UefiCpuPkg/Include: Add Haswell MSR include file

Add Haswell MSRs from:
Intel(R) 64 and IA-32 Architectures Software Developer's
Manual, Volume 3, December 2015, Chapter 35
Model-Specific-Registers (MSR), Section 35-10.

Cc: Jeff Fan <jeff.fan@intel.com>
Cc: Jiewen Yao <jiewen.yao@intel.com>
Contributed-under: TianoCore Contribution Agreement 1.0
Signed-off-by: Michael Kinney <michael.d.kinney@intel.com>
Reviewed-by: Jeff Fan <jeff.fan@intel.com>

1 files changed, 2575 insertions, 0 deletions

diff --git a/UefiCpuPkg/Include/Register/Msr/HaswellMsr.h b/UefiCpuPkg/Include/Register/Msr/HaswellMsr.h
new file mode 100644
index 0000000000..78915ec7a4
--- /dev/null
+++ b/UefiCpuPkg/Include/Register/Msr/HaswellMsr.h
@@ -0,0 +1,2575 @@
+/** @file

+  MSR Definitions for Intel processors based on the Haswell 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.<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,

+  December 2015, Chapter 35 Model-Specific-Registers (MSR), Section 35-10.

+

+**/

+

+#ifndef __HASWELL_MSR_H__

+#define __HASWELL_MSR_H__

+

+#include <Register/ArchitecturalMsr.h>

+

+/**

+  Package.

+

+  @param  ECX  MSR_HASWELL_PLATFORM_INFO (0x000000CE)

+  @param  EAX  Lower 32-bits of MSR value.

+               Described by the type MSR_HASWELL_PLATFORM_INFO_REGISTER.

+  @param  EDX  Upper 32-bits of MSR value.

+               Described by the type MSR_HASWELL_PLATFORM_INFO_REGISTER.

+

+  <b>Example usage</b>

+  @code

+  MSR_HASWELL_PLATFORM_INFO_REGISTER  Msr;

+

+  Msr.Uint64 = AsmReadMsr64 (MSR_HASWELL_PLATFORM_INFO);

+  AsmWriteMsr64 (MSR_HASWELL_PLATFORM_INFO, Msr.Uint64);

+  @endcode

+**/

+#define MSR_HASWELL_PLATFORM_INFO                0x000000CE

+

+/**

+  MSR information returned for MSR index #MSR_HASWELL_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;

+    UINT32  Reserved3:2;

+    ///

+    /// [Bit 32] Package. Low Power Mode Support (LPM) (R/O)  When set to 1,

+    /// indicates that LPM is supported, and when set to 0, indicates LPM is

+    /// not supported.

+    ///

+    UINT32  LowPowerModeSupport:1;

+    ///

+    /// [Bits 34:33] Package. Number of ConfigTDP Levels (R/O) 00: Only Base

+    /// TDP level available. 01: One additional TDP level available. 02: Two

+    /// additional TDP level available. 11: Reserved.

+    ///

+    UINT32  ConfigTDPLevels:2;

+    UINT32  Reserved4:5;

+    ///

+    /// [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;

+    ///

+    /// [Bits 55:48] Package. Minimum Operating Ratio (R/O) Contains the

+    /// minimum supported operating ratio in units of 100 MHz.

+    ///

+    UINT32  MinimumOperatingRatio:8;

+    UINT32  Reserved5:8;

+  } Bits;

+  ///

+  /// All bit fields as a 64-bit value

+  ///

+  UINT64  Uint64;

+} MSR_HASWELL_PLATFORM_INFO_REGISTER;

+

+

+/**

+  THREAD. Performance Event Select for Counter n (R/W) Supports all fields

+  described inTable 35-2 and the fields below.

+

+  @param  ECX  MSR_HASWELL_IA32_PERFEVTSELn

+  @param  EAX  Lower 32-bits of MSR value.

+               Described by the type MSR_HASWELL_IA32_PERFEVTSEL_REGISTER.

+  @param  EDX  Upper 32-bits of MSR value.

+               Described by the type MSR_HASWELL_IA32_PERFEVTSEL_REGISTER.

+

+  <b>Example usage</b>

+  @code

+  MSR_HASWELL_IA32_PERFEVTSEL_REGISTER  Msr;

+

+  Msr.Uint64 = AsmReadMsr64 (MSR_HASWELL_IA32_PERFEVTSEL0);

+  AsmWriteMsr64 (MSR_HASWELL_IA32_PERFEVTSEL0, Msr.Uint64);

+  @endcode

+  @{

+**/

+#define MSR_HASWELL_IA32_PERFEVTSEL0             0x00000186

+#define MSR_HASWELL_IA32_PERFEVTSEL1             0x00000187

+#define MSR_HASWELL_IA32_PERFEVTSEL3             0x00000189

+/// @}

+

+/**

+  MSR information returned for MSR indexes #MSR_HASWELL_IA32_PERFEVTSEL0,

+  #MSR_HASWELL_IA32_PERFEVTSEL1, and #MSR_HASWELL_IA32_PERFEVTSEL3.

+**/

+typedef union {

+  ///

+  /// Individual bit fields

+  ///

+  struct {

+    ///

+    /// [Bits 7:0] Event Select: Selects a performance event logic unit.

+    ///

+    UINT32  EventSelect:8;

+    ///

+    /// [Bits 15:8] UMask: Qualifies the microarchitectural condition to

+    /// detect on the selected event logic.

+    ///

+    UINT32  UMASK:8;

+    ///

+    /// [Bit 16] USR: Counts while in privilege level is not ring 0.

+    ///

+    UINT32  USR:1;

+    ///

+    /// [Bit 17] OS: Counts while in privilege level is ring 0.

+    ///

+    UINT32  OS:1;

+    ///

+    /// [Bit 18] Edge: Enables edge detection if set.

+    ///

+    UINT32  E:1;

+    ///

+    /// [Bit 19] PC: enables pin control.

+    ///

+    UINT32  PC:1;

+    ///

+    /// [Bit 20] INT: enables interrupt on counter overflow.

+    ///

+    UINT32  INT:1;

+    ///

+    /// [Bit 21] AnyThread: When set to 1, it enables counting the associated

+    /// event conditions occurring across all logical processors sharing a

+    /// processor core. When set to 0, the counter only increments the

+    /// associated event conditions occurring in the logical processor which

+    /// programmed the MSR.

+    ///

+    UINT32  ANY:1;

+    ///

+    /// [Bit 22] EN: enables the corresponding performance counter to commence

+    /// counting when this bit is set.

+    ///

+    UINT32  EN:1;

+    ///

+    /// [Bit 23] INV: invert the CMASK.

+    ///

+    UINT32  INV:1;

+    ///

+    /// [Bits 31:24] CMASK: When CMASK is not zero, the corresponding

+    /// performance counter increments each cycle if the event count is

+    /// greater than or equal to the CMASK.

+    ///

+    UINT32  CMASK:8;

+    UINT32  Reserved:32;

+    ///

+    /// [Bit 32] IN_TX: see Section 18.11.5.1 When IN_TX (bit 32) is set,

+    /// AnyThread (bit 21) should be cleared to prevent incorrect results.

+    ///

+    UINT32  IN_TX:1;

+    UINT32  Reserved2:31;

+  } Bits;

+  ///

+  /// All bit fields as a 64-bit value

+  ///

+  UINT64  Uint64;

+} MSR_HASWELL_IA32_PERFEVTSEL_REGISTER;

+

+

+/**

+  THREAD. Performance Event Select for Counter 2 (R/W) Supports all fields

+  described inTable 35-2 and the fields below.

+

+  @param  ECX  MSR_HASWELL_IA32_PERFEVTSEL2 (0x00000188)

+  @param  EAX  Lower 32-bits of MSR value.

+               Described by the type MSR_HASWELL_IA32_PERFEVTSEL2_REGISTER.

+  @param  EDX  Upper 32-bits of MSR value.

+               Described by the type MSR_HASWELL_IA32_PERFEVTSEL2_REGISTER.

+

+  <b>Example usage</b>

+  @code

+  MSR_HASWELL_IA32_PERFEVTSEL2_REGISTER  Msr;

+

+  Msr.Uint64 = AsmReadMsr64 (MSR_HASWELL_IA32_PERFEVTSEL2);

+  AsmWriteMsr64 (MSR_HASWELL_IA32_PERFEVTSEL2, Msr.Uint64);

+  @endcode

+**/

+#define MSR_HASWELL_IA32_PERFEVTSEL2             0x00000188

+

+/**

+  MSR information returned for MSR index #MSR_HASWELL_IA32_PERFEVTSEL2

+**/

+typedef union {

+  ///

+  /// Individual bit fields

+  ///

+  struct {

+    ///

+    /// [Bits 7:0] Event Select: Selects a performance event logic unit.

+    ///

+    UINT32  EventSelect:8;

+    ///

+    /// [Bits 15:8] UMask: Qualifies the microarchitectural condition to

+    /// detect on the selected event logic.

+    ///

+    UINT32  UMASK:8;

+    ///

+    /// [Bit 16] USR: Counts while in privilege level is not ring 0.

+    ///

+    UINT32  USR:1;

+    ///

+    /// [Bit 17] OS: Counts while in privilege level is ring 0.

+    ///

+    UINT32  OS:1;

+    ///

+    /// [Bit 18] Edge: Enables edge detection if set.

+    ///

+    UINT32  E:1;

+    ///

+    /// [Bit 19] PC: enables pin control.

+    ///

+    UINT32  PC:1;

+    ///

+    /// [Bit 20] INT: enables interrupt on counter overflow.

+    ///

+    UINT32  INT:1;

+    ///

+    /// [Bit 21] AnyThread: When set to 1, it enables counting the associated

+    /// event conditions occurring across all logical processors sharing a

+    /// processor core. When set to 0, the counter only increments the

+    /// associated event conditions occurring in the logical processor which

+    /// programmed the MSR.

+    ///

+    UINT32  ANY:1;

+    ///

+    /// [Bit 22] EN: enables the corresponding performance counter to commence

+    /// counting when this bit is set.

+    ///

+    UINT32  EN:1;

+    ///

+    /// [Bit 23] INV: invert the CMASK.

+    ///

+    UINT32  INV:1;

+    ///

+    /// [Bits 31:24] CMASK: When CMASK is not zero, the corresponding

+    /// performance counter increments each cycle if the event count is

+    /// greater than or equal to the CMASK.

+    ///

+    UINT32  CMASK:8;

+    UINT32  Reserved:32;

+    ///

+    /// [Bit 32] IN_TX: see Section 18.11.5.1 When IN_TX (bit 32) is set,

+    /// AnyThread (bit 21) should be cleared to prevent incorrect results.

+    ///

+    UINT32  IN_TX:1;

+    ///

+    /// [Bit 33] IN_TXCP: see Section 18.11.5.1 When IN_TXCP=1 & IN_TX=1 and

+    /// in sampling, spurious PMI may occur and transactions may continuously

+    /// abort near overflow conditions. Software should favor using IN_TXCP

+    /// for counting over sampling. If sampling, software should use large

+    /// "sample-after" value after clearing the counter configured to use

+    /// IN_TXCP and also always reset the counter even when no overflow

+    /// condition was reported.

+    ///

+    UINT32  IN_TXCP:1;

+    UINT32  Reserved2:30;

+  } Bits;

+  ///

+  /// All bit fields as a 64-bit value

+  ///

+  UINT64  Uint64;

+} MSR_HASWELL_IA32_PERFEVTSEL2_REGISTER;

+

+

+/**

+  Thread. Last Branch Record Filtering Select Register (R/W).

+

+  @param  ECX  MSR_HASWELL_LBR_SELECT (0x000001C8)

+  @param  EAX  Lower 32-bits of MSR value.

+               Described by the type MSR_HASWELL_LBR_SELECT_REGISTER.

+  @param  EDX  Upper 32-bits of MSR value.

+               Described by the type MSR_HASWELL_LBR_SELECT_REGISTER.

+

+  <b>Example usage</b>

+  @code

+  MSR_HASWELL_LBR_SELECT_REGISTER  Msr;

+

+  Msr.Uint64 = AsmReadMsr64 (MSR_HASWELL_LBR_SELECT);

+  AsmWriteMsr64 (MSR_HASWELL_LBR_SELECT, Msr.Uint64);

+  @endcode

+**/

+#define MSR_HASWELL_LBR_SELECT                   0x000001C8

+

+/**

+  MSR information returned for MSR index #MSR_HASWELL_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_HASWELL_LBR_SELECT_REGISTER;

+

+

+/**

+  Package. Package C6/C7 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 C7 state. The latency programmed in this register is for

+  the shorter-latency sub C-states used by an MWAIT hint to C6 or C7 state.

+  Note: C-state values are processor specific C-state code names, unrelated to

+  MWAIT extension C-state parameters or ACPI C-States.

+

+  @param  ECX  MSR_HASWELL_PKGC_IRTL1 (0x0000060B)

+  @param  EAX  Lower 32-bits of MSR value.

+               Described by the type MSR_HASWELL_PKGC_IRTL1_REGISTER.

+  @param  EDX  Upper 32-bits of MSR value.

+               Described by the type MSR_HASWELL_PKGC_IRTL1_REGISTER.

+

+  <b>Example usage</b>

+  @code

+  MSR_HASWELL_PKGC_IRTL1_REGISTER  Msr;

+

+  Msr.Uint64 = AsmReadMsr64 (MSR_HASWELL_PKGC_IRTL1);

+  AsmWriteMsr64 (MSR_HASWELL_PKGC_IRTL1, Msr.Uint64);

+  @endcode

+**/

+#define MSR_HASWELL_PKGC_IRTL1                   0x0000060B

+

+/**

+  MSR information returned for MSR index #MSR_HASWELL_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 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. The following time unit

+    /// encodings are supported:

+    ///

+    ///   000b: 1 ns

+    ///   001b: 32 ns

+    ///   010b: 1024 ns

+    ///   011b: 32768 ns

+    ///   100b: 1048576 ns

+    ///   101b: 33554432 ns.

+    ///

+    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_HASWELL_PKGC_IRTL1_REGISTER;

+

+

+/**

+  Package. Package C6/C7 Interrupt Response Limit 2 (R/W)  This MSR defines

+  the interrupt response time limit used by the processor to manage transition

+  to package C6 or C7 state. The latency programmed in this register is for

+  the longer-latency sub Cstates used by an MWAIT hint to C6 or C7 state.

+  Note: C-state values are processor specific C-state code names, unrelated to

+  MWAIT extension C-state parameters or ACPI C-States.

+

+  @param  ECX  MSR_HASWELL_PKGC_IRTL2 (0x0000060C)

+  @param  EAX  Lower 32-bits of MSR value.

+               Described by the type MSR_HASWELL_PKGC_IRTL2_REGISTER.

+  @param  EDX  Upper 32-bits of MSR value.

+               Described by the type MSR_HASWELL_PKGC_IRTL2_REGISTER.

+

+  <b>Example usage</b>

+  @code

+  MSR_HASWELL_PKGC_IRTL2_REGISTER  Msr;

+

+  Msr.Uint64 = AsmReadMsr64 (MSR_HASWELL_PKGC_IRTL2);

+  AsmWriteMsr64 (MSR_HASWELL_PKGC_IRTL2, Msr.Uint64);

+  @endcode

+**/

+#define MSR_HASWELL_PKGC_IRTL2                   0x0000060C

+

+/**

+  MSR information returned for MSR index #MSR_HASWELL_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 C6 or 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. The following time unit

+    /// encodings are supported:

+    ///

+    ///   000b: 1 ns

+    ///   001b: 32 ns

+    ///   010b: 1024 ns

+    ///   011b: 32768 ns

+    ///   100b: 1048576 ns

+    ///   101b: 33554432 ns.

+    ///

+    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_HASWELL_PKGC_IRTL2_REGISTER;

+

+

+/**

+  Package. PKG Perf Status (R/O) See Section 14.9.3, "Package RAPL Domain.".

+

+  @param  ECX  MSR_HASWELL_PKG_PERF_STATUS (0x00000613)

+  @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_HASWELL_PKG_PERF_STATUS);

+  @endcode

+**/

+#define MSR_HASWELL_PKG_PERF_STATUS              0x00000613

+

+

+/**

+  Package. DRAM Energy Status (R/O)  See Section 14.9.5, "DRAM RAPL Domain.".

+

+  @param  ECX  MSR_HASWELL_DRAM_ENERGY_STATUS (0x00000619)

+  @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_HASWELL_DRAM_ENERGY_STATUS);

+  @endcode

+**/

+#define MSR_HASWELL_DRAM_ENERGY_STATUS           0x00000619

+

+

+/**

+  Package. DRAM Performance Throttling Status (R/O) See Section 14.9.5, "DRAM

+  RAPL Domain.".

+

+  @param  ECX  MSR_HASWELL_DRAM_PERF_STATUS (0x0000061B)

+  @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_HASWELL_DRAM_PERF_STATUS);

+  @endcode

+**/

+#define MSR_HASWELL_DRAM_PERF_STATUS             0x0000061B

+

+

+/**

+  Package. Base TDP Ratio (R/O).

+

+  @param  ECX  MSR_HASWELL_CONFIG_TDP_NOMINAL (0x00000648)

+  @param  EAX  Lower 32-bits of MSR value.

+               Described by the type MSR_HASWELL_CONFIG_TDP_NOMINAL_REGISTER.

+  @param  EDX  Upper 32-bits of MSR value.

+               Described by the type MSR_HASWELL_CONFIG_TDP_NOMINAL_REGISTER.

+

+  <b>Example usage</b>

+  @code

+  MSR_HASWELL_CONFIG_TDP_NOMINAL_REGISTER  Msr;

+

+  Msr.Uint64 = AsmReadMsr64 (MSR_HASWELL_CONFIG_TDP_NOMINAL);

+  @endcode

+**/

+#define MSR_HASWELL_CONFIG_TDP_NOMINAL           0x00000648

+

+/**

+  MSR information returned for MSR index #MSR_HASWELL_CONFIG_TDP_NOMINAL

+**/

+typedef union {

+  ///

+  /// Individual bit fields

+  ///

+  struct {

+    ///

+    /// [Bits 7:0] Config_TDP_Base Base TDP level ratio to be used for this

+    /// specific processor (in units of 100 MHz).

+    ///

+    UINT32  Config_TDP_Base: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_HASWELL_CONFIG_TDP_NOMINAL_REGISTER;

+

+

+/**

+  Package. ConfigTDP Level 1 ratio and power level (R/O).

+

+  @param  ECX  MSR_HASWELL_CONFIG_TDP_LEVEL1 (0x00000649)

+  @param  EAX  Lower 32-bits of MSR value.

+               Described by the type MSR_HASWELL_CONFIG_TDP_LEVEL1_REGISTER.

+  @param  EDX  Upper 32-bits of MSR value.

+               Described by the type MSR_HASWELL_CONFIG_TDP_LEVEL1_REGISTER.

+

+  <b>Example usage</b>

+  @code

+  MSR_HASWELL_CONFIG_TDP_LEVEL1_REGISTER  Msr;

+

+  Msr.Uint64 = AsmReadMsr64 (MSR_HASWELL_CONFIG_TDP_LEVEL1);

+  @endcode

+**/

+#define MSR_HASWELL_CONFIG_TDP_LEVEL1            0x00000649

+

+/**

+  MSR information returned for MSR index #MSR_HASWELL_CONFIG_TDP_LEVEL1

+**/

+typedef union {

+  ///

+  /// Individual bit fields

+  ///

+  struct {

+    ///

+    /// [Bits 14:0] PKG_TDP_LVL1. Power setting for ConfigTDP Level 1.

+    ///

+    UINT32  PKG_TDP_LVL1:15;

+    UINT32  Reserved1:1;

+    ///

+    /// [Bits 23:16] Config_TDP_LVL1_Ratio. ConfigTDP level 1 ratio to be used

+    /// for this specific processor.

+    ///

+    UINT32  Config_TDP_LVL1_Ratio:8;

+    UINT32  Reserved2:8;

+    ///

+    /// [Bits 46:32] PKG_MAX_PWR_LVL1. Max Power setting allowed for ConfigTDP

+    /// Level 1.

+    ///

+    UINT32  PKG_MAX_PWR_LVL1:15;

+    ///

+    /// [Bits 62:47] PKG_MIN_PWR_LVL1. MIN Power setting allowed for ConfigTDP

+    /// Level 1.

+    ///

+    UINT32  PKG_MIN_PWR_LVL1:16;

+    UINT32  Reserved3:1;

+  } Bits;

+  ///

+  /// All bit fields as a 64-bit value

+  ///

+  UINT64  Uint64;

+} MSR_HASWELL_CONFIG_TDP_LEVEL1_REGISTER;

+

+

+/**

+  Package. ConfigTDP Level 2 ratio and power level (R/O).

+

+  @param  ECX  MSR_HASWELL_CONFIG_TDP_LEVEL2 (0x0000064A)

+  @param  EAX  Lower 32-bits of MSR value.

+               Described by the type MSR_HASWELL_CONFIG_TDP_LEVEL2_REGISTER.

+  @param  EDX  Upper 32-bits of MSR value.

+               Described by the type MSR_HASWELL_CONFIG_TDP_LEVEL2_REGISTER.

+

+  <b>Example usage</b>

+  @code

+  MSR_HASWELL_CONFIG_TDP_LEVEL2_REGISTER  Msr;

+

+  Msr.Uint64 = AsmReadMsr64 (MSR_HASWELL_CONFIG_TDP_LEVEL2);

+  @endcode

+**/

+#define MSR_HASWELL_CONFIG_TDP_LEVEL2            0x0000064A

+

+/**

+  MSR information returned for MSR index #MSR_HASWELL_CONFIG_TDP_LEVEL2

+**/

+typedef union {

+  ///

+  /// Individual bit fields

+  ///

+  struct {

+    ///

+    /// [Bits 14:0] PKG_TDP_LVL2. Power setting for ConfigTDP Level 2.

+    ///

+    UINT32  PKG_TDP_LVL2:15;

+    UINT32  Reserved1:1;

+    ///

+    /// [Bits 23:16] Config_TDP_LVL2_Ratio. ConfigTDP level 2 ratio to be used

+    /// for this specific processor.

+    ///

+    UINT32  Config_TDP_LVL2_Ratio:8;

+    UINT32  Reserved2:8;

+    ///

+    /// [Bits 46:32] PKG_MAX_PWR_LVL2. Max Power setting allowed for ConfigTDP

+    /// Level 2.

+    ///

+    UINT32  PKG_MAX_PWR_LVL2:15;

+    ///

+    /// [Bits 62:47] PKG_MIN_PWR_LVL2. MIN Power setting allowed for ConfigTDP

+    /// Level 2.

+    ///

+    UINT32  PKG_MIN_PWR_LVL2:16;

+    UINT32  Reserved3:1;

+  } Bits;

+  ///

+  /// All bit fields as a 64-bit value

+  ///

+  UINT64  Uint64;

+} MSR_HASWELL_CONFIG_TDP_LEVEL2_REGISTER;

+

+

+/**

+  Package. ConfigTDP Control (R/W).

+

+  @param  ECX  MSR_HASWELL_CONFIG_TDP_CONTROL (0x0000064B)

+  @param  EAX  Lower 32-bits of MSR value.

+               Described by the type MSR_HASWELL_CONFIG_TDP_CONTROL_REGISTER.

+  @param  EDX  Upper 32-bits of MSR value.

+               Described by the type MSR_HASWELL_CONFIG_TDP_CONTROL_REGISTER.

+

+  <b>Example usage</b>

+  @code

+  MSR_HASWELL_CONFIG_TDP_CONTROL_REGISTER  Msr;

+

+  Msr.Uint64 = AsmReadMsr64 (MSR_HASWELL_CONFIG_TDP_CONTROL);

+  AsmWriteMsr64 (MSR_HASWELL_CONFIG_TDP_CONTROL, Msr.Uint64);

+  @endcode

+**/

+#define MSR_HASWELL_CONFIG_TDP_CONTROL           0x0000064B

+

+/**

+  MSR information returned for MSR index #MSR_HASWELL_CONFIG_TDP_CONTROL

+**/

+typedef union {

+  ///

+  /// Individual bit fields

+  ///

+  struct {

+    ///

+    /// [Bits 1:0] TDP_LEVEL (RW/L) System BIOS can program this field.

+    ///

+    UINT32  TDP_LEVEL:2;

+    UINT32  Reserved1:29;

+    ///

+    /// [Bit 31] Config_TDP_Lock (RW/L) When this bit is set, the content of

+    /// this register is locked until a reset.

+    ///

+    UINT32  Config_TDP_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_HASWELL_CONFIG_TDP_CONTROL_REGISTER;

+

+

+/**

+  Package. ConfigTDP Control (R/W).

+

+  @param  ECX  MSR_HASWELL_TURBO_ACTIVATION_RATIO (0x0000064C)

+  @param  EAX  Lower 32-bits of MSR value.

+               Described by the type MSR_HASWELL_TURBO_ACTIVATION_RATIO_REGISTER.

+  @param  EDX  Upper 32-bits of MSR value.

+               Described by the type MSR_HASWELL_TURBO_ACTIVATION_RATIO_REGISTER.

+

+  <b>Example usage</b>

+  @code

+  MSR_HASWELL_TURBO_ACTIVATION_RATIO_REGISTER  Msr;

+

+  Msr.Uint64 = AsmReadMsr64 (MSR_HASWELL_TURBO_ACTIVATION_RATIO);

+  AsmWriteMsr64 (MSR_HASWELL_TURBO_ACTIVATION_RATIO, Msr.Uint64);

+  @endcode

+**/

+#define MSR_HASWELL_TURBO_ACTIVATION_RATIO       0x0000064C

+

+/**

+  MSR information returned for MSR index #MSR_HASWELL_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_HASWELL_TURBO_ACTIVATION_RATIO_REGISTER;

+

+

+/**

+  Package. Silicon Debug Feature Control (R/W) See Table 35-2.

+

+  @param  ECX  MSR_HASWELL_IA32_DEBUG_FEATURE (0x00000C80)

+  @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_HASWELL_IA32_DEBUG_FEATURE);

+  AsmWriteMsr64 (MSR_HASWELL_IA32_DEBUG_FEATURE, Msr);

+  @endcode

+**/

+#define MSR_HASWELL_IA32_DEBUG_FEATURE           0x00000C80

+

+

+/**

+  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. <http://biosbits.org>`__.

+

+  @param  ECX  MSR_HASWELL_PKG_CST_CONFIG_CONTROL (0x000000E2)

+  @param  EAX  Lower 32-bits of MSR value.

+               Described by the type MSR_HASWELL_PKG_CST_CONFIG_CONTROL_REGISTER.

+  @param  EDX  Upper 32-bits of MSR value.

+               Described by the type MSR_HASWELL_PKG_CST_CONFIG_CONTROL_REGISTER.

+

+  <b>Example usage</b>

+  @code

+  MSR_HASWELL_PKG_CST_CONFIG_CONTROL_REGISTER  Msr;

+

+  Msr.Uint64 = AsmReadMsr64 (MSR_HASWELL_PKG_CST_CONFIG_CONTROL);

+  AsmWriteMsr64 (MSR_HASWELL_PKG_CST_CONFIG_CONTROL, Msr.Uint64);

+  @endcode

+**/

+#define MSR_HASWELL_PKG_CST_CONFIG_CONTROL       0x000000E2

+

+/**

+  MSR information returned for MSR index #MSR_HASWELL_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:

+    /// C0/C1 (no package C-state support) 0001b: C2 0010b: C3 0011b: C6

+    /// 0100b: C7 0101b: C7s Package C states C7 are not available to

+    /// processor with signature 06_3CH.

+    ///

+    UINT32  Limit:4;

+    UINT32  Reserved1:6;

+    ///

+    /// [Bit 10] I/O MWAIT Redirection Enable (R/W).

+    ///

+    UINT32  IO_MWAIT:1;

+    UINT32  Reserved2:4;

+    ///

+    /// [Bit 15] CFG Lock (R/WO).

+    ///

+    UINT32  CFGLock:1;

+    UINT32  Reserved3:9;

+    ///

+    /// [Bit 25] C3 State Auto Demotion Enable (R/W).

+    ///

+    UINT32  C3AutoDemotion:1;

+    ///

+    /// [Bit 26] C1 State Auto Demotion Enable (R/W).

+    ///

+    UINT32  C1AutoDemotion:1;

+    ///

+    /// [Bit 27] Enable C3 Undemotion (R/W).

+    ///

+    UINT32  C3Undemotion:1;

+    ///

+    /// [Bit 28] Enable C1 Undemotion (R/W).

+    ///

+    UINT32  C1Undemotion:1;

+    UINT32  Reserved4:3;

+    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_HASWELL_PKG_CST_CONFIG_CONTROL_REGISTER;

+

+

+/**

+  THREAD. Enhanced SMM Capabilities (SMM-RO) Reports SMM capability

+  Enhancement. Accessible only while in SMM.

+

+  @param  ECX  MSR_HASWELL_SMM_MCA_CAP (0x0000017D)

+  @param  EAX  Lower 32-bits of MSR value.

+               Described by the type MSR_HASWELL_SMM_MCA_CAP_REGISTER.

+  @param  EDX  Upper 32-bits of MSR value.

+               Described by the type MSR_HASWELL_SMM_MCA_CAP_REGISTER.

+

+  <b>Example usage</b>

+  @code

+  MSR_HASWELL_SMM_MCA_CAP_REGISTER  Msr;

+

+  Msr.Uint64 = AsmReadMsr64 (MSR_HASWELL_SMM_MCA_CAP);

+  AsmWriteMsr64 (MSR_HASWELL_SMM_MCA_CAP, Msr.Uint64);

+  @endcode

+**/

+#define MSR_HASWELL_SMM_MCA_CAP                  0x0000017D

+

+/**

+  MSR information returned for MSR index #MSR_HASWELL_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_HASWELL_SMM_MCA_CAP_REGISTER;

+

+

+/**

+  Package. Maximum Ratio Limit of Turbo Mode RO if MSR_PLATFORM_INFO.[28] = 0,

+  RW if MSR_PLATFORM_INFO.[28] = 1.

+

+  @param  ECX  MSR_HASWELL_TURBO_RATIO_LIMIT (0x000001AD)

+  @param  EAX  Lower 32-bits of MSR value.

+               Described by the type MSR_HASWELL_TURBO_RATIO_LIMIT_REGISTER.

+  @param  EDX  Upper 32-bits of MSR value.

+               Described by the type MSR_HASWELL_TURBO_RATIO_LIMIT_REGISTER.

+

+  <b>Example usage</b>

+  @code

+  MSR_HASWELL_TURBO_RATIO_LIMIT_REGISTER  Msr;

+

+  Msr.Uint64 = AsmReadMsr64 (MSR_HASWELL_TURBO_RATIO_LIMIT);

+  @endcode

+**/

+#define MSR_HASWELL_TURBO_RATIO_LIMIT            0x000001AD

+

+/**

+  MSR information returned for MSR index #MSR_HASWELL_TURBO_RATIO_LIMIT

+**/

+typedef union {

+  ///

+  /// Individual bit fields

+  ///

+  struct {

+    ///

+    /// [Bits 7:0] Package. Maximum Ratio Limit for 1C Maximum turbo ratio

+    /// limit of 1 core active.

+    ///

+    UINT32  Maximum1C:8;

+    ///

+    /// [Bits 15:8] Package. Maximum Ratio Limit for 2C Maximum turbo ratio

+    /// limit of 2 core active.

+    ///

+    UINT32  Maximum2C:8;

+    ///

+    /// [Bits 23:16] Package. Maximum Ratio Limit for 3C Maximum turbo ratio

+    /// limit of 3 core active.

+    ///

+    UINT32  Maximum3C:8;

+    ///

+    /// [Bits 31:24] Package. Maximum Ratio Limit for 4C Maximum turbo ratio

+    /// limit of 4 core active.

+    ///

+    UINT32  Maximum4C:8;

+    UINT32  Reserved:32;

+  } Bits;

+  ///

+  /// All bit fields as a 32-bit value

+  ///

+  UINT32  Uint32;

+  ///

+  /// All bit fields as a 64-bit value

+  ///

+  UINT64  Uint64;

+} MSR_HASWELL_TURBO_RATIO_LIMIT_REGISTER;

+

+

+/**

+  Package. Uncore PMU global control.

+

+  @param  ECX  MSR_HASWELL_UNC_PERF_GLOBAL_CTRL (0x00000391)

+  @param  EAX  Lower 32-bits of MSR value.

+               Described by the type MSR_HASWELL_UNC_PERF_GLOBAL_CTRL_REGISTER.

+  @param  EDX  Upper 32-bits of MSR value.

+               Described by the type MSR_HASWELL_UNC_PERF_GLOBAL_CTRL_REGISTER.

+

+  <b>Example usage</b>

+  @code

+  MSR_HASWELL_UNC_PERF_GLOBAL_CTRL_REGISTER  Msr;

+

+  Msr.Uint64 = AsmReadMsr64 (MSR_HASWELL_UNC_PERF_GLOBAL_CTRL);

+  AsmWriteMsr64 (MSR_HASWELL_UNC_PERF_GLOBAL_CTRL, Msr.Uint64);

+  @endcode

+**/

+#define MSR_HASWELL_UNC_PERF_GLOBAL_CTRL         0x00000391

+

+/**

+  MSR information returned for MSR index #MSR_HASWELL_UNC_PERF_GLOBAL_CTRL

+**/

+typedef union {

+  ///

+  /// Individual bit fields

+  ///

+  struct {

+    ///

+    /// [Bit 0] Core 0 select.

+    ///

+    UINT32  PMI_Sel_Core0:1;

+    ///

+    /// [Bit 1] Core 1 select.

+    ///

+    UINT32  PMI_Sel_Core1:1;

+    ///

+    /// [Bit 2] Core 2 select.

+    ///

+    UINT32  PMI_Sel_Core2:1;

+    ///

+    /// [Bit 3] Core 3 select.

+    ///

+    UINT32  PMI_Sel_Core3:1;

+    UINT32  Reserved1:15;

+    UINT32  Reserved2:10;

+    ///

+    /// [Bit 29] Enable all uncore counters.

+    ///

+    UINT32  EN:1;

+    ///

+    /// [Bit 30] Enable wake on PMI.

+    ///

+    UINT32  WakePMI:1;

+    ///

+    /// [Bit 31] Enable Freezing counter when overflow.

+    ///

+    UINT32  FREEZE:1;

+    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_HASWELL_UNC_PERF_GLOBAL_CTRL_REGISTER;

+

+

+/**

+  Package. Uncore PMU main status.

+

+  @param  ECX  MSR_HASWELL_UNC_PERF_GLOBAL_STATUS (0x00000392)

+  @param  EAX  Lower 32-bits of MSR value.

+               Described by the type MSR_HASWELL_UNC_PERF_GLOBAL_STATUS_REGISTER.

+  @param  EDX  Upper 32-bits of MSR value.

+               Described by the type MSR_HASWELL_UNC_PERF_GLOBAL_STATUS_REGISTER.

+

+  <b>Example usage</b>

+  @code

+  MSR_HASWELL_UNC_PERF_GLOBAL_STATUS_REGISTER  Msr;

+

+  Msr.Uint64 = AsmReadMsr64 (MSR_HASWELL_UNC_PERF_GLOBAL_STATUS);

+  AsmWriteMsr64 (MSR_HASWELL_UNC_PERF_GLOBAL_STATUS, Msr.Uint64);

+  @endcode

+**/

+#define MSR_HASWELL_UNC_PERF_GLOBAL_STATUS       0x00000392

+

+/**

+  MSR information returned for MSR index #MSR_HASWELL_UNC_PERF_GLOBAL_STATUS

+**/

+typedef union {

+  ///

+  /// Individual bit fields

+  ///

+  struct {

+    ///

+    /// [Bit 0] Fixed counter overflowed.

+    ///

+    UINT32  Fixed:1;

+    ///

+    /// [Bit 1] An ARB counter overflowed.

+    ///

+    UINT32  ARB:1;

+    UINT32  Reserved1:1;

+    ///

+    /// [Bit 3] A CBox counter overflowed (on any slice).

+    ///

+    UINT32  CBox:1;

+    UINT32  Reserved2:28;

+    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_HASWELL_UNC_PERF_GLOBAL_STATUS_REGISTER;

+

+

+/**

+  Package. Uncore fixed counter control (R/W).

+

+  @param  ECX  MSR_HASWELL_UNC_PERF_FIXED_CTRL (0x00000394)

+  @param  EAX  Lower 32-bits of MSR value.

+               Described by the type MSR_HASWELL_UNC_PERF_FIXED_CTRL_REGISTER.

+  @param  EDX  Upper 32-bits of MSR value.

+               Described by the type MSR_HASWELL_UNC_PERF_FIXED_CTRL_REGISTER.

+

+  <b>Example usage</b>

+  @code

+  MSR_HASWELL_UNC_PERF_FIXED_CTRL_REGISTER  Msr;

+

+  Msr.Uint64 = AsmReadMsr64 (MSR_HASWELL_UNC_PERF_FIXED_CTRL);

+  AsmWriteMsr64 (MSR_HASWELL_UNC_PERF_FIXED_CTRL, Msr.Uint64);

+  @endcode

+**/

+#define MSR_HASWELL_UNC_PERF_FIXED_CTRL          0x00000394

+

+/**

+  MSR information returned for MSR index #MSR_HASWELL_UNC_PERF_FIXED_CTRL

+**/

+typedef union {

+  ///

+  /// Individual bit fields

+  ///

+  struct {

+    UINT32  Reserved1:20;

+    ///

+    /// [Bit 20] Enable overflow propagation.

+    ///

+    UINT32  EnableOverflow:1;

+    UINT32  Reserved2:1;

+    ///

+    /// [Bit 22] Enable counting.

+    ///

+    UINT32  EnableCounting:1;

+    UINT32  Reserved3:9;

+    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_HASWELL_UNC_PERF_FIXED_CTRL_REGISTER;

+

+

+/**

+  Package. Uncore fixed counter.

+

+  @param  ECX  MSR_HASWELL_UNC_PERF_FIXED_CTR (0x00000395)

+  @param  EAX  Lower 32-bits of MSR value.

+               Described by the type MSR_HASWELL_UNC_PERF_FIXED_CTR_REGISTER.

+  @param  EDX  Upper 32-bits of MSR value.

+               Described by the type MSR_HASWELL_UNC_PERF_FIXED_CTR_REGISTER.

+

+  <b>Example usage</b>

+  @code

+  MSR_HASWELL_UNC_PERF_FIXED_CTR_REGISTER  Msr;

+

+  Msr.Uint64 = AsmReadMsr64 (MSR_HASWELL_UNC_PERF_FIXED_CTR);

+  AsmWriteMsr64 (MSR_HASWELL_UNC_PERF_FIXED_CTR, Msr.Uint64);

+  @endcode

+**/

+#define MSR_HASWELL_UNC_PERF_FIXED_CTR           0x00000395

+

+/**

+  MSR information returned for MSR index #MSR_HASWELL_UNC_PERF_FIXED_CTR

+**/

+typedef union {

+  ///

+  /// Individual bit fields

+  ///

+  struct {

+    ///

+    /// [Bits 31:0] Current count.

+    ///

+    UINT32  CurrentCount:32;

+    ///

+    /// [Bits 47:32] Current count.

+    ///

+    UINT32  CurrentCountHi:16;

+    UINT32  Reserved:16;

+  } Bits;

+  ///

+  /// All bit fields as a 64-bit value

+  ///

+  UINT64  Uint64;

+} MSR_HASWELL_UNC_PERF_FIXED_CTR_REGISTER;

+

+

+/**

+  Package. Uncore C-Box configuration information (R/O).

+

+  @param  ECX  MSR_HASWELL_UNC_CBO_CONFIG (0x00000396)

+  @param  EAX  Lower 32-bits of MSR value.

+               Described by the type MSR_HASWELL_UNC_CBO_CONFIG_REGISTER.

+  @param  EDX  Upper 32-bits of MSR value.

+               Described by the type MSR_HASWELL_UNC_CBO_CONFIG_REGISTER.

+

+  <b>Example usage</b>

+  @code

+  MSR_HASWELL_UNC_CBO_CONFIG_REGISTER  Msr;

+

+  Msr.Uint64 = AsmReadMsr64 (MSR_HASWELL_UNC_CBO_CONFIG);

+  @endcode

+**/

+#define MSR_HASWELL_UNC_CBO_CONFIG               0x00000396

+

+/**

+  MSR information returned for MSR index #MSR_HASWELL_UNC_CBO_CONFIG

+**/

+typedef union {

+  ///

+  /// Individual bit fields

+  ///

+  struct {

+    ///

+    /// [Bits 3:0] Encoded number of C-Box, derive value by "-1".

+    ///

+    UINT32  CBox:4;

+    UINT32  Reserved1:28;

+    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_HASWELL_UNC_CBO_CONFIG_REGISTER;

+

+

+/**

+  Package. Uncore Arb unit, performance counter 0.

+

+  @param  ECX  MSR_HASWELL_UNC_ARB_PERFCTR0 (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_HASWELL_UNC_ARB_PERFCTR0);

+  AsmWriteMsr64 (MSR_HASWELL_UNC_ARB_PERFCTR0, Msr);

+  @endcode

+**/

+#define MSR_HASWELL_UNC_ARB_PERFCTR0             0x000003B0

+

+

+/**

+  Package. Uncore Arb unit, performance counter 1.

+

+  @param  ECX  MSR_HASWELL_UNC_ARB_PERFCTR1 (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_HASWELL_UNC_ARB_PERFCTR1);

+  AsmWriteMsr64 (MSR_HASWELL_UNC_ARB_PERFCTR1, Msr);

+  @endcode

+**/

+#define MSR_HASWELL_UNC_ARB_PERFCTR1             0x000003B1

+

+

+/**

+  Package. Uncore Arb unit, counter 0 event select MSR.

+

+  @param  ECX  MSR_HASWELL_UNC_ARB_PERFEVTSEL0 (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_HASWELL_UNC_ARB_PERFEVTSEL0);

+  AsmWriteMsr64 (MSR_HASWELL_UNC_ARB_PERFEVTSEL0, Msr);

+  @endcode

+**/

+#define MSR_HASWELL_UNC_ARB_PERFEVTSEL0          0x000003B2

+

+

+/**

+  Package. Uncore Arb unit, counter 1 event select MSR.

+

+  @param  ECX  MSR_HASWELL_UNC_ARB_PERFEVTSEL1 (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_HASWELL_UNC_ARB_PERFEVTSEL1);

+  AsmWriteMsr64 (MSR_HASWELL_UNC_ARB_PERFEVTSEL1, Msr);

+  @endcode

+**/

+#define MSR_HASWELL_UNC_ARB_PERFEVTSEL1          0x000003B3

+

+

+/**

+  Package. Enhanced SMM Feature Control (SMM-RW) Reports SMM capability

+  Enhancement. Accessible only while in SMM.

+

+  @param  ECX  MSR_HASWELL_SMM_FEATURE_CONTROL (0x000004E0)

+  @param  EAX  Lower 32-bits of MSR value.

+               Described by the type MSR_HASWELL_SMM_FEATURE_CONTROL_REGISTER.

+  @param  EDX  Upper 32-bits of MSR value.

+               Described by the type MSR_HASWELL_SMM_FEATURE_CONTROL_REGISTER.

+

+  <b>Example usage</b>

+  @code

+  MSR_HASWELL_SMM_FEATURE_CONTROL_REGISTER  Msr;

+

+  Msr.Uint64 = AsmReadMsr64 (MSR_HASWELL_SMM_FEATURE_CONTROL);

+  AsmWriteMsr64 (MSR_HASWELL_SMM_FEATURE_CONTROL, Msr.Uint64);

+  @endcode

+**/

+#define MSR_HASWELL_SMM_FEATURE_CONTROL          0x000004E0

+

+/**

+  MSR information returned for MSR index #MSR_HASWELL_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_HASWELL_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.

+

+  [Bits 31:0] LOG_PROC_STATE (SMM-RO) Each bit represents a logical

+  processor of its state in a long flow of internal operation which

+  delays servicing an interrupt. The corresponding bit will be set at

+  the start of long events such as: Microcode Update Load, C6, WBINVD,

+  Ratio Change, Throttle. The bit is automatically cleared at the end of

+  each long event. The reset value of this field is 0. Only bit

+  positions below N = CPUID.(EAX=0BH, ECX=PKG_LVL):EBX[15:0] can be

+  updated.

+

+  [Bits 63:32] LOG_PROC_STATE (SMM-RO) Each bit represents a logical

+  processor of its state in a long flow of internal operation which

+  delays servicing an interrupt. The corresponding bit will be set at

+  the start of long events such as: Microcode Update Load, C6, WBINVD,

+  Ratio Change, Throttle. The bit is automatically cleared at the end of

+  each long event. The reset value of this field is 0. Only bit

+  positions below N = CPUID.(EAX=0BH, ECX=PKG_LVL):EBX[15:0] can be

+  updated.

+

+  @param  ECX  MSR_HASWELL_SMM_DELAYED (0x000004E2)

+  @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_HASWELL_SMM_DELAYED);

+  @endcode

+**/

+#define MSR_HASWELL_SMM_DELAYED                  0x000004E2

+

+

+/**

+  Package. SMM Blocked (SMM-RO) Reports the blocked state of all logical

+  processors in the package. Available only while in SMM.

+

+  [Bits 31:0] LOG_PROC_STATE (SMM-RO) Each bit represents a logical

+  processor of its blocked state to service an SMI. The corresponding

+  bit will be set if the logical processor is in one of the following

+  states: Wait For SIPI or SENTER Sleep. The reset value of this field

+  is 0FFFH. Only bit positions below N = CPUID.(EAX=0BH,

+  ECX=PKG_LVL):EBX[15:0] can be updated.

+

+

+  [Bits 63:32] LOG_PROC_STATE (SMM-RO) Each bit represents a logical

+  processor of its blocked state to service an SMI. The corresponding

+  bit will be set if the logical processor is in one of the following

+  states: Wait For SIPI or SENTER Sleep. The reset value of this field

+  is 0FFFH. Only bit positions below N = CPUID.(EAX=0BH,

+  ECX=PKG_LVL):EBX[15:0] can be updated.

+

+  @param  ECX  MSR_HASWELL_SMM_BLOCKED (0x000004E3)

+  @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_HASWELL_SMM_BLOCKED);

+  @endcode

+**/

+#define MSR_HASWELL_SMM_BLOCKED                  0x000004E3

+

+

+/**

+  Package. Unit Multipliers used in RAPL Interfaces (R/O).

+

+  @param  ECX  MSR_HASWELL_RAPL_POWER_UNIT (0x00000606)

+  @param  EAX  Lower 32-bits of MSR value.

+               Described by the type MSR_HASWELL_RAPL_POWER_UNIT_REGISTER.

+  @param  EDX  Upper 32-bits of MSR value.

+               Described by the type MSR_HASWELL_RAPL_POWER_UNIT_REGISTER.

+

+  <b>Example usage</b>

+  @code

+  MSR_HASWELL_RAPL_POWER_UNIT_REGISTER  Msr;

+

+  Msr.Uint64 = AsmReadMsr64 (MSR_HASWELL_RAPL_POWER_UNIT);

+  @endcode

+**/

+#define MSR_HASWELL_RAPL_POWER_UNIT              0x00000606

+

+/**

+  MSR information returned for MSR index #MSR_HASWELL_RAPL_POWER_UNIT

+**/

+typedef union {

+  ///

+  /// Individual bit fields

+  ///

+  struct {

+    ///

+    /// [Bits 3:0] Package. Power Units See Section 14.9.1, "RAPL Interfaces.".

+    ///

+    UINT32  PowerUnits:4;

+    UINT32  Reserved1:4;

+    ///

+    /// [Bits 12:8] Package. Energy Status Units Energy related information

+    /// (in Joules) is based on the multiplier, 1/2^ESU; where ESU is an

+    /// unsigned integer represented by bits 12:8. Default value is 0EH (or 61

+    /// micro-joules).

+    ///

+    UINT32  EnergyStatusUnits:5;

+    UINT32  Reserved2:3;

+    ///

+    /// [Bits 19:16] Package. Time Units See Section 14.9.1, "RAPL

+    /// Interfaces.".

+    ///

+    UINT32  TimeUnits: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_HASWELL_RAPL_POWER_UNIT_REGISTER;

+

+

+/**

+  Package. PP1 RAPL Power Limit Control (R/W) See Section 14.9.4, "PP0/PP1

+  RAPL Domains.".

+

+  @param  ECX  MSR_HASWELL_PP1_POWER_LIMIT (0x00000640)

+  @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_HASWELL_PP1_POWER_LIMIT);

+  AsmWriteMsr64 (MSR_HASWELL_PP1_POWER_LIMIT, Msr);

+  @endcode

+**/

+#define MSR_HASWELL_PP1_POWER_LIMIT              0x00000640

+

+

+/**

+  Package. PP1 Energy Status (R/O)  See Section 14.9.4, "PP0/PP1 RAPL

+  Domains.".

+

+  @param  ECX  MSR_HASWELL_PP1_ENERGY_STATUS (0x00000641)

+  @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_HASWELL_PP1_ENERGY_STATUS);

+  @endcode

+**/

+#define MSR_HASWELL_PP1_ENERGY_STATUS            0x00000641

+

+

+/**

+  Package. PP1 Balance Policy (R/W) See Section 14.9.4, "PP0/PP1 RAPL

+  Domains.".

+

+  @param  ECX  MSR_HASWELL_PP1_POLICY (0x00000642)

+  @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_HASWELL_PP1_POLICY);

+  AsmWriteMsr64 (MSR_HASWELL_PP1_POLICY, Msr);

+  @endcode

+**/

+#define MSR_HASWELL_PP1_POLICY                   0x00000642

+

+

+/**

+  Package. Indicator of Frequency Clipping in Processor Cores (R/W) (frequency

+  refers to processor core frequency).

+

+  @param  ECX  MSR_HASWELL_CORE_PERF_LIMIT_REASONS (0x00000690)

+  @param  EAX  Lower 32-bits of MSR value.

+               Described by the type MSR_HASWELL_CORE_PERF_LIMIT_REASONS_REGISTER.

+  @param  EDX  Upper 32-bits of MSR value.

+               Described by the type MSR_HASWELL_CORE_PERF_LIMIT_REASONS_REGISTER.

+

+  <b>Example usage</b>

+  @code

+  MSR_HASWELL_CORE_PERF_LIMIT_REASONS_REGISTER  Msr;

+

+  Msr.Uint64 = AsmReadMsr64 (MSR_HASWELL_CORE_PERF_LIMIT_REASONS);

+  AsmWriteMsr64 (MSR_HASWELL_CORE_PERF_LIMIT_REASONS, Msr.Uint64);

+  @endcode

+**/

+#define MSR_HASWELL_CORE_PERF_LIMIT_REASONS      0x00000690

+

+/**

+  MSR information returned for MSR index #MSR_HASWELL_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  PROCHOT_Status:1;

+    ///

+    /// [Bit 1] Thermal Status (R0) When set, frequency is reduced below the

+    /// operating system request due to a thermal event.

+    ///

+    UINT32  ThermalStatus:1;

+    UINT32  Reserved1:2;

+    ///

+    /// [Bit 4] Graphics Driver Status (R0) When set, frequency is reduced

+    /// below the operating system request due to Processor Graphics driver

+    /// override.

+    ///

+    UINT32  GraphicsDriverStatus:1;

+    ///

+    /// [Bit 5] Autonomous Utilization-Based Frequency Control Status (R0)

+    /// When set, frequency is reduced below the operating system request

+    /// because the processor has detected that utilization is low.

+    ///

+    UINT32  AutonomousUtilizationBasedFrequencyControlStatus:1;

+    ///

+    /// [Bit 6] 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;

+    UINT32  Reserved2:1;

+    ///

+    /// [Bit 8] 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 9] Core Power Limiting Status (R0) When set, frequency is reduced

+    /// below the operating system request due to domain-level power limiting.

+    ///

+    UINT32  PLStatus:1;

+    ///

+    /// [Bit 10] 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 11] 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;

+    ///

+    /// [Bit 12] 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 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;

+    UINT32  Reserved3:2;

+    ///

+    /// [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_Log: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;

+    UINT32  Reserved4:2;

+    ///

+    /// [Bit 20] Graphics Driver Log  When set, indicates that the Graphics

+    /// Driver Status bit has asserted since the log bit was last cleared.

+    /// This log bit will remain set until cleared by software writing 0.

+    ///

+    UINT32  GraphicsDriverLog:1;

+    ///

+    /// [Bit 21] Autonomous Utilization-Based Frequency Control Log  When set,

+    /// indicates that the Autonomous Utilization-Based Frequency Control

+    /// Status bit has asserted since the log bit was last cleared. This log

+    /// bit will remain set until cleared by software writing 0.

+    ///

+    UINT32  AutonomousUtilizationBasedFrequencyControlLog:1;

+    ///

+    /// [Bit 22] 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;

+    UINT32  Reserved5:1;

+    ///

+    /// [Bit 24] 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 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  PLLog:1;

+    ///

+    /// [Bit 26] 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 27] 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;

+    ///

+    /// [Bit 28] 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 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;

+    UINT32  Reserved6:2;

+    UINT32  Reserved7:32;

+  } Bits;

+  ///

+  /// All bit fields as a 32-bit value

+  ///

+  UINT32  Uint32;

+  ///

+  /// All bit fields as a 64-bit value

+  ///

+  UINT64  Uint64;

+} MSR_HASWELL_CORE_PERF_LIMIT_REASONS_REGISTER;

+

+

+/**

+  Package. Indicator of Frequency Clipping in the Processor Graphics (R/W)

+  (frequency refers to processor graphics frequency).

+

+  @param  ECX  MSR_HASWELL_GRAPHICS_PERF_LIMIT_REASONS (0x000006B0)

+  @param  EAX  Lower 32-bits of MSR value.

+               Described by the type MSR_HASWELL_GRAPHICS_PERF_LIMIT_REASONS_REGISTER.

+  @param  EDX  Upper 32-bits of MSR value.

+               Described by the type MSR_HASWELL_GRAPHICS_PERF_LIMIT_REASONS_REGISTER.

+

+  <b>Example usage</b>

+  @code

+  MSR_HASWELL_GRAPHICS_PERF_LIMIT_REASONS_REGISTER  Msr;

+

+  Msr.Uint64 = AsmReadMsr64 (MSR_HASWELL_GRAPHICS_PERF_LIMIT_REASONS);

+  AsmWriteMsr64 (MSR_HASWELL_GRAPHICS_PERF_LIMIT_REASONS, Msr.Uint64);

+  @endcode

+**/

+#define MSR_HASWELL_GRAPHICS_PERF_LIMIT_REASONS  0x000006B0

+

+/**

+  MSR information returned for MSR index

+  #MSR_HASWELL_GRAPHICS_PERF_LIMIT_REASONS

+**/

+typedef union {

+  ///

+  /// Individual bit fields

+  ///

+  struct {

+    ///

+    /// [Bit 0] PROCHOT Status (R0) When set, frequency is reduced below the

+    /// operating system request due to assertion of external PROCHOT.

+    ///

+    UINT32  PROCHOT_Status:1;

+    ///

+    /// [Bit 1] Thermal Status (R0) When set, frequency is reduced below the

+    /// operating system request due to a thermal event.

+    ///

+    UINT32  ThermalStatus:1;

+    UINT32  Reserved1:2;

+    ///

+    /// [Bit 4] Graphics Driver Status (R0) When set, frequency is reduced

+    /// below the operating system request due to Processor Graphics driver

+    /// override.

+    ///

+    UINT32  GraphicsDriverStatus:1;

+    ///

+    /// [Bit 5] Autonomous Utilization-Based Frequency Control Status (R0)

+    /// When set, frequency is reduced below the operating system request

+    /// because the processor has detected that utilization is low.

+    ///

+    UINT32  AutonomousUtilizationBasedFrequencyControlStatus:1;

+    ///

+    /// [Bit 6] 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;

+    UINT32  Reserved2:1;

+    ///

+    /// [Bit 8] 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 9] Graphics Power Limiting Status (R0) When set, frequency is

+    /// reduced below the operating system request due to domain-level power

+    /// limiting.

+    ///

+    UINT32  GraphicsPowerLimitingStatus:1;

+    ///

+    /// [Bit 10] 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 11] 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  Reserved3:4;

+    ///

+    /// [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_Log: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;

+    UINT32  Reserved4:2;

+    ///

+    /// [Bit 20] Graphics Driver Log  When set, indicates that the Graphics

+    /// Driver Status bit has asserted since the log bit was last cleared.

+    /// This log bit will remain set until cleared by software writing 0.

+    ///

+    UINT32  GraphicsDriverLog:1;

+    ///

+    /// [Bit 21] Autonomous Utilization-Based Frequency Control Log  When set,

+    /// indicates that the Autonomous Utilization-Based Frequency Control

+    /// Status bit has asserted since the log bit was last cleared. This log

+    /// bit will remain set until cleared by software writing 0.

+    ///

+    UINT32  AutonomousUtilizationBasedFrequencyControlLog:1;

+    ///

+    /// [Bit 22] 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;

+    UINT32  Reserved5:1;

+    ///

+    /// [Bit 24] 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 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] 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 27] 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;

+    ///

+    /// [Bit 28] 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 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;

+    UINT32  Reserved6:2;

+    UINT32  Reserved7:32;

+  } Bits;

+  ///

+  /// All bit fields as a 32-bit value

+  ///

+  UINT32  Uint32;

+  ///

+  /// All bit fields as a 64-bit value

+  ///

+  UINT64  Uint64;

+} MSR_HASWELL_GRAPHICS_PERF_LIMIT_REASONS_REGISTER;

+

+

+/**

+  Package. Indicator of Frequency Clipping in the Ring Interconnect (R/W)

+  (frequency refers to ring interconnect in the uncore).

+

+  @param  ECX  MSR_HASWELL_RING_PERF_LIMIT_REASONS (0x000006B1)

+  @param  EAX  Lower 32-bits of MSR value.

+               Described by the type MSR_HASWELL_RING_PERF_LIMIT_REASONS_REGISTER.

+  @param  EDX  Upper 32-bits of MSR value.

+               Described by the type MSR_HASWELL_RING_PERF_LIMIT_REASONS_REGISTER.

+

+  <b>Example usage</b>

+  @code

+  MSR_HASWELL_RING_PERF_LIMIT_REASONS_REGISTER  Msr;

+

+  Msr.Uint64 = AsmReadMsr64 (MSR_HASWELL_RING_PERF_LIMIT_REASONS);

+  AsmWriteMsr64 (MSR_HASWELL_RING_PERF_LIMIT_REASONS, Msr.Uint64);

+  @endcode

+**/

+#define MSR_HASWELL_RING_PERF_LIMIT_REASONS      0x000006B1

+

+/**

+  MSR information returned for MSR index #MSR_HASWELL_RING_PERF_LIMIT_REASONS

+**/

+typedef union {

+  ///

+  /// Individual bit fields

+  ///

+  struct {

+    ///

+    /// [Bit 0] PROCHOT Status (R0) When set, frequency is reduced below the

+    /// operating system request due to assertion of external PROCHOT.

+    ///

+    UINT32  PROCHOT_Status:1;

+    ///

+    /// [Bit 1] Thermal Status (R0) When set, frequency is reduced below the

+    /// operating system request due to a thermal event.

+    ///

+    UINT32  ThermalStatus:1;

+    UINT32  Reserved1:4;

+    ///

+    /// [Bit 6] 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;

+    UINT32  Reserved2:1;

+    ///

+    /// [Bit 8] 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;

+    UINT32  Reserved3:1;

+    ///

+    /// [Bit 10] 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 11] 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  Reserved4:4;

+    ///

+    /// [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_Log: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;

+    UINT32  Reserved5:2;

+    ///

+    /// [Bit 20] Graphics Driver Log  When set, indicates that the Graphics

+    /// Driver Status bit has asserted since the log bit was last cleared.

+    /// This log bit will remain set until cleared by software writing 0.

+    ///

+    UINT32  GraphicsDriverLog:1;

+    ///

+    /// [Bit 21] Autonomous Utilization-Based Frequency Control Log  When set,

+    /// indicates that the Autonomous Utilization-Based Frequency Control

+    /// Status bit has asserted since the log bit was last cleared. This log

+    /// bit will remain set until cleared by software writing 0.

+    ///

+    UINT32  AutonomousUtilizationBasedFrequencyControlLog:1;

+    ///

+    /// [Bit 22] 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;

+    UINT32  Reserved6:1;

+    ///

+    /// [Bit 24] 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 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] 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 27] 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;

+    ///

+    /// [Bit 28] 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 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;

+    UINT32  Reserved7:2;

+    UINT32  Reserved8:32;

+  } Bits;

+  ///

+  /// All bit fields as a 32-bit value

+  ///

+  UINT32  Uint32;

+  ///

+  /// All bit fields as a 64-bit value

+  ///

+  UINT64  Uint64;

+} MSR_HASWELL_RING_PERF_LIMIT_REASONS_REGISTER;

+

+

+/**

+  Package. Uncore C-Box 0, counter 0 event select MSR.

+

+  @param  ECX  MSR_HASWELL_UNC_CBO_0_PERFEVTSEL0 (0x00000700)

+  @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_HASWELL_UNC_CBO_0_PERFEVTSEL0);

+  AsmWriteMsr64 (MSR_HASWELL_UNC_CBO_0_PERFEVTSEL0, Msr);

+  @endcode

+**/

+#define MSR_HASWELL_UNC_CBO_0_PERFEVTSEL0        0x00000700

+

+

+/**

+  Package. Uncore C-Box 0, counter 1 event select MSR.

+

+  @param  ECX  MSR_HASWELL_UNC_CBO_0_PERFEVTSEL1 (0x00000701)

+  @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_HASWELL_UNC_CBO_0_PERFEVTSEL1);

+  AsmWriteMsr64 (MSR_HASWELL_UNC_CBO_0_PERFEVTSEL1, Msr);

+  @endcode

+**/

+#define MSR_HASWELL_UNC_CBO_0_PERFEVTSEL1        0x00000701

+

+

+/**

+  Package. Uncore C-Box 0, performance counter 0.

+

+  @param  ECX  MSR_HASWELL_UNC_CBO_0_PERFCTR0 (0x00000706)

+  @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_HASWELL_UNC_CBO_0_PERFCTR0);

+  AsmWriteMsr64 (MSR_HASWELL_UNC_CBO_0_PERFCTR0, Msr);

+  @endcode

+**/

+#define MSR_HASWELL_UNC_CBO_0_PERFCTR0           0x00000706

+

+

+/**

+  Package. Uncore C-Box 0, performance counter 1.

+

+  @param  ECX  MSR_HASWELL_UNC_CBO_0_PERFCTR1 (0x00000707)

+  @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_HASWELL_UNC_CBO_0_PERFCTR1);

+  AsmWriteMsr64 (MSR_HASWELL_UNC_CBO_0_PERFCTR1, Msr);

+  @endcode

+**/

+#define MSR_HASWELL_UNC_CBO_0_PERFCTR1           0x00000707

+

+

+/**

+  Package. Uncore C-Box 1, counter 0 event select MSR.

+

+  @param  ECX  MSR_HASWELL_UNC_CBO_1_PERFEVTSEL0 (0x00000710)

+  @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_HASWELL_UNC_CBO_1_PERFEVTSEL0);

+  AsmWriteMsr64 (MSR_HASWELL_UNC_CBO_1_PERFEVTSEL0, Msr);

+  @endcode

+**/

+#define MSR_HASWELL_UNC_CBO_1_PERFEVTSEL0        0x00000710

+

+

+/**

+  Package. Uncore C-Box 1, counter 1 event select MSR.

+

+  @param  ECX  MSR_HASWELL_UNC_CBO_1_PERFEVTSEL1 (0x00000711)

+  @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_HASWELL_UNC_CBO_1_PERFEVTSEL1);

+  AsmWriteMsr64 (MSR_HASWELL_UNC_CBO_1_PERFEVTSEL1, Msr);

+  @endcode

+**/

+#define MSR_HASWELL_UNC_CBO_1_PERFEVTSEL1        0x00000711

+

+

+/**

+  Package. Uncore C-Box 1, performance counter 0.

+

+  @param  ECX  MSR_HASWELL_UNC_CBO_1_PERFCTR0 (0x00000716)

+  @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_HASWELL_UNC_CBO_1_PERFCTR0);

+  AsmWriteMsr64 (MSR_HASWELL_UNC_CBO_1_PERFCTR0, Msr);

+  @endcode

+**/

+#define MSR_HASWELL_UNC_CBO_1_PERFCTR0           0x00000716

+

+

+/**

+  Package. Uncore C-Box 1, performance counter 1.

+

+  @param  ECX  MSR_HASWELL_UNC_CBO_1_PERFCTR1 (0x00000717)

+  @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_HASWELL_UNC_CBO_1_PERFCTR1);

+  AsmWriteMsr64 (MSR_HASWELL_UNC_CBO_1_PERFCTR1, Msr);

+  @endcode

+**/

+#define MSR_HASWELL_UNC_CBO_1_PERFCTR1           0x00000717

+

+

+/**

+  Package. Uncore C-Box 2, counter 0 event select MSR.

+

+  @param  ECX  MSR_HASWELL_UNC_CBO_2_PERFEVTSEL0 (0x00000720)

+  @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_HASWELL_UNC_CBO_2_PERFEVTSEL0);

+  AsmWriteMsr64 (MSR_HASWELL_UNC_CBO_2_PERFEVTSEL0, Msr);

+  @endcode

+**/

+#define MSR_HASWELL_UNC_CBO_2_PERFEVTSEL0        0x00000720

+

+

+/**

+  Package. Uncore C-Box 2, counter 1 event select MSR.

+

+  @param  ECX  MSR_HASWELL_UNC_CBO_2_PERFEVTSEL1 (0x00000721)

+  @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_HASWELL_UNC_CBO_2_PERFEVTSEL1);

+  AsmWriteMsr64 (MSR_HASWELL_UNC_CBO_2_PERFEVTSEL1, Msr);

+  @endcode

+**/

+#define MSR_HASWELL_UNC_CBO_2_PERFEVTSEL1        0x00000721

+

+

+/**

+  Package. Uncore C-Box 2, performance counter 0.

+

+  @param  ECX  MSR_HASWELL_UNC_CBO_2_PERFCTR0 (0x00000726)

+  @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_HASWELL_UNC_CBO_2_PERFCTR0);

+  AsmWriteMsr64 (MSR_HASWELL_UNC_CBO_2_PERFCTR0, Msr);

+  @endcode

+**/

+#define MSR_HASWELL_UNC_CBO_2_PERFCTR0           0x00000726

+

+

+/**

+  Package. Uncore C-Box 2, performance counter 1.

+

+  @param  ECX  MSR_HASWELL_UNC_CBO_2_PERFCTR1 (0x00000727)

+  @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_HASWELL_UNC_CBO_2_PERFCTR1);

+  AsmWriteMsr64 (MSR_HASWELL_UNC_CBO_2_PERFCTR1, Msr);

+  @endcode

+**/

+#define MSR_HASWELL_UNC_CBO_2_PERFCTR1           0x00000727

+

+

+/**

+  Package. Uncore C-Box 3, counter 0 event select MSR.

+

+  @param  ECX  MSR_HASWELL_UNC_CBO_3_PERFEVTSEL0 (0x00000730)

+  @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_HASWELL_UNC_CBO_3_PERFEVTSEL0);

+  AsmWriteMsr64 (MSR_HASWELL_UNC_CBO_3_PERFEVTSEL0, Msr);

+  @endcode

+**/

+#define MSR_HASWELL_UNC_CBO_3_PERFEVTSEL0        0x00000730

+

+

+/**

+  Package. Uncore C-Box 3, counter 1 event select MSR.

+

+  @param  ECX  MSR_HASWELL_UNC_CBO_3_PERFEVTSEL1 (0x00000731)

+  @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_HASWELL_UNC_CBO_3_PERFEVTSEL1);

+  AsmWriteMsr64 (MSR_HASWELL_UNC_CBO_3_PERFEVTSEL1, Msr);

+  @endcode

+**/

+#define MSR_HASWELL_UNC_CBO_3_PERFEVTSEL1        0x00000731

+

+

+/**

+  Package. Uncore C-Box 3, performance counter 0.

+

+  @param  ECX  MSR_HASWELL_UNC_CBO_3_PERFCTR0 (0x00000736)

+  @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_HASWELL_UNC_CBO_3_PERFCTR0);

+  AsmWriteMsr64 (MSR_HASWELL_UNC_CBO_3_PERFCTR0, Msr);

+  @endcode

+**/

+#define MSR_HASWELL_UNC_CBO_3_PERFCTR0           0x00000736

+

+

+/**

+  Package. Uncore C-Box 3, performance counter 1.

+

+  @param  ECX  MSR_HASWELL_UNC_CBO_3_PERFCTR1 (0x00000737)

+  @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_HASWELL_UNC_CBO_3_PERFCTR1);

+  AsmWriteMsr64 (MSR_HASWELL_UNC_CBO_3_PERFCTR1, Msr);

+  @endcode

+**/

+#define MSR_HASWELL_UNC_CBO_3_PERFCTR1           0x00000737

+

+

+/**

+  Package. Note: C-state values are processor specific C-state code names,

+  unrelated to MWAIT extension C-state parameters or ACPI C-States.

+

+  @param  ECX  MSR_HASWELL_PKG_C8_RESIDENCY (0x00000630)

+  @param  EAX  Lower 32-bits of MSR value.

+               Described by the type MSR_HASWELL_PKG_C8_RESIDENCY_REGISTER.

+  @param  EDX  Upper 32-bits of MSR value.

+               Described by the type MSR_HASWELL_PKG_C8_RESIDENCY_REGISTER.

+

+  <b>Example usage</b>

+  @code

+  MSR_HASWELL_PKG_C8_RESIDENCY_REGISTER  Msr;

+

+  Msr.Uint64 = AsmReadMsr64 (MSR_HASWELL_PKG_C8_RESIDENCY);

+  AsmWriteMsr64 (MSR_HASWELL_PKG_C8_RESIDENCY, Msr.Uint64);

+  @endcode

+**/

+#define MSR_HASWELL_PKG_C8_RESIDENCY             0x00000630

+

+/**

+  MSR information returned for MSR index #MSR_HASWELL_PKG_C8_RESIDENCY

+**/

+typedef union {

+  ///

+  /// Individual bit fields

+  ///

+  struct {

+    ///

+    /// [Bits 31:0] Package C8 Residency Counter. (R/O) Value since last reset

+    /// that this package is in processor-specific C8 states. Count at the

+    /// same frequency as the TSC.

+    ///

+    UINT32  C8ResidencyCounter:32;

+    ///

+    /// [Bits 59:32] Package C8 Residency Counter. (R/O) Value since last

+    /// reset that this package is in processor-specific C8 states. Count at

+    /// the same frequency as the TSC.

+    ///

+    UINT32  C8ResidencyCounterHi:28;

+    UINT32  Reserved:4;

+  } Bits;

+  ///

+  /// All bit fields as a 64-bit value

+  ///

+  UINT64  Uint64;

+} MSR_HASWELL_PKG_C8_RESIDENCY_REGISTER;

+

+

+/**

+  Package. Note: C-state values are processor specific C-state code names,

+  unrelated to MWAIT extension C-state parameters or ACPI C-States.

+

+  @param  ECX  MSR_HASWELL_PKG_C9_RESIDENCY (0x00000631)

+  @param  EAX  Lower 32-bits of MSR value.

+               Described by the type MSR_HASWELL_PKG_C9_RESIDENCY_REGISTER.

+  @param  EDX  Upper 32-bits of MSR value.

+               Described by the type MSR_HASWELL_PKG_C9_RESIDENCY_REGISTER.

+

+  <b>Example usage</b>

+  @code

+  MSR_HASWELL_PKG_C9_RESIDENCY_REGISTER  Msr;

+

+  Msr.Uint64 = AsmReadMsr64 (MSR_HASWELL_PKG_C9_RESIDENCY);

+  AsmWriteMsr64 (MSR_HASWELL_PKG_C9_RESIDENCY, Msr.Uint64);

+  @endcode

+**/

+#define MSR_HASWELL_PKG_C9_RESIDENCY             0x00000631

+

+/**

+  MSR information returned for MSR index #MSR_HASWELL_PKG_C9_RESIDENCY

+**/

+typedef union {

+  ///

+  /// Individual bit fields

+  ///

+  struct {

+    ///

+    /// [Bits 31:0] Package C9 Residency Counter. (R/O) Value since last reset

+    /// that this package is in processor-specific C9 states. Count at the

+    /// same frequency as the TSC.

+    ///

+    UINT32  C9ResidencyCounter:32;

+    ///

+    /// [Bits 59:32] Package C9 Residency Counter. (R/O) Value since last

+    /// reset that this package is in processor-specific C9 states. Count at

+    /// the same frequency as the TSC.

+    ///

+    UINT32  C9ResidencyCounterHi:28;

+    UINT32  Reserved:4;

+  } Bits;

+  ///

+  /// All bit fields as a 64-bit value

+  ///

+  UINT64  Uint64;

+} MSR_HASWELL_PKG_C9_RESIDENCY_REGISTER;

+

+

+/**

+  Package. Note: C-state values are processor specific C-state code names,

+  unrelated to MWAIT extension C-state parameters or ACPI C-States.

+

+  @param  ECX  MSR_HASWELL_PKG_C10_RESIDENCY (0x00000632)

+  @param  EAX  Lower 32-bits of MSR value.

+               Described by the type MSR_HASWELL_PKG_C10_RESIDENCY_REGISTER.

+  @param  EDX  Upper 32-bits of MSR value.

+               Described by the type MSR_HASWELL_PKG_C10_RESIDENCY_REGISTER.

+

+  <b>Example usage</b>

+  @code

+  MSR_HASWELL_PKG_C10_RESIDENCY_REGISTER  Msr;

+

+  Msr.Uint64 = AsmReadMsr64 (MSR_HASWELL_PKG_C10_RESIDENCY);

+  AsmWriteMsr64 (MSR_HASWELL_PKG_C10_RESIDENCY, Msr.Uint64);

+  @endcode

+**/

+#define MSR_HASWELL_PKG_C10_RESIDENCY            0x00000632

+

+/**

+  MSR information returned for MSR index #MSR_HASWELL_PKG_C10_RESIDENCY

+**/

+typedef union {

+  ///

+  /// Individual bit fields

+  ///

+  struct {

+    ///

+    /// [Bits 31:0] Package C10 Residency Counter. (R/O) Value since last

+    /// reset that this package is in processor-specific C10 states. Count at

+    /// the same frequency as the TSC.

+    ///

+    UINT32  C10ResidencyCounter:32;

+    ///

+    /// [Bits 59:32] Package C10 Residency Counter. (R/O) Value since last

+    /// reset that this package is in processor-specific C10 states. Count at

+    /// the same frequency as the TSC.

+    ///

+    UINT32  C10ResidencyCounterHi:28;

+    UINT32  Reserved:4;

+  } Bits;

+  ///

+  /// All bit fields as a 64-bit value

+  ///

+  UINT64  Uint64;

+} MSR_HASWELL_PKG_C10_RESIDENCY_REGISTER;

+

+#endif