUM_4_EBC_FREQUENCY_ID_1 is defined as MSR_EBC_FREQUENCY_ID_1 in SDM. **/ #define MSR_PENTIUM_4_EBC_FREQUENCY_ID_1 0x0000002C /** MSR information returned for MSR index #MSR_PENTIUM_4_EBC_FREQUENCY_ID_1 **/ typedef union { /// /// Individual bit fields /// struct { UINT32 Reserved1:21; /// /// [Bits 23:21] Scalable Bus Speed (R/W) Indicates the intended scalable /// bus speed: *Encoding* *Scalable Bus Speed* /// /// 000B 100 MHz All others values reserved. /// UINT32 ScalableBusSpeed:3; UINT32 Reserved2:8; 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_PENTIUM_4_EBC_FREQUENCY_ID_1_REGISTER; /** 0, 1, 2, 3, 4, 6. Unique. Machine Check EAX/RAX Save State See Section 15.3.2.6, "IA32_MCG Extended Machine Check State MSRs.". Contains register state at time of machine check error. When in non-64-bit modes at the time of the error, bits 63-32 do not contain valid data. @param ECX MSR_PENTIUM_4_MCG_RAX (0x00000180) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_MCG_RAX); AsmWriteMsr64 (MSR_PENTIUM_4_MCG_RAX, Msr); @endcode @note MSR_PENTIUM_4_MCG_RAX is defined as MSR_MCG_RAX in SDM. **/ #define MSR_PENTIUM_4_MCG_RAX 0x00000180 /** 0, 1, 2, 3, 4, 6. Unique. Machine Check EBX/RBX Save State See Section 15.3.2.6, "IA32_MCG Extended Machine Check State MSRs.". Contains register state at time of machine check error. When in non-64-bit modes at the time of the error, bits 63-32 do not contain valid data. @param ECX MSR_PENTIUM_4_MCG_RBX (0x00000181) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_MCG_RBX); AsmWriteMsr64 (MSR_PENTIUM_4_MCG_RBX, Msr); @endcode @note MSR_PENTIUM_4_MCG_RBX is defined as MSR_MCG_RBX in SDM. **/ #define MSR_PENTIUM_4_MCG_RBX 0x00000181 /** 0, 1, 2, 3, 4, 6. Unique. Machine Check ECX/RCX Save State See Section 15.3.2.6, "IA32_MCG Extended Machine Check State MSRs.". Contains register state at time of machine check error. When in non-64-bit modes at the time of the error, bits 63-32 do not contain valid data. @param ECX MSR_PENTIUM_4_MCG_RCX (0x00000182) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_MCG_RCX); AsmWriteMsr64 (MSR_PENTIUM_4_MCG_RCX, Msr); @endcode @note MSR_PENTIUM_4_MCG_RCX is defined as MSR_MCG_RCX in SDM. **/ #define MSR_PENTIUM_4_MCG_RCX 0x00000182 /** 0, 1, 2, 3, 4, 6. Unique. Machine Check EDX/RDX Save State See Section 15.3.2.6, "IA32_MCG Extended Machine Check State MSRs.". Contains register state at time of machine check error. When in non-64-bit modes at the time of the error, bits 63-32 do not contain valid data. @param ECX MSR_PENTIUM_4_MCG_RDX (0x00000183) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_MCG_RDX); AsmWriteMsr64 (MSR_PENTIUM_4_MCG_RDX, Msr); @endcode @note MSR_PENTIUM_4_MCG_RDX is defined as MSR_MCG_RDX in SDM. **/ #define MSR_PENTIUM_4_MCG_RDX 0x00000183 /** 0, 1, 2, 3, 4, 6. Unique. Machine Check ESI/RSI Save State See Section 15.3.2.6, "IA32_MCG Extended Machine Check State MSRs.". Contains register state at time of machine check error. When in non-64-bit modes at the time of the error, bits 63-32 do not contain valid data. @param ECX MSR_PENTIUM_4_MCG_RSI (0x00000184) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_MCG_RSI); AsmWriteMsr64 (MSR_PENTIUM_4_MCG_RSI, Msr); @endcode @note MSR_PENTIUM_4_MCG_RSI is defined as MSR_MCG_RSI in SDM. **/ #define MSR_PENTIUM_4_MCG_RSI 0x00000184 /** 0, 1, 2, 3, 4, 6. Unique. Machine Check EDI/RDI Save State See Section 15.3.2.6, "IA32_MCG Extended Machine Check State MSRs.". Contains register state at time of machine check error. When in non-64-bit modes at the time of the error, bits 63-32 do not contain valid data. @param ECX MSR_PENTIUM_4_MCG_RDI (0x00000185) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_MCG_RDI); AsmWriteMsr64 (MSR_PENTIUM_4_MCG_RDI, Msr); @endcode @note MSR_PENTIUM_4_MCG_RDI is defined as MSR_MCG_RDI in SDM. **/ #define MSR_PENTIUM_4_MCG_RDI 0x00000185 /** 0, 1, 2, 3, 4, 6. Unique. Machine Check EBP/RBP Save State See Section 15.3.2.6, "IA32_MCG Extended Machine Check State MSRs.". Contains register state at time of machine check error. When in non-64-bit modes at the time of the error, bits 63-32 do not contain valid data. @param ECX MSR_PENTIUM_4_MCG_RBP (0x00000186) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_MCG_RBP); AsmWriteMsr64 (MSR_PENTIUM_4_MCG_RBP, Msr); @endcode @note MSR_PENTIUM_4_MCG_RBP is defined as MSR_MCG_RBP in SDM. **/ #define MSR_PENTIUM_4_MCG_RBP 0x00000186 /** 0, 1, 2, 3, 4, 6. Unique. Machine Check ESP/RSP Save State See Section 15.3.2.6, "IA32_MCG Extended Machine Check State MSRs.". Contains register state at time of machine check error. When in non-64-bit modes at the time of the error, bits 63-32 do not contain valid data. @param ECX MSR_PENTIUM_4_MCG_RSP (0x00000187) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_MCG_RSP); AsmWriteMsr64 (MSR_PENTIUM_4_MCG_RSP, Msr); @endcode @note MSR_PENTIUM_4_MCG_RSP is defined as MSR_MCG_RSP in SDM. **/ #define MSR_PENTIUM_4_MCG_RSP 0x00000187 /** 0, 1, 2, 3, 4, 6. Unique. Machine Check EFLAGS/RFLAG Save State See Section 15.3.2.6, "IA32_MCG Extended Machine Check State MSRs.". Contains register state at time of machine check error. When in non-64-bit modes at the time of the error, bits 63-32 do not contain valid data. @param ECX MSR_PENTIUM_4_MCG_RFLAGS (0x00000188) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_MCG_RFLAGS); AsmWriteMsr64 (MSR_PENTIUM_4_MCG_RFLAGS, Msr); @endcode @note MSR_PENTIUM_4_MCG_RFLAGS is defined as MSR_MCG_RFLAGS in SDM. **/ #define MSR_PENTIUM_4_MCG_RFLAGS 0x00000188 /** 0, 1, 2, 3, 4, 6. Unique. Machine Check EIP/RIP Save State See Section 15.3.2.6, "IA32_MCG Extended Machine Check State MSRs.". Contains register state at time of machine check error. When in non-64-bit modes at the time of the error, bits 63-32 do not contain valid data. @param ECX MSR_PENTIUM_4_MCG_RIP (0x00000189) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_MCG_RIP); AsmWriteMsr64 (MSR_PENTIUM_4_MCG_RIP, Msr); @endcode @note MSR_PENTIUM_4_MCG_RIP is defined as MSR_MCG_RIP in SDM. **/ #define MSR_PENTIUM_4_MCG_RIP 0x00000189 /** 0, 1, 2, 3, 4, 6. Unique. Machine Check Miscellaneous See Section 15.3.2.6, "IA32_MCG Extended Machine Check State MSRs.". @param ECX MSR_PENTIUM_4_MCG_MISC (0x0000018A) @param EAX Lower 32-bits of MSR value. Described by the type MSR_PENTIUM_4_MCG_MISC_REGISTER. @param EDX Upper 32-bits of MSR value. Described by the type MSR_PENTIUM_4_MCG_MISC_REGISTER. <b>Example usage</b> @code MSR_PENTIUM_4_MCG_MISC_REGISTER Msr; Msr.Uint64 = AsmReadMsr64 (MSR_PENTIUM_4_MCG_MISC); AsmWriteMsr64 (MSR_PENTIUM_4_MCG_MISC, Msr.Uint64); @endcode @note MSR_PENTIUM_4_MCG_MISC is defined as MSR_MCG_MISC in SDM. **/ #define MSR_PENTIUM_4_MCG_MISC 0x0000018A /** MSR information returned for MSR index #MSR_PENTIUM_4_MCG_MISC **/ typedef union { /// /// Individual bit fields /// struct { /// /// [Bit 0] DS When set, the bit indicates that a page assist or page /// fault occurred during DS normal operation. The processors response is /// to shut down. The bit is used as an aid for debugging DS handling /// code. It is the responsibility of the user (BIOS or operating system) /// to clear this bit for normal operation. /// UINT32 DS: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_PENTIUM_4_MCG_MISC_REGISTER; /** 0, 1, 2, 3, 4, 6. Unique. Machine Check R8 See Section 15.3.2.6, "IA32_MCG Extended Machine Check State MSRs.". Registers R8-15 (and the associated state-save MSRs) exist only in Intel 64 processors. These registers contain valid information only when the processor is operating in 64-bit mode at the time of the error. @param ECX MSR_PENTIUM_4_MCG_R8 (0x00000190) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_MCG_R8); AsmWriteMsr64 (MSR_PENTIUM_4_MCG_R8, Msr); @endcode @note MSR_PENTIUM_4_MCG_R8 is defined as MSR_MCG_R8 in SDM. **/ #define MSR_PENTIUM_4_MCG_R8 0x00000190 /** 0, 1, 2, 3, 4, 6. Unique. Machine Check R9D/R9 See Section 15.3.2.6, "IA32_MCG Extended Machine Check State MSRs.". Registers R8-15 (and the associated state-save MSRs) exist only in Intel 64 processors. These registers contain valid information only when the processor is operating in 64-bit mode at the time of the error. @param ECX MSR_PENTIUM_4_MCG_R9 (0x00000191) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_MCG_R9); AsmWriteMsr64 (MSR_PENTIUM_4_MCG_R9, Msr); @endcode @note MSR_PENTIUM_4_MCG_R9 is defined as MSR_MCG_R9 in SDM. **/ #define MSR_PENTIUM_4_MCG_R9 0x00000191 /** 0, 1, 2, 3, 4, 6. Unique. Machine Check R10 See Section 15.3.2.6, "IA32_MCG Extended Machine Check State MSRs.". Registers R8-15 (and the associated state-save MSRs) exist only in Intel 64 processors. These registers contain valid information only when the processor is operating in 64-bit mode at the time of the error. @param ECX MSR_PENTIUM_4_MCG_R10 (0x00000192) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_MCG_R10); AsmWriteMsr64 (MSR_PENTIUM_4_MCG_R10, Msr); @endcode @note MSR_PENTIUM_4_MCG_R10 is defined as MSR_MCG_R10 in SDM. **/ #define MSR_PENTIUM_4_MCG_R10 0x00000192 /** 0, 1, 2, 3, 4, 6. Unique. Machine Check R11 See Section 15.3.2.6, "IA32_MCG Extended Machine Check State MSRs.". Registers R8-15 (and the associated state-save MSRs) exist only in Intel 64 processors. These registers contain valid information only when the processor is operating in 64-bit mode at the time of the error. @param ECX MSR_PENTIUM_4_MCG_R11 (0x00000193) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_MCG_R11); AsmWriteMsr64 (MSR_PENTIUM_4_MCG_R11, Msr); @endcode @note MSR_PENTIUM_4_MCG_R11 is defined as MSR_MCG_R11 in SDM. **/ #define MSR_PENTIUM_4_MCG_R11 0x00000193 /** 0, 1, 2, 3, 4, 6. Unique. Machine Check R12 See Section 15.3.2.6, "IA32_MCG Extended Machine Check State MSRs.". Registers R8-15 (and the associated state-save MSRs) exist only in Intel 64 processors. These registers contain valid information only when the processor is operating in 64-bit mode at the time of the error. @param ECX MSR_PENTIUM_4_MCG_R12 (0x00000194) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_MCG_R12); AsmWriteMsr64 (MSR_PENTIUM_4_MCG_R12, Msr); @endcode @note MSR_PENTIUM_4_MCG_R12 is defined as MSR_MCG_R12 in SDM. **/ #define MSR_PENTIUM_4_MCG_R12 0x00000194 /** 0, 1, 2, 3, 4, 6. Unique. Machine Check R13 See Section 15.3.2.6, "IA32_MCG Extended Machine Check State MSRs.". Registers R8-15 (and the associated state-save MSRs) exist only in Intel 64 processors. These registers contain valid information only when the processor is operating in 64-bit mode at the time of the error. @param ECX MSR_PENTIUM_4_MCG_R13 (0x00000195) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_MCG_R13); AsmWriteMsr64 (MSR_PENTIUM_4_MCG_R13, Msr); @endcode @note MSR_PENTIUM_4_MCG_R13 is defined as MSR_MCG_R13 in SDM. **/ #define MSR_PENTIUM_4_MCG_R13 0x00000195 /** 0, 1, 2, 3, 4, 6. Unique. Machine Check R14 See Section 15.3.2.6, "IA32_MCG Extended Machine Check State MSRs.". Registers R8-15 (and the associated state-save MSRs) exist only in Intel 64 processors. These registers contain valid information only when the processor is operating in 64-bit mode at the time of the error. @param ECX MSR_PENTIUM_4_MCG_R14 (0x00000196) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_MCG_R14); AsmWriteMsr64 (MSR_PENTIUM_4_MCG_R14, Msr); @endcode @note MSR_PENTIUM_4_MCG_R14 is defined as MSR_MCG_R14 in SDM. **/ #define MSR_PENTIUM_4_MCG_R14 0x00000196 /** 0, 1, 2, 3, 4, 6. Unique. Machine Check R15 See Section 15.3.2.6, "IA32_MCG Extended Machine Check State MSRs.". Registers R8-15 (and the associated state-save MSRs) exist only in Intel 64 processors. These registers contain valid information only when the processor is operating in 64-bit mode at the time of the error. @param ECX MSR_PENTIUM_4_MCG_R15 (0x00000197) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_MCG_R15); AsmWriteMsr64 (MSR_PENTIUM_4_MCG_R15, Msr); @endcode @note MSR_PENTIUM_4_MCG_R15 is defined as MSR_MCG_R15 in SDM. **/ #define MSR_PENTIUM_4_MCG_R15 0x00000197 /** Thermal Monitor 2 Control. 3,. Shared. For Family F, Model 3 processors: When read, specifies the value of the target TM2 transition last written. When set, it sets the next target value for TM2 transition. 4, 6. Shared. For Family F, Model 4 and Model 6 processors: When read, specifies the value of the target TM2 transition last written. Writes may cause #GP exceptions. @param ECX MSR_PENTIUM_4_THERM2_CTL (0x0000019D) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_THERM2_CTL); AsmWriteMsr64 (MSR_PENTIUM_4_THERM2_CTL, Msr); @endcode @note MSR_PENTIUM_4_THERM2_CTL is defined as MSR_THERM2_CTL in SDM. **/ #define MSR_PENTIUM_4_THERM2_CTL 0x0000019D /** 0, 1, 2, 3, 4, 6. Shared. Enable Miscellaneous Processor Features (R/W). @param ECX MSR_PENTIUM_4_IA32_MISC_ENABLE (0x000001A0) @param EAX Lower 32-bits of MSR value. Described by the type MSR_PENTIUM_4_IA32_MISC_ENABLE_REGISTER. @param EDX Upper 32-bits of MSR value. Described by the type MSR_PENTIUM_4_IA32_MISC_ENABLE_REGISTER. <b>Example usage</b> @code MSR_PENTIUM_4_IA32_MISC_ENABLE_REGISTER Msr; Msr.Uint64 = AsmReadMsr64 (MSR_PENTIUM_4_IA32_MISC_ENABLE); AsmWriteMsr64 (MSR_PENTIUM_4_IA32_MISC_ENABLE, Msr.Uint64); @endcode @note MSR_PENTIUM_4_IA32_MISC_ENABLE is defined as IA32_MISC_ENABLE in SDM. **/ #define MSR_PENTIUM_4_IA32_MISC_ENABLE 0x000001A0 /** MSR information returned for MSR index #MSR_PENTIUM_4_IA32_MISC_ENABLE **/ typedef union { /// /// Individual bit fields /// struct { /// /// [Bit 0] Fast-Strings Enable. See Table 35-2. /// UINT32 FastStrings:1; UINT32 Reserved1:1; /// /// [Bit 2] x87 FPU Fopcode Compatibility Mode Enable. /// UINT32 FPU:1; /// /// [Bit 3] Thermal Monitor 1 Enable See Section 14.7.2, "Thermal /// Monitor," and see Table 35-2. /// UINT32 TM1:1; /// /// [Bit 4] Split-Lock Disable When set, the bit causes an #AC exception /// to be issued instead of a split-lock cycle. Operating systems that set /// this bit must align system structures to avoid split-lock scenarios. /// When the bit is clear (default), normal split-locks are issued to the /// bus. /// This debug feature is specific to the Pentium 4 processor. /// UINT32 SplitLockDisable:1; UINT32 Reserved2:1; /// /// [Bit 6] Third-Level Cache Disable (R/W) When set, the third-level /// cache is disabled; when clear (default) the third-level cache is /// enabled. This flag is reserved for processors that do not have a /// third-level cache. Note that the bit controls only the third-level /// cache; and only if overall caching is enabled through the CD flag of /// control register CR0, the page-level cache controls, and/or the MTRRs. /// See Section 11.5.4, "Disabling and Enabling the L3 Cache.". /// UINT32 ThirdLevelCacheDisable:1; /// /// [Bit 7] Performance Monitoring Available (R) See Table 35-2. /// UINT32 PerformanceMonitoring:1; /// /// [Bit 8] Suppress Lock Enable When set, assertion of LOCK on the bus is /// suppressed during a Split Lock access. When clear (default), LOCK is /// not suppressed. /// UINT32 SuppressLockEnable:1; /// /// [Bit 9] Prefetch Queue Disable When set, disables the prefetch queue. /// When clear (default), enables the prefetch queue. /// UINT32 PrefetchQueueDisable:1; /// /// [Bit 10] FERR# Interrupt Reporting Enable (R/W) When set, interrupt /// reporting through the FERR# pin is enabled; when clear, this interrupt /// reporting function is disabled. /// When this flag is set and the processor is in the stop-clock state /// (STPCLK# is asserted), asserting the FERR# pin signals to the /// processor that an interrupt (such as, INIT#, BINIT#, INTR, NMI, /// SMI#, or RESET#) is pending and that the processor should return to /// normal operation to handle the interrupt. This flag does not affect /// the normal operation of the FERR# pin (to indicate an unmasked /// floatingpoint error) when the STPCLK# pin is not asserted. /// UINT32 FERR:1; /// /// [Bit 11] Branch Trace Storage Unavailable (BTS_UNAVILABLE) (R) See /// Table 35-2. When set, the processor does not support branch trace /// storage (BTS); when clear, BTS is supported. /// UINT32 BTS:1; /// /// [Bit 12] PEBS_UNAVILABLE: Processor Event Based Sampling Unavailable /// (R) See Table 35-2. When set, the processor does not support processor /// event-based sampling (PEBS); when clear, PEBS is supported. /// UINT32 PEBS:1; /// /// [Bit 13] 3. TM2 Enable (R/W) When this bit is set (1) and the thermal /// sensor indicates that the die temperature is at the predetermined /// threshold, the Thermal Monitor 2 mechanism is engaged. TM2 will reduce /// the bus to core ratio and voltage according to the value last written /// to MSR_THERM2_CTL bits 15:0. When this bit is clear (0, default), the /// processor does not change the VID signals or the bus to core ratio /// when the processor enters a thermal managed state. If the TM2 feature /// flag (ECX[8]) is not set to 1 after executing CPUID with EAX = 1, then /// this feature is not supported and BIOS must not alter the contents of /// this bit location. The processor is operating out of spec if both this /// bit and the TM1 bit are set to disabled states. /// UINT32 TM2:1; UINT32 Reserved3:4; /// /// [Bit 18] 3, 4, 6. ENABLE MONITOR FSM (R/W) See Table 35-2. /// UINT32 MONITOR:1; /// /// [Bit 19] Adjacent Cache Line Prefetch Disable (R/W) When set to 1, /// the processor fetches the cache line of the 128-byte sector containing /// currently required data. When set to 0, the processor fetches both /// cache lines in the sector. /// Single processor platforms should not set this bit. Server platforms /// should set or clear this bit based on platform performance observed /// in validation and testing. BIOS may contain a setup option that /// controls the setting of this bit. /// UINT32 AdjacentCacheLinePrefetchDisable:1; UINT32 Reserved4:2; /// /// [Bit 22] 3, 4, 6. Limit CPUID MAXVAL (R/W) See Table 35-2. Setting /// this can cause unexpected behavior to software that depends on the /// availability of CPUID leaves greater than 3. /// UINT32 LimitCpuidMaxval:1; /// /// [Bit 23] Shared. xTPR Message Disable (R/W) See Table 35-2. /// UINT32 xTPR_Message_Disable:1; /// /// [Bit 24] L1 Data Cache Context Mode (R/W) When set, the L1 data cache /// is placed in shared mode; when clear (default), the cache is placed in /// adaptive mode. This bit is only enabled for IA-32 processors that /// support Intel Hyper-Threading Technology. See Section 11.5.6, "L1 Data /// Cache Context Mode." When L1 is running in adaptive mode and CR3s are /// identical, data in L1 is shared across logical processors. Otherwise, /// L1 is not shared and cache use is competitive. If the Context ID /// feature flag (ECX[10]) is set to 0 after executing CPUID with EAX = 1, /// the ability to switch modes is not supported. BIOS must not alter the /// contents of IA32_MISC_ENABLE[24]. /// UINT32 L1DataCacheContextMode:1; UINT32 Reserved5:7; UINT32 Reserved6:2; /// /// [Bit 34] Unique. XD Bit Disable (R/W) See Table 35-2. /// UINT32 XD:1; UINT32 Reserved7:29; } Bits; /// /// All bit fields as a 64-bit value /// UINT64 Uint64; } MSR_PENTIUM_4_IA32_MISC_ENABLE_REGISTER; /** 3, 4, 6. Shared. Platform Feature Requirements (R). @param ECX MSR_PENTIUM_4_PLATFORM_BRV (0x000001A1) @param EAX Lower 32-bits of MSR value. Described by the type MSR_PENTIUM_4_PLATFORM_BRV_REGISTER. @param EDX Upper 32-bits of MSR value. Described by the type MSR_PENTIUM_4_PLATFORM_BRV_REGISTER. <b>Example usage</b> @code MSR_PENTIUM_4_PLATFORM_BRV_REGISTER Msr; Msr.Uint64 = AsmReadMsr64 (MSR_PENTIUM_4_PLATFORM_BRV); @endcode @note MSR_PENTIUM_4_PLATFORM_BRV is defined as MSR_PLATFORM_BRV in SDM. **/ #define MSR_PENTIUM_4_PLATFORM_BRV 0x000001A1 /** MSR information returned for MSR index #MSR_PENTIUM_4_PLATFORM_BRV **/ typedef union { /// /// Individual bit fields /// struct { UINT32 Reserved1:18; /// /// [Bit 18] PLATFORM Requirements When set to 1, indicates the processor /// has specific platform requirements. The details of the platform /// requirements are listed in the respective data sheets of the processor. /// UINT32 PLATFORM:1; UINT32 Reserved2:13; 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_PENTIUM_4_PLATFORM_BRV_REGISTER; /** 0, 1, 2, 3, 4, 6. Unique. Last Exception Record From Linear IP (R) Contains a pointer to the last branch instruction that the processor executed prior to the last exception that was generated or the last interrupt that was handled. See Section 17.11.3, "Last Exception Records.". Unique. From Linear IP Linear address of the last branch instruction (If IA32e mode is active). From Linear IP Linear address of the last branch instruction. Reserved. @param ECX MSR_PENTIUM_4_LER_FROM_LIP (0x000001D7) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_LER_FROM_LIP); @endcode @note MSR_PENTIUM_4_LER_FROM_LIP is defined as MSR_LER_FROM_LIP in SDM. **/ #define MSR_PENTIUM_4_LER_FROM_LIP 0x000001D7 /** 0, 1, 2, 3, 4, 6. Unique. Last Exception Record To Linear IP (R) This area contains a pointer to the target of the last branch instruction that the processor executed prior to the last exception that was generated or the last interrupt that was handled. See Section 17.11.3, "Last Exception Records.". Unique. From Linear IP Linear address of the target of the last branch instruction (If IA-32e mode is active). From Linear IP Linear address of the target of the last branch instruction. Reserved. @param ECX MSR_PENTIUM_4_LER_TO_LIP (0x000001D8) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_LER_TO_LIP); @endcode @note MSR_PENTIUM_4_LER_TO_LIP is defined as MSR_LER_TO_LIP in SDM. **/ #define MSR_PENTIUM_4_LER_TO_LIP 0x000001D8 /** 0, 1, 2, 3, 4, 6. Unique. Debug Control (R/W) Controls how several debug features are used. Bit definitions are discussed in the referenced section. See Section 17.11.1, "MSR_DEBUGCTLA MSR.". @param ECX MSR_PENTIUM_4_DEBUGCTLA (0x000001D9) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_DEBUGCTLA); AsmWriteMsr64 (MSR_PENTIUM_4_DEBUGCTLA, Msr); @endcode @note MSR_PENTIUM_4_DEBUGCTLA is defined as MSR_DEBUGCTLA in SDM. **/ #define MSR_PENTIUM_4_DEBUGCTLA 0x000001D9 /** 0, 1, 2, 3, 4, 6. Unique. Last Branch Record Stack TOS (R/W) Contains an index (0-3 or 0-15) that points to the top of the last branch record stack (that is, that points the index of the MSR containing the most recent branch record). See Section 17.11.2, "LBR Stack for Processors Based on Intel NetBurst(R) Microarchitecture"; and addresses 1DBH-1DEH and 680H-68FH. @param ECX MSR_PENTIUM_4_LASTBRANCH_TOS (0x000001DA) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_LASTBRANCH_TOS); AsmWriteMsr64 (MSR_PENTIUM_4_LASTBRANCH_TOS, Msr); @endcode @note MSR_PENTIUM_4_LASTBRANCH_TOS is defined as MSR_LASTBRANCH_TOS in SDM. **/ #define MSR_PENTIUM_4_LASTBRANCH_TOS 0x000001DA /** 0, 1, 2. Unique. Last Branch Record n (R/W) One of four last branch record registers on the last branch record stack. It contains pointers to the source and destination instruction for one of the last four branches, exceptions, or interrupts that the processor took. MSR_LASTBRANCH_0 through MSR_LASTBRANCH_3 at 1DBH-1DEH are available only on family 0FH, models 0H-02H. They have been replaced by the MSRs at 680H68FH and 6C0H-6CFH. See Section 17.10, "Last Branch, Call Stack, Interrupt, and Exception Recording for Processors based on Skylake Microarchitecture.". @param ECX MSR_PENTIUM_4_LASTBRANCH_n @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_LASTBRANCH_0); AsmWriteMsr64 (MSR_PENTIUM_4_LASTBRANCH_0, Msr); @endcode @note MSR_PENTIUM_4_LASTBRANCH_0 is defined as MSR_LASTBRANCH_0 in SDM. MSR_PENTIUM_4_LASTBRANCH_1 is defined as MSR_LASTBRANCH_1 in SDM. MSR_PENTIUM_4_LASTBRANCH_2 is defined as MSR_LASTBRANCH_2 in SDM. MSR_PENTIUM_4_LASTBRANCH_3 is defined as MSR_LASTBRANCH_3 in SDM. @{ **/ #define MSR_PENTIUM_4_LASTBRANCH_0 0x000001DB #define MSR_PENTIUM_4_LASTBRANCH_1 0x000001DC #define MSR_PENTIUM_4_LASTBRANCH_2 0x000001DD #define MSR_PENTIUM_4_LASTBRANCH_3 0x000001DE /// @} /** 0, 1, 2, 3, 4, 6. Shared. See Section 18.15.2, "Performance Counters.". @param ECX MSR_PENTIUM_4_BPU_COUNTERn @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_BPU_COUNTER0); AsmWriteMsr64 (MSR_PENTIUM_4_BPU_COUNTER0, Msr); @endcode @note MSR_PENTIUM_4_BPU_COUNTER0 is defined as MSR_BPU_COUNTER0 in SDM. MSR_PENTIUM_4_BPU_COUNTER1 is defined as MSR_BPU_COUNTER1 in SDM. MSR_PENTIUM_4_BPU_COUNTER2 is defined as MSR_BPU_COUNTER2 in SDM. MSR_PENTIUM_4_BPU_COUNTER3 is defined as MSR_BPU_COUNTER3 in SDM. @{ **/ #define MSR_PENTIUM_4_BPU_COUNTER0 0x00000300 #define MSR_PENTIUM_4_BPU_COUNTER1 0x00000301 #define MSR_PENTIUM_4_BPU_COUNTER2 0x00000302 #define MSR_PENTIUM_4_BPU_COUNTER3 0x00000303 /// @} /** 0, 1, 2, 3, 4, 6. Shared. See Section 18.15.2, "Performance Counters.". @param ECX MSR_PENTIUM_4_MS_COUNTERn @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_MS_COUNTER0); AsmWriteMsr64 (MSR_PENTIUM_4_MS_COUNTER0, Msr); @endcode @note MSR_PENTIUM_4_MS_COUNTER0 is defined as MSR_MS_COUNTER0 in SDM. MSR_PENTIUM_4_MS_COUNTER1 is defined as MSR_MS_COUNTER1 in SDM. MSR_PENTIUM_4_MS_COUNTER2 is defined as MSR_MS_COUNTER2 in SDM. MSR_PENTIUM_4_MS_COUNTER3 is defined as MSR_MS_COUNTER3 in SDM. @{ **/ #define MSR_PENTIUM_4_MS_COUNTER0 0x00000304 #define MSR_PENTIUM_4_MS_COUNTER1 0x00000305 #define MSR_PENTIUM_4_MS_COUNTER2 0x00000306 #define MSR_PENTIUM_4_MS_COUNTER3 0x00000307 /// @} /** 0, 1, 2, 3, 4, 6. Shared. See Section 18.15.2, "Performance Counters.". @param ECX MSR_PENTIUM_4_FLAME_COUNTERn (0x00000308) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_FLAME_COUNTER0); AsmWriteMsr64 (MSR_PENTIUM_4_FLAME_COUNTER0, Msr); @endcode @note MSR_PENTIUM_4_FLAME_COUNTER0 is defined as MSR_FLAME_COUNTER0 in SDM. MSR_PENTIUM_4_FLAME_COUNTER1 is defined as MSR_FLAME_COUNTER1 in SDM. MSR_PENTIUM_4_FLAME_COUNTER2 is defined as MSR_FLAME_COUNTER2 in SDM. MSR_PENTIUM_4_FLAME_COUNTER3 is defined as MSR_FLAME_COUNTER3 in SDM. @{ **/ #define MSR_PENTIUM_4_FLAME_COUNTER0 0x00000308 #define MSR_PENTIUM_4_FLAME_COUNTER1 0x00000309 #define MSR_PENTIUM_4_FLAME_COUNTER2 0x0000030A #define MSR_PENTIUM_4_FLAME_COUNTER3 0x0000030B /// @} /** 0, 1, 2, 3, 4, 6. Shared. See Section 18.15.2, "Performance Counters.". @param ECX MSR_PENTIUM_4_IQ_COUNTERn @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_IQ_COUNTER0); AsmWriteMsr64 (MSR_PENTIUM_4_IQ_COUNTER0, Msr); @endcode @note MSR_PENTIUM_4_IQ_COUNTER0 is defined as MSR_IQ_COUNTER0 in SDM. MSR_PENTIUM_4_IQ_COUNTER1 is defined as MSR_IQ_COUNTER1 in SDM. MSR_PENTIUM_4_IQ_COUNTER2 is defined as MSR_IQ_COUNTER2 in SDM. MSR_PENTIUM_4_IQ_COUNTER3 is defined as MSR_IQ_COUNTER3 in SDM. MSR_PENTIUM_4_IQ_COUNTER4 is defined as MSR_IQ_COUNTER4 in SDM. MSR_PENTIUM_4_IQ_COUNTER5 is defined as MSR_IQ_COUNTER5 in SDM. @{ **/ #define MSR_PENTIUM_4_IQ_COUNTER0 0x0000030C #define MSR_PENTIUM_4_IQ_COUNTER1 0x0000030D #define MSR_PENTIUM_4_IQ_COUNTER2 0x0000030E #define MSR_PENTIUM_4_IQ_COUNTER3 0x0000030F #define MSR_PENTIUM_4_IQ_COUNTER4 0x00000310 #define MSR_PENTIUM_4_IQ_COUNTER5 0x00000311 /// @} /** 0, 1, 2, 3, 4, 6. Shared. See Section 18.15.3, "CCCR MSRs.". @param ECX MSR_PENTIUM_4_BPU_CCCRn @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_BPU_CCCR0); AsmWriteMsr64 (MSR_PENTIUM_4_BPU_CCCR0, Msr); @endcode @note MSR_PENTIUM_4_BPU_CCCR0 is defined as MSR_BPU_CCCR0 in SDM. MSR_PENTIUM_4_BPU_CCCR1 is defined as MSR_BPU_CCCR1 in SDM. MSR_PENTIUM_4_BPU_CCCR2 is defined as MSR_BPU_CCCR2 in SDM. MSR_PENTIUM_4_BPU_CCCR3 is defined as MSR_BPU_CCCR3 in SDM. @{ **/ #define MSR_PENTIUM_4_BPU_CCCR0 0x00000360 #define MSR_PENTIUM_4_BPU_CCCR1 0x00000361 #define MSR_PENTIUM_4_BPU_CCCR2 0x00000362 #define MSR_PENTIUM_4_BPU_CCCR3 0x00000363 /// @} /** 0, 1, 2, 3, 4, 6. Shared. See Section 18.15.3, "CCCR MSRs.". @param ECX MSR_PENTIUM_4_MS_CCCRn @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_MS_CCCR0); AsmWriteMsr64 (MSR_PENTIUM_4_MS_CCCR0, Msr); @endcode @note MSR_PENTIUM_4_MS_CCCR0 is defined as MSR_MS_CCCR0 in SDM. MSR_PENTIUM_4_MS_CCCR1 is defined as MSR_MS_CCCR1 in SDM. MSR_PENTIUM_4_MS_CCCR2 is defined as MSR_MS_CCCR2 in SDM. MSR_PENTIUM_4_MS_CCCR3 is defined as MSR_MS_CCCR3 in SDM. @{ **/ #define MSR_PENTIUM_4_MS_CCCR0 0x00000364 #define MSR_PENTIUM_4_MS_CCCR1 0x00000365 #define MSR_PENTIUM_4_MS_CCCR2 0x00000366 #define MSR_PENTIUM_4_MS_CCCR3 0x00000367 /// @} /** 0, 1, 2, 3, 4, 6. Shared. See Section 18.15.3, "CCCR MSRs.". @param ECX MSR_PENTIUM_4_FLAME_CCCRn @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_FLAME_CCCR0); AsmWriteMsr64 (MSR_PENTIUM_4_FLAME_CCCR0, Msr); @endcode @note MSR_PENTIUM_4_FLAME_CCCR0 is defined as MSR_FLAME_CCCR0 in SDM. MSR_PENTIUM_4_FLAME_CCCR1 is defined as MSR_FLAME_CCCR1 in SDM. MSR_PENTIUM_4_FLAME_CCCR2 is defined as MSR_FLAME_CCCR2 in SDM. MSR_PENTIUM_4_FLAME_CCCR3 is defined as MSR_FLAME_CCCR3 in SDM. @{ **/ #define MSR_PENTIUM_4_FLAME_CCCR0 0x00000368 #define MSR_PENTIUM_4_FLAME_CCCR1 0x00000369 #define MSR_PENTIUM_4_FLAME_CCCR2 0x0000036A #define MSR_PENTIUM_4_FLAME_CCCR3 0x0000036B /// @} /** 0, 1, 2, 3, 4, 6. Shared. See Section 18.15.3, "CCCR MSRs.". @param ECX MSR_PENTIUM_4_IQ_CCCRn @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_IQ_CCCR0); AsmWriteMsr64 (MSR_PENTIUM_4_IQ_CCCR0, Msr); @endcode @note MSR_PENTIUM_4_IQ_CCCR0 is defined as MSR_IQ_CCCR0 in SDM. MSR_PENTIUM_4_IQ_CCCR1 is defined as MSR_IQ_CCCR1 in SDM. MSR_PENTIUM_4_IQ_CCCR2 is defined as MSR_IQ_CCCR2 in SDM. MSR_PENTIUM_4_IQ_CCCR3 is defined as MSR_IQ_CCCR3 in SDM. MSR_PENTIUM_4_IQ_CCCR4 is defined as MSR_IQ_CCCR4 in SDM. MSR_PENTIUM_4_IQ_CCCR5 is defined as MSR_IQ_CCCR5 in SDM. @{ **/ #define MSR_PENTIUM_4_IQ_CCCR0 0x0000036C #define MSR_PENTIUM_4_IQ_CCCR1 0x0000036D #define MSR_PENTIUM_4_IQ_CCCR2 0x0000036E #define MSR_PENTIUM_4_IQ_CCCR3 0x0000036F #define MSR_PENTIUM_4_IQ_CCCR4 0x00000370 #define MSR_PENTIUM_4_IQ_CCCR5 0x00000371 /// @} /** 0, 1, 2, 3, 4, 6. Shared. See Section 18.15.1, "ESCR MSRs.". @param ECX MSR_PENTIUM_4_BSU_ESCR0 (0x000003A0) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_BSU_ESCR0); AsmWriteMsr64 (MSR_PENTIUM_4_BSU_ESCR0, Msr); @endcode @note MSR_PENTIUM_4_BSU_ESCR0 is defined as MSR_BSU_ESCR0 in SDM. **/ #define MSR_PENTIUM_4_BSU_ESCR0 0x000003A0 /** 0, 1, 2, 3, 4, 6. Shared. See Section 18.15.1, "ESCR MSRs.". @param ECX MSR_PENTIUM_4_BSU_ESCR1 (0x000003A1) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_BSU_ESCR1); AsmWriteMsr64 (MSR_PENTIUM_4_BSU_ESCR1, Msr); @endcode @note MSR_PENTIUM_4_BSU_ESCR1 is defined as MSR_BSU_ESCR1 in SDM. **/ #define MSR_PENTIUM_4_BSU_ESCR1 0x000003A1 /** 0, 1, 2, 3, 4, 6. Shared. See Section 18.15.1, "ESCR MSRs.". @param ECX MSR_PENTIUM_4_FSB_ESCR0 (0x000003A2) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_FSB_ESCR0); AsmWriteMsr64 (MSR_PENTIUM_4_FSB_ESCR0, Msr); @endcode @note MSR_PENTIUM_4_FSB_ESCR0 is defined as MSR_FSB_ESCR0 in SDM. **/ #define MSR_PENTIUM_4_FSB_ESCR0 0x000003A2 /** 0, 1, 2, 3, 4, 6. Shared. See Section 18.15.1, "ESCR MSRs.". @param ECX MSR_PENTIUM_4_FSB_ESCR1 (0x000003A3) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_FSB_ESCR1); AsmWriteMsr64 (MSR_PENTIUM_4_FSB_ESCR1, Msr); @endcode @note MSR_PENTIUM_4_FSB_ESCR1 is defined as MSR_FSB_ESCR1 in SDM. **/ #define MSR_PENTIUM_4_FSB_ESCR1 0x000003A3 /** 0, 1, 2, 3, 4, 6. Shared. See Section 18.15.1, "ESCR MSRs.". @param ECX MSR_PENTIUM_4_FIRM_ESCR0 (0x000003A4) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_FIRM_ESCR0); AsmWriteMsr64 (MSR_PENTIUM_4_FIRM_ESCR0, Msr); @endcode @note MSR_PENTIUM_4_FIRM_ESCR0 is defined as MSR_FIRM_ESCR0 in SDM. **/ #define MSR_PENTIUM_4_FIRM_ESCR0 0x000003A4 /** 0, 1, 2, 3, 4, 6. Shared. See Section 18.15.1, "ESCR MSRs.". @param ECX MSR_PENTIUM_4_FIRM_ESCR1 (0x000003A5) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_FIRM_ESCR1); AsmWriteMsr64 (MSR_PENTIUM_4_FIRM_ESCR1, Msr); @endcode @note MSR_PENTIUM_4_FIRM_ESCR1 is defined as MSR_FIRM_ESCR1 in SDM. **/ #define MSR_PENTIUM_4_FIRM_ESCR1 0x000003A5 /** 0, 1, 2, 3, 4, 6. Shared. See Section 18.15.1, "ESCR MSRs.". @param ECX MSR_PENTIUM_4_FLAME_ESCR0 (0x000003A6) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_FLAME_ESCR0); AsmWriteMsr64 (MSR_PENTIUM_4_FLAME_ESCR0, Msr); @endcode @note MSR_PENTIUM_4_FLAME_ESCR0 is defined as MSR_FLAME_ESCR0 in SDM. **/ #define MSR_PENTIUM_4_FLAME_ESCR0 0x000003A6 /** 0, 1, 2, 3, 4, 6. Shared. See Section 18.15.1, "ESCR MSRs.". @param ECX MSR_PENTIUM_4_FLAME_ESCR1 (0x000003A7) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_FLAME_ESCR1); AsmWriteMsr64 (MSR_PENTIUM_4_FLAME_ESCR1, Msr); @endcode @note MSR_PENTIUM_4_FLAME_ESCR1 is defined as MSR_FLAME_ESCR1 in SDM. **/ #define MSR_PENTIUM_4_FLAME_ESCR1 0x000003A7 /** 0, 1, 2, 3, 4, 6. Shared. See Section 18.15.1, "ESCR MSRs.". @param ECX MSR_PENTIUM_4_DAC_ESCR0 (0x000003A8) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_DAC_ESCR0); AsmWriteMsr64 (MSR_PENTIUM_4_DAC_ESCR0, Msr); @endcode @note MSR_PENTIUM_4_DAC_ESCR0 is defined as MSR_DAC_ESCR0 in SDM. **/ #define MSR_PENTIUM_4_DAC_ESCR0 0x000003A8 /** 0, 1, 2, 3, 4, 6. Shared. See Section 18.15.1, "ESCR MSRs.". @param ECX MSR_PENTIUM_4_DAC_ESCR1 (0x000003A9) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_DAC_ESCR1); AsmWriteMsr64 (MSR_PENTIUM_4_DAC_ESCR1, Msr); @endcode @note MSR_PENTIUM_4_DAC_ESCR1 is defined as MSR_DAC_ESCR1 in SDM. **/ #define MSR_PENTIUM_4_DAC_ESCR1 0x000003A9 /** 0, 1, 2, 3, 4, 6. Shared. See Section 18.15.1, "ESCR MSRs.". @param ECX MSR_PENTIUM_4_MOB_ESCR0 (0x000003AA) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_MOB_ESCR0); AsmWriteMsr64 (MSR_PENTIUM_4_MOB_ESCR0, Msr); @endcode @note MSR_PENTIUM_4_MOB_ESCR0 is defined as MSR_MOB_ESCR0 in SDM. **/ #define MSR_PENTIUM_4_MOB_ESCR0 0x000003AA /** 0, 1, 2, 3, 4, 6. Shared. See Section 18.15.1, "ESCR MSRs.". @param ECX MSR_PENTIUM_4_MOB_ESCR1 (0x000003AB) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_MOB_ESCR1); AsmWriteMsr64 (MSR_PENTIUM_4_MOB_ESCR1, Msr); @endcode @note MSR_PENTIUM_4_MOB_ESCR1 is defined as MSR_MOB_ESCR1 in SDM. **/ #define MSR_PENTIUM_4_MOB_ESCR1 0x000003AB /** 0, 1, 2, 3, 4, 6. Shared. See Section 18.15.1, "ESCR MSRs.". @param ECX MSR_PENTIUM_4_PMH_ESCR0 (0x000003AC) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_PMH_ESCR0); AsmWriteMsr64 (MSR_PENTIUM_4_PMH_ESCR0, Msr); @endcode @note MSR_PENTIUM_4_PMH_ESCR0 is defined as MSR_PMH_ESCR0 in SDM. **/ #define MSR_PENTIUM_4_PMH_ESCR0 0x000003AC /** 0, 1, 2, 3, 4, 6. Shared. See Section 18.15.1, "ESCR MSRs.". @param ECX MSR_PENTIUM_4_PMH_ESCR1 (0x000003AD) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_PMH_ESCR1); AsmWriteMsr64 (MSR_PENTIUM_4_PMH_ESCR1, Msr); @endcode @note MSR_PENTIUM_4_PMH_ESCR1 is defined as MSR_PMH_ESCR1 in SDM. **/ #define MSR_PENTIUM_4_PMH_ESCR1 0x000003AD /** 0, 1, 2, 3, 4, 6. Shared. See Section 18.15.1, "ESCR MSRs.". @param ECX MSR_PENTIUM_4_SAAT_ESCR0 (0x000003AE) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_SAAT_ESCR0); AsmWriteMsr64 (MSR_PENTIUM_4_SAAT_ESCR0, Msr); @endcode @note MSR_PENTIUM_4_SAAT_ESCR0 is defined as MSR_SAAT_ESCR0 in SDM. **/ #define MSR_PENTIUM_4_SAAT_ESCR0 0x000003AE /** 0, 1, 2, 3, 4, 6. Shared. See Section 18.15.1, "ESCR MSRs.". @param ECX MSR_PENTIUM_4_SAAT_ESCR1 (0x000003AF) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_SAAT_ESCR1); AsmWriteMsr64 (MSR_PENTIUM_4_SAAT_ESCR1, Msr); @endcode @note MSR_PENTIUM_4_SAAT_ESCR1 is defined as MSR_SAAT_ESCR1 in SDM. **/ #define MSR_PENTIUM_4_SAAT_ESCR1 0x000003AF /** 0, 1, 2, 3, 4, 6. Shared. See Section 18.15.1, "ESCR MSRs.". @param ECX MSR_PENTIUM_4_U2L_ESCR0 (0x000003B0) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_U2L_ESCR0); AsmWriteMsr64 (MSR_PENTIUM_4_U2L_ESCR0, Msr); @endcode @note MSR_PENTIUM_4_U2L_ESCR0 is defined as MSR_U2L_ESCR0 in SDM. **/ #define MSR_PENTIUM_4_U2L_ESCR0 0x000003B0 /** 0, 1, 2, 3, 4, 6. Shared. See Section 18.15.1, "ESCR MSRs.". @param ECX MSR_PENTIUM_4_U2L_ESCR1 (0x000003B1) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_U2L_ESCR1); AsmWriteMsr64 (MSR_PENTIUM_4_U2L_ESCR1, Msr); @endcode @note MSR_PENTIUM_4_U2L_ESCR1 is defined as MSR_U2L_ESCR1 in SDM. **/ #define MSR_PENTIUM_4_U2L_ESCR1 0x000003B1 /** 0, 1, 2, 3, 4, 6. Shared. See Section 18.15.1, "ESCR MSRs.". @param ECX MSR_PENTIUM_4_BPU_ESCR0 (0x000003B2) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_BPU_ESCR0); AsmWriteMsr64 (MSR_PENTIUM_4_BPU_ESCR0, Msr); @endcode @note MSR_PENTIUM_4_BPU_ESCR0 is defined as MSR_BPU_ESCR0 in SDM. **/ #define MSR_PENTIUM_4_BPU_ESCR0 0x000003B2 /** 0, 1, 2, 3, 4, 6. Shared. See Section 18.15.1, "ESCR MSRs.". @param ECX MSR_PENTIUM_4_BPU_ESCR1 (0x000003B3) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_BPU_ESCR1); AsmWriteMsr64 (MSR_PENTIUM_4_BPU_ESCR1, Msr); @endcode @note MSR_PENTIUM_4_BPU_ESCR1 is defined as MSR_BPU_ESCR1 in SDM. **/ #define MSR_PENTIUM_4_BPU_ESCR1 0x000003B3 /** 0, 1, 2, 3, 4, 6. Shared. See Section 18.15.1, "ESCR MSRs.". @param ECX MSR_PENTIUM_4_IS_ESCR0 (0x000003B4) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_IS_ESCR0); AsmWriteMsr64 (MSR_PENTIUM_4_IS_ESCR0, Msr); @endcode @note MSR_PENTIUM_4_IS_ESCR0 is defined as MSR_IS_ESCR0 in SDM. **/ #define MSR_PENTIUM_4_IS_ESCR0 0x000003B4 /** 0, 1, 2, 3, 4, 6. Shared. See Section 18.15.1, "ESCR MSRs.". @param ECX MSR_PENTIUM_4_IS_ESCR1 (0x000003B5) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_IS_ESCR1); AsmWriteMsr64 (MSR_PENTIUM_4_IS_ESCR1, Msr); @endcode @note MSR_PENTIUM_4_IS_ESCR1 is defined as MSR_IS_ESCR1 in SDM. **/ #define MSR_PENTIUM_4_IS_ESCR1 0x000003B5 /** 0, 1, 2, 3, 4, 6. Shared. See Section 18.15.1, "ESCR MSRs.". @param ECX MSR_PENTIUM_4_ITLB_ESCR0 (0x000003B6) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_ITLB_ESCR0); AsmWriteMsr64 (MSR_PENTIUM_4_ITLB_ESCR0, Msr); @endcode @note MSR_PENTIUM_4_ITLB_ESCR0 is defined as MSR_ITLB_ESCR0 in SDM. **/ #define MSR_PENTIUM_4_ITLB_ESCR0 0x000003B6 /** 0, 1, 2, 3, 4, 6. Shared. See Section 18.15.1, "ESCR MSRs.". @param ECX MSR_PENTIUM_4_ITLB_ESCR1 (0x000003B7) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_ITLB_ESCR1); AsmWriteMsr64 (MSR_PENTIUM_4_ITLB_ESCR1, Msr); @endcode @note MSR_PENTIUM_4_ITLB_ESCR1 is defined as MSR_ITLB_ESCR1 in SDM. **/ #define MSR_PENTIUM_4_ITLB_ESCR1 0x000003B7 /** 0, 1, 2, 3, 4, 6. Shared. See Section 18.15.1, "ESCR MSRs.". @param ECX MSR_PENTIUM_4_CRU_ESCR0 (0x000003B8) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_CRU_ESCR0); AsmWriteMsr64 (MSR_PENTIUM_4_CRU_ESCR0, Msr); @endcode @note MSR_PENTIUM_4_CRU_ESCR0 is defined as MSR_CRU_ESCR0 in SDM. **/ #define MSR_PENTIUM_4_CRU_ESCR0 0x000003B8 /** 0, 1, 2, 3, 4, 6. Shared. See Section 18.15.1, "ESCR MSRs.". @param ECX MSR_PENTIUM_4_CRU_ESCR1 (0x000003B9) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_CRU_ESCR1); AsmWriteMsr64 (MSR_PENTIUM_4_CRU_ESCR1, Msr); @endcode @note MSR_PENTIUM_4_CRU_ESCR1 is defined as MSR_CRU_ESCR1 in SDM. **/ #define MSR_PENTIUM_4_CRU_ESCR1 0x000003B9 /** 0, 1, 2. Shared. See Section 18.15.1, "ESCR MSRs." This MSR is not available on later processors. It is only available on processor family 0FH, models 01H-02H. @param ECX MSR_PENTIUM_4_IQ_ESCR0 (0x000003BA) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_IQ_ESCR0); AsmWriteMsr64 (MSR_PENTIUM_4_IQ_ESCR0, Msr); @endcode @note MSR_PENTIUM_4_IQ_ESCR0 is defined as MSR_IQ_ESCR0 in SDM. **/ #define MSR_PENTIUM_4_IQ_ESCR0 0x000003BA /** 0, 1, 2. Shared. See Section 18.15.1, "ESCR MSRs." This MSR is not available on later processors. It is only available on processor family 0FH, models 01H-02H. @param ECX MSR_PENTIUM_4_IQ_ESCR1 (0x000003BB) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_IQ_ESCR1); AsmWriteMsr64 (MSR_PENTIUM_4_IQ_ESCR1, Msr); @endcode @note MSR_PENTIUM_4_IQ_ESCR1 is defined as MSR_IQ_ESCR1 in SDM. **/ #define MSR_PENTIUM_4_IQ_ESCR1 0x000003BB /** 0, 1, 2, 3, 4, 6. Shared. See Section 18.15.1, "ESCR MSRs.". @param ECX MSR_PENTIUM_4_RAT_ESCR0 (0x000003BC) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_RAT_ESCR0); AsmWriteMsr64 (MSR_PENTIUM_4_RAT_ESCR0, Msr); @endcode @note MSR_PENTIUM_4_RAT_ESCR0 is defined as MSR_RAT_ESCR0 in SDM. **/ #define MSR_PENTIUM_4_RAT_ESCR0 0x000003BC /** 0, 1, 2, 3, 4, 6. Shared. See Section 18.15.1, "ESCR MSRs.". @param ECX MSR_PENTIUM_4_RAT_ESCR1 (0x000003BD) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_RAT_ESCR1); AsmWriteMsr64 (MSR_PENTIUM_4_RAT_ESCR1, Msr); @endcode @note MSR_PENTIUM_4_RAT_ESCR1 is defined as MSR_RAT_ESCR1 in SDM. **/ #define MSR_PENTIUM_4_RAT_ESCR1 0x000003BD /** 0, 1, 2, 3, 4, 6. Shared. See Section 18.15.1, "ESCR MSRs.". @param ECX MSR_PENTIUM_4_SSU_ESCR0 (0x000003BE) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_SSU_ESCR0); AsmWriteMsr64 (MSR_PENTIUM_4_SSU_ESCR0, Msr); @endcode @note MSR_PENTIUM_4_SSU_ESCR0 is defined as MSR_SSU_ESCR0 in SDM. **/ #define MSR_PENTIUM_4_SSU_ESCR0 0x000003BE /** 0, 1, 2, 3, 4, 6. Shared. See Section 18.15.1, "ESCR MSRs.". @param ECX MSR_PENTIUM_4_MS_ESCR0 (0x000003C0) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_MS_ESCR0); AsmWriteMsr64 (MSR_PENTIUM_4_MS_ESCR0, Msr); @endcode @note MSR_PENTIUM_4_MS_ESCR0 is defined as MSR_MS_ESCR0 in SDM. **/ #define MSR_PENTIUM_4_MS_ESCR0 0x000003C0 /** 0, 1, 2, 3, 4, 6. Shared. See Section 18.15.1, "ESCR MSRs.". @param ECX MSR_PENTIUM_4_MS_ESCR1 (0x000003C1) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_MS_ESCR1); AsmWriteMsr64 (MSR_PENTIUM_4_MS_ESCR1, Msr); @endcode @note MSR_PENTIUM_4_MS_ESCR1 is defined as MSR_MS_ESCR1 in SDM. **/ #define MSR_PENTIUM_4_MS_ESCR1 0x000003C1 /** 0, 1, 2, 3, 4, 6. Shared. See Section 18.15.1, "ESCR MSRs.". @param ECX MSR_PENTIUM_4_TBPU_ESCR0 (0x000003C2) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_TBPU_ESCR0); AsmWriteMsr64 (MSR_PENTIUM_4_TBPU_ESCR0, Msr); @endcode @note MSR_PENTIUM_4_TBPU_ESCR0 is defined as MSR_TBPU_ESCR0 in SDM. **/ #define MSR_PENTIUM_4_TBPU_ESCR0 0x000003C2 /** 0, 1, 2, 3, 4, 6. Shared. See Section 18.15.1, "ESCR MSRs.". @param ECX MSR_PENTIUM_4_TBPU_ESCR1 (0x000003C3) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_TBPU_ESCR1); AsmWriteMsr64 (MSR_PENTIUM_4_TBPU_ESCR1, Msr); @endcode @note MSR_PENTIUM_4_TBPU_ESCR1 is defined as MSR_TBPU_ESCR1 in SDM. **/ #define MSR_PENTIUM_4_TBPU_ESCR1 0x000003C3 /** 0, 1, 2, 3, 4, 6. Shared. See Section 18.15.1, "ESCR MSRs.". @param ECX MSR_PENTIUM_4_TC_ESCR0 (0x000003C4) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_TC_ESCR0); AsmWriteMsr64 (MSR_PENTIUM_4_TC_ESCR0, Msr); @endcode @note MSR_PENTIUM_4_TC_ESCR0 is defined as MSR_TC_ESCR0 in SDM. **/ #define MSR_PENTIUM_4_TC_ESCR0 0x000003C4 /** 0, 1, 2, 3, 4, 6. Shared. See Section 18.15.1, "ESCR MSRs.". @param ECX MSR_PENTIUM_4_TC_ESCR1 (0x000003C5) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_TC_ESCR1); AsmWriteMsr64 (MSR_PENTIUM_4_TC_ESCR1, Msr); @endcode @note MSR_PENTIUM_4_TC_ESCR1 is defined as MSR_TC_ESCR1 in SDM. **/ #define MSR_PENTIUM_4_TC_ESCR1 0x000003C5 /** 0, 1, 2, 3, 4, 6. Shared. See Section 18.15.1, "ESCR MSRs.". @param ECX MSR_PENTIUM_4_IX_ESCR0 (0x000003C8) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_IX_ESCR0); AsmWriteMsr64 (MSR_PENTIUM_4_IX_ESCR0, Msr); @endcode @note MSR_PENTIUM_4_IX_ESCR0 is defined as MSR_IX_ESCR0 in SDM. **/ #define MSR_PENTIUM_4_IX_ESCR0 0x000003C8 /** 0, 1, 2, 3, 4, 6. Shared. See Section 18.15.1, "ESCR MSRs.". @param ECX MSR_PENTIUM_4_IX_ESCR1 (0x000003C9) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_IX_ESCR1); AsmWriteMsr64 (MSR_PENTIUM_4_IX_ESCR1, Msr); @endcode @note MSR_PENTIUM_4_IX_ESCR1 is defined as MSR_IX_ESCR1 in SDM. **/ #define MSR_PENTIUM_4_IX_ESCR1 0x000003C9 /** 0, 1, 2, 3, 4, 6. Shared. See Section 18.15.1, "ESCR MSRs.". @param ECX MSR_PENTIUM_4_ALF_ESCRn @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_ALF_ESCR0); AsmWriteMsr64 (MSR_PENTIUM_4_ALF_ESCR0, Msr); @endcode @note MSR_PENTIUM_4_ALF_ESCR0 is defined as MSR_ALF_ESCR0 in SDM. MSR_PENTIUM_4_ALF_ESCR1 is defined as MSR_ALF_ESCR1 in SDM. MSR_PENTIUM_4_CRU_ESCR2 is defined as MSR_CRU_ESCR2 in SDM. MSR_PENTIUM_4_CRU_ESCR3 is defined as MSR_CRU_ESCR3 in SDM. MSR_PENTIUM_4_CRU_ESCR4 is defined as MSR_CRU_ESCR4 in SDM. MSR_PENTIUM_4_CRU_ESCR5 is defined as MSR_CRU_ESCR5 in SDM. @{ **/ #define MSR_PENTIUM_4_ALF_ESCR0 0x000003CA #define MSR_PENTIUM_4_ALF_ESCR1 0x000003CB #define MSR_PENTIUM_4_CRU_ESCR2 0x000003CC #define MSR_PENTIUM_4_CRU_ESCR3 0x000003CD #define MSR_PENTIUM_4_CRU_ESCR4 0x000003E0 #define MSR_PENTIUM_4_CRU_ESCR5 0x000003E1 /// @} /** 0, 1, 2, 3, 4, 6. Shared. See Section 18.15.1, "ESCR MSRs.". @param ECX MSR_PENTIUM_4_TC_PRECISE_EVENT (0x000003F0) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_TC_PRECISE_EVENT); AsmWriteMsr64 (MSR_PENTIUM_4_TC_PRECISE_EVENT, Msr); @endcode @note MSR_PENTIUM_4_TC_PRECISE_EVENT is defined as MSR_TC_PRECISE_EVENT in SDM. **/ #define MSR_PENTIUM_4_TC_PRECISE_EVENT 0x000003F0 /** 0, 1, 2, 3, 4, 6. Shared. Processor Event Based Sampling (PEBS) (R/W) Controls the enabling of processor event sampling and replay tagging. @param ECX MSR_PENTIUM_4_PEBS_ENABLE (0x000003F1) @param EAX Lower 32-bits of MSR value. Described by the type MSR_PENTIUM_4_PEBS_ENABLE_REGISTER. @param EDX Upper 32-bits of MSR value. Described by the type MSR_PENTIUM_4_PEBS_ENABLE_REGISTER. <b>Example usage</b> @code MSR_PENTIUM_4_PEBS_ENABLE_REGISTER Msr; Msr.Uint64 = AsmReadMsr64 (MSR_PENTIUM_4_PEBS_ENABLE); AsmWriteMsr64 (MSR_PENTIUM_4_PEBS_ENABLE, Msr.Uint64); @endcode @note MSR_PENTIUM_4_PEBS_ENABLE is defined as MSR_PEBS_ENABLE in SDM. **/ #define MSR_PENTIUM_4_PEBS_ENABLE 0x000003F1 /** MSR information returned for MSR index #MSR_PENTIUM_4_PEBS_ENABLE **/ typedef union { /// /// Individual bit fields /// struct { /// /// [Bits 12:0] See Table 19-33. /// UINT32 EventNum:13; UINT32 Reserved1:11; /// /// [Bit 24] UOP Tag Enables replay tagging when set. /// UINT32 UOP:1; /// /// [Bit 25] ENABLE_PEBS_MY_THR (R/W) Enables PEBS for the target logical /// processor when set; disables PEBS when clear (default). See Section /// 18.16.3, "IA32_PEBS_ENABLE MSR," for an explanation of the target /// logical processor. This bit is called ENABLE_PEBS in IA-32 processors /// that do not support Intel HyperThreading Technology. /// UINT32 ENABLE_PEBS_MY_THR:1; /// /// [Bit 26] ENABLE_PEBS_OTH_THR (R/W) Enables PEBS for the target logical /// processor when set; disables PEBS when clear (default). See Section /// 18.16.3, "IA32_PEBS_ENABLE MSR," for an explanation of the target /// logical processor. This bit is reserved for IA-32 processors that do /// not support Intel Hyper-Threading Technology. /// UINT32 ENABLE_PEBS_OTH_THR:1; UINT32 Reserved2:5; 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_PENTIUM_4_PEBS_ENABLE_REGISTER; /** 0, 1, 2, 3, 4, 6. Shared. See Table 19-33. @param ECX MSR_PENTIUM_4_PEBS_MATRIX_VERT (0x000003F2) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_PEBS_MATRIX_VERT); AsmWriteMsr64 (MSR_PENTIUM_4_PEBS_MATRIX_VERT, Msr); @endcode @note MSR_PENTIUM_4_PEBS_MATRIX_VERT is defined as MSR_PEBS_MATRIX_VERT in SDM. **/ #define MSR_PENTIUM_4_PEBS_MATRIX_VERT 0x000003F2 /** 3, 4, 6. Unique. Last Branch Record n (R/W) One of 16 pairs of last branch record registers on the last branch record stack (680H-68FH). This part of the stack contains pointers to the source instruction for one of the last 16 branches, exceptions, or interrupts taken by the processor. The MSRs at 680H-68FH, 6C0H-6CfH are not available in processor releases before family 0FH, model 03H. These MSRs replace MSRs previously located at 1DBH-1DEH.which performed the same function for early releases. See Section 17.10, "Last Branch, Call Stack, Interrupt, and Exception Recording for Processors based on Skylake Microarchitecture.". @param ECX MSR_PENTIUM_4_LASTBRANCH_n_FROM_IP @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_LASTBRANCH_0_FROM_IP); AsmWriteMsr64 (MSR_PENTIUM_4_LASTBRANCH_0_FROM_IP, Msr); @endcode @note MSR_PENTIUM_4_LASTBRANCH_0_FROM_IP is defined as MSR_LASTBRANCH_0_FROM_IP in SDM. MSR_PENTIUM_4_LASTBRANCH_1_FROM_IP is defined as MSR_LASTBRANCH_1_FROM_IP in SDM. MSR_PENTIUM_4_LASTBRANCH_2_FROM_IP is defined as MSR_LASTBRANCH_2_FROM_IP in SDM. MSR_PENTIUM_4_LASTBRANCH_3_FROM_IP is defined as MSR_LASTBRANCH_3_FROM_IP in SDM. MSR_PENTIUM_4_LASTBRANCH_4_FROM_IP is defined as MSR_LASTBRANCH_4_FROM_IP in SDM. MSR_PENTIUM_4_LASTBRANCH_5_FROM_IP is defined as MSR_LASTBRANCH_5_FROM_IP in SDM. MSR_PENTIUM_4_LASTBRANCH_6_FROM_IP is defined as MSR_LASTBRANCH_6_FROM_IP in SDM. MSR_PENTIUM_4_LASTBRANCH_7_FROM_IP is defined as MSR_LASTBRANCH_7_FROM_IP in SDM. MSR_PENTIUM_4_LASTBRANCH_8_FROM_IP is defined as MSR_LASTBRANCH_8_FROM_IP in SDM. MSR_PENTIUM_4_LASTBRANCH_9_FROM_IP is defined as MSR_LASTBRANCH_9_FROM_IP in SDM. MSR_PENTIUM_4_LASTBRANCH_10_FROM_IP is defined as MSR_LASTBRANCH_10_FROM_IP in SDM. MSR_PENTIUM_4_LASTBRANCH_11_FROM_IP is defined as MSR_LASTBRANCH_11_FROM_IP in SDM. MSR_PENTIUM_4_LASTBRANCH_12_FROM_IP is defined as MSR_LASTBRANCH_12_FROM_IP in SDM. MSR_PENTIUM_4_LASTBRANCH_13_FROM_IP is defined as MSR_LASTBRANCH_13_FROM_IP in SDM. MSR_PENTIUM_4_LASTBRANCH_14_FROM_IP is defined as MSR_LASTBRANCH_14_FROM_IP in SDM. MSR_PENTIUM_4_LASTBRANCH_15_FROM_IP is defined as MSR_LASTBRANCH_15_FROM_IP in SDM. @{ **/ #define MSR_PENTIUM_4_LASTBRANCH_0_FROM_IP 0x00000680 #define MSR_PENTIUM_4_LASTBRANCH_1_FROM_IP 0x00000681 #define MSR_PENTIUM_4_LASTBRANCH_2_FROM_IP 0x00000682 #define MSR_PENTIUM_4_LASTBRANCH_3_FROM_IP 0x00000683 #define MSR_PENTIUM_4_LASTBRANCH_4_FROM_IP 0x00000684 #define MSR_PENTIUM_4_LASTBRANCH_5_FROM_IP 0x00000685 #define MSR_PENTIUM_4_LASTBRANCH_6_FROM_IP 0x00000686 #define MSR_PENTIUM_4_LASTBRANCH_7_FROM_IP 0x00000687 #define MSR_PENTIUM_4_LASTBRANCH_8_FROM_IP 0x00000688 #define MSR_PENTIUM_4_LASTBRANCH_9_FROM_IP 0x00000689 #define MSR_PENTIUM_4_LASTBRANCH_10_FROM_IP 0x0000068A #define MSR_PENTIUM_4_LASTBRANCH_11_FROM_IP 0x0000068B #define MSR_PENTIUM_4_LASTBRANCH_12_FROM_IP 0x0000068C #define MSR_PENTIUM_4_LASTBRANCH_13_FROM_IP 0x0000068D #define MSR_PENTIUM_4_LASTBRANCH_14_FROM_IP 0x0000068E #define MSR_PENTIUM_4_LASTBRANCH_15_FROM_IP 0x0000068F /// @} /** 3, 4, 6. Unique. Last Branch Record n (R/W) One of 16 pairs of last branch record registers on the last branch record stack (6C0H-6CFH). This part of the stack contains pointers to the destination instruction for one of the last 16 branches, exceptions, or interrupts that the processor took. See Section 17.10, "Last Branch, Call Stack, Interrupt, and Exception Recording for Processors based on Skylake Microarchitecture.". @param ECX MSR_PENTIUM_4_LASTBRANCH_n_TO_IP @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_LASTBRANCH_0_TO_IP); AsmWriteMsr64 (MSR_PENTIUM_4_LASTBRANCH_0_TO_IP, Msr); @endcode @note MSR_PENTIUM_4_LASTBRANCH_0_TO_IP is defined as MSR_LASTBRANCH_0_TO_IP in SDM. MSR_PENTIUM_4_LASTBRANCH_1_TO_IP is defined as MSR_LASTBRANCH_1_TO_IP in SDM. MSR_PENTIUM_4_LASTBRANCH_2_TO_IP is defined as MSR_LASTBRANCH_2_TO_IP in SDM. MSR_PENTIUM_4_LASTBRANCH_3_TO_IP is defined as MSR_LASTBRANCH_3_TO_IP in SDM. MSR_PENTIUM_4_LASTBRANCH_4_TO_IP is defined as MSR_LASTBRANCH_4_TO_IP in SDM. MSR_PENTIUM_4_LASTBRANCH_5_TO_IP is defined as MSR_LASTBRANCH_5_TO_IP in SDM. MSR_PENTIUM_4_LASTBRANCH_6_TO_IP is defined as MSR_LASTBRANCH_6_TO_IP in SDM. MSR_PENTIUM_4_LASTBRANCH_7_TO_IP is defined as MSR_LASTBRANCH_7_TO_IP in SDM. MSR_PENTIUM_4_LASTBRANCH_8_TO_IP is defined as MSR_LASTBRANCH_8_TO_IP in SDM. MSR_PENTIUM_4_LASTBRANCH_9_TO_IP is defined as MSR_LASTBRANCH_9_TO_IP in SDM. MSR_PENTIUM_4_LASTBRANCH_10_TO_IP is defined as MSR_LASTBRANCH_10_TO_IP in SDM. MSR_PENTIUM_4_LASTBRANCH_11_TO_IP is defined as MSR_LASTBRANCH_11_TO_IP in SDM. MSR_PENTIUM_4_LASTBRANCH_12_TO_IP is defined as MSR_LASTBRANCH_12_TO_IP in SDM. MSR_PENTIUM_4_LASTBRANCH_13_TO_IP is defined as MSR_LASTBRANCH_13_TO_IP in SDM. MSR_PENTIUM_4_LASTBRANCH_14_TO_IP is defined as MSR_LASTBRANCH_14_TO_IP in SDM. MSR_PENTIUM_4_LASTBRANCH_15_TO_IP is defined as MSR_LASTBRANCH_15_TO_IP in SDM. @{ **/ #define MSR_PENTIUM_4_LASTBRANCH_0_TO_IP 0x000006C0 #define MSR_PENTIUM_4_LASTBRANCH_1_TO_IP 0x000006C1 #define MSR_PENTIUM_4_LASTBRANCH_2_TO_IP 0x000006C2 #define MSR_PENTIUM_4_LASTBRANCH_3_TO_IP 0x000006C3 #define MSR_PENTIUM_4_LASTBRANCH_4_TO_IP 0x000006C4 #define MSR_PENTIUM_4_LASTBRANCH_5_TO_IP 0x000006C5 #define MSR_PENTIUM_4_LASTBRANCH_6_TO_IP 0x000006C6 #define MSR_PENTIUM_4_LASTBRANCH_7_TO_IP 0x000006C7 #define MSR_PENTIUM_4_LASTBRANCH_8_TO_IP 0x000006C8 #define MSR_PENTIUM_4_LASTBRANCH_9_TO_IP 0x000006C9 #define MSR_PENTIUM_4_LASTBRANCH_10_TO_IP 0x000006CA #define MSR_PENTIUM_4_LASTBRANCH_11_TO_IP 0x000006CB #define MSR_PENTIUM_4_LASTBRANCH_12_TO_IP 0x000006CC #define MSR_PENTIUM_4_LASTBRANCH_13_TO_IP 0x000006CD #define MSR_PENTIUM_4_LASTBRANCH_14_TO_IP 0x000006CE #define MSR_PENTIUM_4_LASTBRANCH_15_TO_IP 0x000006CF /// @} /** 3, 4. Shared. IFSB BUSQ Event Control and Counter Register (R/W) See Section 18.21, "Performance Monitoring on 64-bit Intel Xeon Processor MP with Up to 8-MByte L3 Cache.". @param ECX MSR_PENTIUM_4_IFSB_BUSQ0 (0x000107CC) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_IFSB_BUSQ0); AsmWriteMsr64 (MSR_PENTIUM_4_IFSB_BUSQ0, Msr); @endcode @note MSR_PENTIUM_4_IFSB_BUSQ0 is defined as MSR_IFSB_BUSQ0 in SDM. **/ #define MSR_PENTIUM_4_IFSB_BUSQ0 0x000107CC /** 3, 4. Shared. IFSB BUSQ Event Control and Counter Register (R/W). @param ECX MSR_PENTIUM_4_IFSB_BUSQ1 (0x000107CD) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_IFSB_BUSQ1); AsmWriteMsr64 (MSR_PENTIUM_4_IFSB_BUSQ1, Msr); @endcode @note MSR_PENTIUM_4_IFSB_BUSQ1 is defined as MSR_IFSB_BUSQ1 in SDM. **/ #define MSR_PENTIUM_4_IFSB_BUSQ1 0x000107CD /** 3, 4. Shared. IFSB SNPQ Event Control and Counter Register (R/W) See Section 18.21, "Performance Monitoring on 64-bit Intel Xeon Processor MP with Up to 8-MByte L3 Cache.". @param ECX MSR_PENTIUM_4_IFSB_SNPQ0 (0x000107CE) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_IFSB_SNPQ0); AsmWriteMsr64 (MSR_PENTIUM_4_IFSB_SNPQ0, Msr); @endcode @note MSR_PENTIUM_4_IFSB_SNPQ0 is defined as MSR_IFSB_SNPQ0 in SDM. **/ #define MSR_PENTIUM_4_IFSB_SNPQ0 0x000107CE /** 3, 4. Shared. IFSB SNPQ Event Control and Counter Register (R/W). @param ECX MSR_PENTIUM_4_IFSB_SNPQ1 (0x000107CF) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_IFSB_SNPQ1); AsmWriteMsr64 (MSR_PENTIUM_4_IFSB_SNPQ1, Msr); @endcode @note MSR_PENTIUM_4_IFSB_SNPQ1 is defined as MSR_IFSB_SNPQ1 in SDM. **/ #define MSR_PENTIUM_4_IFSB_SNPQ1 0x000107CF /** 3, 4. Shared. EFSB DRDY Event Control and Counter Register (R/W) See Section 18.21, "Performance Monitoring on 64-bit Intel Xeon Processor MP with Up to 8-MByte L3 Cache" for details. @param ECX MSR_PENTIUM_4_EFSB_DRDY0 (0x000107D0) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_EFSB_DRDY0); AsmWriteMsr64 (MSR_PENTIUM_4_EFSB_DRDY0, Msr); @endcode @note MSR_PENTIUM_4_EFSB_DRDY0 is defined as MSR_EFSB_DRDY0 in SDM. **/ #define MSR_PENTIUM_4_EFSB_DRDY0 0x000107D0 /** 3, 4. Shared. EFSB DRDY Event Control and Counter Register (R/W). @param ECX MSR_PENTIUM_4_EFSB_DRDY1 (0x000107D1) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_EFSB_DRDY1); AsmWriteMsr64 (MSR_PENTIUM_4_EFSB_DRDY1, Msr); @endcode @note MSR_PENTIUM_4_EFSB_DRDY1 is defined as MSR_EFSB_DRDY1 in SDM. **/ #define MSR_PENTIUM_4_EFSB_DRDY1 0x000107D1 /** 3, 4. Shared. IFSB Latency Event Control Register (R/W) See Section 18.21, "Performance Monitoring on 64-bit Intel Xeon Processor MP with Up to 8-MByte L3 Cache" for details. @param ECX MSR_PENTIUM_4_IFSB_CTL6 (0x000107D2) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_IFSB_CTL6); AsmWriteMsr64 (MSR_PENTIUM_4_IFSB_CTL6, Msr); @endcode @note MSR_PENTIUM_4_IFSB_CTL6 is defined as MSR_IFSB_CTL6 in SDM. **/ #define MSR_PENTIUM_4_IFSB_CTL6 0x000107D2 /** 3, 4. Shared. IFSB Latency Event Counter Register (R/W) See Section 18.21, "Performance Monitoring on 64-bit Intel Xeon Processor MP with Up to 8-MByte L3 Cache.". @param ECX MSR_PENTIUM_4_IFSB_CNTR7 (0x000107D3) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_IFSB_CNTR7); AsmWriteMsr64 (MSR_PENTIUM_4_IFSB_CNTR7, Msr); @endcode @note MSR_PENTIUM_4_IFSB_CNTR7 is defined as MSR_IFSB_CNTR7 in SDM. **/ #define MSR_PENTIUM_4_IFSB_CNTR7 0x000107D3 /** 6. Shared. GBUSQ Event Control and Counter Register (R/W) See Section 18.21, "Performance Monitoring on 64-bit Intel Xeon Processor MP with Up to 8-MByte L3 Cache.". @param ECX MSR_PENTIUM_4_EMON_L3_CTR_CTL0 (0x000107CC) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_EMON_L3_CTR_CTL0); AsmWriteMsr64 (MSR_PENTIUM_4_EMON_L3_CTR_CTL0, Msr); @endcode @note MSR_PENTIUM_4_EMON_L3_CTR_CTL0 is defined as MSR_EMON_L3_CTR_CTL0 in SDM. **/ #define MSR_PENTIUM_4_EMON_L3_CTR_CTL0 0x000107CC /** 6. Shared. GBUSQ Event Control and Counter Register (R/W). @param ECX MSR_PENTIUM_4_EMON_L3_CTR_CTL1 (0x000107CD) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_EMON_L3_CTR_CTL1); AsmWriteMsr64 (MSR_PENTIUM_4_EMON_L3_CTR_CTL1, Msr); @endcode @note MSR_PENTIUM_4_EMON_L3_CTR_CTL1 is defined as MSR_EMON_L3_CTR_CTL1 in SDM. **/ #define MSR_PENTIUM_4_EMON_L3_CTR_CTL1 0x000107CD /** 6. Shared. GSNPQ Event Control and Counter Register (R/W) See Section 18.21, "Performance Monitoring on 64-bit Intel Xeon Processor MP with Up to 8-MByte L3 Cache.". @param ECX MSR_PENTIUM_4_EMON_L3_CTR_CTL2 (0x000107CE) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_EMON_L3_CTR_CTL2); AsmWriteMsr64 (MSR_PENTIUM_4_EMON_L3_CTR_CTL2, Msr); @endcode @note MSR_PENTIUM_4_EMON_L3_CTR_CTL2 is defined as MSR_EMON_L3_CTR_CTL2 in SDM. **/ #define MSR_PENTIUM_4_EMON_L3_CTR_CTL2 0x000107CE /** 6. Shared. GSNPQ Event Control and Counter Register (R/W). @param ECX MSR_PENTIUM_4_EMON_L3_CTR_CTL3 (0x000107CF) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_EMON_L3_CTR_CTL3); AsmWriteMsr64 (MSR_PENTIUM_4_EMON_L3_CTR_CTL3, Msr); @endcode @note MSR_PENTIUM_4_EMON_L3_CTR_CTL3 is defined as MSR_EMON_L3_CTR_CTL3 in SDM. **/ #define MSR_PENTIUM_4_EMON_L3_CTR_CTL3 0x000107CF /** 6. Shared. FSB Event Control and Counter Register (R/W) See Section 18.21, "Performance Monitoring on 64-bit Intel Xeon Processor MP with Up to 8-MByte L3 Cache" for details. @param ECX MSR_PENTIUM_4_EMON_L3_CTR_CTL4 (0x000107D0) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_EMON_L3_CTR_CTL4); AsmWriteMsr64 (MSR_PENTIUM_4_EMON_L3_CTR_CTL4, Msr); @endcode @note MSR_PENTIUM_4_EMON_L3_CTR_CTL4 is defined as MSR_EMON_L3_CTR_CTL4 in SDM. **/ #define MSR_PENTIUM_4_EMON_L3_CTR_CTL4 0x000107D0 /** 6. Shared. FSB Event Control and Counter Register (R/W). @param ECX MSR_PENTIUM_4_EMON_L3_CTR_CTL5 (0x000107D1) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_EMON_L3_CTR_CTL5); AsmWriteMsr64 (MSR_PENTIUM_4_EMON_L3_CTR_CTL5, Msr); @endcode @note MSR_PENTIUM_4_EMON_L3_CTR_CTL5 is defined as MSR_EMON_L3_CTR_CTL5 in SDM. **/ #define MSR_PENTIUM_4_EMON_L3_CTR_CTL5 0x000107D1 /** 6. Shared. FSB Event Control and Counter Register (R/W). @param ECX MSR_PENTIUM_4_EMON_L3_CTR_CTL6 (0x000107D2) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_EMON_L3_CTR_CTL6); AsmWriteMsr64 (MSR_PENTIUM_4_EMON_L3_CTR_CTL6, Msr); @endcode @note MSR_PENTIUM_4_EMON_L3_CTR_CTL6 is defined as MSR_EMON_L3_CTR_CTL6 in SDM. **/ #define MSR_PENTIUM_4_EMON_L3_CTR_CTL6 0x000107D2 /** 6. Shared. FSB Event Control and Counter Register (R/W). @param ECX MSR_PENTIUM_4_EMON_L3_CTR_CTL7 (0x000107D3) @param EAX Lower 32-bits of MSR value. @param EDX Upper 32-bits of MSR value. <b>Example usage</b> @code UINT64 Msr; Msr = AsmReadMsr64 (MSR_PENTIUM_4_EMON_L3_CTR_CTL7); AsmWriteMsr64 (MSR_PENTIUM_4_EMON_L3_CTR_CTL7, Msr); @endcode @note MSR_PENTIUM_4_EMON_L3_CTR_CTL7 is defined as MSR_EMON_L3_CTR_CTL7 in SDM. **/ #define MSR_PENTIUM_4_EMON_L3_CTR_CTL7 0x000107D3 #endif