/* $NoKeywords:$ */ /** * @file * * Graphics Controller family specific service procedure * * * * @xrefitem bom "File Content Label" "Release Content" * @e project: AGESA * @e sub-project: GNB * @e \$Revision: 48452 $ @e \$Date: 2011-03-09 12:50:44 +0800 (Wed, 09 Mar 2011) $ * */ /* ***************************************************************************** * * Copyright (c) 2011, 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. * *************************************************************************** * */ /*---------------------------------------------------------------------------------------- * M O D U L E S U S E D *---------------------------------------------------------------------------------------- */ #include "AGESA.h" #include "amdlib.h" #include "Ids.h" #include "Gnb.h" #include "GnbFuseTable.h" #include "GnbPcie.h" #include "GnbCommonLib.h" #include "GnbGfxInitLibV1.h" #include "GnbNbInitLibV1.h" #include "GnbPcieConfig.h" #include "NbConfigData.h" #include "OptionGnb.h" #include "NbLclkDpm.h" #include "NbFamilyServices.h" #include "NbPowerMgmt.h" #include "GnbRegistersLN.h" #include "cpuFamilyTranslation.h" #include "GfxLib.h" #include "Filecode.h" #define FILECODE PROC_GNB_NB_FAMILY_LN_F12NBSERVICES_FILECODE /*---------------------------------------------------------------------------------------- * D E F I N I T I O N S A N D M A C R O S *---------------------------------------------------------------------------------------- */ /*---------------------------------------------------------------------------------------- * T Y P E D E F S A N D S T R U C T U R E S *---------------------------------------------------------------------------------------- */ extern GNB_BUILD_OPTIONS GnbBuildOptions; FUSE_TABLE FuseTable; /*---------------------------------------------------------------------------------------- * P R O T O T Y P E S O F L O C A L F U N C T I O N S *---------------------------------------------------------------------------------------- */ /*----------------------------------------------------------------------------------------*/ /** * NB family specific clock gating * * * @param[in, out] NbClkGatingCtrl Pointer to NB_CLK_GATING_CTRL * @param[in] StdHeader Pointer to AMD_CONFIG_PARAMS */ VOID NbFmNbClockGating ( IN OUT VOID *NbClkGatingCtrl, IN AMD_CONFIG_PARAMS *StdHeader ) { return; } /*----------------------------------------------------------------------------------------*/ /** * UnitID Clumping * * * @param[in] NbPciAddress * @param[in] StdHeader Standard Configuration Header * @retval AGESA_STATUS */ VOID NbFmClumpUnitID ( IN PCI_ADDR NbPciAddress, IN AMD_CONFIG_PARAMS *StdHeader ) { GnbClumpUnitID (NbPciAddress, StdHeader); } /*----------------------------------------------------------------------------------------*/ /** * Get Fuse translation table * * * @retval pointer to fuse translation table */ FUSE_TABLE* NbFmGetFuseTranslationTable ( ) { return &FuseTable; } /*----------------------------------------------------------------------------------------*/ /** * Family specific fuse table patch * Is's correct behavior if we would have 4 states, it would be * PP_FUSE_ARRAY->LclkDpmDid[0] - Goes to State 5 * PP_FUSE_ARRAY->LclkDpmDid[1] - Goes to State 6 * PP_FUSE_ARRAY->LclkDpmDid[2] - Goes to State 7 * If we would have 4 states it would be * PP_FUSE_ARRAY->LclkDpmDid[0] - Goes to State 4 * PP_FUSE_ARRAY->LclkDpmDid[1] - Goes to State 5 * PP_FUSE_ARRAY->LclkDpmDid[2] - Goes to State 6 * PP_FUSE_ARRAY->LclkDpmDid[3] - Goes to State 7 * * @param[in] PpFuseArray Pointer to PP_FUSE_ARRAY * @param[in] StdHeader Pointer to AMD_CONFIG_PARAMS */ VOID NbFmFuseAdjustFuseTablePatch ( IN OUT PP_FUSE_ARRAY *PpFuseArray, IN AMD_CONFIG_PARAMS *StdHeader ) { UINT8 LclkDpmMode; UINT8 SwSatateIndex; UINT8 MaxSclkIndex; UINT8 DpmStateIndex; UINT8 CurrentSclkDpmDid; CPU_LOGICAL_ID LogicalId; D18F3x15C_STRUCT D18F3x15C; LclkDpmMode = GnbBuildOptions.LclkDpmEn ? LclkDpmRcActivity : LclkDpmDisabled; GetLogicalIdOfCurrentCore (&LogicalId, StdHeader); if ((LogicalId.Revision & (AMD_F12_LN_A0 | AMD_F12_LN_A1)) != 0) { LclkDpmMode = LclkDpmDisabled; } IDS_OPTION_HOOK (IDS_GNB_LCLK_DPM_EN, &LclkDpmMode, StdHeader); // Read Sclk VID GnbLibPciRead ( MAKE_SBDFO ( 0, 0, 0x18, 3, D18F3x15C_ADDRESS), AccessWidth32, &D18F3x15C.Value, StdHeader ); PpFuseArray->SclkVid[0] = (UINT8) (D18F3x15C.Field.SclkVidLevel0); PpFuseArray->SclkVid[1] = (UINT8) (D18F3x15C.Field.SclkVidLevel1); PpFuseArray->SclkVid[2] = (UINT8) (D18F3x15C.Field.SclkVidLevel2); PpFuseArray->SclkVid[3] = (UINT8) (D18F3x15C.Field.SclkVidLevel3); //For all CPU rev LclkDpmValid[3] = 0 PpFuseArray->LclkDpmValid[3] = 0; PpFuseArray->LclkDpmVid[3] = 0; PpFuseArray->LclkDpmDid[3] = 0; // For LCLKDPM set LclkDpmVid[0] = 0, no matter if LCLK DMP enable or disable. PpFuseArray->LclkDpmVid[0] = 0; if (LclkDpmMode != LclkDpmRcActivity) { //If LCLK DPM disable (LclkDpmMode != LclkDpmRcActivity) // - LclkDpmDid[1,2] = LclkDpmDid [0], LclkDpmVid[1,2] = LclkDpmVid[0] // - Execute LCLK DPM init PpFuseArray->LclkDpmVid[1] = PpFuseArray->LclkDpmVid[0]; PpFuseArray->LclkDpmVid[2] = PpFuseArray->LclkDpmVid[0]; PpFuseArray->LclkDpmDid[1] = PpFuseArray->LclkDpmDid[0]; PpFuseArray->LclkDpmDid[2] = PpFuseArray->LclkDpmDid[0]; IDS_HDT_CONSOLE (NB_MISC, " F12 LCLK DPM Mode Disable -- use DPM0 fusing\n"); } else { // If LCLK DPM enabled // - use fused values for LclkDpmDid[0,1,2] and appropriate voltage // - Execute LCLK DPM init PpFuseArray->LclkDpmVid[2] = PpFuseArray->PcieGen2Vid; if (GfxLibIsControllerPresent (StdHeader)) { //VID index = VID index associated with highest SCLK DPM state in the Powerplay state where Label_Performance=1 // This would ignore the UVD case (where Label_Performance would be 0). for (SwSatateIndex = 0 ; SwSatateIndex < PP_FUSE_MAX_NUM_SW_STATE; SwSatateIndex++) { if (PpFuseArray->PolicyLabel[SwSatateIndex] == POLICY_LABEL_PERFORMANCE) { break; } } MaxSclkIndex = 0; CurrentSclkDpmDid = 0xff; ASSERT (PpFuseArray->SclkDpmValid[SwSatateIndex] != 0); for (DpmStateIndex = 0; DpmStateIndex < PP_FUSE_MAX_NUM_DPM_STATE; DpmStateIndex++) { if ((PpFuseArray->SclkDpmValid[SwSatateIndex] & (1 << DpmStateIndex)) != 0) { if (PpFuseArray->SclkDpmDid[DpmStateIndex] < CurrentSclkDpmDid) { CurrentSclkDpmDid = PpFuseArray->SclkDpmDid[DpmStateIndex]; MaxSclkIndex = DpmStateIndex; } } } PpFuseArray->LclkDpmVid[1] = PpFuseArray->SclkDpmVid[MaxSclkIndex]; } else { PpFuseArray->LclkDpmVid[1] = PpFuseArray->LclkDpmVid[0]; PpFuseArray->LclkDpmDid[1] = PpFuseArray->LclkDpmDid[0]; } // - use fused values for LclkDpmDid[0,1,2] and appropriate voltage //Keep using actual fusing IDS_HDT_CONSOLE (NB_MISC, " LCLK DPM use actual fusing.\n"); } //Patch SclkThermDid to 200Mhz if not fused if (PpFuseArray->SclkThermDid == 0) { PpFuseArray->SclkThermDid = GfxLibCalculateDid (200 * 100, GfxLibGetMainPllFreq (StdHeader) * 100); } } /*---------------------------------------------------------------------------------------- * FUSE translation table *---------------------------------------------------------------------------------------- */ FUSE_REGISTER_ENTRY FCRxFE00_600E_TABLE [] = { { FCRxFE00_600E_MainPllOpFreqIdStartup_OFFSET, FCRxFE00_600E_MainPllOpFreqIdStartup_WIDTH, (UINT8) offsetof (PP_FUSE_ARRAY, MainPllId) }, { FCRxFE00_600E_WrCkDid_OFFSET, FCRxFE00_600E_WrCkDid_WIDTH, (UINT8) offsetof (PP_FUSE_ARRAY, WrCkDid) } }; FUSE_REGISTER_ENTRY FCRxFE00_6022_TABLE [] = { { FCRxFE00_6022_DclkVclkSel0_OFFSET, FCRxFE00_6022_DclkVclkSel0_WIDTH, (UINT8) offsetof (PP_FUSE_ARRAY, VclkDclkSel[0]) }, { FCRxFE00_6022_DclkVclkSel1_OFFSET, FCRxFE00_6022_DclkVclkSel1_WIDTH, (UINT8) offsetof (PP_FUSE_ARRAY, VclkDclkSel[1]) }, { FCRxFE00_6022_DclkVclkSel2_OFFSET, FCRxFE00_6022_DclkVclkSel2_WIDTH, (UINT8) offsetof (PP_FUSE_ARRAY, VclkDclkSel[2]) }, { FCRxFE00_6022_DclkVclkSel3_OFFSET, FCRxFE00_6022_DclkVclkSel3_WIDTH, (UINT8) offsetof (PP_FUSE_ARRAY, VclkDclkSel[3]) }, { FCRxFE00_6022_DclkVclkSel4_OFFSET, FCRxFE00_6022_DclkVclkSel4_WIDTH, (UINT8) offsetof (PP_FUSE_ARRAY, VclkDclkSel[4]) }, { FCRxFE00_6022_DclkVclkSel5_OFFSET, FCRxFE00_6022_DclkVclkSel5_WIDTH, (UINT8) offsetof (PP_FUSE_ARRAY, VclkDclkSel[5]) }, }; FUSE_REGISTER_ENTRY FCRxFE00_7103_TABLE [] = { { FCRxFE00_7103_SclkDpmVid0_OFFSET, FCRxFE00_7103_SclkDpmVid0_WIDTH, (UINT8) offsetof (PP_FUSE_ARRAY, SclkDpmVid[0]) }, { FCRxFE00_7103_SclkDpmVid1_OFFSET, FCRxFE00_7103_SclkDpmVid1_WIDTH, (UINT8) offsetof (PP_FUSE_ARRAY, SclkDpmVid[1]) }, { FCRxFE00_7103_SclkDpmVid2_OFFSET, FCRxFE00_7103_SclkDpmVid2_WIDTH, (UINT8) offsetof (PP_FUSE_ARRAY, SclkDpmVid[2]) }, { FCRxFE00_7103_SclkDpmVid3_OFFSET, FCRxFE00_7103_SclkDpmVid3_WIDTH, (UINT8) offsetof (PP_FUSE_ARRAY, SclkDpmVid[3]) }, { FCRxFE00_7103_SclkDpmVid4_OFFSET, FCRxFE00_7103_SclkDpmVid4_WIDTH, (UINT8) offsetof (PP_FUSE_ARRAY, SclkDpmVid[4]) }, }; FUSE_REGISTER_ENTRY FCRxFE00_7104_TABLE [] = { { FCRxFE00_7104_SclkDpmDid0_OFFSET, FCRxFE00_7104_SclkDpmDid0_WIDTH, (UINT8) offsetof (PP_FUSE_ARRAY, SclkDpmDid[0]) }, { FCRxFE00_7104_SclkDpmDid1_OFFSET, FCRxFE00_7104_SclkDpmDid1_WIDTH, (UINT8) offsetof (PP_FUSE_ARRAY, SclkDpmDid[1]) }, { FCRxFE00_7104_SclkDpmDid2_OFFSET, FCRxFE00_7104_SclkDpmDid2_WIDTH, (UINT8) offsetof (PP_FUSE_ARRAY, SclkDpmDid[2]) } }; FUSE_REGISTER_ENTRY FCRxFE00_7107_TABLE [] = { { FCRxFE00_7107_SclkDpmDid3_OFFSET, FCRxFE00_7107_SclkDpmDid3_WIDTH, (UINT8) offsetof (PP_FUSE_ARRAY, SclkDpmDid[3]) }, { FCRxFE00_7107_SclkDpmDid4_OFFSET, FCRxFE00_7107_SclkDpmDid4_WIDTH, (UINT8) offsetof (PP_FUSE_ARRAY, SclkDpmDid[4]) } }; FUSE_REGISTER_ENTRY FCRxFE00_7109_TABLE [] = { { FCRxFE00_7109_SclkDpmCacBase_OFFSET, FCRxFE00_7109_SclkDpmCacBase_WIDTH, (UINT8) offsetof (PP_FUSE_ARRAY, SclkDpmCac[4]) } }; FUSE_REGISTER_ENTRY FCRxFE00_710D_TABLE [] = { { FCRxFE00_710D_DispclkDid0_OFFSET, FCRxFE00_710D_DispclkDid0_WIDTH, (UINT8) offsetof (PP_FUSE_ARRAY, DisplclkDid[0]) }, { FCRxFE00_710D_DispclkDid1_OFFSET, FCRxFE00_710D_DispclkDid1_WIDTH, (UINT8) offsetof (PP_FUSE_ARRAY, DisplclkDid[1]) }, { FCRxFE00_710D_DispclkDid2_OFFSET, FCRxFE00_710D_DispclkDid2_WIDTH, (UINT8) offsetof (PP_FUSE_ARRAY, DisplclkDid[2]) }, { FCRxFE00_710D_DispclkDid3_OFFSET, FCRxFE00_710D_DispclkDid3_WIDTH, (UINT8) offsetof (PP_FUSE_ARRAY, DisplclkDid[3]) } }; FUSE_REGISTER_ENTRY FCRxFE00_7110_TABLE [] = { { FCRxFE00_7110_LclkDpmDid0_OFFSET, FCRxFE00_7110_LclkDpmDid0_WIDTH, (UINT8) offsetof (PP_FUSE_ARRAY, LclkDpmDid[0]) }, { FCRxFE00_7110_LclkDpmDid1_OFFSET, FCRxFE00_7110_LclkDpmDid1_WIDTH, (UINT8) offsetof (PP_FUSE_ARRAY, LclkDpmDid[1]) }, { FCRxFE00_7110_LclkDpmDid2_OFFSET, FCRxFE00_7110_LclkDpmDid2_WIDTH, (UINT8) offsetof (PP_FUSE_ARRAY, LclkDpmDid[2]) } }; FUSE_REGISTER_ENTRY FCRxFE00_7113_TABLE [] = { { FCRxFE00_7113_LclkDpmDid3_OFFSET, FCRxFE00_7113_LclkDpmDid3_WIDTH, (UINT8) offsetof (PP_FUSE_ARRAY, LclkDpmDid[3]) }, { FCRxFE00_7113_LclkDpmValid0_OFFSET, FCRxFE00_7113_LclkDpmValid0_WIDTH, (UINT8) offsetof (PP_FUSE_ARRAY, LclkDpmValid[0]) }, { FCRxFE00_7113_LclkDpmValid1_OFFSET, FCRxFE00_7113_LclkDpmValid1_WIDTH, (UINT8) offsetof (PP_FUSE_ARRAY, LclkDpmValid[1]) }, { FCRxFE00_7113_LclkDpmValid2_OFFSET, FCRxFE00_7113_LclkDpmValid2_WIDTH, (UINT8) offsetof (PP_FUSE_ARRAY, LclkDpmValid[2]) }, { FCRxFE00_7113_LclkDpmValid3_OFFSET, FCRxFE00_7113_LclkDpmValid3_WIDTH, (UINT8) offsetof (PP_FUSE_ARRAY, LclkDpmValid[3]) } }; FUSE_REGISTER_ENTRY FCRxFE00_7114_TABLE [] = { { FCRxFE00_7114_DclkDid0_OFFSET, FCRxFE00_7114_DclkDid0_WIDTH, (UINT8) offsetof (PP_FUSE_ARRAY, DclkDid[0]) }, { FCRxFE00_7114_DclkDid1_OFFSET, FCRxFE00_7114_DclkDid1_WIDTH, (UINT8) offsetof (PP_FUSE_ARRAY, DclkDid[1]) }, { FCRxFE00_7114_DclkDid2_OFFSET, FCRxFE00_7114_DclkDid2_WIDTH, (UINT8) offsetof (PP_FUSE_ARRAY, DclkDid[2]) } }; FUSE_REGISTER_ENTRY FCRxFE00_7117_TABLE [] = { { FCRxFE00_7117_DclkDid3_OFFSET, FCRxFE00_7117_DclkDid3_WIDTH, (UINT8) offsetof (PP_FUSE_ARRAY, DclkDid[3]) }, { FCRxFE00_7117_VclkDid3_OFFSET, FCRxFE00_7117_VclkDid3_WIDTH, (UINT8) offsetof (PP_FUSE_ARRAY, VclkDid[3]) } }; FUSE_REGISTER_ENTRY FCRxFE00_7119_TABLE [] = { { FCRxFE00_7119_SclkDpmValid0_OFFSET, FCRxFE00_7119_SclkDpmValid0_WIDTH, (UINT8) offsetof (PP_FUSE_ARRAY, SclkDpmValid[0]) }, { FCRxFE00_7119_SclkDpmValid1_OFFSET, FCRxFE00_7119_SclkDpmValid1_WIDTH, (UINT8) offsetof (PP_FUSE_ARRAY, SclkDpmValid[1]) }, { FCRxFE00_7119_SclkDpmValid2_OFFSET, FCRxFE00_7119_SclkDpmValid2_WIDTH, (UINT8) offsetof (PP_FUSE_ARRAY, SclkDpmValid[2]) }, { FCRxFE00_7119_SclkDpmValid3_OFFSET, FCRxFE00_7119_SclkDpmValid3_WIDTH, (UINT8) offsetof (PP_FUSE_ARRAY, SclkDpmValid[3]) }, { FCRxFE00_7119_SclkDpmValid4_OFFSET, FCRxFE00_7119_SclkDpmValid4_WIDTH, (UINT8) offsetof (PP_FUSE_ARRAY, SclkDpmValid[4]) }, { FCRxFE00_7119_SclkDpmValid5_OFFSET, FCRxFE00_7119_SclkDpmValid5_WIDTH, (UINT8) offsetof (PP_FUSE_ARRAY, SclkDpmValid[5]) } }; FUSE_REGISTER_ENTRY FCRxFE00_711C_TABLE [] = { { FCRxFE00_711C_PolicyLabel0_OFFSET, FCRxFE00_711C_PolicyLabel0_WIDTH, (UINT8) offsetof (PP_FUSE_ARRAY, PolicyLabel[0]) }, { FCRxFE00_711C_PolicyLabel1_OFFSET, FCRxFE00_711C_PolicyLabel1_WIDTH, (UINT8) offsetof (PP_FUSE_ARRAY, PolicyLabel[1]) }, { FCRxFE00_711C_PolicyLabel2_OFFSET, FCRxFE00_711C_PolicyLabel2_WIDTH, (UINT8) offsetof (PP_FUSE_ARRAY, PolicyLabel[2]) }, { FCRxFE00_711C_PolicyLabel3_OFFSET, FCRxFE00_711C_PolicyLabel3_WIDTH, (UINT8) offsetof (PP_FUSE_ARRAY, PolicyLabel[3]) }, { FCRxFE00_711C_PolicyLabel4_OFFSET, FCRxFE00_711C_PolicyLabel4_WIDTH, (UINT8) offsetof (PP_FUSE_ARRAY, PolicyLabel[4]) }, { FCRxFE00_711C_PolicyLabel5_OFFSET, FCRxFE00_711C_PolicyLabel5_WIDTH, (UINT8) offsetof (PP_FUSE_ARRAY, PolicyLabel[5]) } }; FUSE_REGISTER_ENTRY FCRxFE00_711E_TABLE [] = { { FCRxFE00_711E_PolicyFlags0_OFFSET, FCRxFE00_711E_PolicyFlags0_WIDTH, (UINT8) offsetof (PP_FUSE_ARRAY, PolicyFlags[0]) }, { FCRxFE00_711E_PolicyFlags1_OFFSET, FCRxFE00_711E_PolicyFlags1_WIDTH, (UINT8) offsetof (PP_FUSE_ARRAY, PolicyFlags[1]) }, { FCRxFE00_711E_PolicyFlags2_OFFSET, FCRxFE00_711E_PolicyFlags2_WIDTH, (UINT8) offsetof (PP_FUSE_ARRAY, PolicyFlags[2]) }, { FCRxFE00_711E_PolicyFlags3_OFFSET, FCRxFE00_711E_PolicyFlags3_WIDTH, (UINT8) offsetof (PP_FUSE_ARRAY, PolicyFlags[3]) } }; FUSE_REGISTER_ENTRY FCRxFE00_7121_TABLE [] = { { FCRxFE00_7121_PolicyFlags4_OFFSET, FCRxFE00_7121_PolicyFlags4_WIDTH, (UINT8) offsetof (PP_FUSE_ARRAY, PolicyFlags[4]) }, { FCRxFE00_7121_PolicyFlags5_OFFSET, FCRxFE00_7121_PolicyFlags5_WIDTH, (UINT8) offsetof (PP_FUSE_ARRAY, PolicyFlags[5]) } }; FUSE_REGISTER_ENTRY FCRxFE00_4036_TABLE [] = { { FCRxFE00_4036_PPlayTableRev_OFFSET, FCRxFE00_4036_PPlayTableRev_WIDTH, (UINT8) offsetof (PP_FUSE_ARRAY, PPlayTableRev) }, { FCRxFE00_4036_SclkThermDid_OFFSET, FCRxFE00_4036_SclkThermDid_WIDTH, (UINT8) offsetof (PP_FUSE_ARRAY, SclkThermDid) }, { FCRxFE00_4036_PcieGen2Vid_OFFSET, FCRxFE00_4036_PcieGen2Vid_WIDTH, (UINT8) offsetof (PP_FUSE_ARRAY, PcieGen2Vid) } }; FUSE_REGISTER_ENTRY FCRxFE00_4003_TABLE [] = { { FCRxFE00_4003_VclkDid0_OFFSET, FCRxFE00_4003_VclkDid0_WIDTH, (UINT8) offsetof (PP_FUSE_ARRAY, VclkDid[0]) } }; FUSE_REGISTER_ENTRY FCRxFE00_4008_TABLE [] = { { FCRxFE00_4008_VclkDid1_OFFSET, FCRxFE00_4008_VclkDid1_WIDTH, (UINT8) offsetof (PP_FUSE_ARRAY, VclkDid[1]) } }; FUSE_REGISTER_ENTRY FCRxFE00_4028_TABLE [] = { { FCRxFE00_4028_VclkDid2_OFFSET, FCRxFE00_4028_VclkDid2_WIDTH, (UINT8) offsetof (PP_FUSE_ARRAY, VclkDid[2]) } }; FUSE_TABLE_ENTRY FuseRegisterTable [] = { { FCRxFE00_4003_ADDRESS, sizeof (FCRxFE00_4003_TABLE) / sizeof (FUSE_REGISTER_ENTRY), FCRxFE00_4003_TABLE }, { FCRxFE00_4008_ADDRESS, sizeof (FCRxFE00_4008_TABLE) / sizeof (FUSE_REGISTER_ENTRY), FCRxFE00_4008_TABLE }, { FCRxFE00_4028_ADDRESS, sizeof (FCRxFE00_4028_TABLE) / sizeof (FUSE_REGISTER_ENTRY), FCRxFE00_4028_TABLE }, { FCRxFE00_4036_ADDRESS, sizeof (FCRxFE00_4036_TABLE) / sizeof (FUSE_REGISTER_ENTRY), FCRxFE00_4036_TABLE }, { FCRxFE00_600E_ADDRESS, sizeof (FCRxFE00_600E_TABLE) / sizeof (FUSE_REGISTER_ENTRY), FCRxFE00_600E_TABLE }, { FCRxFE00_6022_ADDRESS, sizeof (FCRxFE00_6022_TABLE) / sizeof (FUSE_REGISTER_ENTRY), FCRxFE00_6022_TABLE }, { FCRxFE00_7103_ADDRESS, sizeof (FCRxFE00_7103_TABLE) / sizeof (FUSE_REGISTER_ENTRY), FCRxFE00_7103_TABLE }, { FCRxFE00_7104_ADDRESS, sizeof (FCRxFE00_7104_TABLE) / sizeof (FUSE_REGISTER_ENTRY), FCRxFE00_7104_TABLE }, { FCRxFE00_7107_ADDRESS, sizeof (FCRxFE00_7107_TABLE) / sizeof (FUSE_REGISTER_ENTRY), FCRxFE00_7107_TABLE }, { FCRxFE00_7109_ADDRESS, sizeof (FCRxFE00_7109_TABLE) / sizeof (FUSE_REGISTER_ENTRY), FCRxFE00_7109_TABLE }, { FCRxFE00_710D_ADDRESS, sizeof (FCRxFE00_710D_TABLE) / sizeof (FUSE_REGISTER_ENTRY), FCRxFE00_710D_TABLE }, { FCRxFE00_7110_ADDRESS, sizeof (FCRxFE00_7110_TABLE) / sizeof (FUSE_REGISTER_ENTRY), FCRxFE00_7110_TABLE }, { FCRxFE00_7113_ADDRESS, sizeof (FCRxFE00_7113_TABLE) / sizeof (FUSE_REGISTER_ENTRY), FCRxFE00_7113_TABLE }, { FCRxFE00_7114_ADDRESS, sizeof (FCRxFE00_7114_TABLE) / sizeof (FUSE_REGISTER_ENTRY), FCRxFE00_7114_TABLE }, { FCRxFE00_7117_ADDRESS, sizeof (FCRxFE00_7117_TABLE) / sizeof (FUSE_REGISTER_ENTRY), FCRxFE00_7117_TABLE }, { FCRxFE00_7119_ADDRESS, sizeof (FCRxFE00_7119_TABLE) / sizeof (FUSE_REGISTER_ENTRY), FCRxFE00_7119_TABLE }, { FCRxFE00_711C_ADDRESS, sizeof (FCRxFE00_711C_TABLE) / sizeof (FUSE_REGISTER_ENTRY), FCRxFE00_711C_TABLE }, { FCRxFE00_711E_ADDRESS, sizeof (FCRxFE00_711E_TABLE) / sizeof (FUSE_REGISTER_ENTRY), FCRxFE00_711E_TABLE }, { FCRxFE00_7121_ADDRESS, sizeof (FCRxFE00_7121_TABLE) / sizeof (FUSE_REGISTER_ENTRY), FCRxFE00_7121_TABLE } }; FUSE_TABLE FuseTable = { sizeof (FuseRegisterTable) / sizeof (FUSE_TABLE_ENTRY), FuseRegisterTable };