src/vendorcode/amd/agesa/f15/Proc/Mem/NB/DR/mndctdr.c - mirrors/cros/chromiumos/third_party/coreboot - Git at Google

 /* $NoKeywords:$ */
 /**
  * @file
  *
  * mndctdr.c
  *
  * Northbridge DR DCT supporting functions
  *
  * @xrefitem bom "File Content Label" "Release Content"
  * @e project: AGESA
  * @e sub-project: (Mem/NB/DR)
  * @e \$Revision: 56279 $ @e \$Date: 2011-07-11 13:11:28 -0600 (Mon, 11 Jul 2011) $
  *
  **/
 /*****************************************************************************
 *
 * Copyright (C) 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.
 *
 * ***************************************************************************
 *
 */


 /*
  *----------------------------------------------------------------------------
  *                                MODULES USED
  *
  *----------------------------------------------------------------------------
  */


 #include "AGESA.h"
 #include "amdlib.h"
 #include "Ids.h"
 #include "cpuFamRegisters.h"
 #include "mport.h"
 #include "mm.h"
 #include "mn.h"
 #include "mt.h"
 #include "mu.h"
 #include "OptionMemory.h"       // need def for MEM_FEAT_BLOCK_NB
 #include "mndr.h"
 #include "merrhdl.h"
 #include "OptionMemory.h"
 #include "Filecode.h"
 CODE_GROUP (G1_PEICC)
 RDATA_GROUP (G2_PEI)

 #define FILECODE PROC_MEM_NB_DR_MNDCTDR_FILECODE
 /*----------------------------------------------------------------------------
  *                          DEFINITIONS AND MACROS
  *
  *----------------------------------------------------------------------------
  */
 #define UNUSED_CLK 4

 /*----------------------------------------------------------------------------
  *                           TYPEDEFS AND STRUCTURES
  *
  *----------------------------------------------------------------------------
  */

 /*----------------------------------------------------------------------------
  *                        PROTOTYPES OF LOCAL FUNCTIONS
  *
  *----------------------------------------------------------------------------
  */

 VOID
 STATIC
 MemTCtlOnDimmMirrorDr (
   IN OUT   MEM_NB_BLOCK *NBPtr,
   IN       BOOLEAN SetFlag
   );
 /*----------------------------------------------------------------------------
  *                            EXPORTED FUNCTIONS
  *
  *----------------------------------------------------------------------------
  */

 extern BUILD_OPT_CFG UserOptions;


 /* -----------------------------------------------------------------------------*/
 /**
  *
  *
  *      This function programs the memory controller with configuration parameters
  *
  *
  *     @param[in,out]   *NBPtr   - Pointer to the MEM_NB_BLOCK
  *
  *     @return          TRUE - An Error value lower than AGESA_FATAL may have occurred
  *     @return          FALSE - An Error value greater than or equal to AGESA_FATAL may have occurred
  *     @return          NBPtr->MCTPtr->ErrCode - Contains detailed AGESA_STATUS value
  */

 BOOLEAN
 memNAutoConfigDr (
   IN OUT   MEM_NB_BLOCK *NBPtr
   )
 {
   DIE_STRUCT *MCTPtr;
   DCT_STRUCT *DCTPtr;
   MEM_PARAMETER_STRUCT *RefPtr;

   RefPtr = NBPtr->RefPtr;
   MCTPtr = NBPtr->MCTPtr;
   DCTPtr = NBPtr->DCTPtr;
   //======================================================================
   // Build Dram Control Register Value (F2x78)
   //======================================================================
   //

   MemNSetBitFieldNb (NBPtr, BFRdPtrInit, 6);
   MemNSetBitFieldNb (NBPtr, BFDataTxFifoWrDly, 0);

   MemNSetBitFieldNb (NBPtr, BFEarlyArbEn, 1);

   //======================================================================
   // Build Dram Config Lo Register Value
   //======================================================================
   //


   if (MCTPtr->Status[SbParDimms]) {
     //
     // SbParDimms should be set for all DDR3 RDIMMS or DDR2 that support parity
     // Cannot turn off ParEn for DDR3
     //
     //@attention - add debug option for parity control
     if ((MemNGetBitFieldNb (NBPtr, BFDdr3Mode)!= 0) || (RefPtr->EnableParity)) {
       MemNSetBitFieldNb (NBPtr, BFParEn, 1);
     }
   }

   if (MCTPtr->GangedMode) {
     MemNSetBitFieldNb (NBPtr, BFWidth128, 1);
   }

   MemNSetBitFieldNb (NBPtr, BFX4Dimm, DCTPtr->Timings.Dimmx4Present & 0xF);

   if (!MCTPtr->Status[SbRegistered]) {
     MemNSetBitFieldNb (NBPtr, BFUnBuffDimm, 1);
   }

   if (MCTPtr->Status[SbEccDimms]) {
     MemNSetBitFieldNb (NBPtr, BFDimmEccEn, 1);
   }

   //======================================================================
   // Build Dram Config Hi Register Value
   //======================================================================
   //

   MemNSetBitFieldNb (NBPtr, BFMemClkFreq, MemNGetMemClkFreqIdNb (NBPtr, DCTPtr->Timings.Speed));

   if (MCTPtr->Status[SbRegistered]) {
     if (DCTPtr->Timings.Dimmx4Present && DCTPtr->Timings.Dimmx8Present) {
       MemNSetBitFieldNb (NBPtr, BFRDqsEn, 1);
     }
   }

   if (RefPtr->EnableBankSwizzle) {
     MemNSetBitFieldNb (NBPtr, BFBankSwizzleMode, 1);
   }

   if (DCTPtr->Timings.DimmQrPresent) {
     if (UserOptions.CfgMemoryQuadrankType == QUADRANK_UNBUFFERED) {
       MemNSetBitFieldNb (NBPtr, BFFourRankSoDimm, 1);
     } else if (UserOptions.CfgMemoryQuadrankType == QUADRANK_REGISTERED) {
       MemNSetBitFieldNb (NBPtr, BFFourRankRDimm, 1);
     }
   }

   MemNSetBitFieldNb (NBPtr, BFDcqBypassMax, 0xF);

   MemNSetBitFieldNb (NBPtr, BFDcqArbBypassEn, 1);

   //======================================================================
   // Build Dram Config Misc Register Value
   //======================================================================
   //
   MemNSetBitFieldNb (NBPtr, BFOdtSwizzle, 1);
   // For DDR3 Registered Dimms
   if (MCTPtr->Status[SbRegistered]) {
     if (MemNGetBitFieldNb (NBPtr, BFDdr3Mode)!= 0) {
       MemNSetBitFieldNb (NBPtr, BFSubMemclkRegDly, 1);
     }
   }
   return (BOOLEAN) (MCTPtr->ErrCode < AGESA_FATAL);
 }
 /*----------------------------------------------------------------------------
  *                              LOCAL FUNCTIONS
  *
  *----------------------------------------------------------------------------
  */

 /* -----------------------------------------------------------------------------*/
 /**
  *
  *
  *   This is a general purpose function that executes before DRAM init
  *
  *     @param[in,out]   *NBPtr   - Pointer to the MEM_NB_BLOCK
  *
  */

 VOID
 MemNBeforeDramInitDr (
   IN OUT   MEM_NB_BLOCK *NBPtr
   )
 {
 }

 /* -----------------------------------------------------------------------------*/
 /**
  *
  *
  *   This function sends an MRS command
  *
  *     @param[in,out]   *NBPtr   - Pointer to the MEM_NB_BLOCK
  *
  */

 VOID
 MemNSendMrsCmdDr (
   IN OUT   MEM_NB_BLOCK *NBPtr
   )
 {
   BOOLEAN ClearODM;

   ClearODM = FALSE;
   if ((NBPtr->MCTPtr->LogicalCpuid.Revision & AMD_F10_C0) != 0) {
     if (MemNGetBitFieldNb (NBPtr, BFEnDramInit) == 0) {
       // For C0, if EnDramInit bit is cleared, ODM needs to be cleared before sending MRS
       MemTCtlOnDimmMirrorDr (NBPtr, FALSE);
       ClearODM = TRUE;
     }
   }

   MemNSwapBitsNb (NBPtr);

   IDS_HDT_CONSOLE (MEM_FLOW, "\t\t\tCS%d MR%d %04x\n",
               (MemNGetBitFieldNb (NBPtr, BFDramInitRegReg) >> 20) & 0xF,
               (MemNGetBitFieldNb (NBPtr, BFDramInitRegReg) >> 16) & 0xF,
               (MemNGetBitFieldNb (NBPtr, BFDramInitRegReg) & 0xFFFF));

   // 1.Set SendMrsCmd=1
   MemNSetBitFieldNb (NBPtr, BFSendMrsCmd, 1);

   // 2.Wait for SendMrsCmd=0
   MemNPollBitFieldNb (NBPtr, BFSendMrsCmd, 0, PCI_ACCESS_TIMEOUT, FALSE);

   if (ClearODM) {
     // Restore ODM if necessary
     MemTCtlOnDimmMirrorDr (NBPtr, TRUE);
   }
 }


 /* -----------------------------------------------------------------------------*/
 /**
  *
  *
  *   Workaround for erratum 322 and 263
  *
  *     @param[in,out]   *NBPtr   - Pointer to the MEM_NB_BLOCK
  *
  */
 VOID
 MemNBeforePlatformSpecDr (
   IN OUT   MEM_NB_BLOCK *NBPtr
   )
 {
   // Errata 263
   if ((NBPtr->DCTPtr->Timings.Speed == DDR533_FREQUENCY) || (NBPtr->DCTPtr->Timings.Speed == DDR667_FREQUENCY)) {
     MemNSetBitFieldNb (NBPtr, BFErr263, 0x0800);
   } else {
     MemNSetBitFieldNb (NBPtr, BFErr263, 0);
   }

   // Errata 322
   // 1.Write 00000000h to F2x[1,0]9C_xD08E000
   MemNSetBitFieldNb (NBPtr, BFErr322I, 0);
   // 2.If DRAM Configuration Register[MemClkFreq] (F2x[1,0]94[2:0]) is
   //    greater than or equal to 011b (DDR-800 and higher),
   //    then write 00000080h to F2x[1,0]9C_xD02E001,
   //    else write 00000090h to F2x[1,0]9C_xD02E001.
   MemNSetBitFieldNb (NBPtr, BFErr322II, (NBPtr->DCTPtr->Timings.Speed >= DDR800_FREQUENCY) ? 0x80 : 0x90);
 }

 /* -----------------------------------------------------------------------------*/
 /**
  *
  *      This function disables/enables F2x[1, 0][5C:40][OnDimmMirror]
  *
  *     @param[in,out]   *NBPtr   - Pointer to the MEM_NB_BLOCK
  *     @param[in]   SetFlag   - Enable or disable flag - TRUE - Enable, FALSE - DISABLE
  *
  */

 VOID
 STATIC
 MemTCtlOnDimmMirrorDr (
   IN OUT   MEM_NB_BLOCK *NBPtr,
   IN       BOOLEAN SetFlag
   )
 {
   UINT8 Chipsel;
   UINT32 CSBaseAddrReg;

   for (Chipsel = 0; Chipsel < MAX_CS_PER_CHANNEL; Chipsel += 2) {
     CSBaseAddrReg = MemNGetBitFieldNb (NBPtr, BFCSBaseAddr1Reg + Chipsel);
     if ((CSBaseAddrReg & 1) == 1) {
       if (SetFlag && ((NBPtr->DCTPtr->Timings.DimmMirrorPresent & ((UINT8) 1 << (Chipsel >> 1))) != 0)) {
         CSBaseAddrReg |= ((UINT32) 1 << BFOnDimmMirror);
       } else {
         CSBaseAddrReg &= ~((UINT32) 1 << BFOnDimmMirror);
       }
       MemNSetBitFieldNb (NBPtr, BFCSBaseAddr1Reg + Chipsel, CSBaseAddrReg);
     }
   }
 }

 /* -----------------------------------------------------------------------------*/
 /**
  *
  *
  *   This function adjusts Avg PRE value of Phy fence training according to specific CPU family.
  *
  *     @param[in,out]   *NBPtr  - Pointer to the MEM_NB_BLOCK
  *     @param[in,out]   *Value16 - Pointer to the value that we want to adjust
  *
  */

 VOID
 MemNPFenceAdjustDr (
   IN OUT   MEM_NB_BLOCK *NBPtr,
   IN OUT   INT16 *Value16
   )
 {
   if ((NBPtr->MCTPtr->LogicalCpuid.Revision & AMD_F10_C0) != 0) {
     *Value16 += 5; //for RB C0, the Avg PRE value is subtracted by 3 only.
   }
 }

 /* -----------------------------------------------------------------------------*/
 /**
  *
  *
  *      This function uses calculated values from DCT.Timings structure to
  *      program its RB registers.
  *
  *
  *     @param[in,out]   *NBPtr   - Pointer to the MEM_NB_BLOCK
  *
  */

 VOID
 MemNProgramCycTimingsDr (
   IN OUT   MEM_NB_BLOCK *NBPtr
   )
 {
   CTENTRY DDR3TmgAdjTab[] = {
     // BitField, Min, Max, Bias, Ratio_x2
     {BFTcl, 4, 12, 4, 2},
     {BFTrcd, 5, 12, 5, 2},
     {BFTrp, 5, 12, 5, 2},
     {BFTrtp, 4, 7, 4, 2},
     {BFTras, 15, 30, 15, 2},
     {BFTrc, 11, 42, 11, 2},
     {BFTwrDDR3, 5, 12, 4, 2},
     {BFTrrd, 4, 7, 4, 2},
     {BFTwtr, 4, 7, 4, 2},
     {BFFourActWindow, 16, 32, 14, 1}
   };

   CTENTRY DDR2TmgAdjTab[] = {
     // BitField, Min, Max, Bias, Ratio_x2
     {BFTcl, 3, 7, 1, 2},
     {BFTrcd, 3, 6, 3, 2},
     {BFTrp, 3, 6, 3, 4},
     {BFTrtp, 2, 3, 2, 4},
     {BFTras, 5, 18, 3, 2},
     {BFTrc, 11, 26, 11, 2},
     {BFTwr, 3, 6, 3, 2},
     {BFTrrd, 2, 5, 2, 2},
     {BFTwtr, 5, 8, 4, 2},
     {BFFourActWindow, 8, 20, 7, 2}
   };

   CTENTRY *TmgAdjTab;
   DCT_STRUCT *DCTPtr;
   UINT8  *MiniMaxTmg;
   UINT8  *MiniMaxTrfc;
   UINT8  Value8;
   UINT8  j;
   UINT8  BurstMode;
   BIT_FIELD_NAME BitField;

   DCTPtr = NBPtr->DCTPtr;

   //======================================================================
   // Program DRAM Timing values
   //======================================================================
   //
   if (MemNGetBitFieldNb (NBPtr, BFDdr3Mode) == 1) {
     TmgAdjTab = DDR3TmgAdjTab;
   } else if (DCTPtr->Timings.Speed == DDR1066_FREQUENCY) {
     // DDR2-1066 uses DDR3 table but differs in tCL
     TmgAdjTab = DDR3TmgAdjTab;
     TmgAdjTab[0].Min = 3;
     TmgAdjTab[0].Max = 7;
     TmgAdjTab[0].Bias = 1;
   } else {
     TmgAdjTab = DDR2TmgAdjTab;
   }

   MiniMaxTmg = &DCTPtr->Timings.CasL;
   for (j = 0; j < GET_SIZE_OF (TmgAdjTab); j++) {
     BitField = TmgAdjTab[j].BitField;

     if (MiniMaxTmg[j] < TmgAdjTab[j].Min) {
       MiniMaxTmg[j] = TmgAdjTab[j].Min;
     } else if (MiniMaxTmg[j] > TmgAdjTab[j].Max) {
       MiniMaxTmg[j] = TmgAdjTab[j].Max;
     }

     Value8 = (UINT8) MiniMaxTmg[j];

     if (BitField == BFTwrDDR3) {
       Value8 = (Value8 == 10) ? 9 : (Value8 == 12) ? 10 : Value8;
     } else if (BitField == BFTrtp) {
       Value8 = (DCTPtr->Timings.Speed <= DDR1066_FREQUENCY) ? 4 : (DCTPtr->Timings.Speed == DDR1333_FREQUENCY) ? 5 : 6;
     }

     Value8 = Value8 - TmgAdjTab[j].Bias;
     Value8 = (Value8 * TmgAdjTab[j].Ratio_x2) >> 1;

     MemNSetBitFieldNb (NBPtr, BitField, Value8);
   }

   MiniMaxTrfc = &DCTPtr->Timings.Trfc0;
   for (j = 0; j < 4; j++) {
     MemNSetBitFieldNb (NBPtr, BFTrfc0 + j, MiniMaxTrfc[j]);
   }

   MemNSetBitFieldNb (NBPtr, BFTref, 2);      // 7.8 us

   if (MemNGetBitFieldNb (NBPtr, BFDdr3Mode) == 1) {
     //======================================================================
     // DDR3 additional settings
     //======================================================================

     MemNSetBitFieldNb (NBPtr, BFTcwl, ((DCTPtr->Timings.Speed >= DDR800_FREQUENCY) ?
                                        (NBPtr->GetMemClkFreqId (NBPtr, DCTPtr->Timings.Speed) - 3) : 0));

     MemNSetBitFieldNb (NBPtr, BFNonSPD, 0x28FF);

     MemNSetBitFieldNb (NBPtr, BFNonSPDHi, 0x2A);

     // DrvImpCtrl: drive impedance control.01b(34 ohm driver; Ron34 = Rzq/7)
     MemNSetBitFieldNb (NBPtr, BFDrvImpCtrl, 1);

     // burst length control
     if (NBPtr->MCTPtr->Status[Sb128bitmode]) {
       MemNSetBitFieldNb (NBPtr, BFBurstCtrl, 2);
     }

     // ASR=1, auto self refresh; SRT=0
     MemNSetBitFieldNb (NBPtr, BFASR, 1);
   } else {
     //======================================================================
     // DDR2 additional settings
     //======================================================================

     MemNSetBitFieldNb (NBPtr, BFNonSPD, 0xFF77);

     BurstMode = UserOptions.CfgUseBurstMode;
     IDS_OPTION_HOOK (IDS_BURST_LENGTH32, &BurstMode, &(NBPtr->MemPtr->StdHeader));
     if (BurstMode) {
       if (!NBPtr->MCTPtr->GangedMode) {
         NBPtr->SetBitField (NBPtr, BFBurstLength32, 1);
       }
     }
   }
 }
	/* $NoKeywords:$ */
	/**
	* @file
	*
	* mndctdr.c
	*
	* Northbridge DR DCT supporting functions
	*
	* @xrefitem bom "File Content Label" "Release Content"
	* @e project: AGESA
	* @e sub-project: (Mem/NB/DR)
	* @e \$Revision: 56279 $ @e \$Date: 2011-07-11 13:11:28 -0600 (Mon, 11 Jul 2011) $
	*
	**/
	/*****************************************************************************
	*
	* Copyright (C) 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.
	*
	* ***************************************************************************
	*
	*/


	/*
	*----------------------------------------------------------------------------
	* MODULES USED
	*
	*----------------------------------------------------------------------------
	*/



	#include "AGESA.h"
	#include "amdlib.h"
	#include "Ids.h"
	#include "cpuFamRegisters.h"
	#include "mport.h"
	#include "mm.h"
	#include "mn.h"
	#include "mt.h"
	#include "mu.h"
	#include "OptionMemory.h" // need def for MEM_FEAT_BLOCK_NB
	#include "mndr.h"
	#include "merrhdl.h"
	#include "OptionMemory.h"
	#include "Filecode.h"
	CODE_GROUP (G1_PEICC)
	RDATA_GROUP (G2_PEI)

	#define FILECODE PROC_MEM_NB_DR_MNDCTDR_FILECODE
	/*----------------------------------------------------------------------------
	* DEFINITIONS AND MACROS
	*
	*----------------------------------------------------------------------------
	*/
	#define UNUSED_CLK 4

	/*----------------------------------------------------------------------------
	* TYPEDEFS AND STRUCTURES
	*
	*----------------------------------------------------------------------------
	*/

	/*----------------------------------------------------------------------------
	* PROTOTYPES OF LOCAL FUNCTIONS
	*
	*----------------------------------------------------------------------------
	*/

	VOID
	STATIC
	MemTCtlOnDimmMirrorDr (
	IN OUT MEM_NB_BLOCK *NBPtr,
	IN BOOLEAN SetFlag
	);
	/*----------------------------------------------------------------------------
	* EXPORTED FUNCTIONS
	*
	*----------------------------------------------------------------------------
	*/

	extern BUILD_OPT_CFG UserOptions;



	/* -----------------------------------------------------------------------------*/
	/**
	*
	*
	* This function programs the memory controller with configuration parameters
	*
	*
	* @param[in,out] *NBPtr - Pointer to the MEM_NB_BLOCK
	*
	* @return TRUE - An Error value lower than AGESA_FATAL may have occurred
	* @return FALSE - An Error value greater than or equal to AGESA_FATAL may have occurred
	* @return NBPtr->MCTPtr->ErrCode - Contains detailed AGESA_STATUS value
	*/

	BOOLEAN
	memNAutoConfigDr (
	IN OUT MEM_NB_BLOCK *NBPtr
	)
	{
	DIE_STRUCT *MCTPtr;
	DCT_STRUCT *DCTPtr;
	MEM_PARAMETER_STRUCT *RefPtr;

	RefPtr = NBPtr->RefPtr;
	MCTPtr = NBPtr->MCTPtr;
	DCTPtr = NBPtr->DCTPtr;
	//======================================================================
	// Build Dram Control Register Value (F2x78)
	//======================================================================
	//

	MemNSetBitFieldNb (NBPtr, BFRdPtrInit, 6);
	MemNSetBitFieldNb (NBPtr, BFDataTxFifoWrDly, 0);

	MemNSetBitFieldNb (NBPtr, BFEarlyArbEn, 1);

	//======================================================================
	// Build Dram Config Lo Register Value
	//======================================================================
	//


	if (MCTPtr->Status[SbParDimms]) {
	//
	// SbParDimms should be set for all DDR3 RDIMMS or DDR2 that support parity
	// Cannot turn off ParEn for DDR3
	//
	//@attention - add debug option for parity control
	if ((MemNGetBitFieldNb (NBPtr, BFDdr3Mode)!= 0) \|\| (RefPtr->EnableParity)) {
	MemNSetBitFieldNb (NBPtr, BFParEn, 1);
	}
	}

	if (MCTPtr->GangedMode) {
	MemNSetBitFieldNb (NBPtr, BFWidth128, 1);
	}

	MemNSetBitFieldNb (NBPtr, BFX4Dimm, DCTPtr->Timings.Dimmx4Present & 0xF);

	if (!MCTPtr->Status[SbRegistered]) {
	MemNSetBitFieldNb (NBPtr, BFUnBuffDimm, 1);
	}

	if (MCTPtr->Status[SbEccDimms]) {
	MemNSetBitFieldNb (NBPtr, BFDimmEccEn, 1);
	}

	//======================================================================
	// Build Dram Config Hi Register Value
	//======================================================================
	//

	MemNSetBitFieldNb (NBPtr, BFMemClkFreq, MemNGetMemClkFreqIdNb (NBPtr, DCTPtr->Timings.Speed));

	if (MCTPtr->Status[SbRegistered]) {
	if (DCTPtr->Timings.Dimmx4Present && DCTPtr->Timings.Dimmx8Present) {
	MemNSetBitFieldNb (NBPtr, BFRDqsEn, 1);
	}
	}

	if (RefPtr->EnableBankSwizzle) {
	MemNSetBitFieldNb (NBPtr, BFBankSwizzleMode, 1);
	}

	if (DCTPtr->Timings.DimmQrPresent) {
	if (UserOptions.CfgMemoryQuadrankType == QUADRANK_UNBUFFERED) {
	MemNSetBitFieldNb (NBPtr, BFFourRankSoDimm, 1);
	} else if (UserOptions.CfgMemoryQuadrankType == QUADRANK_REGISTERED) {
	MemNSetBitFieldNb (NBPtr, BFFourRankRDimm, 1);
	}
	}

	MemNSetBitFieldNb (NBPtr, BFDcqBypassMax, 0xF);

	MemNSetBitFieldNb (NBPtr, BFDcqArbBypassEn, 1);

	//======================================================================
	// Build Dram Config Misc Register Value
	//======================================================================
	//
	MemNSetBitFieldNb (NBPtr, BFOdtSwizzle, 1);
	// For DDR3 Registered Dimms
	if (MCTPtr->Status[SbRegistered]) {
	if (MemNGetBitFieldNb (NBPtr, BFDdr3Mode)!= 0) {
	MemNSetBitFieldNb (NBPtr, BFSubMemclkRegDly, 1);
	}
	}
	return (BOOLEAN) (MCTPtr->ErrCode < AGESA_FATAL);
	}
	/*----------------------------------------------------------------------------
	* LOCAL FUNCTIONS
	*
	*----------------------------------------------------------------------------
	*/

	/* -----------------------------------------------------------------------------*/
	/**
	*
	*
	* This is a general purpose function that executes before DRAM init
	*
	* @param[in,out] *NBPtr - Pointer to the MEM_NB_BLOCK
	*
	*/

	VOID
	MemNBeforeDramInitDr (
	IN OUT MEM_NB_BLOCK *NBPtr
	)
	{
	}

	/* -----------------------------------------------------------------------------*/
	/**
	*
	*
	* This function sends an MRS command
	*
	* @param[in,out] *NBPtr - Pointer to the MEM_NB_BLOCK
	*
	*/

	VOID
	MemNSendMrsCmdDr (
	IN OUT MEM_NB_BLOCK *NBPtr
	)
	{
	BOOLEAN ClearODM;

	ClearODM = FALSE;
	if ((NBPtr->MCTPtr->LogicalCpuid.Revision & AMD_F10_C0) != 0) {
	if (MemNGetBitFieldNb (NBPtr, BFEnDramInit) == 0) {
	// For C0, if EnDramInit bit is cleared, ODM needs to be cleared before sending MRS
	MemTCtlOnDimmMirrorDr (NBPtr, FALSE);
	ClearODM = TRUE;
	}
	}

	MemNSwapBitsNb (NBPtr);

	IDS_HDT_CONSOLE (MEM_FLOW, "\t\t\tCS%d MR%d %04x\n",
	(MemNGetBitFieldNb (NBPtr, BFDramInitRegReg) >> 20) & 0xF,
	(MemNGetBitFieldNb (NBPtr, BFDramInitRegReg) >> 16) & 0xF,
	(MemNGetBitFieldNb (NBPtr, BFDramInitRegReg) & 0xFFFF));

	// 1.Set SendMrsCmd=1
	MemNSetBitFieldNb (NBPtr, BFSendMrsCmd, 1);

	// 2.Wait for SendMrsCmd=0
	MemNPollBitFieldNb (NBPtr, BFSendMrsCmd, 0, PCI_ACCESS_TIMEOUT, FALSE);

	if (ClearODM) {
	// Restore ODM if necessary
	MemTCtlOnDimmMirrorDr (NBPtr, TRUE);
	}
	}


	/* -----------------------------------------------------------------------------*/
	/**
	*
	*
	* Workaround for erratum 322 and 263
	*
	* @param[in,out] *NBPtr - Pointer to the MEM_NB_BLOCK
	*
	*/
	VOID
	MemNBeforePlatformSpecDr (
	IN OUT MEM_NB_BLOCK *NBPtr
	)
	{
	// Errata 263
	if ((NBPtr->DCTPtr->Timings.Speed == DDR533_FREQUENCY) \|\| (NBPtr->DCTPtr->Timings.Speed == DDR667_FREQUENCY)) {
	MemNSetBitFieldNb (NBPtr, BFErr263, 0x0800);
	} else {
	MemNSetBitFieldNb (NBPtr, BFErr263, 0);
	}

	// Errata 322
	// 1.Write 00000000h to F2x[1,0]9C_xD08E000
	MemNSetBitFieldNb (NBPtr, BFErr322I, 0);
	// 2.If DRAM Configuration Register[MemClkFreq] (F2x[1,0]94[2:0]) is
	// greater than or equal to 011b (DDR-800 and higher),
	// then write 00000080h to F2x[1,0]9C_xD02E001,
	// else write 00000090h to F2x[1,0]9C_xD02E001.
	MemNSetBitFieldNb (NBPtr, BFErr322II, (NBPtr->DCTPtr->Timings.Speed >= DDR800_FREQUENCY) ? 0x80 : 0x90);
	}

	/* -----------------------------------------------------------------------------*/
	/**
	*
	* This function disables/enables F2x[1, 0][5C:40][OnDimmMirror]
	*
	* @param[in,out] *NBPtr - Pointer to the MEM_NB_BLOCK
	* @param[in] SetFlag - Enable or disable flag - TRUE - Enable, FALSE - DISABLE
	*
	*/

	VOID
	STATIC
	MemTCtlOnDimmMirrorDr (
	IN OUT MEM_NB_BLOCK *NBPtr,
	IN BOOLEAN SetFlag
	)
	{
	UINT8 Chipsel;
	UINT32 CSBaseAddrReg;

	for (Chipsel = 0; Chipsel < MAX_CS_PER_CHANNEL; Chipsel += 2) {
	CSBaseAddrReg = MemNGetBitFieldNb (NBPtr, BFCSBaseAddr1Reg + Chipsel);
	if ((CSBaseAddrReg & 1) == 1) {
	if (SetFlag && ((NBPtr->DCTPtr->Timings.DimmMirrorPresent & ((UINT8) 1 << (Chipsel >> 1))) != 0)) {
	CSBaseAddrReg \|= ((UINT32) 1 << BFOnDimmMirror);
	} else {
	CSBaseAddrReg &= ~((UINT32) 1 << BFOnDimmMirror);
	}
	MemNSetBitFieldNb (NBPtr, BFCSBaseAddr1Reg + Chipsel, CSBaseAddrReg);
	}
	}
	}

	/* -----------------------------------------------------------------------------*/
	/**
	*
	*
	* This function adjusts Avg PRE value of Phy fence training according to specific CPU family.
	*
	* @param[in,out] *NBPtr - Pointer to the MEM_NB_BLOCK
	* @param[in,out] *Value16 - Pointer to the value that we want to adjust
	*
	*/

	VOID
	MemNPFenceAdjustDr (
	IN OUT MEM_NB_BLOCK *NBPtr,
	IN OUT INT16 *Value16
	)
	{
	if ((NBPtr->MCTPtr->LogicalCpuid.Revision & AMD_F10_C0) != 0) {
	*Value16 += 5; //for RB C0, the Avg PRE value is subtracted by 3 only.
	}
	}

	/* -----------------------------------------------------------------------------*/
	/**
	*
	*
	* This function uses calculated values from DCT.Timings structure to
	* program its RB registers.
	*
	*
	* @param[in,out] *NBPtr - Pointer to the MEM_NB_BLOCK
	*
	*/

	VOID
	MemNProgramCycTimingsDr (
	IN OUT MEM_NB_BLOCK *NBPtr
	)
	{
	CTENTRY DDR3TmgAdjTab[] = {
	// BitField, Min, Max, Bias, Ratio_x2
	{BFTcl, 4, 12, 4, 2},
	{BFTrcd, 5, 12, 5, 2},
	{BFTrp, 5, 12, 5, 2},
	{BFTrtp, 4, 7, 4, 2},
	{BFTras, 15, 30, 15, 2},
	{BFTrc, 11, 42, 11, 2},
	{BFTwrDDR3, 5, 12, 4, 2},
	{BFTrrd, 4, 7, 4, 2},
	{BFTwtr, 4, 7, 4, 2},
	{BFFourActWindow, 16, 32, 14, 1}
	};

	CTENTRY DDR2TmgAdjTab[] = {
	// BitField, Min, Max, Bias, Ratio_x2
	{BFTcl, 3, 7, 1, 2},
	{BFTrcd, 3, 6, 3, 2},
	{BFTrp, 3, 6, 3, 4},
	{BFTrtp, 2, 3, 2, 4},
	{BFTras, 5, 18, 3, 2},
	{BFTrc, 11, 26, 11, 2},
	{BFTwr, 3, 6, 3, 2},
	{BFTrrd, 2, 5, 2, 2},
	{BFTwtr, 5, 8, 4, 2},
	{BFFourActWindow, 8, 20, 7, 2}
	};

	CTENTRY *TmgAdjTab;
	DCT_STRUCT *DCTPtr;
	UINT8 *MiniMaxTmg;
	UINT8 *MiniMaxTrfc;
	UINT8 Value8;
	UINT8 j;
	UINT8 BurstMode;
	BIT_FIELD_NAME BitField;

	DCTPtr = NBPtr->DCTPtr;

	//======================================================================
	// Program DRAM Timing values
	//======================================================================
	//
	if (MemNGetBitFieldNb (NBPtr, BFDdr3Mode) == 1) {
	TmgAdjTab = DDR3TmgAdjTab;
	} else if (DCTPtr->Timings.Speed == DDR1066_FREQUENCY) {
	// DDR2-1066 uses DDR3 table but differs in tCL
	TmgAdjTab = DDR3TmgAdjTab;
	TmgAdjTab[0].Min = 3;
	TmgAdjTab[0].Max = 7;
	TmgAdjTab[0].Bias = 1;
	} else {
	TmgAdjTab = DDR2TmgAdjTab;
	}

	MiniMaxTmg = &DCTPtr->Timings.CasL;
	for (j = 0; j < GET_SIZE_OF (TmgAdjTab); j++) {
	BitField = TmgAdjTab[j].BitField;

	if (MiniMaxTmg[j] < TmgAdjTab[j].Min) {
	MiniMaxTmg[j] = TmgAdjTab[j].Min;
	} else if (MiniMaxTmg[j] > TmgAdjTab[j].Max) {
	MiniMaxTmg[j] = TmgAdjTab[j].Max;
	}

	Value8 = (UINT8) MiniMaxTmg[j];

	if (BitField == BFTwrDDR3) {
	Value8 = (Value8 == 10) ? 9 : (Value8 == 12) ? 10 : Value8;
	} else if (BitField == BFTrtp) {
	Value8 = (DCTPtr->Timings.Speed <= DDR1066_FREQUENCY) ? 4 : (DCTPtr->Timings.Speed == DDR1333_FREQUENCY) ? 5 : 6;
	}

	Value8 = Value8 - TmgAdjTab[j].Bias;
	Value8 = (Value8 * TmgAdjTab[j].Ratio_x2) >> 1;

	MemNSetBitFieldNb (NBPtr, BitField, Value8);
	}

	MiniMaxTrfc = &DCTPtr->Timings.Trfc0;
	for (j = 0; j < 4; j++) {
	MemNSetBitFieldNb (NBPtr, BFTrfc0 + j, MiniMaxTrfc[j]);
	}

	MemNSetBitFieldNb (NBPtr, BFTref, 2); // 7.8 us

	if (MemNGetBitFieldNb (NBPtr, BFDdr3Mode) == 1) {
	//======================================================================
	// DDR3 additional settings
	//======================================================================

	MemNSetBitFieldNb (NBPtr, BFTcwl, ((DCTPtr->Timings.Speed >= DDR800_FREQUENCY) ?
	(NBPtr->GetMemClkFreqId (NBPtr, DCTPtr->Timings.Speed) - 3) : 0));

	MemNSetBitFieldNb (NBPtr, BFNonSPD, 0x28FF);

	MemNSetBitFieldNb (NBPtr, BFNonSPDHi, 0x2A);

	// DrvImpCtrl: drive impedance control.01b(34 ohm driver; Ron34 = Rzq/7)
	MemNSetBitFieldNb (NBPtr, BFDrvImpCtrl, 1);

	// burst length control
	if (NBPtr->MCTPtr->Status[Sb128bitmode]) {
	MemNSetBitFieldNb (NBPtr, BFBurstCtrl, 2);
	}

	// ASR=1, auto self refresh; SRT=0
	MemNSetBitFieldNb (NBPtr, BFASR, 1);
	} else {
	//======================================================================
	// DDR2 additional settings
	//======================================================================

	MemNSetBitFieldNb (NBPtr, BFNonSPD, 0xFF77);

	BurstMode = UserOptions.CfgUseBurstMode;
	IDS_OPTION_HOOK (IDS_BURST_LENGTH32, &BurstMode, &(NBPtr->MemPtr->StdHeader));
	if (BurstMode) {
	if (!NBPtr->MCTPtr->GangedMode) {
	NBPtr->SetBitField (NBPtr, BFBurstLength32, 1);
	}
	}
	}
	}