src/vendorcode/amd/agesa/f15tn/Proc/Mem/Ps/mprtt.c - mirrors/cros/chromiumos/third_party/coreboot - Git at Google

 /* $NoKeywords:$ */
 /**
  * @file
  *
  * mprtt.c
  *
  * A sub-engine which extracts RttNom and RttWr (Dram Term and Dynamic Dram Term) value.
  *
  * @xrefitem bom "File Content Label" "Release Content"
  * @e project: AGESA
  * @e sub-project: (Mem/Ps)
  * @e \$Revision: 63425 $ @e \$Date: 2011-12-22 11:24:10 -0600 (Thu, 22 Dec 2011) $
  *
  **/
 /*****************************************************************************
 *
 * 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 "cpuFamRegisters.h"
 #include "cpuRegisters.h"
 #include "OptionMemory.h"
 #include "PlatformMemoryConfiguration.h"
 #include "mu.h"
 #include "ma.h"
 #include "mp.h"
 #include "merrhdl.h"
 #include "GeneralServices.h"
 #include "Filecode.h"
 CODE_GROUP (G2_PEI)
 RDATA_GROUP (G2_PEI)

 #define FILECODE PROC_MEM_PS_MPRTT_FILECODE


 /*----------------------------------------------------------------------------
  *                          DEFINITIONS AND MACROS
  *
  *----------------------------------------------------------------------------
  */
 #define _DONT_CARE 0xFF

 /*----------------------------------------------------------------------------
  *                           TYPEDEFS AND STRUCTURES
  *
  *----------------------------------------------------------------------------
  */
 /*----------------------------------------------------------------------------
  *                        PROTOTYPES OF LOCAL FUNCTIONS
  *
  *----------------------------------------------------------------------------
  */
 BOOLEAN
 MemPGetRttNomWr (
   IN OUT   MEM_NB_BLOCK *NBPtr,
   IN       MEM_PSC_TABLE_BLOCK *EntryOfTables
   );
 /*----------------------------------------------------------------------------
  *                            EXPORTED FUNCTIONS
  *
  *----------------------------------------------------------------------------
  */
 /* -----------------------------------------------------------------------------*/
 /**
  *
  *    A sub-function which extracts RttNom and RttWr value from a input table and stores extracted
  *    value to a specific address.
  *
  *     @param[in,out]   *NBPtr   - Pointer to the MEM_NB_BLOCK
  *     @param[in]       *EntryOfTables     - Pointer to MEM_PSC_TABLE_BLOCK
  *
  *     @return          TRUE - Table values can be extracted for all present dimms/ranks
  *     @return          FALSE - Table values cannot be extracted for all present dimms/ranks
  *
  */
 BOOLEAN
 MemPGetRttNomWr (
   IN OUT   MEM_NB_BLOCK *NBPtr,
   IN       MEM_PSC_TABLE_BLOCK *EntryOfTables
   )
 {
   UINT8 i;
   UINT8 MaxDimmPerCh;
   UINT8 MaxDimmSlotPerCh;
   UINT8 NOD;
   UINT8 TableSize;
   UINT32 CurDDRrate;
   UINT8 DDR3Voltage;
   UINT16 RankTypeOfPopulatedDimm;
   UINT16 RankTypeInTable;
   DIMM_TYPE DimmType;
   CPU_LOGICAL_ID LogicalCpuid;
   UINT8 PackageType;
   UINT8 TgtDimmType;
   UINT8 TgtRank;
   UINT8 Chipsel;
   UINT8 PsoCsMaskRtt;
   UINT16 PsoCsMaskRtt16;
   UINT8 NoEntryCsMask;
   PSCFG_RTT_ENTRY *TblPtr;
   PSCFG_RTT_ENTRY *OrgTblPtr;
   CH_DEF_STRUCT *CurrentChannel;

   CurrentChannel = NBPtr->ChannelPtr;

   PsoCsMaskRtt = 0;
   NoEntryCsMask = 0;
   TblPtr = NULL;
   TableSize = 0;
   PackageType = 0;
   LogicalCpuid.Family = AMD_FAMILY_UNKNOWN;

   MaxDimmPerCh = GetMaxDimmsPerChannel (NBPtr->RefPtr->PlatformMemoryConfiguration, NBPtr->MCTPtr->SocketId, CurrentChannel->ChannelID);
   MaxDimmSlotPerCh = MaxDimmPerCh - GetMaxSolderedDownDimmsPerChannel (NBPtr->RefPtr->PlatformMemoryConfiguration,
                                                                        NBPtr->MCTPtr->SocketId, CurrentChannel->ChannelID);

   if (CurrentChannel->RegDimmPresent != 0) {
     DimmType = RDIMM_TYPE;
   } else if (CurrentChannel->SODimmPresent != 0) {
     DimmType = SODIMM_TYPE;
   } else if (CurrentChannel->LrDimmPresent != 0) {
     DimmType = LRDIMM_TYPE;
   } else {
     DimmType = UDIMM_TYPE;
   }

   // Check if it is "SODIMM plus soldered-down DRAM" or "Soldered-down DRAM only" configuration,
   // DimmType is changed to 'SODWN_SODIMM_TYPE' if soldered-down DRAM exist
   if (MaxDimmSlotPerCh != MaxDimmPerCh) {
     // SODIMM plus soldered-down DRAM
     DimmType = SODWN_SODIMM_TYPE;
   } else if (FindPSOverrideEntry (NBPtr->RefPtr->PlatformMemoryConfiguration, PSO_SOLDERED_DOWN_SODIMM_TYPE, NBPtr->MCTPtr->SocketId, NBPtr->ChannelPtr->ChannelID, 0, NULL, NULL) != NULL) {
     // Soldered-down DRAM only
     DimmType = SODWN_SODIMM_TYPE;
     MaxDimmSlotPerCh = 0;
   }
   NOD = (UINT8) (MaxDimmSlotPerCh != 0) ? (1 << (MaxDimmSlotPerCh - 1)) : _DIMM_NONE;

   i = 0;
   // Obtain table pointer, table size, Logical Cpuid and PSC type according to Dimm, NB and package type.
   while (EntryOfTables->TblEntryOfDramTerm[i] != NULL) {
     if (((EntryOfTables->TblEntryOfDramTerm[i])->Header.DimmType & DimmType) != 0) {
       if (((EntryOfTables->TblEntryOfDramTerm[i])->Header.NumOfDimm & NOD) != 0) {
         //
         // Determine if this is the expected NB Type
         //
         LogicalCpuid = (EntryOfTables->TblEntryOfDramTerm[i])->Header.LogicalCpuid;
         PackageType = (EntryOfTables->TblEntryOfDramTerm[i])->Header.PackageType;
         if (MemPIsIdSupported (NBPtr, LogicalCpuid, PackageType)) {
           TblPtr = (PSCFG_RTT_ENTRY *) ((EntryOfTables->TblEntryOfDramTerm[i])->TBLPtr);
           TableSize = (EntryOfTables->TblEntryOfDramTerm[i])->TableSize;
           break;
         }
       }
     }
     i++;
   }

   // Check whether no table entry is found.
   if (EntryOfTables->TblEntryOfDramTerm[i] == NULL) {
     IDS_HDT_CONSOLE (MEM_FLOW, "\nNo RTT table\n");
     return FALSE;
   }

   CurDDRrate = (UINT32) (1 << (CurrentChannel->DCTPtr->Timings.Speed / 66));
   DDR3Voltage = (UINT8) (1 << CONVERT_VDDIO_TO_ENCODED (NBPtr->RefPtr->DDR3Voltage));
   RankTypeOfPopulatedDimm = MemPGetPsRankType (CurrentChannel);

   OrgTblPtr = TblPtr;
   for (Chipsel = 0; Chipsel < MAX_CS_PER_CHANNEL; Chipsel++) {
     TblPtr = OrgTblPtr;
     if ((NBPtr->DCTPtr->Timings.CsPresent & (UINT16) (1 << Chipsel)) != 0) {
       if ((CurrentChannel->DimmQrPresent & (UINT8) (1 << (Chipsel >> 1))) != 0) {
         TgtDimmType = DIMM_QR;
         TgtRank = (UINT8) ((Chipsel < 4) ? 1 << (Chipsel & 1) : 4 << (Chipsel & 1));
       } else if ((CurrentChannel->DimmDrPresent & (UINT8) (1 << (Chipsel >> 1))) != 0) {
         TgtDimmType = DIMM_DR;
         TgtRank = (UINT8) 1 << (Chipsel & 1);
       } else {
         TgtDimmType = DIMM_SR;
         TgtRank = (UINT8) 1 << (Chipsel & 1);
       }

       if (DimmType == LRDIMM_TYPE) {
         TgtDimmType = _DONT_CARE;
         TgtRank = _DONT_CARE;
       }

       for (i = 0; i < TableSize; i++) {
         MemPConstructRankTypeMap ((UINT16) TblPtr->Dimm0, (UINT16) TblPtr->Dimm1, (UINT16) TblPtr->Dimm2, &RankTypeInTable);
         if ((TblPtr->DimmPerCh & NOD) != 0) {
           if ((TblPtr->DDRrate & CurDDRrate) != 0) {
             if ((TblPtr->VDDIO & DDR3Voltage) != 0) {
               if ((RankTypeInTable & RankTypeOfPopulatedDimm) == RankTypeOfPopulatedDimm) {
                 if (((TblPtr->Dimm & TgtDimmType) != 0) || (TgtDimmType == _DONT_CARE)) {
                   if (((TblPtr->Rank & TgtRank) != 0) || (TgtRank == _DONT_CARE)) {
                     NBPtr->PsPtr->RttNom[Chipsel] = (UINT8) TblPtr->RttNom;
                     NBPtr->PsPtr->RttWr[Chipsel] = (UINT8) TblPtr->RttWr;
                     break;
                   }
                 }
               }
             }
           }
         }
         TblPtr++;
       }
       // Record which Cs(s) have no entries. Later on, we will check if there are overriding values for them.
       if ((i == TableSize) && (NBPtr->SharedPtr->VoltageMap == VDDIO_DETERMINED)) {
         NoEntryCsMask |= (UINT8) 1 << Chipsel;
       }
     }
   }

   PsoCsMaskRtt16 = MemPProceedTblDrvOverride (NBPtr, NBPtr->RefPtr->PlatformMemoryConfiguration, PSO_TBLDRV_ODT_RTTNOM);
   PsoCsMaskRtt16 &= MemPProceedTblDrvOverride (NBPtr, NBPtr->RefPtr->PlatformMemoryConfiguration, PSO_TBLDRV_ODT_RTTWR);
   //
   // Check to see if invalid entry exist ?
   //
   if ((PsoCsMaskRtt16 & INVALID_CONFIG_FLAG) != 0) {
     IDS_HDT_CONSOLE (MEM_FLOW, "\nInvalid entry is found\n\n");
     return FALSE;
   }

   //
   // If there are no entries for certain Cs(s), we need to check if overriding values (both RttNom and RttWr) existed for them.
   // Otherwise, return FALSE.
   //
   PsoCsMaskRtt = (UINT8) PsoCsMaskRtt16;
   if (NoEntryCsMask != 0) {
     if ((PsoCsMaskRtt & NoEntryCsMask) != NoEntryCsMask) {
       IDS_HDT_CONSOLE (MEM_FLOW, "\nNo Rtt entries\n");
       PutEventLog (AGESA_ERROR, MEM_ERROR_RTT_NOT_FOUND, NBPtr->Node, NBPtr->Dct, NBPtr->Channel, 0, &NBPtr->MemPtr->StdHeader);
       SetMemError (AGESA_ERROR, NBPtr->MCTPtr);
       if (!NBPtr->MemPtr->ErrorHandling (NBPtr->MCTPtr, NBPtr->Dct, EXCLUDE_ALL_CHIPSEL, &NBPtr->MemPtr->StdHeader)) {
         ASSERT (FALSE);
       }
       return FALSE;
     }
   }

   return TRUE;
 }
	/* $NoKeywords:$ */
	/**
	* @file
	*
	* mprtt.c
	*
	* A sub-engine which extracts RttNom and RttWr (Dram Term and Dynamic Dram Term) value.
	*
	* @xrefitem bom "File Content Label" "Release Content"
	* @e project: AGESA
	* @e sub-project: (Mem/Ps)
	* @e \$Revision: 63425 $ @e \$Date: 2011-12-22 11:24:10 -0600 (Thu, 22 Dec 2011) $
	*
	**/
	/*****************************************************************************
	*
	* 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 "cpuFamRegisters.h"
	#include "cpuRegisters.h"
	#include "OptionMemory.h"
	#include "PlatformMemoryConfiguration.h"
	#include "mu.h"
	#include "ma.h"
	#include "mp.h"
	#include "merrhdl.h"
	#include "GeneralServices.h"
	#include "Filecode.h"
	CODE_GROUP (G2_PEI)
	RDATA_GROUP (G2_PEI)

	#define FILECODE PROC_MEM_PS_MPRTT_FILECODE


	/*----------------------------------------------------------------------------
	* DEFINITIONS AND MACROS
	*
	*----------------------------------------------------------------------------
	*/
	#define _DONT_CARE 0xFF

	/*----------------------------------------------------------------------------
	* TYPEDEFS AND STRUCTURES
	*
	*----------------------------------------------------------------------------
	*/
	/*----------------------------------------------------------------------------
	* PROTOTYPES OF LOCAL FUNCTIONS
	*
	*----------------------------------------------------------------------------
	*/
	BOOLEAN
	MemPGetRttNomWr (
	IN OUT MEM_NB_BLOCK *NBPtr,
	IN MEM_PSC_TABLE_BLOCK *EntryOfTables
	);
	/*----------------------------------------------------------------------------
	* EXPORTED FUNCTIONS
	*
	*----------------------------------------------------------------------------
	*/
	/* -----------------------------------------------------------------------------*/
	/**
	*
	* A sub-function which extracts RttNom and RttWr value from a input table and stores extracted
	* value to a specific address.
	*
	* @param[in,out] *NBPtr - Pointer to the MEM_NB_BLOCK
	* @param[in] *EntryOfTables - Pointer to MEM_PSC_TABLE_BLOCK
	*
	* @return TRUE - Table values can be extracted for all present dimms/ranks
	* @return FALSE - Table values cannot be extracted for all present dimms/ranks
	*
	*/
	BOOLEAN
	MemPGetRttNomWr (
	IN OUT MEM_NB_BLOCK *NBPtr,
	IN MEM_PSC_TABLE_BLOCK *EntryOfTables
	)
	{
	UINT8 i;
	UINT8 MaxDimmPerCh;
	UINT8 MaxDimmSlotPerCh;
	UINT8 NOD;
	UINT8 TableSize;
	UINT32 CurDDRrate;
	UINT8 DDR3Voltage;
	UINT16 RankTypeOfPopulatedDimm;
	UINT16 RankTypeInTable;
	DIMM_TYPE DimmType;
	CPU_LOGICAL_ID LogicalCpuid;
	UINT8 PackageType;
	UINT8 TgtDimmType;
	UINT8 TgtRank;
	UINT8 Chipsel;
	UINT8 PsoCsMaskRtt;
	UINT16 PsoCsMaskRtt16;
	UINT8 NoEntryCsMask;
	PSCFG_RTT_ENTRY *TblPtr;
	PSCFG_RTT_ENTRY *OrgTblPtr;
	CH_DEF_STRUCT *CurrentChannel;

	CurrentChannel = NBPtr->ChannelPtr;

	PsoCsMaskRtt = 0;
	NoEntryCsMask = 0;
	TblPtr = NULL;
	TableSize = 0;
	PackageType = 0;
	LogicalCpuid.Family = AMD_FAMILY_UNKNOWN;

	MaxDimmPerCh = GetMaxDimmsPerChannel (NBPtr->RefPtr->PlatformMemoryConfiguration, NBPtr->MCTPtr->SocketId, CurrentChannel->ChannelID);
	MaxDimmSlotPerCh = MaxDimmPerCh - GetMaxSolderedDownDimmsPerChannel (NBPtr->RefPtr->PlatformMemoryConfiguration,
	NBPtr->MCTPtr->SocketId, CurrentChannel->ChannelID);

	if (CurrentChannel->RegDimmPresent != 0) {
	DimmType = RDIMM_TYPE;
	} else if (CurrentChannel->SODimmPresent != 0) {
	DimmType = SODIMM_TYPE;
	} else if (CurrentChannel->LrDimmPresent != 0) {
	DimmType = LRDIMM_TYPE;
	} else {
	DimmType = UDIMM_TYPE;
	}

	// Check if it is "SODIMM plus soldered-down DRAM" or "Soldered-down DRAM only" configuration,
	// DimmType is changed to 'SODWN_SODIMM_TYPE' if soldered-down DRAM exist
	if (MaxDimmSlotPerCh != MaxDimmPerCh) {
	// SODIMM plus soldered-down DRAM
	DimmType = SODWN_SODIMM_TYPE;
	} else if (FindPSOverrideEntry (NBPtr->RefPtr->PlatformMemoryConfiguration, PSO_SOLDERED_DOWN_SODIMM_TYPE, NBPtr->MCTPtr->SocketId, NBPtr->ChannelPtr->ChannelID, 0, NULL, NULL) != NULL) {
	// Soldered-down DRAM only
	DimmType = SODWN_SODIMM_TYPE;
	MaxDimmSlotPerCh = 0;
	}
	NOD = (UINT8) (MaxDimmSlotPerCh != 0) ? (1 << (MaxDimmSlotPerCh - 1)) : _DIMM_NONE;

	i = 0;
	// Obtain table pointer, table size, Logical Cpuid and PSC type according to Dimm, NB and package type.
	while (EntryOfTables->TblEntryOfDramTerm[i] != NULL) {
	if (((EntryOfTables->TblEntryOfDramTerm[i])->Header.DimmType & DimmType) != 0) {
	if (((EntryOfTables->TblEntryOfDramTerm[i])->Header.NumOfDimm & NOD) != 0) {
	//
	// Determine if this is the expected NB Type
	//
	LogicalCpuid = (EntryOfTables->TblEntryOfDramTerm[i])->Header.LogicalCpuid;
	PackageType = (EntryOfTables->TblEntryOfDramTerm[i])->Header.PackageType;
	if (MemPIsIdSupported (NBPtr, LogicalCpuid, PackageType)) {
	TblPtr = (PSCFG_RTT_ENTRY *) ((EntryOfTables->TblEntryOfDramTerm[i])->TBLPtr);
	TableSize = (EntryOfTables->TblEntryOfDramTerm[i])->TableSize;
	break;
	}
	}
	}
	i++;
	}

	// Check whether no table entry is found.
	if (EntryOfTables->TblEntryOfDramTerm[i] == NULL) {
	IDS_HDT_CONSOLE (MEM_FLOW, "\nNo RTT table\n");
	return FALSE;
	}

	CurDDRrate = (UINT32) (1 << (CurrentChannel->DCTPtr->Timings.Speed / 66));
	DDR3Voltage = (UINT8) (1 << CONVERT_VDDIO_TO_ENCODED (NBPtr->RefPtr->DDR3Voltage));
	RankTypeOfPopulatedDimm = MemPGetPsRankType (CurrentChannel);

	OrgTblPtr = TblPtr;
	for (Chipsel = 0; Chipsel < MAX_CS_PER_CHANNEL; Chipsel++) {
	TblPtr = OrgTblPtr;
	if ((NBPtr->DCTPtr->Timings.CsPresent & (UINT16) (1 << Chipsel)) != 0) {
	if ((CurrentChannel->DimmQrPresent & (UINT8) (1 << (Chipsel >> 1))) != 0) {
	TgtDimmType = DIMM_QR;
	TgtRank = (UINT8) ((Chipsel < 4) ? 1 << (Chipsel & 1) : 4 << (Chipsel & 1));
	} else if ((CurrentChannel->DimmDrPresent & (UINT8) (1 << (Chipsel >> 1))) != 0) {
	TgtDimmType = DIMM_DR;
	TgtRank = (UINT8) 1 << (Chipsel & 1);
	} else {
	TgtDimmType = DIMM_SR;
	TgtRank = (UINT8) 1 << (Chipsel & 1);
	}

	if (DimmType == LRDIMM_TYPE) {
	TgtDimmType = _DONT_CARE;
	TgtRank = _DONT_CARE;
	}

	for (i = 0; i < TableSize; i++) {
	MemPConstructRankTypeMap ((UINT16) TblPtr->Dimm0, (UINT16) TblPtr->Dimm1, (UINT16) TblPtr->Dimm2, &RankTypeInTable);
	if ((TblPtr->DimmPerCh & NOD) != 0) {
	if ((TblPtr->DDRrate & CurDDRrate) != 0) {
	if ((TblPtr->VDDIO & DDR3Voltage) != 0) {
	if ((RankTypeInTable & RankTypeOfPopulatedDimm) == RankTypeOfPopulatedDimm) {
	if (((TblPtr->Dimm & TgtDimmType) != 0) \|\| (TgtDimmType == _DONT_CARE)) {
	if (((TblPtr->Rank & TgtRank) != 0) \|\| (TgtRank == _DONT_CARE)) {
	NBPtr->PsPtr->RttNom[Chipsel] = (UINT8) TblPtr->RttNom;
	NBPtr->PsPtr->RttWr[Chipsel] = (UINT8) TblPtr->RttWr;
	break;
	}
	}
	}
	}
	}
	}
	TblPtr++;
	}
	// Record which Cs(s) have no entries. Later on, we will check if there are overriding values for them.
	if ((i == TableSize) && (NBPtr->SharedPtr->VoltageMap == VDDIO_DETERMINED)) {
	NoEntryCsMask \|= (UINT8) 1 << Chipsel;
	}
	}
	}

	PsoCsMaskRtt16 = MemPProceedTblDrvOverride (NBPtr, NBPtr->RefPtr->PlatformMemoryConfiguration, PSO_TBLDRV_ODT_RTTNOM);
	PsoCsMaskRtt16 &= MemPProceedTblDrvOverride (NBPtr, NBPtr->RefPtr->PlatformMemoryConfiguration, PSO_TBLDRV_ODT_RTTWR);
	//
	// Check to see if invalid entry exist ?
	//
	if ((PsoCsMaskRtt16 & INVALID_CONFIG_FLAG) != 0) {
	IDS_HDT_CONSOLE (MEM_FLOW, "\nInvalid entry is found\n\n");
	return FALSE;
	}

	//
	// If there are no entries for certain Cs(s), we need to check if overriding values (both RttNom and RttWr) existed for them.
	// Otherwise, return FALSE.
	//
	PsoCsMaskRtt = (UINT8) PsoCsMaskRtt16;
	if (NoEntryCsMask != 0) {
	if ((PsoCsMaskRtt & NoEntryCsMask) != NoEntryCsMask) {
	IDS_HDT_CONSOLE (MEM_FLOW, "\nNo Rtt entries\n");
	PutEventLog (AGESA_ERROR, MEM_ERROR_RTT_NOT_FOUND, NBPtr->Node, NBPtr->Dct, NBPtr->Channel, 0, &NBPtr->MemPtr->StdHeader);
	SetMemError (AGESA_ERROR, NBPtr->MCTPtr);
	if (!NBPtr->MemPtr->ErrorHandling (NBPtr->MCTPtr, NBPtr->Dct, EXCLUDE_ALL_CHIPSEL, &NBPtr->MemPtr->StdHeader)) {
	ASSERT (FALSE);
	}
	return FALSE;
	}
	}

	return TRUE;
	}