From 6a82ceb69093cf77ac36dff63225c05f764999ca Mon Sep 17 00:00:00 2001 From: Liming Gao Date: Wed, 23 Nov 2016 15:03:08 +0800 Subject: [PATCH] MdePkg IndustryStandard: Add DDR3, DDR4 and LPDDR definition per SPD spec https://bugzilla.tianocore.org/show_bug.cgi?id=201 In V3, Use Odt to replace ODT, Cke to replace CKE, Id to replace ID, and Cl to replace CL in structure field name. In V2, separate DDR3, DDR4 and LPDDR definition into the different files; use the different SPD prefix as structure definitions for each SPD type. Cc: Giri P Mudusuru Contributed-under: TianoCore Contribution Agreement 1.0 Signed-off-by: Liming Gao Reviewed-by: Giri P Mudusuru --- MdePkg/Include/IndustryStandard/SdramSpd.h | 31 +- .../Include/IndustryStandard/SdramSpdDdr3.h | 769 ++++++++++++++ .../Include/IndustryStandard/SdramSpdDdr4.h | 958 ++++++++++++++++++ .../Include/IndustryStandard/SdramSpdLpDdr.h | 474 +++++++++ 4 files changed, 2221 insertions(+), 11 deletions(-) create mode 100644 MdePkg/Include/IndustryStandard/SdramSpdDdr3.h create mode 100644 MdePkg/Include/IndustryStandard/SdramSpdDdr4.h create mode 100644 MdePkg/Include/IndustryStandard/SdramSpdLpDdr.h diff --git a/MdePkg/Include/IndustryStandard/SdramSpd.h b/MdePkg/Include/IndustryStandard/SdramSpd.h index 2b2012be39..68f90454a5 100644 --- a/MdePkg/Include/IndustryStandard/SdramSpd.h +++ b/MdePkg/Include/IndustryStandard/SdramSpd.h @@ -1,19 +1,23 @@ /** @file This file contains definitions for the SPD fields on an SDRAM. - - Copyright (c) 2007 - 2008, Intel Corporation. All rights reserved.
- This program and the accompanying materials - are licensed and made available under the terms and conditions of the BSD License - which accompanies this distribution. The full text of the license may be found at - http://opensource.org/licenses/bsd-license.php - THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, - WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED. + Copyright (c) 2007 - 2016, Intel Corporation. All rights reserved.
+ This program and the accompanying materials + are licensed and made available under the terms and conditions of the BSD License + which accompanies this distribution. The full text of the license may be found at + http://opensource.org/licenses/bsd-license.php + + THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, + WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED. **/ #ifndef _SDRAM_SPD_H_ #define _SDRAM_SPD_H_ +#include +#include +#include + // // SDRAM SPD field definitions // @@ -47,9 +51,14 @@ // // Memory Type Definitions // -#define SPD_VAL_SDR_TYPE 4 ///< SDR SDRAM memory -#define SPD_VAL_DDR_TYPE 7 ///< DDR SDRAM memory -#define SPD_VAL_DDR2_TYPE 8 ///< DDR2 SDRAM memory +#define SPD_VAL_SDR_TYPE 4 ///< SDR SDRAM memory +#define SPD_VAL_DDR_TYPE 7 ///< DDR SDRAM memory +#define SPD_VAL_DDR2_TYPE 8 ///< DDR2 SDRAM memory +#define SPD_VAL_DDR3_TYPE 11 ///< DDR3 SDRAM memory +#define SPD_VAL_DDR4_TYPE 12 ///< DDR4 SDRAM memory +#define SPD_VAL_LPDDR3_TYPE 15 ///< LPDDR3 SDRAM memory +#define SPD_VAL_LPDDR4_TYPE 16 ///< LPDDR4 SDRAM memory + // // ECC Type Definitions // diff --git a/MdePkg/Include/IndustryStandard/SdramSpdDdr3.h b/MdePkg/Include/IndustryStandard/SdramSpdDdr3.h new file mode 100644 index 0000000000..e280919d1f --- /dev/null +++ b/MdePkg/Include/IndustryStandard/SdramSpdDdr3.h @@ -0,0 +1,769 @@ +/** @file + This file contains definitions for SPD DDR3. + + Copyright (c) 2016, Intel Corporation. All rights reserved.
+ This program and the accompanying materials + are licensed and made available under the terms and conditions of the BSD License + which accompanies this distribution. The full text of the license may be found at + http://opensource.org/licenses/bsd-license.php + + THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, + WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED. + + @par Revision Reference: + - Serial Presence Detect (SPD) for DDR3 SDRAM Modules Document Release 6 + http://www.jedec.org/sites/default/files/docs/4_01_02_11R21A.pdf +**/ + +#ifndef _SDRAM_SPD_DDR3_H_ +#define _SDRAM_SPD_DDR3_H_ + +#pragma pack (push, 1) + +typedef union { + struct { + UINT8 BytesUsed : 4; ///< Bits 3:0 + UINT8 BytesTotal : 3; ///< Bits 6:4 + UINT8 CrcCoverage : 1; ///< Bits 7:7 + } Bits; + UINT8 Data; +} SPD3_DEVICE_DESCRIPTION_STRUCT; + +typedef union { + struct { + UINT8 Minor : 4; ///< Bits 3:0 + UINT8 Major : 4; ///< Bits 7:4 + } Bits; + UINT8 Data; +} SPD3_REVISION_STRUCT; + +typedef union { + struct { + UINT8 Type : 8; ///< Bits 7:0 + } Bits; + UINT8 Data; +} SPD3_DRAM_DEVICE_TYPE_STRUCT; + +typedef union { + struct { + UINT8 ModuleType : 4; ///< Bits 3:0 + UINT8 Reserved : 4; ///< Bits 7:4 + } Bits; + UINT8 Data; +} SPD3_MODULE_TYPE_STRUCT; + +typedef union { + struct { + UINT8 Density : 4; ///< Bits 3:0 + UINT8 BankAddress : 3; ///< Bits 6:4 + UINT8 Reserved : 1; ///< Bits 7:7 + } Bits; + UINT8 Data; +} SPD3_SDRAM_DENSITY_BANKS_STRUCT; + +typedef union { + struct { + UINT8 ColumnAddress : 3; ///< Bits 2:0 + UINT8 RowAddress : 3; ///< Bits 5:3 + UINT8 Reserved : 2; ///< Bits 7:6 + } Bits; + UINT8 Data; +} SPD3_SDRAM_ADDRESSING_STRUCT; + +typedef union { + struct { + UINT8 OperationAt1_50 : 1; ///< Bits 0:0 + UINT8 OperationAt1_35 : 1; ///< Bits 1:1 + UINT8 OperationAt1_25 : 1; ///< Bits 2:2 + UINT8 Reserved : 5; ///< Bits 7:3 + } Bits; + UINT8 Data; +} SPD3_MODULE_NOMINAL_VOLTAGE_STRUCT; + +typedef union { + struct { + UINT8 SdramDeviceWidth : 3; ///< Bits 2:0 + UINT8 RankCount : 3; ///< Bits 5:3 + UINT8 Reserved : 2; ///< Bits 7:6 + } Bits; + UINT8 Data; +} SPD3_MODULE_ORGANIZATION_STRUCT; + +typedef union { + struct { + UINT8 PrimaryBusWidth : 3; ///< Bits 2:0 + UINT8 BusWidthExtension : 2; ///< Bits 4:3 + UINT8 Reserved : 3; ///< Bits 7:5 + } Bits; + UINT8 Data; +} SPD3_MODULE_MEMORY_BUS_WIDTH_STRUCT; + +typedef union { + struct { + UINT8 Divisor : 4; ///< Bits 3:0 + UINT8 Dividend : 4; ///< Bits 7:4 + } Bits; + UINT8 Data; +} SPD3_FINE_TIMEBASE_STRUCT; + +typedef union { + struct { + UINT8 Dividend : 8; ///< Bits 7:0 + } Bits; + UINT8 Data; +} SPD3_MEDIUM_TIMEBASE_DIVIDEND_STRUCT; + +typedef union { + struct { + UINT8 Divisor : 8; ///< Bits 7:0 + } Bits; + UINT8 Data; +} SPD3_MEDIUM_TIMEBASE_DIVISOR_STRUCT; + +typedef struct { + SPD3_MEDIUM_TIMEBASE_DIVIDEND_STRUCT Dividend; ///< Medium Timebase (MTB) Dividend + SPD3_MEDIUM_TIMEBASE_DIVISOR_STRUCT Divisor; ///< Medium Timebase (MTB) Divisor +} SPD3_MEDIUM_TIMEBASE; + +typedef union { + struct { + UINT8 tCKmin : 8; ///< Bits 7:0 + } Bits; + UINT8 Data; +} SPD3_TCK_MIN_MTB_STRUCT; + +typedef union { + struct { + UINT16 Cl4 : 1; ///< Bits 0:0 + UINT16 Cl5 : 1; ///< Bits 1:1 + UINT16 Cl6 : 1; ///< Bits 2:2 + UINT16 Cl7 : 1; ///< Bits 3:3 + UINT16 Cl8 : 1; ///< Bits 4:4 + UINT16 Cl9 : 1; ///< Bits 5:5 + UINT16 Cl10 : 1; ///< Bits 6:6 + UINT16 Cl11 : 1; ///< Bits 7:7 + UINT16 Cl12 : 1; ///< Bits 8:8 + UINT16 Cl13 : 1; ///< Bits 9:9 + UINT16 Cl14 : 1; ///< Bits 10:10 + UINT16 Cl15 : 1; ///< Bits 11:11 + UINT16 Cl16 : 1; ///< Bits 12:12 + UINT16 Cl17 : 1; ///< Bits 13:13 + UINT16 Cl18 : 1; ///< Bits 14:14 + UINT16 Reserved : 1; ///< Bits 15:15 + } Bits; + UINT16 Data; + UINT8 Data8[2]; +} SPD3_CAS_LATENCIES_SUPPORTED_STRUCT; + +typedef union { + struct { + UINT8 tAAmin : 8; ///< Bits 7:0 + } Bits; + UINT8 Data; +} SPD3_TAA_MIN_MTB_STRUCT; + +typedef union { + struct { + UINT8 tWRmin : 8; ///< Bits 7:0 + } Bits; + UINT8 Data; +} SPD3_TWR_MIN_MTB_STRUCT; + +typedef union { + struct { + UINT8 tRCDmin : 8; ///< Bits 7:0 + } Bits; + UINT8 Data; +} SPD3_TRCD_MIN_MTB_STRUCT; + +typedef union { + struct { + UINT8 tRRDmin : 8; ///< Bits 7:0 + } Bits; + UINT8 Data; +} SPD3_TRRD_MIN_MTB_STRUCT; + +typedef union { + struct { + UINT8 tRPmin : 8; ///< Bits 7:0 + } Bits; + UINT8 Data; +} SPD3_TRP_MIN_MTB_STRUCT; + +typedef union { + struct { + UINT8 tRASminUpper : 4; ///< Bits 3:0 + UINT8 tRCminUpper : 4; ///< Bits 7:4 + } Bits; + UINT8 Data; +} SPD3_TRAS_TRC_MIN_MTB_STRUCT; + +typedef union { + struct { + UINT8 tRASmin : 8; ///< Bits 7:0 + } Bits; + UINT8 Data; +} SPD3_TRAS_MIN_MTB_STRUCT; + +typedef union { + struct { + UINT8 tRCmin : 8; ///< Bits 7:0 + } Bits; + UINT8 Data; +} SPD3_TRC_MIN_MTB_STRUCT; + +typedef union { + struct { + UINT16 tRFCmin : 16; ///< Bits 15:0 + } Bits; + UINT16 Data; + UINT8 Data8[2]; +} SPD3_TRFC_MIN_MTB_STRUCT; + +typedef union { + struct { + UINT8 tWTRmin : 8; ///< Bits 7:0 + } Bits; + UINT8 Data; +} SPD3_TWTR_MIN_MTB_STRUCT; + +typedef union { + struct { + UINT8 tRTPmin : 8; ///< Bits 7:0 + } Bits; + UINT8 Data; +} SPD3_TRTP_MIN_MTB_STRUCT; + +typedef union { + struct { + UINT8 tFAWminUpper : 4; ///< Bits 3:0 + UINT8 Reserved : 4; ///< Bits 7:4 + } Bits; + UINT8 Data; +} SPD3_TFAW_MIN_MTB_UPPER_STRUCT; + +typedef union { + struct { + UINT8 tFAWmin : 8; ///< Bits 7:0 + } Bits; + UINT8 Data; +} SPD3_TFAW_MIN_MTB_STRUCT; + +typedef union { + struct { + UINT8 Rzq6 : 1; ///< Bits 0:0 + UINT8 Rzq7 : 1; ///< Bits 1:1 + UINT8 Reserved : 5; ///< Bits 6:2 + UINT8 DllOff : 1; ///< Bits 7:7 + } Bits; + UINT8 Data; +} SPD3_SDRAM_OPTIONAL_FEATURES_STRUCT; + +typedef union { + struct { + UINT8 ExtendedTemperatureRange : 1; ///< Bits 0:0 + UINT8 ExtendedTemperatureRefreshRate : 1; ///< Bits 1:1 + UINT8 AutoSelfRefresh : 1; ///< Bits 2:2 + UINT8 OnDieThermalSensor : 1; ///< Bits 3:3 + UINT8 Reserved : 3; ///< Bits 6:4 + UINT8 PartialArraySelfRefresh : 1; ///< Bits 7:7 + } Bits; + UINT8 Data; +} SPD3_SDRAM_THERMAL_REFRESH_STRUCT; + +typedef union { + struct { + UINT8 ThermalSensorAccuracy : 7; ///< Bits 6:0 + UINT8 ThermalSensorPresence : 1; ///< Bits 7:7 + } Bits; + UINT8 Data; +} SPD3_MODULE_THERMAL_SENSOR_STRUCT; + +typedef union { + struct { + UINT8 SignalLoading : 2; ///< Bits 1:0 + UINT8 Reserved : 2; ///< Bits 3:2 + UINT8 DieCount : 3; ///< Bits 6:4 + UINT8 SdramDeviceType : 1; ///< Bits 7:7 + } Bits; + UINT8 Data; +} SPD3_SDRAM_DEVICE_TYPE_STRUCT; + +typedef union { + struct { + INT8 tCKminFine : 8; ///< Bits 7:0 + } Bits; + INT8 Data; +} SPD3_TCK_MIN_FTB_STRUCT; + +typedef union { + struct { + INT8 tAAminFine : 8; ///< Bits 7:0 + } Bits; + INT8 Data; +} SPD3_TAA_MIN_FTB_STRUCT; + +typedef union { + struct { + INT8 tRCDminFine : 8; ///< Bits 7:0 + } Bits; + INT8 Data; +} SPD3_TRCD_MIN_FTB_STRUCT; + +typedef union { + struct { + INT8 tRPminFine : 8; ///< Bits 7:0 + } Bits; + INT8 Data; +} SPD3_TRP_MIN_FTB_STRUCT; + +typedef union { + struct { + INT8 tRCminFine : 8; ///< Bits 7:0 + } Bits; + INT8 Data; +} SPD3_TRC_MIN_FTB_STRUCT; + +typedef union { + struct { + UINT8 MaximumActivateCount : 4; ///< Bits 3:0 + UINT8 MaximumActivateWindow : 2; ///< Bits 5:4 + UINT8 VendorSpecific : 2; ///< Bits 7:6 + } Bits; + UINT8 Data; +} SPD3_MAXIMUM_ACTIVE_COUNT_STRUCT; + +typedef union { + struct { + UINT8 Height : 5; ///< Bits 4:0 + UINT8 RawCardExtension : 3; ///< Bits 7:5 + } Bits; + UINT8 Data; +} SPD3_UNBUF_MODULE_NOMINAL_HEIGHT; + +typedef union { + struct { + UINT8 FrontThickness : 4; ///< Bits 3:0 + UINT8 BackThickness : 4; ///< Bits 7:4 + } Bits; + UINT8 Data; +} SPD3_UNBUF_MODULE_NOMINAL_THICKNESS; + +typedef union { + struct { + UINT8 Card : 5; ///< Bits 4:0 + UINT8 Revision : 2; ///< Bits 6:5 + UINT8 Extension : 1; ///< Bits 7:7 + } Bits; + UINT8 Data; +} SPD3_UNBUF_REFERENCE_RAW_CARD; + +typedef union { + struct { + UINT8 MappingRank1 : 1; ///< Bits 0:0 + UINT8 Reserved : 7; ///< Bits 7:1 + } Bits; + UINT8 Data; +} SPD3_UNBUF_ADDRESS_MAPPING; + +typedef union { + struct { + UINT8 Height : 5; ///< Bits 4:0 + UINT8 Reserved : 3; ///< Bits 7:5 + } Bits; + UINT8 Data; +} SPD3_RDIMM_MODULE_NOMINAL_HEIGHT; + +typedef union { + struct { + UINT8 FrontThickness : 4; ///< Bits 3:0 + UINT8 BackThickness : 4; ///< Bits 7:4 + } Bits; + UINT8 Data; +} SPD3_RDIMM_MODULE_NOMINAL_THICKNESS; + +typedef union { + struct { + UINT8 Card : 5; ///< Bits 4:0 + UINT8 Revision : 2; ///< Bits 6:5 + UINT8 Extension : 1; ///< Bits 7:7 + } Bits; + UINT8 Data; +} SPD3_RDIMM_REFERENCE_RAW_CARD; + +typedef union { + struct { + UINT8 RegisterCount : 2; ///< Bits 1:0 + UINT8 DramRowCount : 2; ///< Bits 3:2 + UINT8 RegisterType : 4; ///< Bits 7:4 + } Bits; + UINT8 Data; +} SPD3_RDIMM_MODULE_ATTRIBUTES; + +typedef union { + struct { + UINT8 HeatSpreaderThermalCharacteristics : 7; ///< Bits 6:0 + UINT8 HeatSpreaderSolution : 1; ///< Bits 7:7 + } Bits; + UINT8 Data; +} SPD3_RDIMM_THERMAL_HEAT_SPREADER_SOLUTION; + +typedef union { + struct { + UINT16 ContinuationCount : 7; ///< Bits 6:0 + UINT16 ContinuationParity : 1; ///< Bits 7:7 + UINT16 LastNonZeroByte : 8; ///< Bits 15:8 + } Bits; + UINT16 Data; + UINT8 Data8[2]; +} SPD3_MANUFACTURER_ID_CODE; + +typedef union { + struct { + UINT8 RegisterRevisionNumber; ///< Bits 7:0 + } Bits; + UINT8 Data; +} SPD3_RDIMM_REGISTER_REVISION_NUMBER; + +typedef union { + struct { + UINT8 Bit0 : 1; ///< Bits 0:0 + UINT8 Bit1 : 1; ///< Bits 1:1 + UINT8 Bit2 : 1; ///< Bits 2:2 + UINT8 Reserved : 5; ///< Bits 7:3 + } Bits; + UINT8 Data; +} SPD3_RDIMM_REGISTER_TYPE; + +typedef union { + struct { + UINT8 Reserved : 4; ///< Bits 0:3 + UINT8 CommandAddressAOutputs : 2; ///< Bits 5:4 + UINT8 CommandAddressBOutputs : 2; ///< Bits 7:6 + } Bits; + UINT8 Data; +} SPD3_RDIMM_REGISTER_CONTROL_COMMAND_ADDRESS; + +typedef union { + struct { + UINT8 ControlSignalsAOutputs : 2; ///< Bits 0:1 + UINT8 ControlSignalsBOutputs : 2; ///< Bits 3:2 + UINT8 Y1Y3ClockOutputs : 2; ///< Bits 5:4 + UINT8 Y0Y2ClockOutputs : 2; ///< Bits 7:6 + } Bits; + UINT8 Data; +} SPD3_RDIMM_REGISTER_CONTROL_CONTROL_CLOCK; + +typedef union { + struct { + UINT8 Reserved0 : 4; ///< Bits 0:3 + UINT8 Reserved1 : 4; ///< Bits 7:4 + } Bits; + UINT8 Data; +} SPD3_RDIMM_REGISTER_CONTROL_RESERVED; + +typedef union { + struct { + UINT8 Height : 5; ///< Bits 4:0 + UINT8 Reserved : 3; ///< Bits 7:5 + } Bits; + UINT8 Data; +} SPD3_LRDIMM_MODULE_NOMINAL_HEIGHT; + +typedef union { + struct { + UINT8 FrontThickness : 4; ///< Bits 3:0 + UINT8 BackThickness : 4; ///< Bits 7:4 + } Bits; + UINT8 Data; +} SPD3_LRDIMM_MODULE_NOMINAL_THICKNESS; + +typedef union { + struct { + UINT8 Card : 5; ///< Bits 4:0 + UINT8 Revision : 2; ///< Bits 6:5 + UINT8 Extension : 1; ///< Bits 7:7 + } Bits; + UINT8 Data; +} SPD3_LRDIMM_REFERENCE_RAW_CARD; + +typedef union { + struct { + UINT8 RegisterCount : 2; ///< Bits 1:0 + UINT8 DramRowCount : 2; ///< Bits 3:2 + UINT8 RegisterType : 4; ///< Bits 7:4 + } Bits; + UINT8 Data; +} SPD3_LRDIMM_MODULE_ATTRIBUTES; + +typedef union { + struct { + UINT8 AddressCommandPrelaunch : 1; ///< Bits 0:0 + UINT8 Rank1Rank5Swap : 1; ///< Bits 1:1 + UINT8 Reserved0 : 1; ///< Bits 2:2 + UINT8 Reserved1 : 1; ///< Bits 3:3 + UINT8 AddressCommandOutputs : 2; ///< Bits 5:4 + UINT8 QxCS_nOutputs : 2; ///< Bits 7:6 + } Bits; + UINT8 Data; +} SPD3_LRDIMM_TIMING_CONTROL_DRIVE_STRENGTH; + +typedef union { + struct { + UINT8 QxOdtOutputs : 2; ///< Bits 1:0 + UINT8 QxCkeOutputs : 2; ///< Bits 3:2 + UINT8 Y1Y3ClockOutputs : 2; ///< Bits 5:4 + UINT8 Y0Y2ClockOutputs : 2; ///< Bits 7:6 + } Bits; + UINT8 Data; +} SPD3_LRDIMM_TIMING_DRIVE_STRENGTH; + +typedef union { + struct { + UINT8 YExtendedDelay : 2; ///< Bits 1:0 + UINT8 QxCS_n : 2; ///< Bits 3:2 + UINT8 QxOdt : 2; ///< Bits 5:4 + UINT8 QxCke : 2; ///< Bits 7:6 + } Bits; + UINT8 Data; +} SPD3_LRDIMM_EXTENDED_DELAY; + +typedef union { + struct { + UINT8 DelayY : 3; ///< Bits 2:0 + UINT8 Reserved : 1; ///< Bits 3:3 + UINT8 QxCS_n : 4; ///< Bits 7:4 + } Bits; + UINT8 Data; +} SPD3_LRDIMM_ADDITIVE_DELAY_FOR_QXCS_N_QXCA; + +typedef union { + struct { + UINT8 QxCS_n : 4; ///< Bits 3:0 + UINT8 QxOdt : 4; ///< Bits 7:4 + } Bits; + UINT8 Data; +} SPD3_LRDIMM_ADDITIVE_DELAY_FOR_QXODT_QXCKE; + +typedef union { + struct { + UINT8 RC8MdqOdtStrength : 3; ///< Bits 2:0 + UINT8 RC8Reserved : 1; ///< Bits 3:3 + UINT8 RC9MdqOdtStrength : 3; ///< Bits 6:4 + UINT8 RC9Reserved : 1; ///< Bits 7:7 + } Bits; + UINT8 Data; +} SPD3_LRDIMM_MDQ_TERMINATION_DRIVE_STRENGTH; + +typedef union { + struct { + UINT8 RC10DA3ValueR0 : 1; ///< Bits 0:0 + UINT8 RC10DA4ValueR0 : 1; ///< Bits 1:1 + UINT8 RC10DA3ValueR1 : 1; ///< Bits 2:2 + UINT8 RC10DA4ValueR1 : 1; ///< Bits 3:3 + UINT8 RC11DA3ValueR0 : 1; ///< Bits 4:4 + UINT8 RC11DA4ValueR0 : 1; ///< Bits 5:5 + UINT8 RC11DA3ValueR1 : 1; ///< Bits 6:6 + UINT8 RC11DA4ValueR1 : 1; ///< Bits 7:7 + } Bits; + UINT8 Data; +} SPD3_LRDIMM_RANK_READ_WRITE_QXODT_CONTROL; + +typedef union { + struct { + UINT8 Driver_Impedance : 2; ///< Bits 1:0 + UINT8 Rtt_Nom : 3; ///< Bits 4:2 + UINT8 Reserved : 1; ///< Bits 5:5 + UINT8 Rtt_WR : 2; ///< Bits 7:6 + } Bits; + UINT8 Data; +} SPD3_LRDIMM_MR_1_2; + +typedef union { + struct { + UINT8 MinimumDelayTime : 7; ///< Bits 0:6 + UINT8 Reserved : 1; ///< Bits 7:7 + } Bits; + UINT8 Data; +} SPD3_LRDIMM_MODULE_DELAY_TIME; + +typedef struct { + UINT8 Year; ///< Year represented in BCD (00h = 2000) + UINT8 Week; ///< Year represented in BCD (47h = week 47) +} SPD3_MANUFACTURING_DATE; + +typedef union { + UINT32 Data; + UINT16 SerialNumber16[2]; + UINT8 SerialNumber8[4]; +} SPD3_MANUFACTURER_SERIAL_NUMBER; + +typedef struct { + UINT8 Location; ///< Module Manufacturing Location +} SPD3_MANUFACTURING_LOCATION; + +typedef struct { + SPD3_MANUFACTURER_ID_CODE IdCode; ///< Module Manufacturer ID Code + SPD3_MANUFACTURING_LOCATION Location; ///< Module Manufacturing Location + SPD3_MANUFACTURING_DATE Date; ///< Module Manufacturing Year, in BCD (range: 2000-2255) + SPD3_MANUFACTURER_SERIAL_NUMBER SerialNumber; ///< Module Serial Number +} SPD3_UNIQUE_MODULE_ID; + +typedef union { + UINT16 Crc[1]; + UINT8 Data8[2]; +} SPD3_CYCLIC_REDUNDANCY_CODE; + +typedef struct { + SPD3_DEVICE_DESCRIPTION_STRUCT Description; ///< 0 Number of Serial PD Bytes Written / SPD Device Size / CRC Coverage 1, 2 + SPD3_REVISION_STRUCT Revision; ///< 1 SPD Revision + SPD3_DRAM_DEVICE_TYPE_STRUCT DramDeviceType; ///< 2 DRAM Device Type + SPD3_MODULE_TYPE_STRUCT ModuleType; ///< 3 Module Type + SPD3_SDRAM_DENSITY_BANKS_STRUCT SdramDensityAndBanks; ///< 4 SDRAM Density and Banks + SPD3_SDRAM_ADDRESSING_STRUCT SdramAddressing; ///< 5 SDRAM Addressing + SPD3_MODULE_NOMINAL_VOLTAGE_STRUCT ModuleNominalVoltage; ///< 6 Module Nominal Voltage, VDD + SPD3_MODULE_ORGANIZATION_STRUCT ModuleOrganization; ///< 7 Module Organization + SPD3_MODULE_MEMORY_BUS_WIDTH_STRUCT ModuleMemoryBusWidth; ///< 8 Module Memory Bus Width + SPD3_FINE_TIMEBASE_STRUCT FineTimebase; ///< 9 Fine Timebase (FTB) Dividend / Divisor + SPD3_MEDIUM_TIMEBASE MediumTimebase; ///< 10-11 Medium Timebase (MTB) Dividend + SPD3_TCK_MIN_MTB_STRUCT tCKmin; ///< 12 SDRAM Minimum Cycle Time (tCKmin) + UINT8 Reserved0; ///< 13 Reserved + SPD3_CAS_LATENCIES_SUPPORTED_STRUCT CasLatencies; ///< 14-15 CAS Latencies Supported + SPD3_TAA_MIN_MTB_STRUCT tAAmin; ///< 16 Minimum CAS Latency Time (tAAmin) + SPD3_TWR_MIN_MTB_STRUCT tWRmin; ///< 17 Minimum Write Recovery Time (tWRmin) + SPD3_TRCD_MIN_MTB_STRUCT tRCDmin; ///< 18 Minimum RAS# to CAS# Delay Time (tRCDmin) + SPD3_TRRD_MIN_MTB_STRUCT tRRDmin; ///< 19 Minimum Row Active to Row Active Delay Time (tRRDmin) + SPD3_TRP_MIN_MTB_STRUCT tRPmin; ///< 20 Minimum Row Precharge Delay Time (tRPmin) + SPD3_TRAS_TRC_MIN_MTB_STRUCT tRASMintRCMinUpper; ///< 21 Upper Nibbles for tRAS and tRC + SPD3_TRAS_MIN_MTB_STRUCT tRASmin; ///< 22 Minimum Active to Precharge Delay Time (tRASmin), Least Significant Byte + SPD3_TRC_MIN_MTB_STRUCT tRCmin; ///< 23 Minimum Active to Active/Refresh Delay Time (tRCmin), Least Significant Byte + SPD3_TRFC_MIN_MTB_STRUCT tRFCmin; ///< 24-25 Minimum Refresh Recovery Delay Time (tRFCmin) + SPD3_TWTR_MIN_MTB_STRUCT tWTRmin; ///< 26 Minimum Internal Write to Read Command Delay Time (tWTRmin) + SPD3_TRTP_MIN_MTB_STRUCT tRTPmin; ///< 27 Minimum Internal Read to Precharge Command Delay Time (tRTPmin) + SPD3_TFAW_MIN_MTB_UPPER_STRUCT tFAWMinUpper; ///< 28 Upper Nibble for tFAW + SPD3_TFAW_MIN_MTB_STRUCT tFAWmin; ///< 29 Minimum Four Activate Window Delay Time (tFAWmin) + SPD3_SDRAM_OPTIONAL_FEATURES_STRUCT SdramOptionalFeatures; ///< 30 SDRAM Optional Features + SPD3_SDRAM_THERMAL_REFRESH_STRUCT ThermalAndRefreshOptions; ///< 31 SDRAM Thermal And Refresh Options + SPD3_MODULE_THERMAL_SENSOR_STRUCT ModuleThermalSensor; ///< 32 Module Thermal Sensor + SPD3_SDRAM_DEVICE_TYPE_STRUCT SdramDeviceType; ///< 33 SDRAM Device Type + SPD3_TCK_MIN_FTB_STRUCT tCKminFine; ///< 34 Fine Offset for SDRAM Minimum Cycle Time (tCKmin) + SPD3_TAA_MIN_FTB_STRUCT tAAminFine; ///< 35 Fine Offset for Minimum CAS Latency Time (tAAmin) + SPD3_TRCD_MIN_FTB_STRUCT tRCDminFine; ///< 36 Fine Offset for Minimum RAS# to CAS# Delay Time (tRCDmin) + SPD3_TRP_MIN_FTB_STRUCT tRPminFine; ///< 37 Minimum Row Precharge Delay Time (tRPmin) + SPD3_TRC_MIN_FTB_STRUCT tRCminFine; ///< 38 Fine Offset for Minimum Active to Active/Refresh Delay Time (tRCmin) + UINT8 Reserved1[40 - 39 + 1]; ///< 39 - 40 Reserved + SPD3_MAXIMUM_ACTIVE_COUNT_STRUCT MacValue; ///< 41 SDRAM Maximum Active Count (MAC) Value + UINT8 Reserved2[59 - 42 + 1]; ///< 42 - 59 Reserved +} SPD3_BASE_SECTION; + +typedef struct { + SPD3_UNBUF_MODULE_NOMINAL_HEIGHT ModuleNominalHeight; ///< 60 Module Nominal Height + SPD3_UNBUF_MODULE_NOMINAL_THICKNESS ModuleMaximumThickness; ///< 61 Module Maximum Thickness + SPD3_UNBUF_REFERENCE_RAW_CARD ReferenceRawCardUsed; ///< 62 Reference Raw Card Used + SPD3_UNBUF_ADDRESS_MAPPING AddressMappingEdgeConn; ///< 63 Address Mapping from Edge Connector to DRAM + UINT8 Reserved[116 - 64 + 1]; ///< 64-116 Reserved +} SPD3_MODULE_UNBUFFERED; + +typedef struct { + SPD3_RDIMM_MODULE_NOMINAL_HEIGHT ModuleNominalHeight; ///< 60 Module Nominal Height + SPD3_RDIMM_MODULE_NOMINAL_THICKNESS ModuleMaximumThickness; ///< 61 Module Maximum Thickness + SPD3_RDIMM_REFERENCE_RAW_CARD ReferenceRawCardUsed; ///< 62 Reference Raw Card Used + SPD3_RDIMM_MODULE_ATTRIBUTES DimmModuleAttributes; ///< 63 DIMM Module Attributes + SPD3_RDIMM_THERMAL_HEAT_SPREADER_SOLUTION ThermalHeatSpreaderSolution; ///< 64 RDIMM Thermal Heat Spreader Solution + SPD3_MANUFACTURER_ID_CODE RegisterManufacturerIdCode; ///< 65-66 Register Manufacturer ID Code + SPD3_RDIMM_REGISTER_REVISION_NUMBER RegisterRevisionNumber; ///< 67 Register Revision Number + SPD3_RDIMM_REGISTER_TYPE RegisterType; ///< 68 Register Type + SPD3_RDIMM_REGISTER_CONTROL_RESERVED Rc1Rc0; ///< 69 RC1 (MS Nibble) / RC0 (LS Nibble) - Reserved + SPD3_RDIMM_REGISTER_CONTROL_COMMAND_ADDRESS Rc3Rc2; ///< 70 RC3 (MS Nibble) / RC2 (LS Nibble) - Drive Strength, Command/Address + SPD3_RDIMM_REGISTER_CONTROL_CONTROL_CLOCK Rc5Rc4; ///< 71 RC5 (MS Nibble) / RC4 (LS Nibble) - Drive Strength, Control and Clock + SPD3_RDIMM_REGISTER_CONTROL_RESERVED Rc7Rc6; ///< 72 RC7 (MS Nibble) / RC6 (LS Nibble) - Reserved for Register Vendor + SPD3_RDIMM_REGISTER_CONTROL_RESERVED Rc9Rc8; ///< 73 RC9 (MS Nibble) / RC8 (LS Nibble) - Reserved + SPD3_RDIMM_REGISTER_CONTROL_RESERVED Rc11Rc10; ///< 74 RC11 (MS Nibble) / RC10 (LS Nibble) - Reserved + SPD3_RDIMM_REGISTER_CONTROL_RESERVED Rc13Rc12; ///< 75 RC12 (MS Nibble) / RC12 (LS Nibble) - Reserved + SPD3_RDIMM_REGISTER_CONTROL_RESERVED Rc15Rc14; ///< 76 RC15 (MS Nibble) / RC14 (LS Nibble) - Reserved + UINT8 Reserved[116 - 77 + 1]; ///< 77-116 Reserved +} SPD3_MODULE_REGISTERED; + +typedef struct { + SPD3_UNBUF_MODULE_NOMINAL_HEIGHT ModuleNominalHeight; ///< 60 Module Nominal Height + SPD3_UNBUF_MODULE_NOMINAL_THICKNESS ModuleMaximumThickness; ///< 61 Module Maximum Thickness + SPD3_UNBUF_REFERENCE_RAW_CARD ReferenceRawCardUsed; ///< 62 Reference Raw Card Used + UINT8 Reserved[116 - 63 + 1]; ///< 63-116 Reserved +} SPD3_MODULE_CLOCKED; + +typedef struct { + SPD3_LRDIMM_MODULE_NOMINAL_HEIGHT ModuleNominalHeight; ///< 60 Module Nominal Height + SPD3_LRDIMM_MODULE_NOMINAL_THICKNESS ModuleMaximumThickness; ///< 61 Module Maximum Thickness + SPD3_LRDIMM_REFERENCE_RAW_CARD ReferenceRawCardUsed; ///< 62 Reference Raw Card Used + SPD3_LRDIMM_MODULE_ATTRIBUTES DimmModuleAttributes; ///< 63 Module Attributes + UINT8 MemoryBufferRevisionNumber; ///< 64 Memory Buffer Revision Number + SPD3_MANUFACTURER_ID_CODE ManufacturerIdCode; ///< 65-66 Memory Buffer Manufacturer ID Code + SPD3_LRDIMM_TIMING_CONTROL_DRIVE_STRENGTH TimingControlDriveStrengthCaCs; ///< 67 F0RC3 / F0RC2 - Timing Control & Drive Strength, CA & CS + SPD3_LRDIMM_TIMING_DRIVE_STRENGTH DriveStrength; ///< 68 F0RC5 / F0RC4 - Drive Strength, ODT & CKE and Y + SPD3_LRDIMM_EXTENDED_DELAY ExtendedDelay; ///< 69 F1RC11 / F1RC8 - Extended Delay for Y, CS and ODT & CKE + SPD3_LRDIMM_ADDITIVE_DELAY_FOR_QXCS_N_QXCA AdditiveDelayForCsCa; ///< 70 F1RC13 / F1RC12 - Additive Delay for CS and CA + SPD3_LRDIMM_ADDITIVE_DELAY_FOR_QXODT_QXCKE AdditiveDelayForOdtCke; ///< 71 F1RC15 / F1RC14 - Additive Delay for ODT & CKE + SPD3_LRDIMM_MDQ_TERMINATION_DRIVE_STRENGTH MdqTerminationDriveStrengthFor800_1066; ///< 72 F1RC15 / F1RC14 - Additive Delay for ODT & CKE + SPD3_LRDIMM_RANK_READ_WRITE_QXODT_CONTROL Rank_0_1QxOdtControlFor800_1066; ///< 73 F[3,4]RC11 / F[3,4]RC10 - Rank 0 & 1 RD & WR QxODT Control for 800 & 1066 + SPD3_LRDIMM_RANK_READ_WRITE_QXODT_CONTROL Rank_2_3QxOdtControlFor800_1066; ///< 74 F[5,6]RC11 / F[5,6]RC10 - Rank 2 & 3 RD & WR QxODT Control for 800 & 1066 + SPD3_LRDIMM_RANK_READ_WRITE_QXODT_CONTROL Rank_4_5QxOdtControlFor800_1066; ///< 75 F[7,8]RC11 / F[7,8]RC10 - Rank 4 & 5 RD & WR QxODT Control for 800 & 1066 + SPD3_LRDIMM_RANK_READ_WRITE_QXODT_CONTROL Rank_6_7QxOdtControlFor800_1066; ///< 76 F[9,10]RC11 / F[9,10]RC10 - Rank 6 & 7 RD & WR QxODT Control for 800 & 1066 + SPD3_LRDIMM_MR_1_2 MR_1_2RegistersFor800_1066; ///< 77 MR1,2 Registers for 800 & 1066 + SPD3_LRDIMM_MDQ_TERMINATION_DRIVE_STRENGTH MdqTerminationDriveStrengthFor1333_1600; ///< 78 F1RC15 / F1RC14 - Additive Delay for ODT & CKE + SPD3_LRDIMM_RANK_READ_WRITE_QXODT_CONTROL Rank_0_1QxOdtControlFor1333_1600; ///< 79 F[3,4]RC11 / F[3,4]RC10 - Rank 0 & 1 RD & WR QxODT Control for 800 & 1066 + SPD3_LRDIMM_RANK_READ_WRITE_QXODT_CONTROL Rank_2_3QxOdtControlFor1333_1600; ///< 80 F[5,6]RC11 / F[5,6]RC10 - Rank 2 & 3 RD & WR QxODT Control for 800 & 1066 + SPD3_LRDIMM_RANK_READ_WRITE_QXODT_CONTROL Rank_4_5QxOdtControlFor1333_1600; ///< 81 F[7,8]RC11 / F[7,8]RC10 - Rank 4 & 5 RD & WR QxODT Control for 800 & 1066 + SPD3_LRDIMM_RANK_READ_WRITE_QXODT_CONTROL Rank_6_7QxOdtControlFor1333_1600; ///< 82 F[9,10]RC11 / F[9,10]RC10 - Rank 6 & 7 RD & WR QxODT Control for 800 & 1066 + SPD3_LRDIMM_MR_1_2 MR_1_2RegistersFor1333_1600; ///< 83 MR1,2 Registers for 800 & 1066 + SPD3_LRDIMM_MDQ_TERMINATION_DRIVE_STRENGTH MdqTerminationDriveStrengthFor1866_2133; ///< 84 F1RC15 / F1RC14 - Additive Delay for ODT & CKE + SPD3_LRDIMM_RANK_READ_WRITE_QXODT_CONTROL Rank_0_1QxOdtControlFor1866_2133; ///< 85 F[3,4]RC11 / F[3,4]RC10 - Rank 0 & 1 RD & WR QxODT Control for 800 & 1066 + SPD3_LRDIMM_RANK_READ_WRITE_QXODT_CONTROL Rank_2_3QxOdtControlFor1866_2133; ///< 86 F[5,6]RC11 / F[5,6]RC10 - Rank 2 & 3 RD & WR QxODT Control for 800 & 1066 + SPD3_LRDIMM_RANK_READ_WRITE_QXODT_CONTROL Rank_4_5QxOdtControlFor1866_2133; ///< 87 F[7,8]RC11 / F[7,8]RC10 - Rank 4 & 5 RD & WR QxODT Control for 800 & 1066 + SPD3_LRDIMM_RANK_READ_WRITE_QXODT_CONTROL Rank_6_7QxOdtControlFor1866_2133; ///< 88 F[9,10]RC11 / F[9,10]RC10 - Rank 6 & 7 RD & WR QxODT Control for 800 & 1066 + SPD3_LRDIMM_MR_1_2 MR_1_2RegistersFor1866_2133; ///< 89 MR1,2 Registers for 800 & 1066 + SPD3_LRDIMM_MODULE_DELAY_TIME MinimumModuleDelayTimeFor1_5V; ///< 90 Minimum Module Delay Time for 1.5 V + SPD3_LRDIMM_MODULE_DELAY_TIME MaximumModuleDelayTimeFor1_5V; ///< 91 Maximum Module Delay Time for 1.5 V + SPD3_LRDIMM_MODULE_DELAY_TIME MinimumModuleDelayTimeFor1_35V; ///< 92 Minimum Module Delay Time for 1.35 V + SPD3_LRDIMM_MODULE_DELAY_TIME MaximumModuleDelayTimeFor1_35V; ///< 93 Maximum Module Delay Time for 1.35 V + SPD3_LRDIMM_MODULE_DELAY_TIME MinimumModuleDelayTimeFor1_25V; ///< 94 Minimum Module Delay Time for 1.25 V + SPD3_LRDIMM_MODULE_DELAY_TIME MaximumModuleDelayTimeFor1_25V; ///< 95 Maximum Module Delay Time for 1.25 V + UINT8 Reserved[101 - 96 + 1]; ///< 96-101 Reserved + UINT8 PersonalityByte[116 - 102 + 1]; ///< 102-116 Memory Buffer Personality Bytes +} SPD3_MODULE_LOADREDUCED; + +typedef union { + SPD3_MODULE_UNBUFFERED Unbuffered; ///< 128-255 Unbuffered Memory Module Types + SPD3_MODULE_REGISTERED Registered; ///< 128-255 Registered Memory Module Types + SPD3_MODULE_CLOCKED Clocked; ///< 128-255 Registered Memory Module Types + SPD3_MODULE_LOADREDUCED LoadReduced; ///< 128-255 Load Reduced Memory Module Types +} SPD3_MODULE_SPECIFIC; + +typedef struct { + UINT8 ModulePartNumber[145 - 128 + 1]; ///< 128-145 Module Part Number +} SPD3_MODULE_PART_NUMBER; + +typedef struct { + UINT8 ModuleRevisionCode[147 - 146 + 1]; ///< 146-147 Module Revision Code +} SPD3_MODULE_REVISION_CODE; + +typedef struct { + UINT8 ManufacturerSpecificData[175 - 150 + 1];///< 150-175 Manufacturer's Specific Data +} SPD3_MANUFACTURER_SPECIFIC; + +/// +/// DDR3 Serial Presence Detect structure +/// +typedef struct { + SPD3_BASE_SECTION General; ///< 0-59 General Section + SPD3_MODULE_SPECIFIC Module; ///< 60-116 Module-Specific Section + SPD3_UNIQUE_MODULE_ID ModuleId; ///< 117-125 Unique Module ID + SPD3_CYCLIC_REDUNDANCY_CODE Crc; ///< 126-127 Cyclical Redundancy Code (CRC) + SPD3_MODULE_PART_NUMBER ModulePartNumber; ///< 128-145 Module Part Number + SPD3_MODULE_REVISION_CODE ModuleRevisionCode; ///< 146-147 Module Revision Code + SPD3_MANUFACTURER_ID_CODE DramIdCode; ///< 148-149 Dram Manufacturer ID Code + SPD3_MANUFACTURER_SPECIFIC ManufacturerSpecificData; ///< 150-175 Manufacturer's Specific Data + UINT8 Reserved[255 - 176 + 1]; ///< 176-255 Open for Customer Use +} SPD_DDR3; + +#pragma pack (pop) +#endif diff --git a/MdePkg/Include/IndustryStandard/SdramSpdDdr4.h b/MdePkg/Include/IndustryStandard/SdramSpdDdr4.h new file mode 100644 index 0000000000..0eabb6c49b --- /dev/null +++ b/MdePkg/Include/IndustryStandard/SdramSpdDdr4.h @@ -0,0 +1,958 @@ +/** @file + This file contains definitions for SPD DDR4. + + Copyright (c) 2016, Intel Corporation. All rights reserved.
+ This program and the accompanying materials + are licensed and made available under the terms and conditions of the BSD License + which accompanies this distribution. The full text of the license may be found at + http://opensource.org/licenses/bsd-license.php + + THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, + WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED. + + @par Revision Reference: + - Serial Presence Detect (SPD) for DDR4 SDRAM Modules Document Release 4 + http://www.jedec.org/standards-documents/docs/spd412l-4 +**/ + +#ifndef _SDRAM_SPD_DDR4_H_ +#define _SDRAM_SPD_DDR4_H_ + +#pragma pack (push, 1) + +typedef union { + struct { + UINT8 BytesUsed : 4; ///< Bits 3:0 + UINT8 BytesTotal : 3; ///< Bits 6:4 + UINT8 CrcCoverage : 1; ///< Bits 7:7 + } Bits; + UINT8 Data; +} SPD4_DEVICE_DESCRIPTION_STRUCT; + +typedef union { + struct { + UINT8 Minor : 4; ///< Bits 3:0 + UINT8 Major : 4; ///< Bits 7:4 + } Bits; + UINT8 Data; +} SPD4_REVISION_STRUCT; + +typedef union { + struct { + UINT8 Type : 8; ///< Bits 7:0 + } Bits; + UINT8 Data; +} SPD4_DRAM_DEVICE_TYPE_STRUCT; + +typedef union { + struct { + UINT8 ModuleType : 4; ///< Bits 3:0 + UINT8 HybridMedia : 3; ///< Bits 6:4 + UINT8 Hybrid : 1; ///< Bits 7:7 + } Bits; + UINT8 Data; +} SPD4_MODULE_TYPE_STRUCT; + +typedef union { + struct { + UINT8 Density : 4; ///< Bits 3:0 + UINT8 BankAddress : 2; ///< Bits 5:4 + UINT8 BankGroup : 2; ///< Bits 7:6 + } Bits; + UINT8 Data; +} SPD4_SDRAM_DENSITY_BANKS_STRUCT; + +typedef union { + struct { + UINT8 ColumnAddress : 3; ///< Bits 2:0 + UINT8 RowAddress : 3; ///< Bits 5:3 + UINT8 Reserved : 2; ///< Bits 7:6 + } Bits; + UINT8 Data; +} SPD4_SDRAM_ADDRESSING_STRUCT; + +typedef union { + struct { + UINT8 SignalLoading : 2; ///< Bits 1:0 + UINT8 Reserved : 2; ///< Bits 3:2 + UINT8 DieCount : 3; ///< Bits 6:4 + UINT8 SdramPackageType : 1; ///< Bits 7:7 + } Bits; + UINT8 Data; +} SPD4_PRIMARY_SDRAM_PACKAGE_TYPE_STRUCT; + +typedef union { + struct { + UINT8 MaximumActivateCount : 4; ///< Bits 3:0 + UINT8 MaximumActivateWindow : 2; ///< Bits 5:4 + UINT8 Reserved : 2; ///< Bits 7:6 + } Bits; + UINT8 Data; +} SPD4_SDRAM_OPTIONAL_FEATURES_STRUCT; + +typedef union { + struct { + UINT8 Reserved : 8; ///< Bits 7:0 + } Bits; + UINT8 Data; +} SPD4_SDRAM_THERMAL_REFRESH_STRUCT; + +typedef union { + struct { + UINT8 Reserved : 5; ///< Bits 4:0 + UINT8 SoftPPR : 1; ///< Bits 5:5 + UINT8 PostPackageRepair : 2; ///< Bits 7:6 + } Bits; + UINT8 Data; +} SPD4_OTHER_SDRAM_OPTIONAL_FEATURES_STRUCT; + +typedef union { + struct { + UINT8 SignalLoading : 2; ///< Bits 1:0 + UINT8 DRAMDensityRatio : 2; ///< Bits 3:2 + UINT8 DieCount : 3; ///< Bits 6:4 + UINT8 SdramPackageType : 1; ///< Bits 7:7 + } Bits; + UINT8 Data; +} SPD4_SECONDARY_SDRAM_PACKAGE_TYPE_STRUCT; + +typedef union { + struct { + UINT8 OperationAt1_20 : 1; ///< Bits 0:0 + UINT8 EndurantAt1_20 : 1; ///< Bits 1:1 + UINT8 Reserved : 6; ///< Bits 7:2 + } Bits; + UINT8 Data; +} SPD4_MODULE_NOMINAL_VOLTAGE_STRUCT; + +typedef union { + struct { + UINT8 SdramDeviceWidth : 3; ///< Bits 2:0 + UINT8 RankCount : 3; ///< Bits 5:3 + UINT8 RankMix : 1; ///< Bits 6:6 + UINT8 Reserved : 1; ///< Bits 7:7 + } Bits; + UINT8 Data; +} SPD4_MODULE_ORGANIZATION_STRUCT; + +typedef union { + struct { + UINT8 PrimaryBusWidth : 3; ///< Bits 2:0 + UINT8 BusWidthExtension : 2; ///< Bits 4:3 + UINT8 Reserved : 3; ///< Bits 7:5 + } Bits; + UINT8 Data; +} SPD4_MODULE_MEMORY_BUS_WIDTH_STRUCT; + +typedef union { + struct { + UINT8 Reserved : 7; ///< Bits 6:0 + UINT8 ThermalSensorPresence : 1; ///< Bits 7:7 + } Bits; + UINT8 Data; +} SPD4_MODULE_THERMAL_SENSOR_STRUCT; + +typedef union { + struct { + UINT8 ExtendedBaseModuleType : 4; ///< Bits 3:0 + UINT8 Reserved : 4; ///< Bits 7:4 + } Bits; + UINT8 Data; +} SPD4_EXTENDED_MODULE_TYPE_STRUCT; + +typedef union { + struct { + UINT8 Fine : 2; ///< Bits 1:0 + UINT8 Medium : 2; ///< Bits 3:2 + UINT8 Reserved : 4; ///< Bits 7:4 + } Bits; + UINT8 Data; +} SPD4_TIMEBASE_STRUCT; + +typedef union { + struct { + UINT8 tCKmin : 8; ///< Bits 7:0 + } Bits; + UINT8 Data; +} SPD4_TCK_MIN_MTB_STRUCT; + +typedef union { + struct { + UINT8 tCKmax : 8; ///< Bits 7:0 + } Bits; + UINT8 Data; +} SPD4_TCK_MAX_MTB_STRUCT; + +typedef union { + struct { + UINT32 Cl7 : 1; ///< Bits 0:0 + UINT32 Cl8 : 1; ///< Bits 1:1 + UINT32 Cl9 : 1; ///< Bits 2:2 + UINT32 Cl10 : 1; ///< Bits 3:3 + UINT32 Cl11 : 1; ///< Bits 4:4 + UINT32 Cl12 : 1; ///< Bits 5:5 + UINT32 Cl13 : 1; ///< Bits 6:6 + UINT32 Cl14 : 1; ///< Bits 7:7 + UINT32 Cl15 : 1; ///< Bits 8:8 + UINT32 Cl16 : 1; ///< Bits 9:9 + UINT32 Cl17 : 1; ///< Bits 10:10 + UINT32 Cl18 : 1; ///< Bits 11:11 + UINT32 Cl19 : 1; ///< Bits 12:12 + UINT32 Cl20 : 1; ///< Bits 13:13 + UINT32 Cl21 : 1; ///< Bits 14:14 + UINT32 Cl22 : 1; ///< Bits 15:15 + UINT32 Cl23 : 1; ///< Bits 16:16 + UINT32 Cl24 : 1; ///< Bits 17:17 + UINT32 Cl25 : 1; ///< Bits 18:18 + UINT32 Cl26 : 1; ///< Bits 19:19 + UINT32 Cl27 : 1; ///< Bits 20:20 + UINT32 Cl28 : 1; ///< Bits 21:21 + UINT32 Cl29 : 1; ///< Bits 22:22 + UINT32 Cl30 : 1; ///< Bits 23:23 + UINT32 Cl31 : 1; ///< Bits 24:24 + UINT32 Cl32 : 1; ///< Bits 25:25 + UINT32 Cl33 : 1; ///< Bits 26:26 + UINT32 Cl34 : 1; ///< Bits 27:27 + UINT32 Cl35 : 1; ///< Bits 28:28 + UINT32 Cl36 : 1; ///< Bits 29:29 + UINT32 Reserved : 1; ///< Bits 30:30 + UINT32 ClRange : 1; ///< Bits 31:31 + } Bits; + struct { + UINT32 Cl23 : 1; ///< Bits 0:0 + UINT32 Cl24 : 1; ///< Bits 1:1 + UINT32 Cl25 : 1; ///< Bits 2:2 + UINT32 Cl26 : 1; ///< Bits 3:3 + UINT32 Cl27 : 1; ///< Bits 4:4 + UINT32 Cl28 : 1; ///< Bits 5:5 + UINT32 Cl29 : 1; ///< Bits 6:6 + UINT32 Cl30 : 1; ///< Bits 7:7 + UINT32 Cl31 : 1; ///< Bits 8:8 + UINT32 Cl32 : 1; ///< Bits 9:9 + UINT32 Cl33 : 1; ///< Bits 10:10 + UINT32 Cl34 : 1; ///< Bits 11:11 + UINT32 Cl35 : 1; ///< Bits 12:12 + UINT32 Cl36 : 1; ///< Bits 13:13 + UINT32 Cl37 : 1; ///< Bits 14:14 + UINT32 Cl38 : 1; ///< Bits 15:15 + UINT32 Cl39 : 1; ///< Bits 16:16 + UINT32 Cl40 : 1; ///< Bits 17:17 + UINT32 Cl41 : 1; ///< Bits 18:18 + UINT32 Cl42 : 1; ///< Bits 19:19 + UINT32 Cl43 : 1; ///< Bits 20:20 + UINT32 Cl44 : 1; ///< Bits 21:21 + UINT32 Cl45 : 1; ///< Bits 22:22 + UINT32 Cl46 : 1; ///< Bits 23:23 + UINT32 Cl47 : 1; ///< Bits 24:24 + UINT32 Cl48 : 1; ///< Bits 25:25 + UINT32 Cl49 : 1; ///< Bits 26:26 + UINT32 Cl50 : 1; ///< Bits 27:27 + UINT32 Cl51 : 1; ///< Bits 28:28 + UINT32 Cl52 : 1; ///< Bits 29:29 + UINT32 Reserved : 1; ///< Bits 30:30 + UINT32 ClRange : 1; ///< Bits 31:31 + } HighRangeBits; + UINT32 Data; + UINT16 Data16[2]; + UINT8 Data8[4]; +} SPD4_CAS_LATENCIES_SUPPORTED_STRUCT; + +typedef union { + struct { + UINT8 tAAmin : 8; ///< Bits 7:0 + } Bits; + UINT8 Data; +} SPD4_TAA_MIN_MTB_STRUCT; + +typedef union { + struct { + UINT8 tRCDmin : 8; ///< Bits 7:0 + } Bits; + UINT8 Data; +} SPD4_TRCD_MIN_MTB_STRUCT; + +typedef union { + struct { + UINT8 tRPmin : 8; ///< Bits 7:0 + } Bits; + UINT8 Data; +} SPD4_TRP_MIN_MTB_STRUCT; + +typedef union { + struct { + UINT8 tRASminUpper : 4; ///< Bits 3:0 + UINT8 tRCminUpper : 4; ///< Bits 7:4 + } Bits; + UINT8 Data; +} SPD4_TRAS_TRC_MIN_MTB_STRUCT; + +typedef union { + struct { + UINT8 tRASmin : 8; ///< Bits 7:0 + } Bits; + UINT8 Data; +} SPD4_TRAS_MIN_MTB_STRUCT; + +typedef union { + struct { + UINT8 tRCmin : 8; ///< Bits 7:0 + } Bits; + UINT8 Data; +} SPD4_TRC_MIN_MTB_STRUCT; + +typedef union { + struct { + UINT16 tRFCmin : 16; ///< Bits 15:0 + } Bits; + UINT16 Data; + UINT8 Data8[2]; +} SPD4_TRFC_MIN_MTB_STRUCT; + +typedef union { + struct { + UINT8 tFAWminUpper : 4; ///< Bits 3:0 + UINT8 Reserved : 4; ///< Bits 7:4 + } Bits; + UINT8 Data; +} SPD4_TFAW_MIN_MTB_UPPER_STRUCT; + +typedef union { + struct { + UINT8 tFAWmin : 8; ///< Bits 7:0 + } Bits; + UINT8 Data; +} SPD4_TFAW_MIN_MTB_STRUCT; + +typedef union { + struct { + UINT8 tRRDmin : 8; ///< Bits 7:0 + } Bits; + UINT8 Data; +} SPD4_TRRD_MIN_MTB_STRUCT; + +typedef union { + struct { + UINT8 tCCDmin : 8; ///< Bits 7:0 + } Bits; + UINT8 Data; +} SPD4_TCCD_MIN_MTB_STRUCT; + +typedef union { + struct { + UINT8 tWRminMostSignificantNibble : 4; ///< Bits 3:0 + UINT8 Reserved : 4; ///< Bits 7:4 + } Bits; + UINT8 Data; +} SPD4_TWR_UPPER_NIBBLE_STRUCT; + +typedef union { + struct { + UINT8 tWRmin : 8; ///< Bits 7:0 + } Bits; + UINT8 Data; +} SPD4_TWR_MIN_MTB_STRUCT; + +typedef union { + struct { + UINT8 tWTR_SminMostSignificantNibble : 4; ///< Bits 3:0 + UINT8 tWTR_LminMostSignificantNibble : 4; ///< Bits 7:4 + } Bits; + UINT8 Data; +} SPD4_TWTR_UPPER_NIBBLE_STRUCT; + +typedef union { + struct { + UINT8 tWTRmin : 8; ///< Bits 7:0 + } Bits; + UINT8 Data; +} SPD4_TWTR_MIN_MTB_STRUCT; + +typedef union { + struct { + UINT8 BitOrderatSDRAM : 5; ///< Bits 4:0 + UINT8 WiredtoUpperLowerNibble : 1; ///< Bits 5:5 + UINT8 PackageRankMap : 2; ///< Bits 7:6 + } Bits; + UINT8 Data; +} SPD4_CONNECTOR_BIT_MAPPING_BYTE_STRUCT; + +typedef union { + struct { + INT8 tCCDminFine : 8; ///< Bits 7:0 + } Bits; + INT8 Data; +} SPD4_TCCD_MIN_FTB_STRUCT; + +typedef union { + struct { + INT8 tRRDminFine : 8; ///< Bits 7:0 + } Bits; + INT8 Data; +} SPD4_TRRD_MIN_FTB_STRUCT; + +typedef union { + struct { + INT8 tRCminFine : 8; ///< Bits 7:0 + } Bits; + INT8 Data; +} SPD4_TRC_MIN_FTB_STRUCT; + +typedef union { + struct { + INT8 tRPminFine : 8; ///< Bits 7:0 + } Bits; + INT8 Data; +} SPD4_TRP_MIN_FTB_STRUCT; + +typedef union { + struct { + INT8 tRCDminFine : 8; ///< Bits 7:0 + } Bits; + INT8 Data; +} SPD4_TRCD_MIN_FTB_STRUCT; + +typedef union { + struct { + INT8 tAAminFine : 8; ///< Bits 7:0 + } Bits; + INT8 Data; +} SPD4_TAA_MIN_FTB_STRUCT; + +typedef union { + struct { + INT8 tCKmaxFine : 8; ///< Bits 7:0 + } Bits; + INT8 Data; +} SPD4_TCK_MAX_FTB_STRUCT; + +typedef union { + struct { + INT8 tCKminFine : 8; ///< Bits 7:0 + } Bits; + INT8 Data; +} SPD4_TCK_MIN_FTB_STRUCT; + +typedef union { + struct { + UINT8 Height : 5; ///< Bits 4:0 + UINT8 RawCardExtension : 3; ///< Bits 7:5 + } Bits; + UINT8 Data; +} SPD4_UNBUF_MODULE_NOMINAL_HEIGHT; + +typedef union { + struct { + UINT8 FrontThickness : 4; ///< Bits 3:0 + UINT8 BackThickness : 4; ///< Bits 7:4 + } Bits; + UINT8 Data; +} SPD4_UNBUF_MODULE_NOMINAL_THICKNESS; + +typedef union { + struct { + UINT8 Card : 5; ///< Bits 4:0 + UINT8 Revision : 2; ///< Bits 6:5 + UINT8 Extension : 1; ///< Bits 7:7 + } Bits; + UINT8 Data; +} SPD4_UNBUF_REFERENCE_RAW_CARD; + +typedef union { + struct { + UINT8 MappingRank1 : 1; ///< Bits 0:0 + UINT8 Reserved : 7; ///< Bits 7:1 + } Bits; + UINT8 Data; +} SPD4_UNBUF_ADDRESS_MAPPING; + +typedef union { + struct { + UINT8 Height : 5; ///< Bits 4:0 + UINT8 Reserved : 3; ///< Bits 7:5 + } Bits; + UINT8 Data; +} SPD4_RDIMM_MODULE_NOMINAL_HEIGHT; + +typedef union { + struct { + UINT8 FrontThickness : 4; ///< Bits 3:0 + UINT8 BackThickness : 4; ///< Bits 7:4 + } Bits; + UINT8 Data; +} SPD4_RDIMM_MODULE_NOMINAL_THICKNESS; + +typedef union { + struct { + UINT8 Card : 5; ///< Bits 4:0 + UINT8 Revision : 2; ///< Bits 6:5 + UINT8 Extension : 1; ///< Bits 7:7 + } Bits; + UINT8 Data; +} SPD4_RDIMM_REFERENCE_RAW_CARD; + +typedef union { + struct { + UINT8 RegisterCount : 2; ///< Bits 1:0 + UINT8 DramRowCount : 2; ///< Bits 3:2 + UINT8 RegisterType : 4; ///< Bits 7:4 + } Bits; + UINT8 Data; +} SPD4_RDIMM_MODULE_ATTRIBUTES; + +typedef union { + struct { + UINT8 HeatSpreaderThermalCharacteristics : 7; ///< Bits 6:0 + UINT8 HeatSpreaderSolution : 1; ///< Bits 7:7 + } Bits; + UINT8 Data; +} SPD4_RDIMM_THERMAL_HEAT_SPREADER_SOLUTION; + +typedef union { + struct { + UINT16 ContinuationCount : 7; ///< Bits 6:0 + UINT16 ContinuationParity : 1; ///< Bits 7:7 + UINT16 LastNonZeroByte : 8; ///< Bits 15:8 + } Bits; + UINT16 Data; + UINT8 Data8[2]; +} SPD4_MANUFACTURER_ID_CODE; + +typedef union { + struct { + UINT8 RegisterRevisionNumber; ///< Bits 7:0 + } Bits; + UINT8 Data; +} SPD4_RDIMM_REGISTER_REVISION_NUMBER; + +typedef union { + struct { + UINT8 Rank1Mapping : 1; ///< Bits 0:0 + UINT8 Reserved : 7; ///< Bits 7:1 + } Bits; + UINT8 Data; +} SPD4_RDIMM_ADDRESS_MAPPING_FROM_REGISTER_TO_DRAM; + +typedef union { + struct { + UINT8 Cke : 2; ///< Bits 1:0 + UINT8 Odt : 2; ///< Bits 3:2 + UINT8 CommandAddress : 2; ///< Bits 5:4 + UINT8 ChipSelect : 2; ///< Bits 7:6 + } Bits; + UINT8 Data; +} SPD4_RDIMM_REGISTER_OUTPUT_DRIVE_STRENGTH_FOR_CONTROL_COMMAND_ADDRESS; + +typedef union { + struct { + UINT8 Y0Y2 : 2; ///< Bits 1:0 + UINT8 Y1Y3 : 2; ///< Bits 3:2 + UINT8 Reserved0 : 2; ///< Bits 5:4 + UINT8 RcdOutputSlewRateControl : 1; ///< Bits 6:6 + UINT8 Reserved1 : 1; ///< Bits 7:7 + } Bits; + UINT8 Data; +} SPD4_RDIMM_REGISTER_OUTPUT_DRIVE_STRENGTH_FOR_CLOCK; + +typedef union { + struct { + UINT8 Height : 5; ///< Bits 4:0 + UINT8 Reserved : 3; ///< Bits 7:5 + } Bits; + UINT8 Data; +} SPD4_LRDIMM_MODULE_NOMINAL_HEIGHT; + +typedef union { + struct { + UINT8 FrontThickness : 4; ///< Bits 3:0 + UINT8 BackThickness : 4; ///< Bits 7:4 + } Bits; + UINT8 Data; +} SPD4_LRDIMM_MODULE_NOMINAL_THICKNESS; + +typedef union { + struct { + UINT8 Card : 5; ///< Bits 4:0 + UINT8 Revision : 2; ///< Bits 6:5 + UINT8 Extension : 1; ///< Bits 7:7 + } Bits; + UINT8 Data; +} SPD4_LRDIMM_REFERENCE_RAW_CARD; + +typedef union { + struct { + UINT8 RegisterCount : 2; ///< Bits 1:0 + UINT8 DramRowCount : 2; ///< Bits 3:2 + UINT8 RegisterType : 4; ///< Bits 7:4 + } Bits; + UINT8 Data; +} SPD4_LRDIMM_MODULE_ATTRIBUTES; + +typedef union { + struct { + UINT8 HeatSpreaderThermalCharacteristics : 7; ///< Bits 6:0 + UINT8 HeatSpreaderSolution : 1; ///< Bits 7:7 + } Bits; + UINT8 Data; +} SPD4_LRDIMM_THERMAL_HEAT_SPREADER_SOLUTION; + +typedef union { + struct { + UINT8 RegisterRevisionNumber; ///< Bits 7:0 + } Bits; + UINT8 Data; +} SPD4_LRDIMM_REGISTER_REVISION_NUMBER; + +typedef union { + struct { + UINT8 Rank1Mapping : 1; ///< Bits 0:0 + UINT8 Reserved : 7; ///< Bits 7:1 + } Bits; + UINT8 Data; +} SPD4_LRDIMM_ADDRESS_MAPPING_FROM_REGISTER_TO_DRAM; + +typedef union { + struct { + UINT8 Cke : 2; ///< Bits 1:0 + UINT8 Odt : 2; ///< Bits 3:2 + UINT8 CommandAddress : 2; ///< Bits 5:4 + UINT8 ChipSelect : 2; ///< Bits 7:6 + } Bits; + UINT8 Data; +} SPD4_LRDIMM_REGISTER_OUTPUT_DRIVE_STRENGTH_FOR_CONTROL_COMMAND_ADDRESS; + +typedef union { + struct { + UINT8 Y0Y2 : 2; ///< Bits 1:0 + UINT8 Y1Y3 : 2; ///< Bits 3:2 + UINT8 Reserved0 : 2; ///< Bits 5:4 + UINT8 RcdOutputSlewRateControl : 1; ///< Bits 6:6 + UINT8 Reserved1 : 1; ///< Bits 7:7 + } Bits; + UINT8 Data; +} SPD4_LRDIMM_REGISTER_OUTPUT_DRIVE_STRENGTH_FOR_CLOCK; + +typedef struct { + UINT8 DataBufferRevisionNumber; +} SPD4_LRDIMM_DATA_BUFFER_REVISION_NUMBER; + +typedef union { + struct { + UINT8 DramVrefDQForPackageRank0 : 6; ///< Bits 5:0 + UINT8 Reserved : 2; ///< Bits 7:6 + } Bits; + UINT8 Data; +} SPD4_LRDIMM_DRAM_VREFDQ_FOR_PACKAGE_RANK; + +typedef struct { + UINT8 DataBufferVrefDQforDramInterface; +} SPD4_LRDIMM_DATA_BUFFER_VREFDQ_FOR_DRAM_INTERFACE; + +typedef union { + struct { + UINT8 DramInterfaceMdqDriveStrength : 4; ///< Bits 3:0 + UINT8 DramInterfaceMdqReadTerminationStrength : 4; ///< Bits 7:4 + } Bits; + UINT8 Data; +} SPD4_LRDIMM_DATA_BUFFER_MDQ_DRIVE_STRENGTH_RTT_FOR_DATA_RATE; + +typedef union { + struct { + UINT8 DataRateLe1866 : 2; ///< Bits 1:0 + UINT8 DataRateLe2400 : 2; ///< Bits 3:2 + UINT8 DataRateLe3200 : 2; ///< Bits 5:4 + UINT8 Reserved : 2; ///< Bits 7:6 + } Bits; + UINT8 Data; +} SPD4_LRDIMM_DRAM_DRIVE_STRENGTH; + +typedef union { + struct { + UINT8 Rtt_Nom : 3; ///< Bits 2:0 + UINT8 Rtt_WR : 3; ///< Bits 5:3 + UINT8 Reserved : 2; ///< Bits 7:6 + } Bits; + UINT8 Data; +} SPD4_LRDIMM_DRAM_ODT_RTT_WR_RTT_NOM_FOR_DATA_RATE; + +typedef union { + struct { + UINT8 PackageRanks0_1 : 3; ///< Bits 2:0 + UINT8 PackageRanks2_3 : 3; ///< Bits 5:3 + UINT8 Reserved : 2; ///< Bits 7:6 + } Bits; + UINT8 Data; +} SPD4_LRDIMM_DRAM_ODT_RTT_PARK_FOR_DATA_RATE; + +typedef union { + struct { + UINT8 Rank0 : 1; ///< Bits 0:0 + UINT8 Rank1 : 1; ///< Bits 1:1 + UINT8 Rank2 : 1; ///< Bits 2:2 + UINT8 Rank3 : 1; ///< Bits 3:3 + UINT8 DataBuffer : 1; ///< Bits 4:4 + UINT8 Reserved : 3; ///< Bits 7:5 + } Bits; + UINT8 Data; +} SPD4_LRDIMM_DATA_BUFFER_VREFDQ_FOR_DRAM_INTERFACE_RANGE; + +typedef union { + struct { + UINT8 DataBufferGainAdjustment : 1; ///< Bits 0:0 + UINT8 DataBufferDfe : 1; ///< Bits 1:1 + UINT8 Reserved : 6; ///< Bits 7:2 + } Bits; + UINT8 Data; +} SPD4_LRDIMM_DATA_BUFFER_DQ_DECISION_FEEDBACK_EQUALIZATION; + +typedef UINT16 SPD4_NVDIMM_MODULE_PRODUCT_IDENTIFIER; + +typedef union { + struct { + UINT16 ContinuationCount : 7; ///< Bits 6:0 + UINT16 ContinuationParity : 1; ///< Bits 7:7 + UINT16 LastNonZeroByte : 8; ///< Bits 15:8 + } Bits; + UINT16 Data; + UINT8 Data8[2]; +} SPD4_NVDIMM_SUBSYSTEM_CONTROLLER_MANUFACTURER_ID_CODE; + +typedef UINT16 SPD4_NVDIMM_SUBSYSTEM_CONTROLLER_IDENTIFIER; + +typedef UINT8 SPD4_NVDIMM_SUBSYSTEM_CONTROLLER_REVISION_CODE; + +typedef union { + struct { + UINT8 Card : 5; ///< Bits 4:0 + UINT8 Revision : 2; ///< Bits 6:5 + UINT8 Extension : 1; ///< Bits 7:7 + } Bits; + UINT8 Data; +} SPD4_NVDIMM_REFERENCE_RAW_CARD; + +typedef union { + struct { + UINT8 Reserved : 4; ///< Bits 3:0 + UINT8 Extension : 4; ///< Bits 7:4 + } Bits; + UINT8 Data; +} SPD4_NVDIMM_MODULE_CHARACTERISTICS; + +typedef struct { + UINT8 Reserved; + UINT8 MediaType; +} SPD4_NVDIMM_HYBRID_MODULE_MEDIA_TYPES; + +typedef UINT8 SPD4_NVDIMM_MAXIMUM_NONVOLATILE_MEMORY_INITIALIZATION_TIME; + +typedef union { + struct { + UINT16 FunctionInterface : 5; ///< Bits 4:0 + UINT16 FunctionClass : 5; ///< Bits 9:5 + UINT16 BlockOffset : 4; ///< Bits 13:10 + UINT16 Reserved : 1; ///< Bits 14:14 + UINT16 Implemented : 1; ///< Bits 15:15 + } Bits; + UINT16 Data; + UINT8 Data8[2]; +} SPD4_NVDIMM_FUNCTION_INTERFACE_DESCRIPTOR; + +typedef struct { + UINT8 Year; ///< Year represented in BCD (00h = 2000) + UINT8 Week; ///< Year represented in BCD (47h = week 47) +} SPD4_MANUFACTURING_DATE; + +typedef union { + UINT32 Data; + UINT16 SerialNumber16[2]; + UINT8 SerialNumber8[4]; +} SPD4_MANUFACTURER_SERIAL_NUMBER; + +typedef struct { + UINT8 Location; ///< Module Manufacturing Location +} SPD4_MANUFACTURING_LOCATION; + +typedef struct { + SPD4_MANUFACTURER_ID_CODE IdCode; ///< Module Manufacturer ID Code + SPD4_MANUFACTURING_LOCATION Location; ///< Module Manufacturing Location + SPD4_MANUFACTURING_DATE Date; ///< Module Manufacturing Year, in BCD (range: 2000-2255) + SPD4_MANUFACTURER_SERIAL_NUMBER SerialNumber; ///< Module Serial Number +} SPD4_UNIQUE_MODULE_ID; + +typedef union { + UINT16 Crc[1]; + UINT8 Data8[2]; +} SPD4_CYCLIC_REDUNDANCY_CODE; + +typedef struct { + SPD4_DEVICE_DESCRIPTION_STRUCT Description; ///< 0 Number of Serial PD Bytes Written / SPD Device Size / CRC Coverage 1, 2 + SPD4_REVISION_STRUCT Revision; ///< 1 SPD Revision + SPD4_DRAM_DEVICE_TYPE_STRUCT DramDeviceType; ///< 2 DRAM Device Type + SPD4_MODULE_TYPE_STRUCT ModuleType; ///< 3 Module Type + SPD4_SDRAM_DENSITY_BANKS_STRUCT SdramDensityAndBanks; ///< 4 SDRAM Density and Banks + SPD4_SDRAM_ADDRESSING_STRUCT SdramAddressing; ///< 5 SDRAM Addressing + SPD4_PRIMARY_SDRAM_PACKAGE_TYPE_STRUCT PrimarySdramPackageType; ///< 6 Primary SDRAM Package Type + SPD4_SDRAM_OPTIONAL_FEATURES_STRUCT SdramOptionalFeatures; ///< 7 SDRAM Optional Features + SPD4_SDRAM_THERMAL_REFRESH_STRUCT ThermalAndRefreshOptions; ///< 8 SDRAM Thermal and Refresh Options + SPD4_OTHER_SDRAM_OPTIONAL_FEATURES_STRUCT OtherOptionalFeatures; ///< 9 Other SDRAM Optional Features + SPD4_SECONDARY_SDRAM_PACKAGE_TYPE_STRUCT SecondarySdramPackageType;///< 10 Secondary SDRAM Package Type + SPD4_MODULE_NOMINAL_VOLTAGE_STRUCT ModuleNominalVoltage; ///< 11 Module Nominal Voltage, VDD + SPD4_MODULE_ORGANIZATION_STRUCT ModuleOrganization; ///< 12 Module Organization + SPD4_MODULE_MEMORY_BUS_WIDTH_STRUCT ModuleMemoryBusWidth; ///< 13 Module Memory Bus Width + SPD4_MODULE_THERMAL_SENSOR_STRUCT ModuleThermalSensor; ///< 14 Module Thermal Sensor + SPD4_EXTENDED_MODULE_TYPE_STRUCT ExtendedModuleType; ///< 15 Extended Module Type + UINT8 Reserved0; ///< 16 Reserved + SPD4_TIMEBASE_STRUCT Timebase; ///< 17 Timebases + SPD4_TCK_MIN_MTB_STRUCT tCKmin; ///< 18 SDRAM Minimum Cycle Time (tCKmin) + SPD4_TCK_MAX_MTB_STRUCT tCKmax; ///< 19 SDRAM Maximum Cycle Time (tCKmax) + SPD4_CAS_LATENCIES_SUPPORTED_STRUCT CasLatencies; ///< 20-23 CAS Latencies Supported + SPD4_TAA_MIN_MTB_STRUCT tAAmin; ///< 24 Minimum CAS Latency Time (tAAmin) + SPD4_TRCD_MIN_MTB_STRUCT tRCDmin; ///< 25 Minimum RAS# to CAS# Delay Time (tRCDmin) + SPD4_TRP_MIN_MTB_STRUCT tRPmin; ///< 26 Minimum Row Precharge Delay Time (tRPmin) + SPD4_TRAS_TRC_MIN_MTB_STRUCT tRASMintRCMinUpper; ///< 27 Upper Nibbles for tRAS and tRC + SPD4_TRAS_MIN_MTB_STRUCT tRASmin; ///< 28 Minimum Active to Precharge Delay Time (tRASmin), Least Significant Byte + SPD4_TRC_MIN_MTB_STRUCT tRCmin; ///< 29 Minimum Active to Active/Refresh Delay Time (tRCmin), Least Significant Byte + SPD4_TRFC_MIN_MTB_STRUCT tRFC1min; ///< 30-31 Minimum Refresh Recovery Delay Time (tRFC1min) + SPD4_TRFC_MIN_MTB_STRUCT tRFC2min; ///< 32-33 Minimum Refresh Recovery Delay Time (tRFC2min) + SPD4_TRFC_MIN_MTB_STRUCT tRFC4min; ///< 34-35 Minimum Refresh Recovery Delay Time (tRFC4min) + SPD4_TFAW_MIN_MTB_UPPER_STRUCT tFAWMinUpper; ///< 36 Upper Nibble for tFAW + SPD4_TFAW_MIN_MTB_STRUCT tFAWmin; ///< 37 Minimum Four Activate Window Delay Time (tFAWmin) + SPD4_TRRD_MIN_MTB_STRUCT tRRD_Smin; ///< 38 Minimum Activate to Activate Delay Time (tRRD_Smin), different bank group + SPD4_TRRD_MIN_MTB_STRUCT tRRD_Lmin; ///< 39 Minimum Activate to Activate Delay Time (tRRD_Lmin), same bank group + SPD4_TCCD_MIN_MTB_STRUCT tCCD_Lmin; ///< 40 Minimum CAS to CAS Delay Time (tCCD_Lmin), Same Bank Group + SPD4_TWR_UPPER_NIBBLE_STRUCT tWRUpperNibble; ///< 41 Upper Nibble for tWRmin + SPD4_TWR_MIN_MTB_STRUCT tWRmin; ///< 42 Minimum Write Recovery Time (tWRmin) + SPD4_TWTR_UPPER_NIBBLE_STRUCT tWTRUpperNibble; ///< 43 Upper Nibbles for tWTRmin + SPD4_TWTR_MIN_MTB_STRUCT tWTR_Smin; ///< 44 Minimum Write to Read Time (tWTR_Smin), Different Bank Group + SPD4_TWTR_MIN_MTB_STRUCT tWTR_Lmin; ///< 45 Minimum Write to Read Time (tWTR_Lmin), Same Bank Group + UINT8 Reserved1[59 - 46 + 1]; ///< 46-59 Reserved + SPD4_CONNECTOR_BIT_MAPPING_BYTE_STRUCT BitMapping[77 - 60 + 1]; ///< 60-77 Connector to SDRAM Bit Mapping + UINT8 Reserved2[116 - 78 + 1]; ///< 78-116 Reserved + SPD4_TCCD_MIN_FTB_STRUCT tCCD_LminFine; ///< 117 Fine Offset for Minimum CAS to CAS Delay Time (tCCD_Lmin), same bank group + SPD4_TRRD_MIN_FTB_STRUCT tRRD_LminFine; ///< 118 Fine Offset for Minimum Activate to Activate Delay Time (tRRD_Lmin), different bank group + SPD4_TRRD_MIN_FTB_STRUCT tRRD_SminFine; ///< 119 Fine Offset for Minimum Activate to Activate Delay Time (tRRD_Smin), same bank group + SPD4_TRC_MIN_FTB_STRUCT tRCminFine; ///< 120 Fine Offset for Minimum Active to Active/Refresh Delay Time (tRCmin) + SPD4_TRP_MIN_FTB_STRUCT tRPminFine; ///< 121 Fine Offset for Minimum Row Precharge Delay Time (tRPabmin) + SPD4_TRCD_MIN_FTB_STRUCT tRCDminFine; ///< 122 Fine Offset for Minimum RAS# to CAS# Delay Time (tRCDmin) + SPD4_TAA_MIN_FTB_STRUCT tAAminFine; ///< 123 Fine Offset for Minimum CAS Latency Time (tAAmin) + SPD4_TCK_MAX_FTB_STRUCT tCKmaxFine; ///< 124 Fine Offset for SDRAM Minimum Cycle Time (tCKmax) + SPD4_TCK_MIN_FTB_STRUCT tCKminFine; ///< 125 Fine Offset for SDRAM Maximum Cycle Time (tCKmin) + SPD4_CYCLIC_REDUNDANCY_CODE Crc; ///< 126-127 Cyclical Redundancy Code (CRC) +} SPD4_BASE_SECTION; + +typedef struct { + SPD4_UNBUF_MODULE_NOMINAL_HEIGHT ModuleNominalHeight; ///< 128 Module Nominal Height + SPD4_UNBUF_MODULE_NOMINAL_THICKNESS ModuleMaximumThickness; ///< 129 Module Maximum Thickness + SPD4_UNBUF_REFERENCE_RAW_CARD ReferenceRawCardUsed; ///< 130 Reference Raw Card Used + SPD4_UNBUF_ADDRESS_MAPPING AddressMappingEdgeConn; ///< 131 Address Mapping from Edge Connector to DRAM + UINT8 Reserved[253 - 132 + 1]; ///< 132-253 Reserved + SPD4_CYCLIC_REDUNDANCY_CODE Crc; ///< 254-255 Cyclical Redundancy Code (CRC) +} SPD4_MODULE_UNBUFFERED; + +typedef struct { + SPD4_RDIMM_MODULE_NOMINAL_HEIGHT ModuleNominalHeight; ///< 128 Module Nominal Height + SPD4_RDIMM_MODULE_NOMINAL_THICKNESS ModuleMaximumThickness; ///< 129 Module Maximum Thickness + SPD4_RDIMM_REFERENCE_RAW_CARD ReferenceRawCardUsed; ///< 130 Reference Raw Card Used + SPD4_RDIMM_MODULE_ATTRIBUTES DimmModuleAttributes; ///< 131 DIMM Module Attributes + SPD4_RDIMM_THERMAL_HEAT_SPREADER_SOLUTION DimmThermalHeatSpreaderSolution; ///< 132 RDIMM Thermal Heat Spreader Solution + SPD4_MANUFACTURER_ID_CODE RegisterManufacturerIdCode; ///< 133-134 Register Manufacturer ID Code + SPD4_RDIMM_REGISTER_REVISION_NUMBER RegisterRevisionNumber; ///< 135 Register Revision Number + SPD4_RDIMM_ADDRESS_MAPPING_FROM_REGISTER_TO_DRAM AddressMappingFromRegisterToDRAM; ///< 136 Address Mapping from Register to DRAM + SPD4_RDIMM_REGISTER_OUTPUT_DRIVE_STRENGTH_FOR_CONTROL_COMMAND_ADDRESS RegisterOutputDriveStrengthForControlCommandAddress; ///< 137 Register Output Drive Strength for Control and Command Address + SPD4_RDIMM_REGISTER_OUTPUT_DRIVE_STRENGTH_FOR_CLOCK RegisterOutputDriveStrengthForClock; ///< 138 Register Output Drive Strength for Clock + UINT8 Reserved[253 - 139 + 1]; ///< 253-139 Reserved + SPD4_CYCLIC_REDUNDANCY_CODE Crc; ///< 254-255 Cyclical Redundancy Code (CRC) +} SPD4_MODULE_REGISTERED; + +typedef struct { + SPD4_LRDIMM_MODULE_NOMINAL_HEIGHT ModuleNominalHeight; ///< 128 Module Nominal Height + SPD4_LRDIMM_MODULE_NOMINAL_THICKNESS ModuleMaximumThickness; ///< 129 Module Maximum Thickness + SPD4_LRDIMM_REFERENCE_RAW_CARD ReferenceRawCardUsed; ///< 130 Reference Raw Card Used + SPD4_LRDIMM_MODULE_ATTRIBUTES DimmModuleAttributes; ///< 131 DIMM Module Attributes + SPD4_LRDIMM_THERMAL_HEAT_SPREADER_SOLUTION ThermalHeatSpreaderSolution; ///< 132 RDIMM Thermal Heat Spreader Solution + SPD4_MANUFACTURER_ID_CODE RegisterManufacturerIdCode; ///< 133-134 Register Manufacturer ID Code + SPD4_LRDIMM_REGISTER_REVISION_NUMBER RegisterRevisionNumber; ///< 135 Register Revision Number + SPD4_LRDIMM_ADDRESS_MAPPING_FROM_REGISTER_TO_DRAM AddressMappingFromRegisterToDram; ///< 136 Address Mapping from Register to DRAM + SPD4_LRDIMM_REGISTER_OUTPUT_DRIVE_STRENGTH_FOR_CONTROL_COMMAND_ADDRESS RegisterOutputDriveStrengthForControlCommandAddress; ///< 137 Register Output Drive Strength for Control and Command Address + SPD4_LRDIMM_REGISTER_OUTPUT_DRIVE_STRENGTH_FOR_CLOCK RegisterOutputDriveStrengthForClock; ///< 138 Register Output Drive Strength for Clock + SPD4_LRDIMM_DATA_BUFFER_REVISION_NUMBER DataBufferRevisionNumber; ///< 139 Data Buffer Revision Number + SPD4_LRDIMM_DRAM_VREFDQ_FOR_PACKAGE_RANK DramVrefDQForPackageRank0; ///< 140 DRAM VrefDQ for Package Rank 0 + SPD4_LRDIMM_DRAM_VREFDQ_FOR_PACKAGE_RANK DramVrefDQForPackageRank1; ///< 141 DRAM VrefDQ for Package Rank 1 + SPD4_LRDIMM_DRAM_VREFDQ_FOR_PACKAGE_RANK DramVrefDQForPackageRank2; ///< 142 DRAM VrefDQ for Package Rank 2 + SPD4_LRDIMM_DRAM_VREFDQ_FOR_PACKAGE_RANK DramVrefDQForPackageRank3; ///< 143 DRAM VrefDQ for Package Rank 3 + SPD4_LRDIMM_DATA_BUFFER_VREFDQ_FOR_DRAM_INTERFACE DataBufferVrefDQForDramInterface; ///< 144 Data Buffer VrefDQ for DRAM Interface + SPD4_LRDIMM_DATA_BUFFER_MDQ_DRIVE_STRENGTH_RTT_FOR_DATA_RATE DataBufferMdqDriveStrengthRttForDataRateLe1866; ///< 145 Data Buffer MDQ Drive Strength and RTT for data rate <= 1866 + SPD4_LRDIMM_DATA_BUFFER_MDQ_DRIVE_STRENGTH_RTT_FOR_DATA_RATE DataBufferMdqDriveStrengthRttForDataRateLe2400; ///< 146 Data Buffer MDQ Drive Strength and RTT for data rate <=2400 + SPD4_LRDIMM_DATA_BUFFER_MDQ_DRIVE_STRENGTH_RTT_FOR_DATA_RATE DataBufferMdqDriveStrengthRttForDataRateLe3200; ///< 147 Data Buffer MDQ Drive Strength and RTT for data rate <=3200 + SPD4_LRDIMM_DRAM_DRIVE_STRENGTH DramDriveStrength; ///< 148 DRAM Drive Strength + SPD4_LRDIMM_DRAM_ODT_RTT_WR_RTT_NOM_FOR_DATA_RATE DramOdtRttWrRttNomForDataRateLe1866; ///< 149 DRAM ODT (RTT_WR and RTT_NOM) for data rate <= 1866 + SPD4_LRDIMM_DRAM_ODT_RTT_WR_RTT_NOM_FOR_DATA_RATE DramOdtRttWrRttNomForDataRateLe2400; ///< 150 DRAM ODT (RTT_WR and RTT_NOM) for data rate <= 2400 + SPD4_LRDIMM_DRAM_ODT_RTT_WR_RTT_NOM_FOR_DATA_RATE DramOdtRttWrRttNomForDataRateLe3200; ///< 151 DRAM ODT (RTT_WR and RTT_NOM) for data rate <= 3200 + SPD4_LRDIMM_DRAM_ODT_RTT_PARK_FOR_DATA_RATE DramOdtRttParkForDataRateLe1866; ///< 152 DRAM ODT (RTT_PARK) for data rate <= 1866 + SPD4_LRDIMM_DRAM_ODT_RTT_PARK_FOR_DATA_RATE DramOdtRttParkForDataRateLe2400; ///< 153 DRAM ODT (RTT_PARK) for data rate <= 2400 + SPD4_LRDIMM_DRAM_ODT_RTT_PARK_FOR_DATA_RATE DramOdtRttParkForDataRateLe3200; ///< 154 DRAM ODT (RTT_PARK) for data rate <= 3200 + SPD4_LRDIMM_DATA_BUFFER_VREFDQ_FOR_DRAM_INTERFACE_RANGE DataBufferVrefDQForDramInterfaceRange; ///< 155 Data Buffer VrefDQ for DRAM Interface Range + SPD4_LRDIMM_DATA_BUFFER_DQ_DECISION_FEEDBACK_EQUALIZATION DataBufferDqDecisionFeedbackEqualization; ///< 156 Data Buffer DQ Decision Feedback Equalization + UINT8 Reserved[253 - 157 + 1]; ///< 253-132 Reserved + SPD4_CYCLIC_REDUNDANCY_CODE Crc; ///< 254-255 Cyclical Redundancy Code (CRC) +} SPD4_MODULE_LOADREDUCED; + +typedef struct { + UINT8 Reserved0[191 - 128 + 1]; ///< 128-191 Reserved + SPD4_NVDIMM_MODULE_PRODUCT_IDENTIFIER ModuleProductIdentifier; ///< 192-193 Module Product Identifier + SPD4_NVDIMM_SUBSYSTEM_CONTROLLER_MANUFACTURER_ID_CODE SubsystemControllerManufacturerIdCode; ///< 194-195 Subsystem Controller Manufacturer's ID Code + SPD4_NVDIMM_SUBSYSTEM_CONTROLLER_IDENTIFIER SubsystemControllerIdentifier; ///< 196-197 Subsystem Controller Identifier + SPD4_NVDIMM_SUBSYSTEM_CONTROLLER_REVISION_CODE SubsystemControllerRevisionCode; ///< 198 Subsystem Controller Revision Code + SPD4_NVDIMM_REFERENCE_RAW_CARD ReferenceRawCardUsed; ///< 199 Reference Raw Card Used + SPD4_NVDIMM_MODULE_CHARACTERISTICS ModuleCharacteristics; ///< 200 Module Characteristics + SPD4_NVDIMM_HYBRID_MODULE_MEDIA_TYPES HybridModuleMediaTypes; ///< 201-202 Hybrid Module Media Types + SPD4_NVDIMM_MAXIMUM_NONVOLATILE_MEMORY_INITIALIZATION_TIME MaximumNonVolatileMemoryInitializationTime; ///< 203 Maximum Non-Volatile Memory Initialization Time + SPD4_NVDIMM_FUNCTION_INTERFACE_DESCRIPTOR FunctionInterfaceDescriptors[8]; ///< 204-219 Function Interface Descriptors + UINT8 Reserved[253 - 220 + 1]; ///< 220-253 Reserved + SPD4_CYCLIC_REDUNDANCY_CODE Crc; ///< 254-255 Cyclical Redundancy Code (CRC) +} SPD4_MODULE_NVDIMM; + +typedef union { + SPD4_MODULE_UNBUFFERED Unbuffered; ///< 128-255 Unbuffered Memory Module Types + SPD4_MODULE_REGISTERED Registered; ///< 128-255 Registered Memory Module Types + SPD4_MODULE_LOADREDUCED LoadReduced; ///< 128-255 Load Reduced Memory Module Types + SPD4_MODULE_NVDIMM NonVolatile; ///< 128-255 Non-Volatile (NVDIMM-N) Hybrid Memory Parameters +} SPD4_MODULE_SPECIFIC; + +typedef struct { + UINT8 ModulePartNumber[348 - 329 + 1]; ///< 329-348 Module Part Number +} SPD4_MODULE_PART_NUMBER; + +typedef struct { + UINT8 ManufacturerSpecificData[381 - 353 + 1]; ///< 353-381 Manufacturer's Specific Data +} SPD4_MANUFACTURER_SPECIFIC; + +typedef UINT8 SPD4_MODULE_REVISION_CODE;///< 349 Module Revision Code +typedef UINT8 SPD4_DRAM_STEPPING; ///< 352 Dram Stepping + +typedef struct { + SPD4_UNIQUE_MODULE_ID ModuleId; ///< 320-328 Unique Module ID + SPD4_MODULE_PART_NUMBER ModulePartNumber; ///< 329-348 Module Part Number + SPD4_MODULE_REVISION_CODE ModuleRevisionCode; ///< 349 Module Revision Code + SPD4_MANUFACTURER_ID_CODE DramIdCode; ///< 350-351 Dram Manufacturer ID Code + SPD4_DRAM_STEPPING DramStepping; ///< 352 Dram Stepping + SPD4_MANUFACTURER_SPECIFIC ManufacturerSpecificData; ///< 353-381 Manufacturer's Specific Data + UINT8 Reserved[2]; ///< 382-383 Reserved +} SPD4_MANUFACTURING_DATA; + +typedef struct { + UINT8 Reserved[511 - 384 + 1]; ///< 384-511 Unbuffered Memory Module Types +} SPD4_END_USER_SECTION; + +/// +/// DDR4 Serial Presence Detect structure +/// +typedef struct { + SPD4_BASE_SECTION Base; ///< 0-127 Base Configuration and DRAM Parameters + SPD4_MODULE_SPECIFIC Module; ///< 128-255 Module-Specific Section + UINT8 Reserved[319 - 256 + 1]; ///< 256-319 Reserved + SPD4_MANUFACTURING_DATA ManufactureInfo; ///< 320-383 Manufacturing Information + SPD4_END_USER_SECTION EndUser; ///< 384-511 End User Programmable +} SPD_DDR4; + +#pragma pack (pop) +#endif diff --git a/MdePkg/Include/IndustryStandard/SdramSpdLpDdr.h b/MdePkg/Include/IndustryStandard/SdramSpdLpDdr.h new file mode 100644 index 0000000000..46ee68bc27 --- /dev/null +++ b/MdePkg/Include/IndustryStandard/SdramSpdLpDdr.h @@ -0,0 +1,474 @@ +/** @file + This file contains definitions for SPD LPDDR. + + Copyright (c) 2016, Intel Corporation. All rights reserved.
+ This program and the accompanying materials + are licensed and made available under the terms and conditions of the BSD License + which accompanies this distribution. The full text of the license may be found at + http://opensource.org/licenses/bsd-license.php + + THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, + WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED. + + @par Revision Reference: + - Serial Presence Detect (SPD) for LPDDR3 and LPDDR4 SDRAM Modules Document Release 2 + http://www.jedec.org/standards-documents/docs/spd412m-2 +**/ + +#ifndef _SDRAM_SPD_LPDDR_H_ +#define _SDRAM_SPD_LPDDR_H_ + +#pragma pack (push, 1) + +typedef union { + struct { + UINT8 BytesUsed : 4; ///< Bits 3:0 + UINT8 BytesTotal : 3; ///< Bits 6:4 + UINT8 CrcCoverage : 1; ///< Bits 7:7 + } Bits; + UINT8 Data; +} SPD_LPDDR_DEVICE_DESCRIPTION_STRUCT; + +typedef union { + struct { + UINT8 Minor : 4; ///< Bits 3:0 + UINT8 Major : 4; ///< Bits 7:4 + } Bits; + UINT8 Data; +} SPD_LPDDR_REVISION_STRUCT; + +typedef union { + struct { + UINT8 Type : 8; ///< Bits 7:0 + } Bits; + UINT8 Data; +} SPD_LPDDR_DRAM_DEVICE_TYPE_STRUCT; + +typedef union { + struct { + UINT8 ModuleType : 4; ///< Bits 3:0 + UINT8 HybridMedia : 3; ///< Bits 6:4 + UINT8 Hybrid : 1; ///< Bits 7:7 + } Bits; + UINT8 Data; +} SPD_LPDDR_MODULE_TYPE_STRUCT; + +typedef union { + struct { + UINT8 Density : 4; ///< Bits 3:0 + UINT8 BankAddress : 2; ///< Bits 5:4 + UINT8 BankGroup : 2; ///< Bits 7:6 + } Bits; + UINT8 Data; +} SPD_LPDDR_SDRAM_DENSITY_BANKS_STRUCT; + +typedef union { + struct { + UINT8 ColumnAddress : 3; ///< Bits 2:0 + UINT8 RowAddress : 3; ///< Bits 5:3 + UINT8 Reserved : 2; ///< Bits 7:6 + } Bits; + UINT8 Data; +} SPD_LPDDR_SDRAM_ADDRESSING_STRUCT; + +typedef union { + struct { + UINT8 SignalLoading : 2; ///< Bits 1:0 + UINT8 ChannelsPerDie : 2; ///< Bits 3:2 + UINT8 DieCount : 3; ///< Bits 6:4 + UINT8 SdramPackageType : 1; ///< Bits 7:7 + } Bits; + UINT8 Data; +} SPD_LPDDR_SDRAM_PACKAGE_TYPE_STRUCT; + +typedef union { + struct { + UINT8 MaximumActivateCount : 4; ///< Bits 3:0 + UINT8 MaximumActivateWindow : 2; ///< Bits 5:4 + UINT8 Reserved : 2; ///< Bits 7:6 + } Bits; + UINT8 Data; +} SPD_LPDDR_SDRAM_OPTIONAL_FEATURES_STRUCT; + +typedef union { + struct { + UINT8 Reserved : 8; ///< Bits 7:0 + } Bits; + UINT8 Data; +} SPD_LPDDR_SDRAM_THERMAL_REFRESH_STRUCT; + +typedef union { + struct { + UINT8 Reserved : 5; ///< Bits 4:0 + UINT8 SoftPPR : 1; ///< Bits 5:5 + UINT8 PostPackageRepair : 2; ///< Bits 7:6 + } Bits; + UINT8 Data; +} SPD_LPDDR_OTHER_SDRAM_OPTIONAL_FEATURES_STRUCT; + +typedef union { + struct { + UINT8 OperationAt1_20 : 1; ///< Bits 0:0 + UINT8 EndurantAt1_20 : 1; ///< Bits 1:1 + UINT8 OperationAt1_10 : 1; ///< Bits 2:2 + UINT8 EndurantAt1_10 : 1; ///< Bits 3:3 + UINT8 OperationAtTBD2V : 1; ///< Bits 4:4 + UINT8 EndurantAtTBD2V : 1; ///< Bits 5:5 + UINT8 Reserved : 2; ///< Bits 7:6 + } Bits; + UINT8 Data; +} SPD_LPDDR_MODULE_NOMINAL_VOLTAGE_STRUCT; + +typedef union { + struct { + UINT8 SdramDeviceWidth : 3; ///< Bits 2:0 + UINT8 RankCount : 3; ///< Bits 5:3 + UINT8 Reserved : 2; ///< Bits 7:6 + } Bits; + UINT8 Data; +} SPD_LPDDR_MODULE_ORGANIZATION_STRUCT; + +typedef union { + struct { + UINT8 PrimaryBusWidth : 3; ///< Bits 2:0 + UINT8 BusWidthExtension : 2; ///< Bits 4:3 + UINT8 NumberofChannels : 3; ///< Bits 7:5 + } Bits; + UINT8 Data; +} SPD_LPDDR_MODULE_MEMORY_BUS_WIDTH_STRUCT; + +typedef union { + struct { + UINT8 Reserved : 7; ///< Bits 6:0 + UINT8 ThermalSensorPresence : 1; ///< Bits 7:7 + } Bits; + UINT8 Data; +} SPD_LPDDR_MODULE_THERMAL_SENSOR_STRUCT; + +typedef union { + struct { + UINT8 ExtendedBaseModuleType : 4; ///< Bits 3:0 + UINT8 Reserved : 4; ///< Bits 7:4 + } Bits; + UINT8 Data; +} SPD_LPDDR_EXTENDED_MODULE_TYPE_STRUCT; + +typedef union { + struct { + UINT8 ChipSelectLoading : 3; ///< Bits 2:0 + UINT8 CommandAddressControlClockLoading : 3; ///< Bits 5:3 + UINT8 DataStrobeMaskLoading : 2; ///< Bits 7:6 + } Bits; + UINT8 Data; +} SPD_LPDDR_SIGNAL_LOADING_STRUCT; + +typedef union { + struct { + UINT8 Fine : 2; ///< Bits 1:0 + UINT8 Medium : 2; ///< Bits 3:2 + UINT8 Reserved : 4; ///< Bits 7:4 + } Bits; + UINT8 Data; +} SPD_LPDDR_TIMEBASE_STRUCT; + +typedef union { + struct { + UINT8 tCKmin : 8; ///< Bits 7:0 + } Bits; + UINT8 Data; +} SPD_LPDDR_TCK_MIN_MTB_STRUCT; + +typedef union { + struct { + UINT8 tCKmax : 8; ///< Bits 7:0 + } Bits; + UINT8 Data; +} SPD_LPDDR_TCK_MAX_MTB_STRUCT; + +typedef union { + struct { + UINT32 Cl3 : 1; ///< Bits 0:0 + UINT32 Cl6 : 1; ///< Bits 1:1 + UINT32 Cl8 : 1; ///< Bits 2:2 + UINT32 Cl9 : 1; ///< Bits 3:3 + UINT32 Cl10 : 1; ///< Bits 4:4 + UINT32 Cl11 : 1; ///< Bits 5:5 + UINT32 Cl12 : 1; ///< Bits 6:6 + UINT32 Cl14 : 1; ///< Bits 7:7 + UINT32 Cl16 : 1; ///< Bits 8:8 + UINT32 Reserved0 : 1; ///< Bits 9:9 + UINT32 Cl20 : 1; ///< Bits 10:10 + UINT32 Cl22 : 1; ///< Bits 11:11 + UINT32 Cl24 : 1; ///< Bits 12:12 + UINT32 Reserved1 : 1; ///< Bits 13:13 + UINT32 Cl28 : 1; ///< Bits 14:14 + UINT32 Reserved2 : 1; ///< Bits 15:15 + UINT32 Cl32 : 1; ///< Bits 16:16 + UINT32 Reserved3 : 1; ///< Bits 17:17 + UINT32 Cl36 : 1; ///< Bits 18:18 + UINT32 Reserved4 : 1; ///< Bits 19:19 + UINT32 Cl40 : 1; ///< Bits 20:20 + UINT32 Reserved5 : 11; ///< Bits 31:21 + } Bits; + UINT32 Data; + UINT16 Data16[2]; + UINT8 Data8[4]; +} SPD_LPDDR_CAS_LATENCIES_SUPPORTED_STRUCT; + +typedef union { + struct { + UINT8 tAAmin : 8; ///< Bits 7:0 + } Bits; + UINT8 Data; +} SPD_LPDDR_TAA_MIN_MTB_STRUCT; + +typedef union { + struct { + UINT8 ReadLatencyMode : 2; ///< Bits 1:0 + UINT8 WriteLatencySet : 2; ///< Bits 3:2 + UINT8 Reserved : 4; ///< Bits 7:4 + } Bits; + UINT8 Data; +} SPD_LPDDR_RW_LATENCY_OPTION_STRUCT; + +typedef union { + struct { + UINT8 tRCDmin : 8; ///< Bits 7:0 + } Bits; + UINT8 Data; +} SPD_LPDDR_TRCD_MIN_MTB_STRUCT; + +typedef union { + struct { + UINT8 tRPab : 8; ///< Bits 7:0 + } Bits; + UINT8 Data; +} SPD_LPDDR_TRP_AB_MTB_STRUCT; + +typedef union { + struct { + UINT8 tRPpb : 8; ///< Bits 7:0 + } Bits; + UINT8 Data; +} SPD_LPDDR_TRP_PB_MTB_STRUCT; + +typedef union { + struct { + UINT16 tRFCab : 16; ///< Bits 15:0 + } Bits; + UINT16 Data; + UINT8 Data8[2]; +} SPD_LPDDR_TRFC_AB_MTB_STRUCT; + +typedef union { +struct { + UINT16 tRFCpb : 16; ///< Bits 15:0 + } Bits; + UINT16 Data; + UINT8 Data8[2]; +} SPD_LPDDR_TRFC_PB_MTB_STRUCT; + +typedef union { + struct { + UINT8 BitOrderatSDRAM : 5; ///< Bits 4:0 + UINT8 WiredtoUpperLowerNibble : 1; ///< Bits 5:5 + UINT8 PackageRankMap : 2; ///< Bits 7:6 + } Bits; + UINT8 Data; +} SPD_LPDDR_CONNECTOR_BIT_MAPPING_BYTE_STRUCT; + +typedef union { + struct { + INT8 tRPpbFine : 8; ///< Bits 7:0 + } Bits; + INT8 Data; +} SPD_LPDDR_TRP_PB_FTB_STRUCT; + +typedef union { + struct { + INT8 tRPabFine : 8; ///< Bits 7:0 + } Bits; + INT8 Data; +} SPD_LPDDR_TRP_AB_FTB_STRUCT; + +typedef union { + struct { + INT8 tRCDminFine : 8; ///< Bits 7:0 + } Bits; + INT8 Data; +} SPD_LPDDR_TRCD_MIN_FTB_STRUCT; + +typedef union { + struct { + INT8 tAAminFine : 8; ///< Bits 7:0 + } Bits; + INT8 Data; +} SPD_LPDDR_TAA_MIN_FTB_STRUCT; + +typedef union { + struct { + INT8 tCKmaxFine : 8; ///< Bits 7:0 + } Bits; + INT8 Data; +} SPD_LPDDR_TCK_MAX_FTB_STRUCT; + +typedef union { + struct { + INT8 tCKminFine : 8; ///< Bits 7:0 + } Bits; + INT8 Data; +} SPD_LPDDR_TCK_MIN_FTB_STRUCT; + +typedef union { + struct { + UINT16 ContinuationCount : 7; ///< Bits 6:0 + UINT16 ContinuationParity : 1; ///< Bits 7:7 + UINT16 LastNonZeroByte : 8; ///< Bits 15:8 + } Bits; + UINT16 Data; + UINT8 Data8[2]; +} SPD_LPDDR_MANUFACTURER_ID_CODE; + +typedef struct { + UINT8 Location; ///< Module Manufacturing Location +} SPD_LPDDR_MANUFACTURING_LOCATION; + +typedef struct { + UINT8 Year; ///< Year represented in BCD (00h = 2000) + UINT8 Week; ///< Year represented in BCD (47h = week 47) +} SPD_LPDDR_MANUFACTURING_DATE; + +typedef union { + UINT32 Data; + UINT16 SerialNumber16[2]; + UINT8 SerialNumber8[4]; +} SPD_LPDDR_MANUFACTURER_SERIAL_NUMBER; + +typedef struct { + SPD_LPDDR_MANUFACTURER_ID_CODE IdCode; ///< Module Manufacturer ID Code + SPD_LPDDR_MANUFACTURING_LOCATION Location; ///< Module Manufacturing Location + SPD_LPDDR_MANUFACTURING_DATE Date; ///< Module Manufacturing Year, in BCD (range: 2000-2255) + SPD_LPDDR_MANUFACTURER_SERIAL_NUMBER SerialNumber; ///< Module Serial Number +} SPD_LPDDR_UNIQUE_MODULE_ID; + +typedef union { + struct { + UINT8 FrontThickness : 4; ///< Bits 3:0 + UINT8 BackThickness : 4; ///< Bits 7:4 + } Bits; + UINT8 Data; +} SPD_LPDDR_MODULE_MAXIMUM_THICKNESS; + +typedef union { + struct { + UINT8 Height : 5; ///< Bits 4:0 + UINT8 RawCardExtension : 3; ///< Bits 7:5 + } Bits; + UINT8 Data; +} SPD_LPDDR_MODULE_NOMINAL_HEIGHT; + +typedef union { + struct { + UINT8 Card : 5; ///< Bits 4:0 + UINT8 Revision : 2; ///< Bits 6:5 + UINT8 Extension : 1; ///< Bits 7:7 + } Bits; + UINT8 Data; +} SPD_LPDDR_REFERENCE_RAW_CARD; + +typedef union { + UINT16 Crc[1]; + UINT8 Data8[2]; +} SPD_LPDDR_CYCLIC_REDUNDANCY_CODE; + +typedef struct { + SPD_LPDDR_DEVICE_DESCRIPTION_STRUCT Description; ///< 0 Number of Serial PD Bytes Written / SPD Device Size / CRC Coverage 1, 2 + SPD_LPDDR_REVISION_STRUCT Revision; ///< 1 SPD Revision + SPD_LPDDR_DRAM_DEVICE_TYPE_STRUCT DramDeviceType; ///< 2 DRAM Device Type + SPD_LPDDR_MODULE_TYPE_STRUCT ModuleType; ///< 3 Module Type + SPD_LPDDR_SDRAM_DENSITY_BANKS_STRUCT SdramDensityAndBanks; ///< 4 SDRAM Density and Banks + SPD_LPDDR_SDRAM_ADDRESSING_STRUCT SdramAddressing; ///< 5 SDRAM Addressing + SPD_LPDDR_SDRAM_PACKAGE_TYPE_STRUCT SdramPackageType; ///< 6 SDRAM Package Type + SPD_LPDDR_SDRAM_OPTIONAL_FEATURES_STRUCT SdramOptionalFeatures; ///< 7 SDRAM Optional Features + SPD_LPDDR_SDRAM_THERMAL_REFRESH_STRUCT ThermalAndRefreshOptions; ///< 8 SDRAM Thermal and Refresh Options + SPD_LPDDR_OTHER_SDRAM_OPTIONAL_FEATURES_STRUCT OtherOptionalFeatures; ///< 9 Other SDRAM Optional Features + UINT8 Reserved0; ///< 10 Reserved + SPD_LPDDR_MODULE_NOMINAL_VOLTAGE_STRUCT ModuleNominalVoltage; ///< 11 Module Nominal Voltage, VDD + SPD_LPDDR_MODULE_ORGANIZATION_STRUCT ModuleOrganization; ///< 12 Module Organization + SPD_LPDDR_MODULE_MEMORY_BUS_WIDTH_STRUCT ModuleMemoryBusWidth; ///< 13 Module Memory Bus Width + SPD_LPDDR_MODULE_THERMAL_SENSOR_STRUCT ModuleThermalSensor; ///< 14 Module Thermal Sensor + SPD_LPDDR_EXTENDED_MODULE_TYPE_STRUCT ExtendedModuleType; ///< 15 Extended Module Type + SPD_LPDDR_SIGNAL_LOADING_STRUCT SignalLoading; ///< 16 Signal Loading + SPD_LPDDR_TIMEBASE_STRUCT Timebase; ///< 17 Timebases + SPD_LPDDR_TCK_MIN_MTB_STRUCT tCKmin; ///< 18 SDRAM Minimum Cycle Time (tCKmin) + SPD_LPDDR_TCK_MAX_MTB_STRUCT tCKmax; ///< 19 SDRAM Maximum Cycle Time (tCKmax) + SPD_LPDDR_CAS_LATENCIES_SUPPORTED_STRUCT CasLatencies; ///< 20-23 CAS Latencies Supported + SPD_LPDDR_TAA_MIN_MTB_STRUCT tAAmin; ///< 24 Minimum CAS Latency Time (tAAmin) + SPD_LPDDR_RW_LATENCY_OPTION_STRUCT LatencySetOptions; ///< 25 Read and Write Latency Set Options + SPD_LPDDR_TRCD_MIN_MTB_STRUCT tRCDmin; ///< 26 Minimum RAS# to CAS# Delay Time (tRCDmin) + SPD_LPDDR_TRP_AB_MTB_STRUCT tRPab; ///< 27 Minimum Row Precharge Delay Time (tRPab), all banks + SPD_LPDDR_TRP_PB_MTB_STRUCT tRPpb; ///< 28 Minimum Row Precharge Delay Time (tRPpb), per bank + SPD_LPDDR_TRFC_AB_MTB_STRUCT tRFCab; ///< 29-30 Minimum Refresh Recovery Delay Time (tRFCab), all banks + SPD_LPDDR_TRFC_PB_MTB_STRUCT tRFCpb; ///< 31-32 Minimum Refresh Recovery Delay Time (tRFCpb), per bank + UINT8 Reserved1[59 - 33 + 1]; ///< 33-59 Reserved + SPD_LPDDR_CONNECTOR_BIT_MAPPING_BYTE_STRUCT BitMapping[77 - 60 + 1]; ///< 60-77 Connector to SDRAM Bit Mapping + UINT8 Reserved2[119 - 78 + 1]; ///< 78-119 Reserved + SPD_LPDDR_TRP_PB_FTB_STRUCT tRPpbFine; ///< 120 Fine Offset for Minimum Row Precharge Delay Time (tRPpbFine), per bank + SPD_LPDDR_TRP_AB_FTB_STRUCT tRPabFine; ///< 121 Fine Offset for Minimum Row Precharge Delay Time (tRPabFine), all ranks + SPD_LPDDR_TRCD_MIN_FTB_STRUCT tRCDminFine; ///< 122 Fine Offset for Minimum RAS# to CAS# Delay Time (tRCDmin) + SPD_LPDDR_TAA_MIN_FTB_STRUCT tAAminFine; ///< 123 Fine Offset for Minimum CAS Latency Time (tAAmin) + SPD_LPDDR_TCK_MAX_FTB_STRUCT tCKmaxFine; ///< 124 Fine Offset for SDRAM Maximum Cycle Time (tCKmax) + SPD_LPDDR_TCK_MIN_FTB_STRUCT tCKminFine; ///< 125 Fine Offset for SDRAM Minimum Cycle Time (tCKmin) + SPD_LPDDR_CYCLIC_REDUNDANCY_CODE Crc; ///< 126-127 Cyclical Redundancy Code (CRC) +} SPD_LPDDR_BASE_SECTION; + +typedef struct { + SPD_LPDDR_MODULE_NOMINAL_HEIGHT ModuleNominalHeight; ///< 128 Module Nominal Height + SPD_LPDDR_MODULE_MAXIMUM_THICKNESS ModuleMaximumThickness; ///< 129 Module Maximum Thickness + SPD_LPDDR_REFERENCE_RAW_CARD ReferenceRawCardUsed; ///< 130 Reference Raw Card Used + UINT8 Reserved[253 - 131 + 1]; ///< 131-253 Reserved + SPD_LPDDR_CYCLIC_REDUNDANCY_CODE Crc; ///< 254-255 Cyclical Redundancy Code (CRC) +} SPD_LPDDR_MODULE_LPDIMM; + +typedef struct { + SPD_LPDDR_MODULE_LPDIMM LpDimm; ///< 128-255 Unbuffered Memory Module Types +} SPD_LPDDR_MODULE_SPECIFIC; + +typedef struct { + UINT8 ModulePartNumber[348 - 329 + 1]; ///< 329-348 Module Part Number +} SPD_LPDDR_MODULE_PART_NUMBER; + +typedef struct { + UINT8 ManufacturerSpecificData[381 - 353 + 1]; ///< 353-381 Manufacturer's Specific Data +} SPD_LPDDR_MANUFACTURER_SPECIFIC; + +typedef UINT8 SPD_LPDDR_MODULE_REVISION_CODE;///< 349 Module Revision Code +typedef UINT8 SPD_LPDDR_DRAM_STEPPING; ///< 352 Dram Stepping + +typedef struct { + SPD_LPDDR_UNIQUE_MODULE_ID ModuleId; ///< 320-328 Unique Module ID + SPD_LPDDR_MODULE_PART_NUMBER ModulePartNumber; ///< 329-348 Module Part Number + SPD_LPDDR_MODULE_REVISION_CODE ModuleRevisionCode; ///< 349 Module Revision Code + SPD_LPDDR_MANUFACTURER_ID_CODE DramIdCode; ///< 350-351 Dram Manufacturer ID Code + SPD_LPDDR_DRAM_STEPPING DramStepping; ///< 352 Dram Stepping + SPD_LPDDR_MANUFACTURER_SPECIFIC ManufacturerSpecificData; ///< 353-381 Manufacturer's Specific Data + UINT8 Reserved[383 - 382 + 1]; ///< 382-383 Reserved +} SPD_LPDDR_MANUFACTURING_DATA; + +typedef struct { + UINT8 Reserved[511 - 384 + 1]; ///< 384-511 End User Programmable +} SPD_LPDDR_END_USER_SECTION; + +/// +/// LPDDR Serial Presence Detect structure +/// +typedef struct { + SPD_LPDDR_BASE_SECTION Base; ///< 0-127 Base Configuration and DRAM Parameters + SPD_LPDDR_MODULE_SPECIFIC Module; ///< 128-255 Module-Specific Section + UINT8 Reserved[319 - 256 + 1]; ///< 256-319 Hybrid Memory Parameters + SPD_LPDDR_MANUFACTURING_DATA ManufactureInfo; ///< 320-383 Manufacturing Information + SPD_LPDDR_END_USER_SECTION EndUser; ///< 384-511 End User Programmable +} SPD_LPDDR; + +#pragma pack (pop) +#endif