1 files changed, 618 insertions, 0 deletions

diff --git a/src/vendorcode/amd/agesa/f15tn/Proc/Mem/NB/TN/mntn.c b/src/vendorcode/amd/agesa/f15tn/Proc/Mem/NB/TN/mntn.c
new file mode 100644
index 0000000000..63f255bc0a
--- /dev/null
+++ b/src/vendorcode/amd/agesa/f15tn/Proc/Mem/NB/TN/mntn.c
@@ -0,0 +1,618 @@
+/* $NoKeywords:$ */
+/**
+ * @file
+ *
+ * mntn.c
+ *
+ * Common Northbridge  functions for TN
+ *
+ * @xrefitem bom "File Content Label" "Release Content"
+ * @e project: AGESA
+ * @e sub-project: (Mem/NB/TN)
+ * @e \$Revision: 64574 $ @e \$Date: 2012-01-25 01:01:51 -0600 (Wed, 25 Jan 2012) $
+ *
+ **/
+/*****************************************************************************
+*
+* Copyright 2008 - 2012 ADVANCED MICRO DEVICES, INC.  All Rights Reserved.
+*
+* AMD is granting you permission to use this software (the Materials)
+* pursuant to the terms and conditions of your Software License Agreement
+* with AMD.  This header does *NOT* give you permission to use the Materials
+* or any rights under AMD's intellectual property.  Your use of any portion
+* of these Materials shall constitute your acceptance of those terms and
+* conditions.  If you do not agree to the terms and conditions of the Software
+* License Agreement, please do not use any portion of these Materials.
+*
+* CONFIDENTIALITY:  The Materials and all other information, identified as
+* confidential and provided to you by AMD shall be kept confidential in
+* accordance with the terms and conditions of the Software License Agreement.
+*
+* LIMITATION OF LIABILITY: THE MATERIALS AND ANY OTHER RELATED INFORMATION
+* PROVIDED TO YOU BY AMD ARE PROVIDED "AS IS" WITHOUT ANY EXPRESS OR IMPLIED
+* WARRANTY OF ANY KIND, INCLUDING BUT NOT LIMITED TO WARRANTIES OF
+* MERCHANTABILITY, NONINFRINGEMENT, TITLE, FITNESS FOR ANY PARTICULAR PURPOSE,
+* OR WARRANTIES ARISING FROM CONDUCT, COURSE OF DEALING, OR USAGE OF TRADE.
+* IN NO EVENT SHALL AMD OR ITS LICENSORS BE LIABLE FOR ANY DAMAGES WHATSOEVER
+* (INCLUDING, WITHOUT LIMITATION, DAMAGES FOR LOSS OF PROFITS, BUSINESS
+* INTERRUPTION, OR LOSS OF INFORMATION) ARISING OUT OF AMD'S NEGLIGENCE,
+* GROSS NEGLIGENCE, THE USE OF OR INABILITY TO USE THE MATERIALS OR ANY OTHER
+* RELATED INFORMATION PROVIDED TO YOU BY AMD, EVEN IF AMD HAS BEEN ADVISED OF
+* THE POSSIBILITY OF SUCH DAMAGES.  BECAUSE SOME JURISDICTIONS PROHIBIT THE
+* EXCLUSION OR LIMITATION OF LIABILITY FOR CONSEQUENTIAL OR INCIDENTAL DAMAGES,
+* THE ABOVE LIMITATION MAY NOT APPLY TO YOU.
+*
+* AMD does not assume any responsibility for any errors which may appear in
+* the Materials or any other related information provided to you by AMD, or
+* result from use of the Materials or any related information.
+*
+* You agree that you will not reverse engineer or decompile the Materials.
+*
+* NO SUPPORT OBLIGATION: AMD is not obligated to furnish, support, or make any
+* further information, software, technical information, know-how, or show-how
+* available to you.  Additionally, AMD retains the right to modify the
+* Materials at any time, without notice, and is not obligated to provide such
+* modified Materials to you.
+*
+* U.S. GOVERNMENT RESTRICTED RIGHTS: The Materials are provided with
+* "RESTRICTED RIGHTS." Use, duplication, or disclosure by the Government is
+* subject to the restrictions as set forth in FAR 52.227-14 and
+* DFAR252.227-7013, et seq., or its successor.  Use of the Materials by the
+* Government constitutes acknowledgement of AMD's proprietary rights in them.
+*
+* EXPORT ASSURANCE:  You agree and certify that neither the Materials, nor any
+* direct product thereof will be exported directly or indirectly, into any
+* country prohibited by the United States Export Administration Act and the
+* regulations thereunder, without the required authorization from the U.S.
+* government nor will be used for any purpose prohibited by the same.
+* ***************************************************************************
+*
+*/
+
+/*
+ *----------------------------------------------------------------------------
+ *                                MODULES USED
+ *
+ *----------------------------------------------------------------------------
+ */
+
+
+
+#include "AGESA.h"
+#include "AdvancedApi.h"
+#include "amdlib.h"
+#include "Ids.h"
+#include "OptionMemory.h"
+#include "mm.h"
+#include "mn.h"
+#include "mntn.h"
+#include "mu.h"
+#include "S3.h"
+#include "cpuRegisters.h"
+#include "cpuFamRegisters.h"
+#include "cpuFamilyTranslation.h"
+#include "heapManager.h"
+#include "GeneralServices.h"
+#include "Filecode.h"
+CODE_GROUP (G3_DXE)
+RDATA_GROUP (G3_DXE)
+
+#define FILECODE PROC_MEM_NB_TN_MNTN_FILECODE
+/*----------------------------------------------------------------------------
+ *                          DEFINITIONS AND MACROS
+ *
+ *----------------------------------------------------------------------------
+ */
+
+/*----------------------------------------------------------------------------
+ *                           TYPEDEFS AND STRUCTURES
+ *
+ *----------------------------------------------------------------------------
+ */
+/*----------------------------------------------------------------------------
+ *                        PROTOTYPES OF LOCAL FUNCTIONS
+ *
+ *----------------------------------------------------------------------------
+ */
+BOOLEAN
+STATIC
+MemNRegAccessFenceTN (
+  IN OUT   MEM_NB_BLOCK *NBPtr,
+  IN OUT   VOID *OptParam
+  );
+
+/**
+ * Array for frequency change related parameters.
+ */
+CONST MEM_FREQ_CHANGE_PARAM FreqChangeParamTN = {0x0190, 0, 0, 0, 0, 0, 0, 0};
+
+/*----------------------------------------------------------------------------
+ *                            EXPORTED FUNCTIONS
+ *
+ *----------------------------------------------------------------------------
+ */
+
+extern BUILD_OPT_CFG UserOptions;
+extern PSO_ENTRY DefaultPlatformMemoryConfiguration[];
+extern OPTION_MEM_FEATURE_NB* memNTrainFlowControl[];
+
+/* -----------------------------------------------------------------------------*/
+/**
+ *
+ *
+ *   This function initializes the northbridge block
+ *
+ *     @param[in,out]   *NBPtr   - Pointer to the MEM_NB_BLOCK
+ *     @param[in,out]   *MemPtr  - Pointer to the MEM_DATA_STRUCT
+ *     @param[in]        *FeatPtr  - Pointer to the MEM_FEAT_BLOCK_NB
+ *     @param[in]        *SharedPtr - Pointer to the MEM_SHARED_DATA
+ *     @param[in]        NodeID  - UINT8 indicating node ID of the NB object.
+ *
+ *     @return     Boolean indicating that this is the correct memory
+ *                 controller type for the node number that was passed in.
+ */
+
+BOOLEAN
+MemConstructNBBlockTN (
+  IN OUT   MEM_NB_BLOCK *NBPtr,
+  IN OUT   MEM_DATA_STRUCT *MemPtr,
+  IN       MEM_FEAT_BLOCK_NB *FeatPtr,
+  IN       MEM_SHARED_DATA *SharedPtr,
+  IN       UINT8 NodeID
+  )
+{
+  UINT8 Dct;
+  UINT8 Channel;
+  UINT8 SpdSocketIndex;
+  UINT8 SpdChannelIndex;
+  DIE_STRUCT *MCTPtr;
+  ALLOCATE_HEAP_PARAMS AllocHeapParams;
+
+  //
+  // Determine if this is the expected NB Type
+  //
+  GetLogicalIdOfSocket (MemPtr->DiesPerSystem->SocketId, &(MemPtr->DiesPerSystem->LogicalCpuid), &(MemPtr->StdHeader));
+  if (!MemNIsIdSupportedTN (NBPtr, &(MemPtr->DiesPerSystem->LogicalCpuid))) {
+    return FALSE;
+  }
+
+  NBPtr->MemPtr = MemPtr;
+  NBPtr->RefPtr = MemPtr->ParameterListPtr;
+  NBPtr->SharedPtr = SharedPtr;
+
+  MCTPtr = MemPtr->DiesPerSystem;
+  NBPtr->MCTPtr = MCTPtr;
+  NBPtr->MCTPtr->NodeId = NodeID;
+  NBPtr->PciAddr.AddressValue = MCTPtr->PciAddr.AddressValue;
+  NBPtr->VarMtrrHiMsk = GetVarMtrrHiMsk (&(MemPtr->DiesPerSystem->LogicalCpuid), &(MemPtr->StdHeader));
+
+  //
+  // Allocate buffer for DCT_STRUCTs and CH_DEF_STRUCTs
+  //
+  AllocHeapParams.RequestedBufferSize = MAX_DCTS_PER_NODE_TN * (
+                                          sizeof (DCT_STRUCT) + (
+                                            MAX_CHANNELS_PER_DCT_TN * (sizeof (CH_DEF_STRUCT) + sizeof (MEM_PS_BLOCK) + sizeof (CH_TIMING_STRUCT))
+                                          )
+                                        );
+  AllocHeapParams.BufferHandle = GENERATE_MEM_HANDLE (ALLOC_DCT_STRUCT_HANDLE, NodeID, 0, 0);
+  AllocHeapParams.Persist = HEAP_LOCAL_CACHE;
+  if (HeapAllocateBuffer (&AllocHeapParams, &MemPtr->StdHeader) != AGESA_SUCCESS) {
+    PutEventLog (AGESA_FATAL, MEM_ERROR_HEAP_ALLOCATE_FOR_DCT_STRUCT_AND_CH_DEF_STRUCTs, NBPtr->Node, 0, 0, 0, &MemPtr->StdHeader);
+    SetMemError (AGESA_FATAL, MCTPtr);
+    ASSERT(FALSE); // Could not allocate buffer for DCT_STRUCTs and CH_DEF_STRUCTs
+    return FALSE;
+  }
+
+  MCTPtr->DctCount = MAX_DCTS_PER_NODE_TN;
+  MCTPtr->DctData = (DCT_STRUCT *) AllocHeapParams.BufferPtr;
+  AllocHeapParams.BufferPtr += MAX_DCTS_PER_NODE_TN * sizeof (DCT_STRUCT);
+  for (Dct = 0; Dct < MAX_DCTS_PER_NODE_TN; Dct++) {
+    MCTPtr->DctData[Dct].Dct = Dct;
+    MCTPtr->DctData[Dct].ChannelCount = MAX_CHANNELS_PER_DCT_TN;
+    MCTPtr->DctData[Dct].ChData = (CH_DEF_STRUCT *) AllocHeapParams.BufferPtr;
+    MCTPtr->DctData[Dct].ChData[0].Dct = Dct;
+    AllocHeapParams.BufferPtr += MAX_CHANNELS_PER_DCT_TN * sizeof (CH_DEF_STRUCT);
+    MCTPtr->DctData[Dct].TimingsMemPs1 = (CH_TIMING_STRUCT *) AllocHeapParams.BufferPtr;
+    AllocHeapParams.BufferPtr += MAX_CHANNELS_PER_DCT_TN * sizeof (CH_TIMING_STRUCT);
+  }
+  NBPtr->PSBlock = (MEM_PS_BLOCK *) AllocHeapParams.BufferPtr;
+
+  //
+  // Initialize Socket List
+  //
+  for (Dct = 0; Dct < MAX_DCTS_PER_NODE_TN; Dct++) {
+    MemPtr->SocketList[MCTPtr->SocketId].ChannelPtr[(MCTPtr->DieId * 2) + Dct] = &(MCTPtr->DctData[Dct].ChData[0]);
+    MemPtr->SocketList[MCTPtr->SocketId].TimingsPtr[(MCTPtr->DieId * 2) + Dct] = &(MCTPtr->DctData[Dct].Timings);
+    MCTPtr->DctData[Dct].ChData[0].ChannelID = (MCTPtr->DieId * 2) + Dct;
+  }
+
+  MemNInitNBDataTN (NBPtr);
+
+  FeatPtr->InitCPG (NBPtr);
+  FeatPtr->InitHwRxEn (NBPtr);
+  FeatPtr->excel221 (NBPtr);
+
+  NBPtr->FeatPtr = FeatPtr;
+
+  //
+  // Calculate SPD Offsets per channel and assign pointers to the data.  At this point, we calculate the Node-Dct-Channel
+  // centric offsets and store the pointers to the first DIMM of each channel in the Channel Definition struct for that
+  // channel.  This pointer is then used later to calculate the offsets to be used for each logical dimm once the
+  // dimm types(QR or not) are known. This is done in the Technology block constructor.
+  //
+  // Calculate the SpdSocketIndex separately from the SpdChannelIndex.
+  // This will facilitate modifications due to some processors that might
+  // map the DCT-CHANNEL differently.
+  //
+  SpdSocketIndex = GetSpdSocketIndex (NBPtr->RefPtr->PlatformMemoryConfiguration, NBPtr->MCTPtr->SocketId, &MemPtr->StdHeader);
+  //
+  // Traverse the Dct/Channel structures
+  //
+  for (Dct = 0; Dct < MAX_DCTS_PER_NODE_TN; Dct++) {
+    for (Channel = 0; Channel < MAX_CHANNELS_PER_DCT_TN; Channel++) {
+      //
+      // Calculate the number of Dimms on this channel using the
+      //   die/dct/channel to Socket/channel conversion.
+      //
+      SpdChannelIndex = GetSpdChannelIndex (NBPtr->RefPtr->PlatformMemoryConfiguration,
+                                            NBPtr->MCTPtr->SocketId,
+                                            MemNGetSocketRelativeChannelNb (NBPtr, Dct, Channel),
+                                            &MemPtr->StdHeader);
+      NBPtr->MCTPtr->DctData[Dct].ChData[Channel].SpdPtr = &(MemPtr->SpdDataStructure[SpdSocketIndex + SpdChannelIndex]);
+    }
+  }
+
+  //
+  // Initialize Dct and DctCfgSel bit
+  //
+  MemNSetBitFieldNb (NBPtr, BFDctCfgSel, 0);
+  MemNSwitchDCTNb (NBPtr, 0);
+
+  if (MemNGetBitFieldNb (NBPtr, BFMemPstateDis) == 1) {
+    // MemPstate is disabled
+    NBPtr->MemPstateStage = 0;
+  }
+
+  return TRUE;
+}
+
+/* -----------------------------------------------------------------------------*/
+/**
+ *
+ *   This function initializes member functions and variables of NB block.
+ *
+ *     @param[in,out]   *NBPtr   - Pointer to the MEM_NB_BLOCK
+ *
+ */
+
+VOID
+MemNInitNBDataTN (
+  IN OUT   MEM_NB_BLOCK *NBPtr
+  )
+{
+  NBPtr->DctCachePtr = NBPtr->DctCache;
+  NBPtr->PsPtr = NBPtr->PSBlock;
+
+  MemNInitNBRegTableTN (NBPtr, NBPtr->NBRegTable);
+  NBPtr->Node = ((UINT8) NBPtr->PciAddr.Address.Device) - 24;
+  NBPtr->Dct = 0;
+  NBPtr->Channel = 0;
+  NBPtr->DctCount = MAX_DCTS_PER_NODE_TN;
+  NBPtr->ChannelCount = MAX_CHANNELS_PER_DCT_TN;
+  NBPtr->NodeCount = MAX_NODES_SUPPORTED_TN;
+  NBPtr->Ganged = FALSE;
+  NBPtr->PosTrnPattern = POS_PATTERN_256B;
+  NBPtr->MemCleared = FALSE;
+  NBPtr->StartupSpeed = DDR667_FREQUENCY;
+  NBPtr->RcvrEnDlyLimit = 0x1FF;
+  NBPtr->DefDctSelIntLvAddr = 4;
+  NBPtr->NbFreqChgState = 0;
+  NBPtr->FreqChangeParam = (MEM_FREQ_CHANGE_PARAM *) &FreqChangeParamTN;
+  NBPtr->MaxRxEnSeedTotal = 0x1FF;
+  NBPtr->MinRxEnSeedGross = 0;
+  NBPtr->CsRegMsk = 0x7FF8FFE0;
+  NBPtr->RdDqsDlyRetrnStat = RDDQSDLY_RTN_NEEDED;
+  NBPtr->MemPstate = MEMORY_PSTATE0;
+  NBPtr->MemPstateStage = MEMORY_PSTATE_1ST_STAGE;
+  NBPtr->CsPerChannel = MAX_CS_PER_CHANNEL_TN;
+  NBPtr->CsPerDelay = 1;
+  NBPtr->TotalMaxVrefRange = 0x20;
+  NBPtr->TotalRdDQSDlyRange = 0x40;
+  NBPtr->PhaseLaneMask = 0x3FFFF;
+  NBPtr->MaxDiamondStep = 3;
+
+  LibAmdMemFill (NBPtr->DctCache, 0, sizeof (NBPtr->DctCache), &NBPtr->MemPtr->StdHeader);
+  MemNInitNBDataNb (NBPtr);
+
+  NBPtr->SetMaxLatency = MemNSetMaxLatencyTN;
+  NBPtr->getMaxLatParams = MemNGetMaxLatParamsTN;
+  NBPtr->InitializeMCT = MemNInitializeMctTN;
+  NBPtr->FinalizeMCT = MemNFinalizeMctTN;
+  NBPtr->SendMrsCmd = MemNSendMrsCmdUnb;
+  NBPtr->sendZQCmd = MemNSendZQCmdNb;
+  NBPtr->WritePattern = MemNWritePatternTN;
+  NBPtr->ReadPattern = MemNReadPatternTN;
+  NBPtr->GenHwRcvEnReads = (VOID (*) (MEM_NB_BLOCK *, UINT32)) memDefRet;
+  NBPtr->CompareTestPattern = MemNCompareTestPatternNb;
+  NBPtr->InsDlyCompareTestPattern = MemNInsDlyCompareTestPatternNb;
+  NBPtr->StitchMemory = MemNStitchMemoryNb;
+  NBPtr->AutoConfig = MemNAutoConfigTN;
+  NBPtr->PlatformSpec = MemNPlatformSpecUnb;
+  NBPtr->InitMCT = MemNInitMCTNb;
+  NBPtr->DisableDCT = MemNDisableDCTUnb;
+  NBPtr->StartupDCT = MemNStartupDCTUnb;
+  NBPtr->SyncTargetSpeed = MemNSyncTargetSpeedNb;
+  NBPtr->ChangeFrequency = MemNChangeFrequencyUnb;
+  NBPtr->RampUpFrequency = MemNRampUpFrequencyUnb;
+  NBPtr->ChangeNbFrequency = MemNChangeNbFrequencyUnb;
+  NBPtr->ChangeNbFrequencyWrap = MemNChangeNbFrequencyWrapUnb;
+  NBPtr->ProgramNbPsDependentRegs = MemNProgramNbPstateDependentRegistersTN;
+  NBPtr->ProgramCycTimings = MemNProgramCycTimingsUnb;
+  NBPtr->SyncDctsReady = (BOOLEAN (*) (MEM_NB_BLOCK *)) memDefTrue;
+  NBPtr->HtMemMapInit = MemNHtMemMapInitTN;
+  NBPtr->SyncAddrMapToAllNodes = (BOOLEAN (*) (MEM_NB_BLOCK *)) memDefTrue;
+  NBPtr->CpuMemTyping = MemNCPUMemTypingNb;
+  NBPtr->BeforeDqsTraining = MemNBeforeDQSTrainingTN;
+  NBPtr->AfterDqsTraining = MemNAfterDQSTrainingTN;
+  NBPtr->OtherTiming = MemNOtherTimingTN;
+  NBPtr->UMAMemTyping = MemNUMAMemTypingNb;
+  NBPtr->GetSocketRelativeChannel = MemNGetSocketRelativeChannelNb;
+  NBPtr->TechBlockSwitch = MemNTechBlockSwitchTN;
+  NBPtr->MemNCmnGetSetFieldNb = MemNCmnGetSetFieldTN;
+  NBPtr->SetEccSymbolSize = (VOID (*) (MEM_NB_BLOCK *)) memDefRet;
+  NBPtr->TrainingFlow = MemNTrainingFlowUnb;
+  NBPtr->PollBitField = MemNPollBitFieldNb;
+  NBPtr->BrdcstCheck = MemNBrdcstCheckNb;
+  NBPtr->BrdcstSet = MemNBrdcstSetNb;
+  NBPtr->GetTrainDly = MemNGetTrainDlyNb;
+  NBPtr->SetTrainDly = MemNSetTrainDlyNb;
+  NBPtr->PhyFenceTraining = MemNPhyFenceTrainingUnb;
+  NBPtr->GetSysAddr = MemNGetMCTSysAddrNb;
+  NBPtr->RankEnabled = MemNRankEnabledNb;
+  NBPtr->MemNBeforeDramInitNb = MemNBeforeDramInitTN;
+  NBPtr->MemNcmnGetSetTrainDly = MemNcmnGetSetTrainDlyUnb;
+  NBPtr->MemPPhyFenceTrainingNb = (VOID (*) (MEM_NB_BLOCK *)) memDefRet;
+  NBPtr->MemNInitPhyComp = MemNInitPhyCompTN;
+  NBPtr->MemNBeforePlatformSpecNb = (VOID (*) (MEM_NB_BLOCK *)) memDefRet;
+  NBPtr->MemNPlatformSpecificFormFactorInitNb = MemNPlatformSpecificFormFactorInitTblDrvNb;
+  NBPtr->MemNPFenceAdjustNb = MemNPFenceAdjustTN;
+  NBPtr->GetTrainDlyParms = MemNGetTrainDlyParmsUnb;
+  NBPtr->TrainingPatternInit = MemNTrainingPatternInitNb;
+  NBPtr->TrainingPatternFinalize = MemNTrainingPatternFinalizeNb;
+  NBPtr->GetApproximateWriteDatDelay = MemNGetApproximateWriteDatDelayNb;
+  NBPtr->FlushPattern = MemNFlushPatternNb;
+  NBPtr->MinDataEyeWidth = MemNMinDataEyeWidthNb;
+  NBPtr->MemNCapSpeedBatteryLife = MemNCapSpeedBatteryLifeTN;
+  NBPtr->GetUmaSize = MemNGetUmaSizeTN;
+  NBPtr->GetMemClkFreqId = MemNGetMemClkFreqIdUnb;
+  NBPtr->EnableSwapIntlvRgn = MemNEnableSwapIntlvRgnNb;
+  NBPtr->WaitXMemClks = MemNWaitXMemClksNb;
+  NBPtr->MemNGetDramTerm = MemNGetDramTermTblDrvNb;
+  NBPtr->MemNGetDynDramTerm = MemNGetDynDramTermTblDrvNb;
+  NBPtr->MemNGetMR0CL = MemNGetMR0CLTblDrvNb;
+  NBPtr->MemNGetMR0WR = MemNGetMR0WRTblDrvNb;
+  NBPtr->MemNSaveMR0 = (VOID (*) (MEM_NB_BLOCK *, UINT32)) memDefRet;
+  NBPtr->MemNGetMR2CWL = MemNGetMR2CWLUnb;
+  NBPtr->AllocateC6Storage = MemNAllocateC6StorageTN;
+  NBPtr->MemNBeforePlatformSpecNb = MemNBeforePlatformSpecTN;
+  NBPtr->MemNGetMemoryWidth = MemNGetMemoryWidthUnb;
+
+  NBPtr->IsSupported[SetDllShutDown] = TRUE;
+  NBPtr->IsSupported[CheckMaxDramRate] = TRUE;
+  NBPtr->IsSupported[CheckPhyFenceTraining] = TRUE;
+  NBPtr->IsSupported[CheckSendAllMRCmds] = TRUE;
+  NBPtr->IsSupported[CheckFindPSOverideWithSocket] = TRUE;
+  NBPtr->IsSupported[FenceTrnBeforeDramInit] = TRUE;
+  NBPtr->IsSupported[UnifiedNbFence] = TRUE;
+  NBPtr->IsSupported[CheckODTControls] = TRUE;
+  NBPtr->IsSupported[CheckDramTerm] = TRUE;
+  NBPtr->IsSupported[CheckDramTermDyn] = TRUE;
+  NBPtr->IsSupported[CheckQoff] = TRUE;
+  NBPtr->IsSupported[CheckDrvImpCtrl] = TRUE;
+  NBPtr->IsSupported[CheckSetSameDctODTsEn] = TRUE;
+  NBPtr->IsSupported[WLSeedAdjust] = TRUE;
+  NBPtr->IsSupported[WLNegativeDelay] = TRUE;
+  NBPtr->IsSupported[TwoStageDramInit] = TRUE;
+  NBPtr->IsSupported[ForceEnMemHoleRemapping] = TRUE;
+  NBPtr->IsSupported[ProgramCsrComparator] = TRUE;
+  NBPtr->IsSupported[AdjustTrp] = TRUE; // erratum 638
+  NBPtr->IsSupported[ForcePhyToM0] = TRUE;
+
+  NBPtr->FamilySpecificHook[ExitPhyAssistedTraining] = MemNExitPhyAssistedTrainingTN;
+  NBPtr->FamilySpecificHook[DCTSelectSwitch] = MemNDctCfgSelectUnb;
+  NBPtr->FamilySpecificHook[AfterSaveRestore] = MemNAfterSaveRestoreUnb;
+  NBPtr->FamilySpecificHook[OverrideRcvEnSeed] = MemNOverrideRcvEnSeedTN;
+  NBPtr->FamilySpecificHook[OverrideWLSeed] = MemNOverrideWLSeedTN;
+  NBPtr->FamilySpecificHook[CalcWrDqDqsEarly] = MemNCalcWrDqDqsEarlyUnb;
+  NBPtr->FamilySpecificHook[AdjustRdDqsDlyOffset] = MemNAdjustRdDqsDlyOffsetUnb;
+  NBPtr->FamilySpecificHook[GetDdrMaxRate] = MemNGetMaxDdrRateUnb;
+  NBPtr->FamilySpecificHook[SetSkewMemClk] = MemNSetSkewMemClkUnb;
+  NBPtr->FamilySpecificHook[AfterMemClkFreqVal] = MemNAdjustPllLockTimeTN;
+  NBPtr->FamilySpecificHook[AdjustCSIntLvLowAddr] = MemNCSIntLvLowAddrAdjTN;
+  NBPtr->FamilySpecificHook[ReleaseNbPstate] = MemNReleaseNbPstateTN;
+  NBPtr->FamilySpecificHook[InitializeRxEnSeedlessTraining] = MemNInitializeRxEnSeedlessTrainingUnb;
+  NBPtr->FamilySpecificHook[TrackRxEnSeedlessRdWrNoWindBLError] = MemNTrackRxEnSeedlessRdWrNoWindBLErrorUnb;
+  NBPtr->FamilySpecificHook[TrackRxEnSeedlessRdWrSmallWindBLError] = MemNTrackRxEnSeedlessRdWrSmallWindBLErrorUnb;
+  NBPtr->FamilySpecificHook[InitialzeRxEnSeedlessByteLaneError] = MemNInitialzeRxEnSeedlessByteLaneErrorUnb;
+  NBPtr->FamilySpecificHook[MemPstateStageChange] = MemNMemPstateStageChangeTN;
+  NBPtr->FamilySpecificHook[ProgramFence2RxDll] = MemNProgramFence2RxDllTN;
+  NBPtr->FamilySpecificHook[RdDqsDlyRestartChk] = MemNRdDqsDlyRestartChkTN;
+  NBPtr->FamilySpecificHook[BeforeWrDatTrn] = MemNHookBfWrDatTrnTN;
+  NBPtr->FamilySpecificHook[RegAccessFence] = MemNRegAccessFenceTN;
+  NBPtr->FamilySpecificHook[AdjustWrDqsBeforeSeedScaling] = MemNAdjustWrDqsBeforeSeedScalingUnb;
+  NBPtr->FamilySpecificHook[WLMR1] = MemNWLMR1TN;
+}
+
+/* -----------------------------------------------------------------------------*/
+/**
+ *
+ *
+ *   This function initializes the default values in the MEM_DATA_STRUCT
+ *
+ *     @param[in,out]   *MemPtr  - Pointer to the MEM_DATA_STRUCT
+ *
+ */
+VOID
+MemNInitDefaultsTN (
+  IN OUT   MEM_DATA_STRUCT *MemPtr
+  )
+{
+  UINT8 Socket;
+  UINT8 Channel;
+  MEM_PARAMETER_STRUCT *RefPtr;
+  ASSERT (MemPtr != NULL);
+  RefPtr = MemPtr->ParameterListPtr;
+
+  // Memory Map/Mgt.
+  // Mask Bottom IO with 0xF8 to force hole size to have granularity of 128MB
+  RefPtr->BottomIo = 0xE0;
+  RefPtr->UmaMode = UserOptions.CfgUmaMode;
+  RefPtr->UmaSize = UserOptions.CfgUmaSize;
+  RefPtr->MemHoleRemapping = TRUE;
+  RefPtr->LimitMemoryToBelow1Tb = UserOptions.CfgLimitMemoryToBelow1Tb;
+
+  // Dram Timing
+  RefPtr->UserTimingMode = UserOptions.CfgTimingModeSelect;
+  RefPtr->MemClockValue = UserOptions.CfgMemoryClockSelect;
+  for (Socket = 0; Socket < MAX_SOCKETS_SUPPORTED; Socket++) {
+    for (Channel = 0; Channel < MAX_CHANNELS_PER_SOCKET; Channel++) {
+      MemPtr->SocketList[Socket].ChannelPtr[Channel] = NULL;
+      MemPtr->SocketList[Socket].TimingsPtr[Channel] = NULL;
+    }
+  }
+
+  // Memory Clear
+  RefPtr->EnableMemClr = TRUE;
+
+  // TableBasedAlterations
+  RefPtr->TableBasedAlterations = NULL;
+
+  // Platform config table
+  RefPtr->PlatformMemoryConfiguration = DefaultPlatformMemoryConfiguration;
+
+  // Memory Restore
+  RefPtr->MemRestoreCtl = FALSE;
+  RefPtr->SaveMemContextCtl = FALSE;
+  AmdS3ParamsInitializer (&RefPtr->MemContext);
+
+  // Dram Configuration
+  RefPtr->EnableBankIntlv = UserOptions.CfgMemoryEnableBankInterleaving;
+  RefPtr->EnableNodeIntlv = UserOptions.CfgMemoryEnableNodeInterleaving;
+  RefPtr->EnableChannelIntlv = UserOptions.CfgMemoryChannelInterleaving;
+  RefPtr->EnableBankSwizzle = UserOptions.CfgBankSwizzle;
+  RefPtr->EnableParity = UserOptions.CfgMemoryParityEnable;
+  RefPtr->EnableOnLineSpareCtl = UserOptions.CfgOnlineSpare;
+
+  // Dram Power
+  RefPtr->EnablePowerDown = UserOptions.CfgMemoryPowerDown;
+
+  // ECC
+  RefPtr->EnableEccFeature = UserOptions.CfgEnableEccFeature;
+
+  // Vref
+  RefPtr->ExternalVrefCtl = UserOptions.CfgExternalVrefCtlFeature;
+
+  //Training Mode
+  RefPtr->ForceTrainMode = UserOptions.CfgForceTrainMode;
+}
+
+/*-----------------------------------------------------------------------------*/
+/**
+ *
+ *      This function writes training pattern
+ *     @param[in,out]   *NBPtr   - Pointer to the MEM_NB_BLOCK
+ *     @param[in] Pattern[] - Pattern to write
+ *     @param[in] Address - System Address [47:16]
+ *     @param[in] ClCount - Number of cache lines
+ *
+ */
+
+VOID
+MemNWritePatternTN (
+  IN OUT   MEM_NB_BLOCK *NBPtr,
+  IN       UINT32 Address,
+  IN       UINT8 Pattern[],
+  IN       UINT16 ClCount
+  )
+{
+  Address = MemUSetUpperFSbase (Address, NBPtr->MemPtr);
+  MemUWriteCachelines (Address, Pattern, ClCount);
+}
+
+/*-----------------------------------------------------------------------------*/
+/**
+ *
+ *      This function reads training pattern
+ *     @param[in,out]   *NBPtr   - Pointer to the MEM_NB_BLOCK
+ *     @param[in] Buffer[] - Buffer to fill
+ *     @param[in] Address - System Address [47:16]
+ *     @param[in] ClCount - Number of cache lines
+ *
+ */
+
+VOID
+MemNReadPatternTN (
+  IN OUT   MEM_NB_BLOCK *NBPtr,
+  IN       UINT8 Buffer[],
+  IN       UINT32 Address,
+  IN       UINT16 ClCount
+  )
+{
+  Address = MemUSetUpperFSbase (Address, NBPtr->MemPtr);
+  MemUReadCachelines (Buffer, Address, ClCount);
+}
+
+/* -----------------------------------------------------------------------------*/
+/**
+ *
+ *   This function initiates DQS training for TN
+ *
+ *     @param[in,out]   *NBPtr   - Pointer to the MEM_NB_BLOCK
+ *
+ */
+
+BOOLEAN
+memNEnableTrainSequenceTN (
+  IN OUT   MEM_NB_BLOCK *NBPtr
+  )
+{
+  BOOLEAN Retval;
+  Retval = TRUE;
+  if (!MemNIsIdSupportedTN (NBPtr, &(NBPtr->MemPtr->DiesPerSystem[NBPtr->MCTPtr->NodeId].LogicalCpuid))) {
+    Retval = FALSE;
+  }
+  return Retval;
+}
+
+/*----------------------------------------------------------------------------
+ *                              LOCAL FUNCTIONS
+ *
+ *----------------------------------------------------------------------------
+ */
+
+/* -----------------------------------------------------------------------------*/
+/**
+ *
+ *
+ *      This function makes sure that previous phy register writes are done.
+ *
+ *     @param[in,out]  *NBPtr     - Pointer to the MEM_NB_BLOCK
+ *     @param[in,out]  OptParam   - Optional parameter
+ *
+ *     @return    TRUE
+ *
+ */
+
+BOOLEAN
+STATIC
+MemNRegAccessFenceTN (
+  IN OUT   MEM_NB_BLOCK *NBPtr,
+  IN OUT   VOID *OptParam
+  )
+{
+  // If subsequent writes to this array are scheduled, such as when writing several byte lanes during dram
+  // training, then it is recommended to issue a dummy register read to ensure the last write.
+  NBPtr->GetTrainDly (NBPtr, AccessRcvEnDly, DIMM_BYTE_ACCESS (0, 0));
+
+  return TRUE;
+}