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/* $NoKeywords:$ */
/**
* @file
*
* AMD Family_15 Trinity Power Management related registers defination
*
* @xrefitem bom "File Content Label" "Release Content"
* @e project: AGESA
* @e sub-project: CPU/Family/0x15/TN
* @e \$Revision: 63661 $ @e \$Date: 2012-01-03 01:02:47 -0600 (Tue, 03 Jan 2012) $
*
*/
/*
******************************************************************************
*
* Copyright (c) 2008 - 2012, Advanced Micro Devices, Inc.
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* * Neither the name of Advanced Micro Devices, Inc. nor the names of
* its contributors may be used to endorse or promote products derived
* from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL ADVANCED MICRO DEVICES, INC. BE LIABLE FOR ANY
* DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
* LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
* ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
* SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
******************************************************************************
*/
#ifndef _CPU_F15_TN_POWERMGMT_H_
#define _CPU_F15_TN_POWERMGMT_H_
/*
* Family 15h Trinity CPU Power Management MSR definitions
*
*/
/* Interrupt Pending and CMP-Halt MSR Register 0xC0010055 */
#define MSR_INTPEND 0xC0010055ul
/// Interrupt Pending and CMP-Halt MSR Register
typedef struct {
UINT64 IoMsgAddr:16; ///< IO message address
UINT64 Intpend1 :8;
UINT64 Intpend2 :1;
UINT64 Intpend3 :1;
UINT64 Intpend4 :1;
UINT64 :37; ///< Reserved
} INTPEND_MSR;
/* P-state Registers 0xC00100[6B:64] */
/// P-state MSR
typedef struct {
UINT64 CpuFid:6; ///< CpuFid
UINT64 CpuDid:3; ///< CpuDid
UINT64 CpuVid:8; ///< CpuVid
UINT64 :5; ///< Reserved
UINT64 NbPstate:1; ///< NbPstate
UINT64 :9; ///< Reserved
UINT64 IddValue:8; ///< IddValue
UINT64 IddDiv:2; ///< IddDiv
UINT64 :21; ///< Reserved
UINT64 PsEnable:1; ///< Pstate Enable
} PSTATE_MSR;
#define GetF15TnCpuVid(PstateMsr) (((PSTATE_MSR *) PstateMsr)->CpuVid)
/* VID operation related macros */
#define ConvertVidInuV(Vid) (1550000 - (6250 * Vid)) ///< Convert VID in uV.
/* COFVID Control Register 0xC0010070 */
#define MSR_COFVID_CTL 0xC0010070ul
/// COFVID Control MSR Register
typedef struct {
UINT64 CpuFid:6; ///< CpuFid
UINT64 CpuDid:3; ///< CpuDid
UINT64 CpuVid_6_0:7; ///< CpuVid[6:0]
UINT64 PstateId:3; ///< Pstate ID
UINT64 :1; ///< Reserved
UINT64 CpuVid_7:1; ///< CpuVid[7]
UINT64 :1; ///< Reserved
UINT64 NbPstate:1; ///< Northbridge P-state
UINT64 :1; ///< Reserved
UINT64 NbVid:8; ///< NbVid
UINT64 :32; ///< Reserved
} COFVID_CTRL_MSR;
#define COFVID_CTRL_MSR_CurCpuVid_6_0_OFFSET 9
#define COFVID_CTRL_MSR_CurCpuVid_6_0_WIDTH 7
#define COFVID_CTRL_MSR_CurCpuVid_6_0_MASK 0xfe00
#define COFVID_CTRL_MSR_CurCpuVid_7_OFFSET 20
#define COFVID_CTRL_MSR_CurCpuVid_7_WIDTH 1
#define COFVID_CTRL_MSR_CurCpuVid_7_MASK 0x100000ul
/* SVI VID Encoding */
///< Union structure of VID in SVI1/SVI2 modes
typedef union {
UINT32 RawVid; ///< Raw VID value
struct { ///< SVI2 mode VID structure
UINT32 Vid_6_0:7; ///< Vid[6:0] of SVI2 mode
UINT32 Vid_7:1; ///< Vid[7] of SVI2 mode
} SVI2;
struct { ///< SVI1 mode VID structure
UINT32 Vid_LSB_Ignore:1; ///< Ignored LSB of 8bit VID encoding in SVI1 mode
UINT32 Vid_6_0:1; ///< Vid[6:0] of SVI mode
} SVI1;
} SVI_VID;
#define SetF15TnCpuVid(CofVidStsMsr, NewCpuVid) ( \
((COFVID_CTRL_MSR *) CofVidStsMsr)->CurCpuVid_6_0) = ((SVI_VID *) NewCpuVid)->SVI2.Vid_6_0; \
((COFVID_CTRL_MSR *) CofVidStsMsr)->CurCpuVid_7) = ((SVI_VID *) NewCpuVid)->SVI2.Vid_7; \
)
/* COFVID Status Register 0xC0010071 */
#define MSR_COFVID_STS 0xC0010071ul
/// COFVID Status MSR Register
typedef struct {
UINT64 CurCpuFid:6; ///< Current CpuFid
UINT64 CurCpuDid:3; ///< Current CpuDid
UINT64 CurCpuVid_6_0:7; ///< Current CpuVid[6:0]
UINT64 CurPstate:3; ///< Current Pstate
UINT64 :1; ///< Reserved
UINT64 CurCpuVid_7:1; ///< Current CpuVid[7]
UINT64 :2; ///< Reserved
UINT64 NbPstateDis:1; ///< NbPstate Disable
UINT64 CurNbVid:8; ///< Current NbVid[7:0] <<<------- check where use it
UINT64 StartupPstate:3; ///< Startup Pstate
UINT64 :14; ///< Reserved
UINT64 MaxCpuCof:6; ///< MaxCpuCof
UINT64 :1; ///< Reserved
UINT64 CurPstateLimit:3; ///< Current Pstate Limit
UINT64 MaxNbCof:5; ///< MaxNbCof
} COFVID_STS_MSR;
#define COFVID_STS_MSR_CurCpuVid_6_0_OFFSET 9
#define COFVID_STS_MSR_CurCpuVid_6_0_WIDTH 7
#define COFVID_STS_MSR_CurCpuVid_6_0_MASK 0xfe00
#define COFVID_STS_MSR_CurCpuVid_7_OFFSET 20
#define COFVID_STS_MSR_CurCpuVid_7_WIDTH 1
#define COFVID_STS_MSR_CurCpuVid_7_MASK 0x100000ul
#define GetF15TnCurCpuVid(CofVidStsMsr) ( \
(((COFVID_STS_MSR *) CofVidStsMsr)->CurCpuVid_7 << COFVID_STS_MSR_CurCpuVid_6_0_WIDTH) \
| ((COFVID_STS_MSR *) CofVidStsMsr)->CurCpuVid_6_0)
/* Floating Point Configuration Register 0xC0011028 */
#define MSR_FP_CFG 0xC0011028ul
/// Floating Point Configuration MSR Register
typedef struct {
UINT64 :16; ///< Reserved
UINT64 DiDtMode:1; ///< Di/Dt Mode
UINT64 :1; ///< Reserved
UINT64 DiDtCfg0:5; ///< Di/Dt Config 0
UINT64 :2; ///< Reserved
UINT64 DiDtCfg2:2; ///< Di/Dt Config 2
UINT64 DiDtCfg1:8; ///< Di/Dt Config 1
UINT64 :6; ///< Reserved
UINT64 DiDtCfg5:1; ///< Di/Dt Config 5
UINT64 DiDtCfg4:3; ///< Di/Dt Config 4
UINT64 :19; ///< Reserved
} FP_CFG_MSR;
/* Load-Store Configuration 2 0xC001102D */
/// Load-Store Configuration 2 MSR Register
typedef struct {
UINT64 :14; ///< Reserved
UINT64 ForceSmcCheckFlwStDis:1; ///< ForceSmcCheckFlwStDis
UINT64 :8; ///< Reserved
UINT64 DisScbThreshold:1; ///< DisScbThreshold
UINT64 :40; ///< Reserved
} LS_CFG2_MSR;
/*
* Family 15h Trinity CPU Power Management PCI definitions
*
*/
/* DRAM Configuration High Register F2x[1,0]94 */
#define DRAM_CFG_HI_REG0 0x94
#define DRAM_CFG_HI_REG1 0x194
/// DRAM Configuration High PCI Register
typedef struct {
UINT32 MemClkFreq:5; ///< Memory clock frequency
UINT32 :2; ///< Reserved
UINT32 MemClkFreqVal:1; ///< Memory clock frequency valid
UINT32 :2; ///< Reserved
UINT32 ZqcsInterval:2; ///< ZQ calibration short interval
UINT32 :2; ///< Reserved
UINT32 DisDramInterface:1; ///< Disable the DRAM interface
UINT32 PowerDownEn:1; ///< Power down mode enable
UINT32 PowerDownMode:1; ///< Power down mode
UINT32 :2; ///< Reserved
UINT32 DcqArbBypassEn:1; ///< DRAM controller arbiter bypass enable
UINT32 SlowAccessMode:1; ///< Slow access mode
UINT32 FreqChgInProg:1; ///< Frequency change in progress
UINT32 BankSwizzleMode:1; ///< Bank swizzle mode
UINT32 ProcOdtDis:1; ///< Processor on-die termination disable
UINT32 DcqBypassMax:5; ///< DRAM controller queue bypass maximum
UINT32 :3; ///< Reserved
} DRAM_CFG_HI_REGISTER;
/* DCT Configuration Select D18F1x10C */
#define DCT_CFG_SEL_REG 0x10C
#define DCT_CFG_SEL_REG_PCI_ADDR (MAKE_SBDFO (0, 0, 0x18, FUNC_1, DCT_CFG_SEL_REG))
/// DCT Configuration Select
typedef struct {
UINT32 DctCfgSel:1; ///< DRAM controller configuration select
UINT32 :31; ///< Reserved
} DCT_CFG_SEL_REGISTER;
/* GMC to DCT Control 2 D18F2x408_dct[1:0] */
#define GMC_TO_DCT_CTL_2_REG 0x408
#define GMC_TO_DCT_CTL_2_PCI_ADDR (MAKE_SBDFO (0, 0, 0x18, FUNC_2, GMC_TO_DCT_CTL_2_REG))
/// GMC to DCT Control 2 PCI Register
typedef struct {
UINT32 CpuElevPrioDis:1; ///< Cpu elevate priority disable
UINT32 :31; ///< Reserved
} GMC_TO_DCT_CTL_2_REGISTER;
/* Power Control Miscellaneous Register F3xA0 */
#define PW_CTL_MISC_REG 0xA0
#define PW_CTL_MISC_PCI_ADDR (MAKE_SBDFO (0, 0, 0x18, FUNC_3, PW_CTL_MISC_REG))
/// Power Control Miscellaneous PCI Register
typedef struct {
UINT32 PsiVid:7; ///< PSI_L VID threshold VID[6:0]
UINT32 PsiVidEn:1; ///< PSI_L VID enable
UINT32 PsiVid_7:1; ///< PSI_L VID threshold VID[7]
UINT32 :2; ///< Reserved
UINT32 PllLockTime:3; ///< PLL synchronization lock time
UINT32 Svi2HighFreqSel:1; ///< SVI2 high frequency select
UINT32 :1; ///< Reserved
UINT32 ConfigId:12; ///< Configuration ID
UINT32 :3; ///< Reserved
UINT32 CofVidProg:1; ///< COF and VID of Pstate programmed
} POWER_CTRL_MISC_REGISTER;
/* Clock Power/Timing Control 0 Register F3xD4 */
#define CPTC0_REG 0xD4
#define CPTC0_PCI_ADDR (MAKE_SBDFO (0, 0, 0x18, FUNC_3, CPTC0_REG))
/// Clock Power Timing Control PCI Register
typedef struct {
UINT32 MaxSwPstateCpuCof:6; ///< Maximum software P-state core COF
UINT32 :2; ///< Reserved
UINT32 ClkRampHystSel:4; ///< Clock Ramp Hysteresis Select
UINT32 ClkRampHystCtl:1; ///< Clock Ramp Hysteresis Control
UINT32 :1; ///< Reserved
UINT32 CacheFlushImmOnAllHalt:1; ///< Cache Flush Immediate on All Halt
UINT32 :1; ///< Reserved
UINT32 clkpwr0 :2;
UINT32 :2; ///< Reserved
UINT32 PowerStepDown:4; ///< Power Step Down
UINT32 PowerStepUp:4; ///< Power Step Up
UINT32 NbClkDiv:3; ///< NbClkDiv
UINT32 NbClkDivApplyAll:1; ///< NbClkDivApplyAll
} CLK_PWR_TIMING_CTRL_REGISTER;
/* Clock Power/Timing Control 1 Register F3xD8 */
#define CPTC1_REG 0xD8
#define CPTC1_PCI_ADDR (MAKE_SBDFO (0, 0, 0x18, FUNC_3, CPTC1_REG))
/// Clock Power Timing Control 1 PCI Register
typedef struct {
UINT32 :4; ///< Reserved
UINT32 VSRampSlamTime:3; ///< Voltage stabilization ramp time
UINT32 :25; ///< Reserved
} CLK_PWR_TIMING_CTRL1_REGISTER;
/* Northbridge Capabilities Register F3xE8 */
#define NB_CAPS_REG 0xE8
#define NB_CAPS_PCI_ADDR (MAKE_SBDFO (0, 0, 0x18, FUNC_3, NB_CAPS_REG))
/// Northbridge Capabilities PCI Register
typedef struct {
UINT32 :1; ///< Reserved
UINT32 DualNode:1; ///< Dual-node multi-processor capable
UINT32 EightNode:1; ///< Eight-node multi-processor capable
UINT32 Ecc:1; ///< ECC capable
UINT32 Chipkill:1; ///< Chipkill ECC capable
UINT32 :3; ///< Reserved
UINT32 MctCap:1; ///< Memory controller capable
UINT32 SvmCapable:1; ///< SVM capable
UINT32 HtcCapable:1; ///< HTC capable
UINT32 :3; ///< Reserved
UINT32 MultVidPlane:1; ///< Multiple VID plane capable
UINT32 :4; ///< Reserved
UINT32 x2Apic:1; ///< x2Apic capability
UINT32 :4; ///< Reserved
UINT32 MemPstateCap:1; ///< Memory P-state capable
UINT32 L3Capable:1; ///< L3 capable
UINT32 :6; ///< Reserved
} NB_CAPS_REGISTER;
/* Product Info Register F3x1FC */
#define PRCT_INFO_REG 0x1FC
#define PRCT_INFO_PCI_ADDR (MAKE_SBDFO (0, 0, 0x18, FUNC_3, PRCT_INFO_REG))
/// Product Information PCI Register
typedef struct {
UINT32 DiDtMode:1; ///< DiDtMode
UINT32 DiDtCfg0:5; ///< DiDtCfg0
UINT32 DiDtCfg1:8; ///< DiDtCfg1
UINT32 DiDtCfg2:2; ///< DiDtCfg2
UINT32 :1; ///< Reserved
UINT32 DiDtCfg4:3; ///< DiDtCfg4
UINT32 EnCstateBoostBlockCC6Exit:1;///< EnCstateBoostBlockCC6Exit
UINT32 :1; ///< Reserved
UINT32 DiDtCfg5:1; ///< DiDtCfg5
UINT32 ForceSmcCheckFlwStDis:1; ///< ForceSmcCheckFlwStDis
UINT32 SWDllCapTableEn:1; ///< SWDllCapTableEn
UINT32 DllProcessFreqCtlIndex2Rate50:4; ///< DllProcessFreqCtlIndex2Rate50
UINT32 EnDcqChgPriToHigh:1; ///< EnDcqChgPriToHigh
UINT32 :2; ///< Reserved
} PRODUCT_INFO_REGISTER;
/* C-state Control 1 Register D18F4x118 */
#define CSTATE_CTRL1_REG 0x118
#define CSTATE_CTRL1_PCI_ADDR (MAKE_SBDFO (0, 0, 0x18, FUNC_4, CSTATE_CTRL1_REG))
/// C-state Control 1 Register
typedef struct {
UINT32 CpuPrbEnCstAct0:1; ///< Core direct probe enable
UINT32 CacheFlushEnCstAct0:1; ///< Cache flush enable
UINT32 CacheFlushTmrSelCstAct0:2; ///< Cache flush timer select
UINT32 :1; ///< Reserved
UINT32 ClkDivisorCstAct0:3; ///< Clock divisor
UINT32 PwrGateEnCstAct0:1; ///< Power gate enable
UINT32 PwrOffEnCstAct0:1; ///< C-state action field 3
UINT32 NbPwrGate0:1; ///< NB power-gating 0
UINT32 NbClkGate0:1; ///< NB clock-gating 0
UINT32 SelfRefr0:1; ///< Self-refresh 0
UINT32 SelfRefrEarly0:1; ///< Allow early self-refresh 0
UINT32 :2; ///< Reserved
UINT32 CpuPrbEnCstAct1:1; ///< Core direct probe enable
UINT32 CacheFlushEnCstAct1:1; ///< Cache flush eable
UINT32 CacheFlushTmrSelCstAct1:2; ///< Cache flush timer select
UINT32 :1; ///< Reserved
UINT32 ClkDivisorCstAct1:3; ///< Clock divisor
UINT32 PwrGateEnCstAct1:1; ///< Power gate enable
UINT32 PwrOffEnCstAct1:1; ///< C-state action field 3
UINT32 NbPwrGate1:1; ///< NB power-gating 1
UINT32 NbClkGate1:1; ///< NB clock-gating 1
UINT32 SelfRefr1:1; ///< Self-refresh 1
UINT32 SelfRefrEarly1:1; ///< Allow early self-refresh 1
UINT32 :2; ///< Reserved
} CSTATE_CTRL1_REGISTER;
/* C-state Control 2 Register D18F4x11C */
#define CSTATE_CTRL2_REG 0x11C
#define CSTATE_CTRL2_PCI_ADDR (MAKE_SBDFO (0, 0, 0x18, FUNC_4, CSTATE_CTRL2_REG))
/// C-state Control 2 Register
typedef struct {
UINT32 CpuPrbEnCstAct2:1; ///< Core direct probe enable
UINT32 CacheFlushEnCstAct2:1; ///< Cache flush eable
UINT32 CacheFlushTmrSelCstAct2:2; ///< Cache flush timer select
UINT32 cstate0 :1;
UINT32 ClkDivisorCstAct2:3; ///< Clock divisor
UINT32 PwrGateEnCstAct2:1; ///< Power gate enable
UINT32 PwrOffEnCstAct2:1; ///< C-state action field 3
UINT32 NbPwrGate2:1; ///< NB power-gating 2
UINT32 NbClkGate2:1; ///< NB clock-gating 2
UINT32 SelfRefr2:1; ///< Self-refresh 2
UINT32 SelfRefrEarly2:1; ///< Allow early self-refresh 2
UINT32 :18; ///< Reserved
} CSTATE_CTRL2_REGISTER;
/* Cstate Policy Control 1 Register D18F4x128 */
#define CSTATE_POLICY_CTRL1_REG 0x128
#define CSTATE_POLICY_CTRL1_PCI_ADDR (MAKE_SBDFO (0, 0, 0x18, FUNC_4, CSTATE_POLICY_CTRL1_REG))
/// Cstate Policy Control 1 Register
typedef struct {
UINT32 cstplyc0 :1;
UINT32 CoreCstatePolicy:1; ///< Specified processor arbitration of voltage and frequency
UINT32 HaltCstateIndex:3; ///< Specifies the IO-based C-state that is invoked by a HLT instruction
UINT32 CacheFlushTmr:7; ///< Cache flush timer
UINT32 :6; ///< Reserved
UINT32 CacheFlushSucMonThreshold:3; ///< Cache flush success monitor threshold
UINT32 :10; ///< Reserved
UINT32 CstateMsgDis:1; ///< C-state messaging disable
} CSTATE_POLICY_CTRL1_REGISTER;
/* Core Performance Boost Control Register D18F4x15C */
/// Core Performance Boost Control Register
typedef struct {
UINT32 BoostSrc:2; ///< Boost source
UINT32 NumBoostStates:3; ///< Number of boosted states
UINT32 :2; ///< Reserved
UINT32 ApmMasterEn:1; ///< APM master enable
UINT32 :23; ///< Reserved
UINT32 BoostLock:1; ///<
} CPB_CTRL_REGISTER;
/* Northbridge Capabilities 2 F5x84*/
#define NB_CAPS_REG2 0x84
#define NB_CAPS_REG2_PCI_ADDR (MAKE_SBDFO (0, 0, 0x18, FUNC_5, NB_CAPS_REG2))
/// Northbridge Capabilities 2 PCI Register
typedef struct {
UINT32 CmpCap:8; ///< CMP capable
UINT32 :4; ///< Reserved
UINT32 DctEn:2; ///< DCT enabled
UINT32 :2; ///< Reserved
UINT32 DdrMaxRate:5; ///< maximum DDR rate
UINT32 :3; ///< Reserved
UINT32 DdrMaxRateEnf:5; ///< enforced maximum DDR rate:
UINT32 :3; ///< Reserved
} NB_CAPS_2_REGISTER;
/* Northbridge Configuration 4 F5x88*/
#define NB_CFG_REG4 0x88
#define NB_CFG_REG4_PCI_ADDR (MAKE_SBDFO (0, 0, 0x18, FUNC_5, NB_CFG_REG4))
/// Northbridge Configuration 4 PCI Register
typedef struct {
UINT32 :2; ///< Reserved
UINT32 IntStpClkHaltExitEn:1; ///< IntStpClkHaltExitEn
UINT32 :11; ///< Reserved
UINT32 Bit14:1; ///< Reserved
UINT32 :3; ///< Reserved
UINT32 EnCstateBoostBlockCC6Exit:1;///< EnCstateBoostBlockCC6Exit
UINT32 :13; ///< Reserved
} NB_CFG_4_REGISTER;
/* Northbridge P-state [3:0] F5x1[6C:60] */
/// Northbridge P-state Register
typedef struct {
UINT32 NbPstateEn:1; ///< NB P-state enable
UINT32 NbFid:6; ///< NB frequency ID
UINT32 NbDid:1; ///< NB divisor ID
UINT32 :2; ///< Reserved
UINT32 NbVid_6_0:7; ///< NB VID[6:0]
UINT32 :1; ///< Reserved
UINT32 MemPstate:1; ///< Memory P-State
UINT32 :2; ///< Reserved
UINT32 NbVid_7:1; ///< NB VID[7]
UINT32 NbIddDiv:2; ///< northbridge current divisor
UINT32 NbIddValue:8; ///< northbridge current value
} NB_PSTATE_REGISTER;
#define NB_PSTATE_REGISTER_NbVid_6_0_OFFSET 10
#define NB_PSTATE_REGISTER_NbVid_6_0_WIDTH 7
#define NB_PSTATE_REGISTER_NbVid_6_0_MASK 0x0001FC00ul
#define NB_PSTATE_REGISTER_NbVid_7_OFFSET 21
#define NB_PSTATE_REGISTER_NbVid_7_WIDTH 1
#define NB_PSTATE_REGISTER_NbVid_7_MASK 0x00200000ul
#define GetF15TnNbVid(NbPstateRegister) ( \
(((NB_PSTATE_REGISTER *) NbPstateRegister)->NbVid_7 << NB_PSTATE_REGISTER_NbVid_6_0_WIDTH) \
| ((NB_PSTATE_REGISTER *) NbPstateRegister)->NbVid_6_0)
#define SetF15TnNbVid(NbPstateRegister, NewNbVid) { \
((NB_PSTATE_REGISTER *) NbPstateRegister)->NbVid_6_0 = ((SVI_VID *) NewNbVid)->SVI2.Vid_6_0; \
((NB_PSTATE_REGISTER *) NbPstateRegister)->NbVid_7 = ((SVI_VID *) NewNbVid)->SVI2.Vid_7; \
}
/* Northbridge P-state Status */
#define NB_PSTATE_CTRL 0x170
#define NB_PSTATE_CTRL_PCI_ADDR (MAKE_SBDFO (0, 0, 0x18, FUNC_5, NB_PSTATE_CTRL))
/// Northbridge P-state Control Register
typedef struct {
UINT32 NbPstateMaxVal:2; ///< NB P-state maximum value
UINT32 :1; ///< Reserved
UINT32 NbPstateLo:2; ///< NB P-state low
UINT32 :1; ///< Reserved
UINT32 NbPstateHi:2; ///< NB P-state high
UINT32 :1; ///< Reserved
UINT32 NbPstateThreshold:3; ///< NB P-state threshold
UINT32 :1; ///< Reserved
UINT32 NbPstateDisOnP0:1; ///< NB P-state disable on P0
UINT32 SwNbPstateLoDis:1; ///< Software NB P-state low disable
UINT32 :8; ///< Reserved
UINT32 NbPstateGnbSlowDis:1; ///< Disable NB P-state transition take GnbSlow into account.
UINT32 NbPstateLoRes:3; ///< NB P-state low residency timer
UINT32 NbPstateHiRes:3; ///< NB P-state high residency timer
UINT32 :1; ///< Reserved
UINT32 MemPstateDis:1; ///< Memory P-state disable
} NB_PSTATE_CTRL_REGISTER;
/* Northbridge P-state Status */
#define NB_PSTATE_STATUS 0x174
#define NB_PSTATE_STATUS_PCI_ADDR (MAKE_SBDFO (0, 0, 0x18, FUNC_5, NB_PSTATE_STATUS))
/// Northbridge P-state Status Register
typedef struct {
UINT32 NbPstateDis:1; ///< Nb pstate disable
UINT32 StartupNbPstate:2; ///< startup northbridge Pstate number
UINT32 CurNbFid:6; ///< Current NB FID
UINT32 CurNbDid:1; ///< Current NB DID
UINT32 :2; ///< Reserved
UINT32 CurNbVid_6_0:7; ///< Current NB VID[6:0]
UINT32 CurNbPstate:2; ///< Current NB Pstate
UINT32 :2; ///< Reserved
UINT32 CurNbVid_7:1; ///< Current NB VID[7]
UINT32 CurMemPstate:1; ///< Current memory P-state
UINT32 :7; ///< Reserved
} NB_PSTATE_STS_REGISTER;
#define NB_PSTATE_STS_REGISTER_CurNbVid_6_0_OFFSET 12
#define NB_PSTATE_STS_REGISTER_CurNbVid_6_0_WIDTH 7
#define NB_PSTATE_STS_REGISTER_CurNbVid_6_0_MASK 0x0007F000ul
#define NB_PSTATE_STS_REGISTER_CurNbVid_7_OFFSET 23
#define NB_PSTATE_STS_REGISTER_CurNbVid_7_WIDTH 1
#define NB_PSTATE_STS_REGISTER_CurNbVid_7_MASK 0x00800000ul
#define GetF15TnCurNbVid(NbPstateStsRegister) ( \
(((NB_PSTATE_STS_REGISTER *) NbPstateStsRegister)->CurNbVid_7 << NB_PSTATE_STS_REGISTER_CurNbVid_6_0_WIDTH) \
| ((NB_PSTATE_STS_REGISTER *) NbPstateStsRegister)->CurNbVid_6_0)
/* Miscellaneous Voltages */
#define MISC_VOLTAGES 0x17C
#define MISC_VOLTAGES_PCI_ADDR (MAKE_SBDFO (0, 0, 0x18, FUNC_5, MISC_VOLTAGES))
/// Miscellaneous Voltages Register
typedef struct {
UINT32 MaxVid:8; ///< Maximum Voltage
UINT32 :2; ///< Reserved
UINT32 MinVid:8; ///< Minimum Voltage
UINT32 :5; ///< Reserved
UINT32 NbPsi0Vid:8; ///< Northbridge PSI0_L VID threshold
UINT32 NbPsi0VidEn:1; ///< Northbridge PSI0_L VID enable
} MISC_VOLTAGE_REGISTER;
/* Clock Power/Timing Control 5 Register F5x188 */
#define CPTC5_REG 0x188
#define CPTC5_PCI_ADDR (MAKE_SBDFO (0, 0, 0x18, FUNC_5, CPTC5_REG))
/// Clock Power Timing Control 5 Register
typedef struct {
UINT32 NbOffsetTrim:2; ///< Northbridge offset trim
UINT32 NbLoadLineTrim:3; ///< Northbridge load line trim
UINT32 NbPsi1:1; ///< Northbridge PSI1_L
UINT32 :26; ///< Reserved
} CLK_PWR_TIMING_CTRL_5_REGISTER;
#endif /* _CPU_F15_TN_POWERMGMT_H_ */
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