/** * @file * * mn.h * * Common Northbridge * * @xrefitem bom "File Content Label" "Release Content" * @e project: AGESA * @e sub-project: (Mem) * @e \$Revision: 46999 $ @e \$Date: 2011-02-12 01:18:16 -0700 (Sat, 12 Feb 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. * * *************************************************************************** * */ #ifndef _MN_H_ #define _MN_H_ /*---------------------------------------------------------------------------- * Mixed (DEFINITIONS AND MACROS / TYPEDEFS, STRUCTURES, ENUMS) * *---------------------------------------------------------------------------- */ /*----------------------------------------------------------------------------- * DEFINITIONS AND MACROS * *----------------------------------------------------------------------------- */ #define _4GB_RJ16 (((UINT32) 4) << (30 - 16)) #define _1TB_RJ16 (((UINT32) 1) << (40 - 16)) #define HT_REGION_BASE_RJ16 ((UINT32)0x00FD0000) #define DCT_ACCESS_WRITE (UINT32) 0x40000000 #define MTRR_VALID 11 #define NB_ACCESS 0 #define DCT_PHY_ACCESS 1 #define DCT_EXTRA 2 #define VT_MSK_VALUE 0 #define VT_ARRAY 1 /*--------------------------------------------- * TSEFO - Type Start End Function Offset * * 31:30 Type of access (2-bits) * 29:29 Special (1-bit) * 29:27 Reserved (2-bits) * 26:26 Linked (1-bit) * 25:21 Start bit (5-bits) * 20:16 End bit (5-bits) * 15:00 Function_Offset/Index (16-bits) *--------------------------------------------- */ typedef UINT32 TSEFO; /** MAKE_TSEFO(TableName, a, b, c, d, BitFieldIndex): @param[in] TableName @param[in] BitFieldIndex @param[in] a Type of access. @param[in] b Index of register (can be in Function_Offset format). @param[in] c Highest bit of the bit field. @param[in] d Lowest bit of the bit field. @return TSEFO Access params encrypted in TSEFO format. --*/ #define MAKE_TSEFO(TableName, a, b, c, d, BitFieldIndex) \ TableName[BitFieldIndex] = ( \ (((UINT32) a) << 30) | (((UINT32) b) & 0xFFFFFFF) | ( \ (((UINT32) b) >> 16) ? ( \ (((UINT32) 1) << 29) \ ) : ( \ (c >= d) ? ( \ (((UINT32) c) << 21) | (((UINT32) d) << 16) \ ) : ( \ (((UINT32) d) << 21) | (((UINT32) c) << 16) \ ) \ ) \ ) \ ) /** LINK_TSEFO(TableName, LowerBitFieldIndex, HigherBitFieldIndex): This is one way link: any write to LowerBitFieldIndex would write to HigherBitFieldIndex, but NOT the other way around. Requirement: LowerBitFieldIndex must be declared *right* before HigherBitFieldIndex. @param[in] TableName @param[in] LowerBitFieldIndex @param[in] HigherBitFieldIndex @return TSEFO Access params encrypted in TSEFO format. --*/ #define LINK_TSEFO(TableName, LowerBitFieldIndex, HigherBitFieldIndex) { \ ASSERT (LowerBitFieldIndex == (HigherBitFieldIndex - 1)) ; \ TableName[LowerBitFieldIndex] = TableName[LowerBitFieldIndex] | (((UINT32) 1) << 26); \ } #define TSEFO_TYPE(x) ((UINT8) (((UINT32) (x) >> 30) & 0x03)) #define TSEFO_START(x) ((UINT8) (((UINT32) (x) >> 21) & 0x1F)) #define TSEFO_END(x) ((UINT8) (((UINT32) (x) >> 16) & 0x1F)) #define TSEFO_OFFSET(x) ((UINT32) (x) & 0xFFFF) #define TSEFO_LINKED(x) ((UINT8) (((UINT32) (x) >> 26) & 0x01)) #define _FN(x, y) (((UINT32) (x) << 12) + (UINT32) (y)) #define _NOT_USED_ 0 /* */ #define B0_DLY 0 #define B1_DLY 1 #define B2_DLY 2 #define B3_DLY 3 #define B4_DLY 4 #define B5_DLY 5 #define B6_DLY 6 #define B7_DLY 7 #define ECC_DLY 8 #define DDR2_TRAIN_FLOW 0 #define DDR3_TRAIN_FLOW 1 // // Minimum Data Eye width in consecutive 32nds of a UI of // valid data // #define MIN_RD_DATAEYE_WIDTH_NB 4 #define MIN_WR_DATAEYE_WIDTH_NB 4 /*---------------------------------------------------------------------------- * TYPEDEFS, STRUCTURES, ENUMS * *---------------------------------------------------------------------------- */ /// DQS training related delays typedef enum { AccessRcvEnDly, ///< Receiver enable delay AccessWrDatDly, ///< Write data delay AccessRdDqsDly, ///< Read DQS delay AccessWrDqsDly, ///< Write DQS delay AccessPhRecDly ///< Phase recovery delay } TRN_DLY_TYPE; /// Training patterns for position training typedef enum { POS_PATTERN_72B, ///< 72 bit pattern POS_PATTERN_256B, ///< 256 bit pattern } POS_TRN_PATTERN_TYPE; /// ODT mode typedef enum { MISSION_MODE, ///< ODT during mission mode WRITE_LEVELING_MODE ///< ODT during write leveling } ODT_MODE; /* * DRBN - Dimm-Rank-Byte-Nibble * 31:12 Reserved * 11:09 Dimm (3-bits) * 08 Rank (1-bit) * 07:05 Reserved * 04:01 Byte (4-bits) * 00 Nibble (1-bit) */ typedef UINT32 DRBN; #define MAKE_DRBN(dimm, rank, byte, nibble) ((((UINT32) (dimm)) << 9) | (((UINT32) (rank)) << 8) | \ (((UINT32) (byte)) << 1) | ((UINT32) (nibble)) ) #define DIMM_BYTE_ACCESS(dimm, byte) ((((UINT32) (dimm)) << 9) | (((UINT32) (byte)) << 1)) #define CS_NBBL_ACCESS(cs, nibble) ((((UINT32) (cs)) << 8) | ((UINT32) (nibble))) #define DRBN_DIMM(x) ((UINT8) (((UINT32) (x) >> 9) & 0x07)) #define DRBN_RANK(x) ((UINT8) (((UINT32) (x) >> 8) & 0x01)) #define DRBN_BYTE(x) ((UINT8) (((UINT32) (x) >> 1) & 0x0F)) #define DRBN_NBBL(x) ((UINT8) (((UINT32) (x)) & 0x01)) /* Dimm Type mask */ #define DT_X4 0x01 #define DT_X8 0x02 #define DT_X16 0x04 #define DT_SR 0x10 #define DT_DR 0x20 #define DT_QR 0x40 #define DT_ANY_X4 0x71 #define DT_ANY_X8 0x72 #define DT_ANY_X16 0x74 #define DT_ANY_SR 0x17 #define DT_ANY_DR 0x27 #define DT_ANY_QR 0x47 #define DT_ANY_SR_DR (DT_ANY_SR | DT_ANY_DR) #define DT_ANY (DT_ANY_SR | DT_ANY_DR | DT_ANY_QR) /// Delay Scaling Info Struct - Describes number of delay increments per UI of a delay type /// typedef struct _TRN_DLY_PARMS { UINT8 Min; ///< Minimum Value UINT8 Max; ///< Maximum Value UINT8 Mask; ///< Mask to be applied (i.e. 0xFF if adjustable by one, 0xFE if adjustable by 2, etc.) } TRN_DLY_PARMS; /// Structure for certain data saving needed for DCT. typedef struct { UINT8 RcvEnDlyCounts[8]; ///< DQS Receiver Enable Delay counts UINT32 PhRecReg[3]; ///< 3 Phase recovery control registers } MEM_DCT_CACHE; /// Structure for table driven support. typedef struct _MEM_TBL_ALIAS { UINT8 time; ///< Modification time. UINT8 node:4; ///< Node on which to make modification. UINT8 dct:4; ///< DCT on which to make modification. UINT8 dimm:4; ///< Dimm on which to make modification. UINT8 attr:3; ///< Attribute of modification. UINT8 vtype:1; ///< Flag indicating value type. UINT32 bfindex; ///< Bit field index that need to be modified. union { ///< Union is defined to easy select between single and multiple bytelane cases. struct { ///< Sub-struct used for one bytelane value. UINT16 bytelane:16; ///< Bytelane on which to make modification. UINT32 value; ///< Modified value. UINT8 reserved[3]; ///< Reserved for this purpose } s; ///< single value to one or multiple bytelanes UINT8 bytelanevalue[9]; ///< Array to specify individual bytelane values } data; } MEM_TABLE_ALIAS; /// Structure for Platform Specific Block. typedef struct _MEM_PS_BLOCK { UINT8 DramTerm; ///< Dram Term UINT8 QR_DramTerm; ///< Dram Term for QR UINT8 DynamicDramTerm; ///< Dynamic Dram Term /* PUBLIC functions */ BOOLEAN (*MemPDoPs) (struct _MEM_NB_BLOCK *NBPtr); ///< Function that gets Form factor info. VOID (*MemPGetPORFreqLimit) (struct _MEM_NB_BLOCK *NBPtr); ///< Function that gets the speed limit of a dimm population. } MEM_PS_BLOCK; /// Structure parameters needed in frequency change of client NB. typedef struct _MEM_FREQ_CHANGE_PARAM { UINT16 PllLockTimeDefault; ///< Default PllLockTime UINT8 RdPtrInit667orHigher; ///< RdPtrInit for frequency 667MHz and higher UINT8 RdPtrInitLower667; ///< RdPtrInit for frequency lower than 667MHz UINT8 NclkPeriodMul2x; ///< Multiplier for NclkPeriod in parial sum calculation x 2 UINT8 MemClkPeriodMul2x; ///< Multiplier for MemClkPeriod in parial sum calculation x 2 } MEM_FREQ_CHANGE_PARAM; /// List for NB items that are supported typedef enum { SetSpareEn, ///< Sets spare enable CheckSpareEn, ///< Spare enabled SetDllShutDown, ///< Sets DllShutDown CheckEccDLLPwrDnConfig, ///< Checks to determine if EccDLLPwrDnConf needs to be adjusted DimmBasedOnSpeed, ///< Checks to determine if Dimm number needs to be adjusted based on speed CheckMaxDramRate, ///< Checks to determine the maximum rate Check1GAlign, ///< Checks to determine if 1 GB alignment is supported DramModeBeforeDimmPres, ///< Check to determine if DRAM mode needs to be set before dimm presence DramModeAfterDimmPres, ///< Check to determine if DRAM mode needs to be set after dimm presence CheckClearOnDimmMirror, ///< Check to determine if we need to clear on DIMM mirror CheckDisDllShutdownSR, ///< Check to determine if DisDllShutdown needs to be set CheckMemClkCSPresent, ///< Check to determine if chipselect needs to be set based on disabled memclocks CheckChangeAvgValue, ///< Check to determine if we need to change average value CheckMaxRdDqsDlyPtr, ///< Check to determine change Max Rd Dqs Delay CheckPhyFenceTraining, ///< Check to determine if we need to Phy Fence training CheckGetMCTSysAddr, ///< Check to determine if we need to GetMCTSysAddr CheckSendAllMRCmds, ///< Check to determine if we need to SendAllMRCmds CheckFindPSOverideWithSocket, ///< Check to determine if we need to Find PSOveride With Socket CheckFindPSDct, ///< Check to determine if we need to Find PSOveride With DCT CheckODTControls, ///< Check to determine if we need to set ODT controls CheckDummyCLRead, ///< Check to determine if an extra dummy read is required CheckDllStdBy, ///< Check to determine if setting DLL stand by is required CheckDynamicDramTerm, ///< Check to determine if setting of Dynamic Dram term is required CheckSlewWithMarginImprv, ///< Check to determine if setting of Slew With MarginImprv is required CheckSlewWithoutMarginImprv, ///< Check to determine if setting of Slew Without MarginImprv is required CheckDllSpeedUp, ///< Check to determine if setting of Dll SpeedUp is required CheckDllRegDis, ///< Check to determine if setting of DLL Regulator Disable is required FenceTrnBeforeDramInit, ///< Check to determine if fence training has been done before Dram init WLSeedAdjust, ///< Check to determine if WL seed needs to be adjusted ClientNbFence, ///< Check to determine if Phy fence is of client NB ForceEnMemHoleRemapping, ///< Check to determine if we need to force enabling memory hole remapping EnumSize ///< Size of list } NB_SUPPORTED; /// List for family specific functions that are supported typedef enum { ForceLvDimmVoltage, ///< Force LVDIMM voltage to 1.5V NumberOfHooks ///< Size of list } FAMILY_SPECIFIC_FUNC_INDEX; ///< Entry for SPD Timing typedef struct { BIT_FIELD_NAME BitField; ///< Bit field name of the timing UINT8 Min; ///< Minimum value for timing UINT8 Max; ///< Maximum value for timing UINT8 Bias; ///< Bias from actual value UINT8 Ratio_x2; ///< Actual value will be multiplied by (Ratio_x2/2) } CTENTRY; /// Structure for northbridge block. typedef struct _MEM_NB_BLOCK { MEM_DATA_STRUCT *MemPtr; ///< Point to MEM_DATA_STRUCT. MEM_PARAMETER_STRUCT *RefPtr; ///< Point to MEM_PARAMETER_STRUCT. DIE_STRUCT *MCTPtr; ///< point to current Node's MCT struct DCT_STRUCT *DCTPtr; ///< point to current Node's DCT struct DCT_STRUCT *AllDCTPtr; ///< point to all Node's DCT structs CH_DEF_STRUCT *ChannelPtr; ///< point to current channel data SPD_DEF_STRUCT *SPDPtr; ///< Point to SPD data for current DCT. struct _MEM_TECH_BLOCK *TechPtr; ///< point to technology block. struct _MEM_FEAT_BLOCK_NB *FeatPtr; ///< point to NB Specific feature block. struct _MEM_SHARED_DATA *SharedPtr; ///< Pointer to Memory scratchpad area SPD_DEF_STRUCT *AllNodeSPDPtr; ///< Point to SPD data for the system. DIE_STRUCT *AllNodeMCTPtr; ///< point to all Node's MCT structs UINT8 DimmToBeUsed; ///< Dimm to be used in recovery mode. MEM_PS_BLOCK *PsPtr; ///< point to platform specific block MEM_PS_BLOCK *PSBlock; ///< point to the first platform specific block on this node. MEM_FREQ_CHANGE_PARAM *FreqChangeParam; ///< pointer to parameter of frequency change. PCI_ADDR PciAddr; ///< PCI address for this node TSEFO NBRegTable[BFEndOfList]; ///< contains all bit field definitions UINT8 Node; ///< current node. UINT8 Dct; ///< current DCT. UINT8 Channel; ///< current channel. UINT8 DctCount; ///< number of DCTs on the current NB. UINT8 ChannelCount; ///< number of channels per DCT of the current NB. UINT8 NodeCount; ///< number of Nodes supported BOOLEAN Ganged; ///< mode for current MCT controller. POS_TRN_PATTERN_TYPE PosTrnPattern; ///< specifies the pattern that should be used for position training. BOOLEAN MemCleared; ///< memory clear flag. UINT32 CPGInit; ///< continuous pattern generation flag. UINT16 StartupSpeed; ///< startup speed for DDR3. UINT16 RcvrEnDlyLimit; ///< maximum value that RcvrEnDly field can take. UINT32 McaNbCtlReg; ///< reserve MCA reports. UINT32 VarMtrrHiMsk; ///< variable MTRR mask for upper 32 bits. UINT32 NBClkFreq; ///< Current NB Clock frequency UINT8 DefDctSelIntLvAddr; ///< Default DctSelIntLvAddr MEM_DCT_CACHE DctCache[MAX_CHANNELS_PER_SOCKET]; ///< Allocate space for MCT_DCT_CACHE. MEM_DCT_CACHE *DctCachePtr; ///< pointer to current Node's Node struct /* Temporary storage */ BOOLEAN ClToNbFlag; ///< is used to restore ClLinesToNbDis bit after memory UINT8 NBPstate; ///< Current NB Pstate ///< Determines if code should be executed on a give NB BOOLEAN IsSupported[EnumSize]; BOOLEAN (*FamilySpecificHook[NumberOfHooks]) (struct _MEM_NB_BLOCK *NBPtr, VOID *OptParam); ///< This array of pointers point to ///< family specific functions. /* PUBLIC functions */ VOID (*SwitchDCT) (struct _MEM_NB_BLOCK *NBPtr, UINT8 DCT); ///< Switch to current DCT. VOID (*SwitchChannel) (struct _MEM_NB_BLOCK *NBPtr, UINT8 Channel); ///< Switch to current channel. VOID (*SetMaxLatency) (struct _MEM_NB_BLOCK *NBPtr, UINT16 MaxRcvEnDly); ///< Set Max Rd Latency. VOID (*getMaxLatParams) (struct _MEM_NB_BLOCK *NBPtr, UINT16 MaxDlyForMaxRdLat, UINT16 *MinDly, UINT16 *MaxDly, UINT16 *DlyBias); ///< retrieves the Max latency parameters. BOOLEAN (*GetSysAddr) (struct _MEM_NB_BLOCK *NBPtr, UINT8 Receiver, UINT32 *Addr); ///< Get system address for training dimm. BOOLEAN (*RankEnabled) (struct _MEM_NB_BLOCK *NBPtr, UINT8 Receiver); ///< Check if a rank has been enabled. BOOLEAN (*InitializeMCT) (struct _MEM_NB_BLOCK *NBPtr); ///< MCT initialization. BOOLEAN (*FinalizeMCT) (struct _MEM_NB_BLOCK *NBPtr); ///< sets final values in BUCFG and BUCFG2. BOOLEAN (*InitMCT) (struct _MEM_NB_BLOCK *NBPtr); ///< main entry call for memory initialization. VOID (*SendMrsCmd) (struct _MEM_NB_BLOCK *NBPtr); ///< send MRS command. VOID (*sendZQCmd) (struct _MEM_NB_BLOCK *NBPtr); ///< send ZQ command. BOOLEAN (*TrainingFlow) (struct _MEM_NB_BLOCK *NBPtr); ///< Set the training flow control VOID (*WritePattern) (struct _MEM_NB_BLOCK *NBPtr, UINT32 Address, UINT8 Pattern[], UINT16 ClCount); ///< Write training pattern. VOID (*ReadPattern) (struct _MEM_NB_BLOCK *NBPtr, UINT8 Buffer[], UINT32 Address, UINT16 ClCount); ///< Read training pattern. VOID (*GenHwRcvEnReads) (struct _MEM_NB_BLOCK *NBPtr, UINT32 Address); ///< generates a continuous burst of reads during HW RcvEn training. UINT16 (*CompareTestPattern) (struct _MEM_NB_BLOCK *NBPtr, UINT8 Buffer[], UINT8 Pattern[], UINT16 ByteCount); ///< Compare training pattern. UINT16 (*InsDlyCompareTestPattern) (struct _MEM_NB_BLOCK *NBPtr, UINT8 Buffer[], UINT8 Pattern[], UINT16 ByteCount); ///< Compare training pattern using 1 beat offset to check for insertion delay BOOLEAN (*StitchMemory) (struct _MEM_NB_BLOCK *NBPtr); ///< combines all the memory into a contiguous map. VOID (*ProgramCycTimings) (struct _MEM_NB_BLOCK *NBPtr); ///< programs the memory controller with SPD timings. BOOLEAN (*AutoConfig) (struct _MEM_NB_BLOCK *NBPtr); ///< programs the memory controller with configuration parameters BOOLEAN (*PlatformSpec) (struct _MEM_NB_BLOCK *NBPtr); ///< programs platform specific parameters. VOID (*DisableDCT) (struct _MEM_NB_BLOCK *NBPtr); ///< disable a DCT if no dimm presents. VOID (*StartupDCT) (struct _MEM_NB_BLOCK *NBPtr); ///< start a DCT. VOID (*SyncTargetSpeed) (struct _MEM_NB_BLOCK *NBPtr); ///< Check and sync the target speed of all channels of this node. VOID (*ChangeFrequency) (struct _MEM_NB_BLOCK *NBPtr); ///< Frequency change sequence. BOOLEAN (*RampUpFrequency) (struct _MEM_NB_BLOCK *NBPtr); ///< Change frequency to the next supported level. BOOLEAN (*ChangeNbFrequency) (struct _MEM_NB_BLOCK *NBPtr); ///< Change NB frequency. VOID (*PhyFenceTraining) (struct _MEM_NB_BLOCK *NBPtr); ///< Phy fence training. BOOLEAN (*SyncDctsReady) (struct _MEM_NB_BLOCK *NBPtr); ///< Synchronize DCTs. BOOLEAN (*HtMemMapInit) (struct _MEM_NB_BLOCK *NBPtr); ///< Memory map initialization. VOID (*SyncAddrMapToAllNodes) (struct _MEM_NB_BLOCK *NBPtr); ///< copies the Node 0 map to all the other nodes. BOOLEAN (*CpuMemTyping) (struct _MEM_NB_BLOCK *NBPtr); ///< MTRR and TOM setting. VOID (*BeforeDqsTraining) (struct _MEM_NB_BLOCK *NBPtr); ///< processes needed before DQS training. VOID (*AfterDqsTraining) (struct _MEM_NB_BLOCK *NBPtr); ///< processes needed after DQS training. BOOLEAN (*OtherTiming) (struct _MEM_NB_BLOCK *NBPtr); ///< setting non-spd timing. VOID (*UMAMemTyping) (struct _MEM_NB_BLOCK *NBPtr); ///< MTRR and TOM setting needed for UMA platform. VOID (*Feature) (struct _MEM_NB_BLOCK *NBPtr); ///< Feature support. UINT8 (*GetSocketRelativeChannel) (struct _MEM_NB_BLOCK *NBPtr, UINT8 Dct, UINT8 Channel); ///< Get channel number relative to a socket. VOID (*SetDramOdtRec) (struct _MEM_NB_BLOCK *NBPtr, ODT_MODE OdtMode, UINT8 ChipSelect, UINT8 TargetCS); ///< Set Dram ODT. UINT32 (*GetSysAddrRec) (VOID); ///< Get system address for training. VOID (*SwitchNodeRec) (struct _MEM_NB_BLOCK *NBPtr, UINT8 NodeID); ///< Switch to current node. VOID (*TechBlockSwitch) (struct _MEM_NB_BLOCK *NBPtr); ///< Selects appropriate Tech functions for the NB. VOID (*SetEccSymbolSize) (struct _MEM_NB_BLOCK *NBPtr); ///< Set Ecc Symbol Size. VOID (*GetTrainDlyParms) (struct _MEM_NB_BLOCK *NBPtr, TRN_DLY_TYPE TrnDly, TRN_DLY_PARMS *Parms); ///< Retrieve Specific Delay range info for current NB under current conditions. AGESA_STATUS (*TrainingPatternInit) (struct _MEM_NB_BLOCK *NBPtr); ///< Initialize the training Pattern AGESA_STATUS (*TrainingPatternFinalize) (struct _MEM_NB_BLOCK *NBPtr); ///< Finalize the training Pattern BOOLEAN (*GetApproximateWriteDatDelay) (struct _MEM_NB_BLOCK *NBPtr, UINT8 Index, UINT8 *Value); ///< Retrieve the next WrDat Delay Approximation UINT8 (*CSPerChannel) (struct _MEM_NB_BLOCK *NBPtr); ///< Return number of CS per channel. UINT8 (*CSPerDelay) (struct _MEM_NB_BLOCK *NBPtr); ///< Return number of CS controlled per set of delay registers. VOID (*FlushPattern) (struct _MEM_NB_BLOCK *NBPtr, UINT32 Address, UINT16 ClCount); ///