/* $NoKeywords:$ */ /** * @file * * AMD Platform Specific Memory Configuration * * Contains Definitions and Macros for control of AGESA Memory code on a per platform basis * * @xrefitem bom "File Content Label" "Release Content" * @e project: AGESA * @e sub-project: OPTION * @e \$Revision: 309090 $ @e \$Date: 2014-12-09 12:28:05 -0600 (Tue, 09 Dec 2014) $ * */ /***************************************************************************** * * Copyright (c) 2008 - 2015, 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 _PLATFORM_MEMORY_CONFIGURATION_H_ #define _PLATFORM_MEMORY_CONFIGURATION_H_ /*---------------------------------------------------------------------------------------- * M I X E D (Definitions And Macros / Typedefs, Structures, Enums) *---------------------------------------------------------------------------------------- */ #ifndef PSO_ENTRY #define PSO_ENTRY UINT8 #endif /*---------------------------------------------------------------------------------------- * D E F I N I T I O N S A N D M A C R O S *---------------------------------------------------------------------------------------- */ /*---------------------------------------------------------------------------------------- * T Y P E D E F S, S T R U C T U R E S, E N U M S *---------------------------------------------------------------------------------------- */ /*---------------------------------------------------------------------------------------- * PLATFORM SPECIFIC MEMORY DEFINITIONS *---------------------------------------------------------------------------------------- */ /// /// Memory Speed and DIMM Population Masks /// ///< DDR Speed Masks ///< Specifies the DDR Speed on a memory channel /// #define ANY_SPEED 0xFFFFFFFFul #define DDR400 ((UINT32) 1 << (DDR400_FREQUENCY / 66)) #define DDR533 ((UINT32) 1 << (DDR533_FREQUENCY / 66)) #define DDR667 ((UINT32) 1 << (DDR667_FREQUENCY / 66)) #define DDR800 ((UINT32) 1 << (DDR800_FREQUENCY / 66)) #define DDR1066 ((UINT32) 1 << (DDR1066_FREQUENCY / 66)) #define DDR1333 ((UINT32) 1 << (DDR1333_FREQUENCY / 66)) #define DDR1600 ((UINT32) 1 << (DDR1600_FREQUENCY / 66)) #define DDR1866 ((UINT32) 1 << (DDR1866_FREQUENCY / 66)) #define DDR2133 ((UINT32) 1 << (DDR2133_FREQUENCY / 66)) #define DDR2400 ((UINT32) 1 << (DDR2400_FREQUENCY / 66)) /// ///< DIMM POPULATION MASKS ///< Specifies the DIMM Population on a channel (can be added together to specify configuration). ///< ex. SR_DIMM0 + SR_DIMM1 : Single Rank Dimm in slot 0 AND Slot 1 ///< SR_DIMM0 + DR_DIMM0 + SR_DIMM1 +DR_DIMM1 : Single OR Dual rank in Slot 0 AND Single OR Dual rank in Slot 1 /// #define ANY_ 0xFF ///< Any dimm configuration the current channel #define SR_DIMM0 0x0001 ///< Single rank dimm in slot 0 on the current channel #define SR_DIMM1 0x0010 ///< Single rank dimm in slot 1 on the current channel #define SR_DIMM2 0x0100 ///< Single rank dimm in slot 2 on the current channel #define SR_DIMM3 0x1000 ///< Single rank dimm in slot 3 on the current channel #define DR_DIMM0 0x0002 ///< Dual rank dimm in slot 0 on the current channel #define DR_DIMM1 0x0020 ///< Dual rank dimm in slot 1 on the current channel #define DR_DIMM2 0x0200 ///< Dual rank dimm in slot 2 on the current channel #define DR_DIMM3 0x2000 ///< Dual rank dimm in slot 3 on the current channel #define QR_DIMM0 0x0004 ///< Quad rank dimm in slot 0 on the current channel #define QR_DIMM1 0x0040 ///< Quad rank dimm in slot 1 on the current channel #define QR_DIMM2 0x0400 ///< Quad rank dimm in slot 2 on the current channel #define QR_DIMM3 0x4000 ///< Quad rank dimm in slot 3 on the current channel #define LR_DIMM0 0x0001 ///< Lrdimm in slot 0 on the current channel #define LR_DIMM1 0x0010 ///< Lrdimm in slot 1 on the current channel #define LR_DIMM2 0x0100 ///< Lrdimm in slot 2 on the current channel #define LR_DIMM3 0x1000 ///< Lrdimm in slot 3 on the current channel #define ANY_DIMM0 0x000F ///< Any Dimm combination in slot 0 on the current channel #define ANY_DIMM1 0x00F0 ///< Any Dimm combination in slot 1 on the current channel #define ANY_DIMM2 0x0F00 ///< Any Dimm combination in slot 2 on the current channel #define ANY_DIMM3 0xF000 ///< Any Dimm combination in slot 3 on the current channel /// ///< CS POPULATION MASKS ///< Specifies the CS Population on a channel (can be added together to specify configuration). ///< ex. CS0 + CS1 : CS0 and CS1 apply to the setting /// #define CS_ANY_ 0xFF ///< Any CS configuration #define CS0_ 0x01 ///< CS0 bit map mask #define CS1_ 0x02 ///< CS1 bit map mask #define CS2_ 0x04 ///< CS2 bit map mask #define CS3_ 0x08 ///< CS3 bit map mask #define CS4_ 0x10 ///< CS4 bit map mask #define CS5_ 0x20 ///< CS5 bit map mask #define CS6_ 0x40 ///< CS6 bit map mask #define CS7_ 0x80 ///< CS7 bit map mask /// ///< Number of Dimms on the current channel ///< This is a mask used to indicate the number of dimms in a channel ///< They can be added to indicate multiple conditions (i.e 1 OR 2 Dimms) /// #define ANY_NUM 0xFF ///< Any number of Dimms #define NO_DIMM 0x00 ///< No Dimms present #define ONE_DIMM 0x01 ///< One dimm Poulated on the current channel #define TWO_DIMM 0x02 ///< Two dimms Poulated on the current channel #define THREE_DIMM 0x04 ///< Three dimms Poulated on the current channel #define FOUR_DIMM 0x08 ///< Four dimms Poulated on the current channel /// ///< DIMM VOLTAGE MASKS /// #define VOLT_ANY_ 0xFF ///< Any voltage configuration #define VOLT1_5_ 0x01 ///< Voltage 1.5V bit map mask #define VOLT1_35_ 0x02 ///< Voltage 1.35V bit map mask #define VOLT1_25_ 0x04 ///< Voltage 1.25V bit map mask // // < Not applicable // #define NA_ 0 ///< Not applicable /*---------------------------------------------------------------------------------------- * * Platform Specific Override Definitions for Socket, Channel and Dimm * This indicates where a platform override will be applied. * *---------------------------------------------------------------------------------------- */ /// ///< SOCKET MASKS ///< Indicates associated processor sockets to apply override settings /// #define ANY_SOCKET 0xFF ///< Apply to all sockets #define SOCKET0 0x01 ///< Apply to socket 0 #define SOCKET1 0x02 ///< Apply to socket 1 #define SOCKET2 0x04 ///< Apply to socket 2 #define SOCKET3 0x08 ///< Apply to socket 3 #define SOCKET4 0x10 ///< Apply to socket 4 #define SOCKET5 0x20 ///< Apply to socket 5 #define SOCKET6 0x40 ///< Apply to socket 6 #define SOCKET7 0x80 ///< Apply to socket 7 /// ///< CHANNEL MASKS ///< Indicates Memory channels where override should be applied /// #define ANY_CHANNEL 0xFF ///< Apply to all Memory channels #define CHANNEL_A 0x01 ///< Apply to Channel A #define CHANNEL_B 0x02 ///< Apply to Channel B #define CHANNEL_C 0x04 ///< Apply to Channel C #define CHANNEL_D 0x08 ///< Apply to Channel D /// /// DIMM MASKS /// Indicates Dimm Slots where override should be applied /// #define ALL_DIMMS 0xFF ///< Apply to all dimm slots #define DIMM0 0x01 ///< Apply to Dimm Slot 0 #define DIMM1 0x02 ///< Apply to Dimm Slot 1 #define DIMM2 0x04 ///< Apply to Dimm Slot 2 #define DIMM3 0x08 ///< Apply to Dimm Slot 3 /// /// REGISTER ACCESS MASKS /// Not supported as an at this time /// #define ACCESS_NB0 0x0 #define ACCESS_NB1 0x1 #define ACCESS_NB2 0x2 #define ACCESS_NB3 0x3 #define ACCESS_NB4 0x4 #define ACCESS_PHY 0x5 #define ACCESS_DCT_XT 0x6 /// /// MOTHER BOARD DESIGN LAYERS MASKS /// Indicates the layer design of mother board /// #define LAYERS_4 0x0 #define LAYERS_6 0x1 /*---------------------------------------------------------------------------------------- * * Platform Specific Overriding Table Definitions * *---------------------------------------------------------------------------------------- */ #define PSO_END 0 ///< Table End #define PSO_CKE_TRI 1 ///< CKE Tristate Map #define PSO_ODT_TRI 2 ///< ODT Tristate Map #define PSO_CS_TRI 3 ///< CS Tristate Map #define PSO_MAX_DIMMS 4 ///< Max Dimms per channel #define PSO_CLK_SPEED 5 ///< Clock Speed #define PSO_DIMM_TYPE 6 ///< Dimm Type #define PSO_MEMCLK_DIS 7 ///< MEMCLK Disable Map #define PSO_MAX_CHNLS 8 ///< Max Channels per Socket #define PSO_BUS_SPEED 9 ///< Max Memory Bus Speed #define PSO_MAX_CHIPSELS 10 ///< Max Chipsel per Channel #define PSO_MEM_TECH 11 ///< Channel Memory Type #define PSO_WL_SEED 12 ///< DDR3 Write Levelization Seed delay #define PSO_RXEN_SEED 13 ///< Hardwared based RxEn seed #define PSO_NO_LRDIMM_CS67_ROUTING 14 ///< CS6 and CS7 are not Routed to all Memoy slots on a channel for LRDIMMs #define PSO_SOLDERED_DOWN_SODIMM_TYPE 15 ///< Soldered down SODIMM type #define PSO_LVDIMM_VOLT1_5_SUPPORT 16 ///< Force LvDimm voltage to 1.5V #define PSO_MIN_RD_WR_DATAEYE_WIDTH 17 ///< Min RD/WR dataeye width #define PSO_CPU_FAMILY_TO_OVERRIDE 18 ///< CPU family signature to tell following PSO macros are CPU family dependent #define PSO_MAX_SOLDERED_DOWN_DIMMS 19 ///< Max Soldered-down Dimms per channel #define PSO_MOTHER_BOARD_LAYERS 20 ///< Mother board layer design /*---------------------------------- * CONDITIONAL PSO SPECIFIC ENTRIES *---------------------------------*/ // Condition Types #define CONDITIONAL_PSO_MIN 100 ///< Start of Conditional Entry Types #define PSO_CONDITION_AND 100 ///< And Block - Start of Conditional block #define PSO_CONDITION_LOC 101 ///< Location - Specify Socket, Channel, Dimms to be affected #define PSO_CONDITION_SPD 102 ///< SPD - Specify a specific SPD value on a Dimm on the channel #define PSO_CONDITION_REG 103 // Reserved #define PSO_CONDITION_MAX 103 ///< End Of Condition Entry Types // Action Types #define PSO_ACTION_MIN 120 ///< Start of Action Entry Types #define PSO_ACTION_ODT 120 ///< ODT values to override #define PSO_ACTION_ADDRTMG 121 ///< Address/Timing values to override #define PSO_ACTION_ODCCONTROL 122 ///< ODC Control values to override #define PSO_ACTION_SLEWRATE 123 ///< Slew Rate value to override #define PSO_ACTION_REG 124 // Reserved #define PSO_ACTION_SPEEDLIMIT 125 ///< Memory Bus speed Limit based on configuration #define PSO_ACTION_MAX 125 ///< End of Action Entry Types #define CONDITIONAL_PSO_MAX 139 ///< End of Conditional Entry Types /*---------------------------------- * TABLE DRIVEN PSO SPECIFIC ENTRIES *---------------------------------*/ // Condition descriptor #define PSO_TBLDRV_CONFIG 200 ///< Configuration Descriptor // Overriding entry types #define PSO_TBLDRV_START 210 ///< Start of Table Driven Overriding Entry Types #define PSO_TBLDRV_SPEEDLIMIT 210 ///< Speed Limit #define PSO_TBLDRV_ODT_RTTNOM 211 ///< RttNom #define PSO_TBLDRV_ODT_RTTWR 212 ///< RttWr #define PSO_TBLDRV_ODTPATTERN 213 ///< Odt Patterns #define PSO_TBLDRV_ADDRTMG 214 ///< Address/Timing values #define PSO_TBLDRV_ODCCTRL 215 ///< ODC Control values #define PSO_TBLDRV_SLOWACCMODE 216 ///< Slow Access Mode #define PSO_TBLDRV_MR0_CL 217 ///< MR0[CL] #define PSO_TBLDRV_MR0_WR 218 ///< MR0[WR] #define PSO_TBLDRV_RC2_IBT 219 ///< RC2[IBT] #define PSO_TBLDRV_RC10_OPSPEED 220 ///< RC10[Opearting Speed] #define PSO_TBLDRV_LRDIMM_IBT 221 ///< LrDIMM IBT #define PSO_TBLDRV_2D_TRAINING 222 ///< 2D training #define PSO_TBLDRV_INVALID_TYPE 223 ///< Invalid Type #define PSO_TBLDRV_END 223 ///< End of Table Driven Overriding Entry Types /*---------------------------------------------------------------------------------------- * CONDITIONAL OVERRIDE TABLE MACROS *---------------------------------------------------------------------------------------- */ #define CPU_FAMILY_TO_OVERRIDE(CpuFamilyRevision) \ PSO_CPU_FAMILY_TO_OVERRIDE, 4, \ ((CpuFamilyRevision) & 0x0FF), (((CpuFamilyRevision) >> 8)& 0x0FF), (((CpuFamilyRevision) >> 16)& 0x0FF), (((CpuFamilyRevision) >> 24)& 0x0FF) #define MEMCLK_DIS_MAP(SocketID, ChannelID, Bit0Map, Bit1Map, Bit2Map, Bit3Map, Bit4Map, Bit5Map, Bit6Map, Bit7Map) \ PSO_MEMCLK_DIS, 11, SocketID, ChannelID, ALL_DIMMS, Bit0Map, Bit1Map, Bit2Map, Bit3Map, Bit4Map, Bit5Map, Bit6Map \ , Bit7Map #define CKE_TRI_MAP(SocketID, ChannelID, Bit0Map, Bit1Map, Bit2Map, Bit3Map) \ PSO_CKE_TRI, 7, SocketID, ChannelID, ALL_DIMMS, Bit0Map, Bit1Map, Bit2Map, Bit3Map #define ODT_TRI_MAP(SocketID, ChannelID, Bit0Map, Bit1Map, Bit2Map, Bit3Map) \ PSO_ODT_TRI, 7, SocketID, ChannelID, ALL_DIMMS, Bit0Map, Bit1Map, Bit2Map, Bit3Map #define CS_TRI_MAP(SocketID, ChannelID, Bit0Map, Bit1Map, Bit2Map, Bit3Map, Bit4Map, Bit5Map, Bit6Map, Bit7Map) \ PSO_CS_TRI, 11, SocketID, ChannelID, ALL_DIMMS, Bit0Map, Bit1Map, Bit2Map, Bit3Map, Bit4Map, Bit5Map, Bit6Map, Bit7Map #define NUMBER_OF_DIMMS_SUPPORTED(SocketID, ChannelID, NumberOfDimmSlotsPerChannel) \ PSO_MAX_DIMMS, 4, SocketID, ChannelID, ALL_DIMMS, NumberOfDimmSlotsPerChannel #define NUMBER_OF_SOLDERED_DOWN_DIMMS_SUPPORTED(SocketID, ChannelID, NumberOfSolderedDownDimmsPerChannel) \ PSO_MAX_SOLDERED_DOWN_DIMMS, 4, SocketID, ChannelID, ALL_DIMMS, NumberOfSolderedDownDimmsPerChannel #define NUMBER_OF_CHIP_SELECTS_SUPPORTED(SocketID, ChannelID, NumberOfChipSelectsPerChannel) \ PSO_MAX_CHIPSELS, 4, SocketID, ChannelID, ALL_DIMMS, NumberOfChipSelectsPerChannel #define NUMBER_OF_CHANNELS_SUPPORTED(SocketID, NumberOfChannelsPerSocket) \ PSO_MAX_CHNLS, 4, SocketID, ANY_CHANNEL, ALL_DIMMS, NumberOfChannelsPerSocket #define OVERRIDE_DDR_BUS_SPEED(SocketID, ChannelID, TimingMode, BusSpeed) \ PSO_BUS_SPEED, 11, SocketID, ChannelID, ALL_DIMMS, TimingMode, (TimingMode >> 8), (TimingMode >> 16), (TimingMode >> 24), \ BusSpeed, (BusSpeed >> 8), (BusSpeed >> 16), (BusSpeed >> 24) #define DRAM_TECHNOLOGY(SocketID, MemTechType) \ PSO_MEM_TECH, 7, SocketID, ANY_CHANNEL, ALL_DIMMS, MemTechType, (MemTechType >> 8), (MemTechType >> 16), (MemTechType >> 24) #define WRITE_LEVELING_SEED(SocketID, ChannelID, DimmID, Byte0Seed, Byte1Seed, Byte2Seed, Byte3Seed, Byte4Seed, Byte5Seed, \ Byte6Seed, Byte7Seed, ByteEccSeed) \ PSO_WL_SEED, 12, SocketID, ChannelID, DimmID, Byte0Seed, Byte1Seed, Byte2Seed, Byte3Seed, Byte4Seed, Byte5Seed, \ Byte6Seed, Byte7Seed, ByteEccSeed #define HW_RXEN_SEED(SocketID, ChannelID, DimmID, Byte0Seed, Byte1Seed, Byte2Seed, Byte3Seed, Byte4Seed, Byte5Seed, \ Byte6Seed, Byte7Seed, ByteEccSeed) \ PSO_RXEN_SEED, 21, SocketID, ChannelID, DimmID, Byte0Seed, (Byte0Seed >> 8), Byte1Seed, (Byte1Seed >> 8), Byte2Seed, (Byte2Seed >> 8), \ Byte3Seed, (Byte3Seed >> 8), Byte4Seed, (Byte4Seed >> 8), Byte5Seed, (Byte5Seed >> 8), Byte6Seed, (Byte6Seed >> 8), \ Byte7Seed, (Byte7Seed >> 8), ByteEccSeed, (ByteEccSeed >> 8) #define NO_LRDIMM_CS67_ROUTING(SocketID, ChannelID) \ PSO_NO_LRDIMM_CS67_ROUTING, 4, SocketID, ChannelID, ALL_DIMMS, TRUE #define SOLDERED_DOWN_SODIMM_TYPE(SocketID, ChannelID) \ PSO_SOLDERED_DOWN_SODIMM_TYPE, 4, SocketID, ChannelID, ALL_DIMMS, TRUE #define LVDIMM_FORCE_VOLT1_5_FOR_D0 \ PSO_LVDIMM_VOLT1_5_SUPPORT, 4, ANY_SOCKET, ANY_CHANNEL, ALL_DIMMS, TRUE #define MIN_RD_WR_DATAEYE_WIDTH(SocketID, ChannelID, MinRdDataeyeWidth, MinWrDataeyeWidth) \ PSO_MIN_RD_WR_DATAEYE_WIDTH, 5, SocketID, ChannelID, ALL_DIMMS, MinRdDataeyeWidth, MinWrDataeyeWidth #define MOTHER_BOARD_LAYERS(Layers) \ PSO_MOTHER_BOARD_LAYERS, 4, ANY_SOCKET, ANY_CHANNEL, ALL_DIMMS, Layers #define MAX_NUMBER_PSO_TABLES 13 /*---------------------------------------------------------------------------------------- * CONDITIONAL OVERRIDE TABLE MACROS *---------------------------------------------------------------------------------------- */ #define CONDITION_AND \ PSO_CONDITION_AND, 0 #define COND_LOC(SocketMsk, ChannelMsk, DimmMsk) \ PSO_CONDITION_LOC, 3, SocketMsk, ChannelMsk, DimmMsk #define COND_SPD(Byte, Mask, Value) \ PSO_CONDITION_SPD, 3, Byte, Mask, Value #define COND_REG(Access, Offset, Mask, Value) \ PSO_CONDITION_REG, 11, Access, (Offset & 0x0FF), (Offset >> 8), \ ((Mask) & 0x0FF), (((Mask) >> 8) & 0x0FF), (((Mask) >> 16) & 0x0FF), (((Mask) >> 24) & 0x0FF), \ ((Value) & 0x0FF), (((Value) >> 8) & 0x0FF), (((Value) >> 16) & 0x0FF), (((Value) >> 24) & 0x0FF) #define ACTION_ODT(Frequency, Dimms, QrDimms, DramOdt, QrDramOdt, DramDynOdt) \ PSO_ACTION_ODT, 9, \ ((Frequency) & 0x0FF), (((Frequency) >> 8)& 0x0FF), (((Frequency) >> 16)& 0x0FF), ((Frequency >> 24)& 0x0FF), \ Dimms, QrDimms, DramOdt, QrDramOdt, DramDynOdt #define ACTION_ADDRTMG(Frequency, DimmConfig, AddrTmg) \ PSO_ACTION_ADDRTMG, 10, \ ((Frequency) & 0x0FF), (((Frequency) >> 8)& 0x0FF), (((Frequency) >> 16)& 0x0FF), (((Frequency) >> 24)& 0x0FF), \ ((DimmConfig) & 0x0FF), (((DimmConfig) >> 8) & 0x0FF), \ (AddrTmg & 0x0FF), ((AddrTmg >> 8)& 0x0FF), ((AddrTmg >> 16)& 0x0FF), ((AddrTmg >> 24)& 0x0FF) #define ACTION_ODCCTRL(Frequency, DimmConfig, OdcCtrl) \ PSO_ACTION_ODCCONTROL, 10, \ ((Frequency) & 0x0FF), (((Frequency) >> 8)& 0x0FF), (((Frequency) >> 16)& 0x0FF), (((Frequency) >> 24)& 0x0FF), \ ((DimmConfig) & 0x0FF), (((DimmConfig) >> 8) & 0x0FF), \ (OdcCtrl & 0x0FF), ((OdcCtrl >> 8)& 0x0FF), ((OdcCtrl >> 16)& 0x0FF), ((OdcCtrl >> 24)& 0x0FF) #define ACTION_SLEWRATE(Frequency, DimmConfig, SlewRate) \ PSO_ACTION_SLEWRATE, 10, \ ((Frequency) & 0x0FF), (((Frequency) >> 8)& 0x0FF), (((Frequency) >> 16)& 0x0FF), (((Frequency) >> 24)& 0x0FF), \ ((DimmConfig) & 0x0FF), (((DimmConfig) >> 8) & 0x0FF), \ (SlewRate & 0x0FF), ((SlewRate >> 8)& 0x0FF), ((SlewRate >> 16)& 0x0FF), ((SlewRate >> 24)& 0x0FF) #define ACTION_SPEEDLIMIT(DimmConfig, Dimms, SpeedLimit15, SpeedLimit135, SpeedLimit125) \ PSO_ACTION_SPEEDLIMIT, 9, \ ((DimmConfig) & 0x0FF), (((DimmConfig) >> 8) & 0x0FF), Dimms, \ (SpeedLimit15 & 0x0FF), ((SpeedLimit15 >> 8)& 0x0FF), \ (SpeedLimit135 & 0x0FF), ((SpeedLimit135 >> 8)& 0x0FF), \ (SpeedLimit125 & 0x0FF), ((SpeedLimit125 >> 8)& 0x0FF) #define MEMCLK_DIS_MAP_SIZE 13 #define CKE_TRI_MAP_SIZE 9 #define ODT_TRI_MAP_SIZE 9 #define CS_TRI_MAP_SIZE 13 #define NUMBER_OF_DIMMS_SUPPORTED_SIZE 6 #define NUMBER_OF_SOLDERED_DOWN_DIMMS_SUPPORTED_SIZE 6 #define NUMBER_OF_CHIP_SELECTS_SUPPORTED_SIZE 6 #define NUMBER_OF_CHANNELS_SUPPORTED_SIZE 6 #define OVERRIDE_DDR_BUS_SPEED_SIZE 13 #define DRAM_TECHNOLOGY_SIZE 9 #define SOLDERED_DOWN_SODIMM_TYPE_SIZE 6 #define MEMORY_POWER_POLICY_OVERRIDE_SIZE 6 #define MOTHER_BOARD_LAYERS_SIZE 6 /*---------------------------------------------------------------------------------------- * END OF CONDITIONAL OVERRIDE TABLE MACROS *---------------------------------------------------------------------------------------- */ /*---------------------------------------------------------------------------------------- * TABLE DRIVEN OVERRIDE MACROS *---------------------------------------------------------------------------------------- */ /// Configuration sub-descriptors typedef enum { CONFIG_GENERAL, ///< CONFIG_GENERAL CONFIG_SPEEDLIMIT, ///< CONFIG_SPEEDLIMIT CONFIG_RC2IBT, ///< CONFIG_RC2IBT CONFIG_DONT_CARE, ///< CONFIG_DONT_CARE } Config_Type; // ==================== // Configuration Macros // ==================== #define TBLDRV_CONFIG_TO_OVERRIDE(DimmPerCH, Frequency, DimmVolt, DimmConfig) \ PSO_TBLDRV_CONFIG, 9, \ CONFIG_GENERAL, \ DimmPerCH, DimmVolt, \ ((Frequency) & 0x0FF), (((Frequency) >> 8)& 0x0FF), (((Frequency) >> 16)& 0x0FF), (((Frequency) >> 24)& 0x0FF), \ ((DimmConfig) & 0x0FF), (((DimmConfig) >> 8) & 0x0FF) #define TBLDRV_SPEEDLIMIT_CONFIG_TO_OVERRIDE(DimmPerCH, Dimms, NumOfSR, NumOfDR, NumOfQR, NumOfLRDimm) \ PSO_TBLDRV_CONFIG, 7, \ CONFIG_SPEEDLIMIT, \ DimmPerCH, Dimms, NumOfSR, NumOfDR, NumOfQR, NumOfLRDimm #define TBLDRV_RC2IBT_CONFIG_TO_OVERRIDE(DimmPerCH, Frequency, DimmVolt, DimmConfig, NumOfReg) \ PSO_TBLDRV_CONFIG, 10, \ CONFIG_RC2IBT, \ DimmPerCH, DimmVolt, \ ((Frequency) & 0x0FF), (((Frequency) >> 8)& 0x0FF), (((Frequency) >> 16)& 0x0FF), (((Frequency) >> 24)& 0x0FF), \ ((DimmConfig) & 0x0FF), (((DimmConfig) >> 8) & 0x0FF), \ NumOfReg //================== // Overriding Macros //================== #define TBLDRV_CONFIG_ENTRY_SPEEDLIMIT(SpeedLimit1_5, SpeedLimit1_35, SpeedLimit1_25) \ PSO_TBLDRV_SPEEDLIMIT, 6, \ (SpeedLimit1_5 & 0x0FF), ((SpeedLimit1_5 >> 8)& 0x0FF), \ (SpeedLimit1_35 & 0x0FF), ((SpeedLimit1_35 >> 8)& 0x0FF), \ (SpeedLimit1_25 & 0x0FF), ((SpeedLimit1_25 >> 8)& 0x0FF) #define TBLDRV_CONFIG_ENTRY_ODT_RTTNOM(TgtCS, RttNom) \ PSO_TBLDRV_ODT_RTTNOM, 2, \ TgtCS, RttNom #define TBLDRV_CONFIG_ENTRY_ODT_RTTWR(TgtCS, RttWr) \ PSO_TBLDRV_ODT_RTTWR, 2, \ TgtCS, RttWr #define TBLDRV_CONFIG_ENTRY_ODTPATTERN(RdODTCSHigh, RdODTCSLow, WrODTCSHigh, WrODTCSLow) \ PSO_TBLDRV_ODTPATTERN, 16, \ ((RdODTCSHigh) & 0x0FF), (((RdODTCSHigh) >> 8)& 0x0FF), (((RdODTCSHigh) >> 16)& 0x0FF), (((RdODTCSHigh) >> 24)& 0x0FF), \ ((RdODTCSLow) & 0x0FF), (((RdODTCSLow) >> 8)& 0x0FF), (((RdODTCSLow) >> 16)& 0x0FF), (((RdODTCSLow) >> 24)& 0x0FF), \ ((WrODTCSHigh) & 0x0FF), (((WrODTCSHigh) >> 8)& 0x0FF), (((WrODTCSHigh) >> 16)& 0x0FF), (((WrODTCSHigh) >> 24)& 0x0FF), \ ((WrODTCSLow) & 0x0FF), (((WrODTCSLow) >> 8)& 0x0FF), (((WrODTCSLow) >> 16)& 0x0FF), (((WrODTCSLow) >> 24)& 0x0FF) #define TBLDRV_CONFIG_ENTRY_ADDRTMG(AddrTmg) \ PSO_TBLDRV_ADDRTMG, 4, \ ((AddrTmg) & 0x0FF), (((AddrTmg) >> 8)& 0x0FF), (((AddrTmg) >> 16)& 0x0FF), (((AddrTmg) >> 24)& 0x0FF) #define TBLDRV_CONFIG_ENTRY_ODCCTRL(OdcCtrl) \ PSO_TBLDRV_ODCCTRL, 4, \ ((OdcCtrl) & 0x0FF), (((OdcCtrl) >> 8)& 0x0FF), (((OdcCtrl) >> 16)& 0x0FF), (((OdcCtrl) >> 24)& 0x0FF) #define TBLDRV_CONFIG_ENTRY_SLOWACCMODE(SlowAccMode) \ PSO_TBLDRV_SLOWACCMODE, 1, \ SlowAccMode #define TBLDRV_CONFIG_ENTRY_RC2_IBT(TgtDimm, IBT) \ PSO_TBLDRV_RC2_IBT, 2, \ TgtDimm, IBT #define TBLDRV_OVERRIDE_MR0_CL(RegValOfTcl, MR0CL13, MR0CL0) \ PSO_TBLDRV_CONFIG, 1, \ CONFIG_DONT_CARE, \ PSO_TBLDRV_MR0_CL, 3, \ RegValOfTcl, MR0CL13, MR0CL0 #define TBLDRV_OVERRIDE_MR0_WR(RegValOfTwr, MR0WR) \ PSO_TBLDRV_CONFIG, 1, \ CONFIG_DONT_CARE, \ PSO_TBLDRV_MR0_WR, 2, \ RegValOfTwr, MR0WR #define TBLDRV_OVERRIDE_RC10_OPSPEED(Frequency, MR10OPSPEED) \ PSO_TBLDRV_CONFIG, 1, \ CONFIG_DONT_CARE, \ PSO_TBLDRV_RC10_OPSPEED, 5, \ ((Frequency) & 0x0FF), (((Frequency) >> 8)& 0x0FF), (((Frequency) >> 16)& 0x0FF), (((Frequency) >> 24)& 0x0FF), \ MR10OPSPEED #define TBLDRV_CONFIG_ENTRY_LRDMM_IBT(F0RC8, F1RC0, F1RC1, F1RC2) \ PSO_TBLDRV_LRDIMM_IBT, 4, \ F0RC8, F1RC0, F1RC1, F1RC2 #define TBLDRV_CONFIG_ENTRY_2D_TRAINING(Training2dMode) \ PSO_TBLDRV_2D_TRAINING, 1, \ Training2dMode //============================ // Macros for removing entries //============================ #define INVALID_CONFIG_FLAG 0x8000 #define TBLDRV_INVALID_CONFIG \ PSO_TBLDRV_INVALID_TYPE, 0 /*---------------------------------------------------------------------------------------- * END OF TABLE DRIVEN OVERRIDE MACROS *---------------------------------------------------------------------------------------- */ #endif // _PLATFORM_MEMORY_CONFIGURATION_H_