Intel IQ80321 manual Memory Subsystem, Battery Backup, DDR Memory Features, Supported Dimm Types

Page 34

Intel® IQ80321 I/O Processor Evaluation Platform

Hardware Reference Section

3.4Memory Subsystem

Memory subsystem consists of the SDRAM as well as the Flash memory subsystems.

3.4.1DDR SDRAM

The DDR SDRAM interface consists of a 64-bit wide data path to support 1.6 GB/sec throughput. An 8-bit Error Correction Code (ECC) is stored into the DDR SDRAM array along with the data and is checked when the data is read.

Table 8. DDR Memory Features

Description

The board features two banks of DDR SDRAM in the form of one two-bank dual inline memory module (DIMM), only Un-buffered PC1600 DIMMs.

The Intel® IQ80321 Evaluation Platform Board has a single DIMM connector supporting the DIMM arrangements listed in Table 9.

Table 9.

Supported DIMM Types

 

 

 

 

 

 

 

 

Type

Size

Type

Size

 

 

 

 

DDR200 (PC1600)

8MX64

CL2DIMM

(64 MB)

 

 

 

 

 

DDR200

 

16MX64

CL2 DIMM

(128 MB)

 

 

 

 

 

DDR200

 

32MX64

CL2 DIMM

(256 MB)

 

 

 

 

 

 

 

 

 

 

DDR200

 

8MX72

CL2 ECC DIMM

(64 MB)

 

 

 

 

 

DDR200

 

16MX72

CL2 ECC DIMM

(128 MB)

 

 

 

 

 

DDR200

 

32MX72

CL2 ECC DIMM

(256 MB)

 

 

 

 

 

 

 

 

 

 

DDR200

 

 

 

(1 GB)

 

 

 

 

 

3.4.1.1Battery Backup

Battery backup is provided to save any information in DDR during a power failure. The evaluation board contains a Li-ion battery, a charging circuit and a regulator circuit.

DDR technology provides enabling data preservation through the self-refresh command. When the processor receives an active Primary PCI-X reset, the self-refresh command issues, driving SCKE signals low. Upon seeing this condition, the board logic circuit holds SCKE low before the processor loses power. Batteries maintain power to DDR and logic, to ensure self-refresh mode. When the circuit detects PRST# returning to inactive state, the circuit releases the hold on SCKE. Removing the battery can disable the battery circuit. When the battery remains in the platform when it is de-powered and/or removed from the chassis, the battery maintains DDR for about four hours. Once power is reapplied, the battery is fully charged.

34

Board Manual

Page 33 Page 35
Image 34
Page 33 Page 35
Contents Intel IQ80321 I/O Processor Evaluation Platform Board ManualIntel IQ80321 I/O Processor Evaluation Platform Board ManualContents Debug Interface Dram 100 119 Figures Tables 105 Revision History DescriptionThis page intentionally left blank Document Purpose and Scope Related DocumentsElectronic Information Electronic InformationComponent References Component ReferenceTerms and Definitions Terms and DefinitionsDefinition Intel 80321 I/O Processor Block Diagram Intel 80321 I/O ProcessorIntel IQ80321 I/O Processor Evaluation Platform Summary of Features Intel IQ80321 Evaluation Platform Board FeaturesFeature Definition First-Time Installation and Test Kit ContentHardware Installation Power and Backplane RequirementsDevelopment Strategy Factory SettingsContents of the Flash Supported Tool BucketsRedhat Redboot Target MonitorsARM Firmware Suite ARM Angel Semihosting File I/OSerial-UART Communication Host Communications ExamplesEthernet-Network Communication Jtag Debug Communication Jtag Debug CommunicationCommunicating with Redboot GNUPro GDB/InsightIntel IQ80321 I/O Processor Evaluation Platform Connecting with GDB GDB set remotebaudARM Extended Debugger This page intentionally left blank Functional Diagram IntelForm-Factor/Connectivity Features Board Form-Factor/ConnectivityPower Power FeaturesMemory Subsystem Battery BackupDDR Memory Features Supported Dimm TypesFlash Memory Requirements Flash Memory RequirementsIntel 80321 I/O Processor Operation Mode Interrupt Routing 80321 I/O ProcessorPeripheral Bus Features Intel IQ80321 Evaluation Platform Board Peripheral BusFlash ROM Features Flash ROMUart Features UartHEX Display HEX Display on the Peripheral BusRotary Switch Rotary Switch RequirementsBattery Status Battery Status Buffer RequirementsEthernet Port Debug InterfaceConsole Serial Port Intel 82544EI Gigabit Ethernet Controller3.1 Jtag Port Logic-Analyzer ConnectorsJtag Debug Jtag Port Pin-outMicor J3F2 Signal/Pins Mictor J3F2Schematic Signal Name Micor J2F1 Signal/PinsMictor J2F1 Micor J1C1 Signal/Pins Mictor J1C1Micor J3C1 Signal/Pins Mictor J3C1Micor J2C1 Signal/Pins Mictor J2C1Reset Requirements/Schemes Board Reset SchemeReset Sources Switches and Jumpers Switch SummaryPCI-X Bridge Initialization Signals User Defined SwitchesPcix Initialization Summary Default Switch Settings Visual Jumper Summary Connector SummaryGeneral Purpose Input/Output Header Primary PCI/PCI-X Operation Settings Secondary PCI/PCI-X Operation SettingsPrimary PCI/PCI-X Operation Settings S9E1-1 S9E1-2 S9E1-3 S9E1-4 S8E1-6 Operation ModeDetail Descriptions of Switches/Jumpers Switch S7E1- 2/3Switch S7E1- 4/5 Switch S7E1- 6/7Switch S7E1 8 Settings and Operation Mode Switch S7E1Switch S7E1 8 Descriptions S7E1-8Switch S8E1 Switch S8E1 5 Driver Mode Output Impedances Switch S8E1 5 DescriptionsSwitch S8E1 5 Settings and Operation Mode Switch S8E1 6 DescriptionsSwitch S8E1 8 Descriptions Switch S8E1 7 DescriptionsSwitch S8E1 7 Settings and Operation Mode Switch S8E1 8 Settings and Operation ModeSwitch S8E2 1/2 Switch S8E2Switch S9E1 13 Settings and Operation Mode Switch S9E1Switch S9E1 13 Descriptions Switch S9E1 4 DescriptionsSwitch S4D1 1/2 Switch S1D1 1/2Switch S4D1 3/4 Jumper J3E1 Jumper J1G2Jumper J3G1 Jumper J9E1 Jumper J9F1This page intentionally left blank Private Device Configuration Requirements Private Device ConfigurationIdsel Routing for Private Device Configuration Interrupt Routing for Private Device Configuration Interrupt Routing for Secondary PCI-X Private DeviceDDR Memory Bias Voltage Minimum/Maximum Values DramComponents on the Peripheral Bus Parameter VoltagesSoftware Reference Uart Register Settings Address Read Register Write RegisterHex Display Connection to Peripheral Bus Register Bitmap 7-Segment Display LSB FE85 0000h Write Only Ethernet Intel 80321 I/O Processor Memory Map Board Support Package BSP ExamplesIntel 80321 I/O Processor Memory Map Redboot* Intel IQ80321 Memory Map Physical Address Range DescriptionRedboot Intel IQ80321 Physical Memory Map Visual Redboot Intel IQ80310 Physical Memory MapRedboot Intel IQ80321 Virtual Memory Map Visual Redboot Intel IQ80310 Virtual Memory MapRedboot Intel IQ80321 Files Redboot Intel IQ80321 DDR Memory Initialization Sequence Redboot Switching This page intentionally left blank IQ80310 and IQ80321 Comparisons IQ80310 and IQ80321 Comparisons Purpose IntroductionNecessary Hardware and Software Related Web Sites Setup Hardware SetupSoftware Setup Software Flow DiagramNew Project Setup Creating a New ProjectConfiguration Flashing with Jtag OverviewUsing Flash Programmer Debugging Out of Flash Building an Executable File From Example CodeLaunching and Configuring Debugger Running the CodeLab DebuggerManually Loading and Executing an Application Program Displaying Source CodeUsing Breakpoints Setting CodeLab Debug Options Stepping Through the CodeExploring the CodeLab Debug Windows Watch Window Registers WindowVariables Window Software Breakpoints Debugging BasicsHardware and Software Breakpoints Hardware BreakpointsExceptions/Trapping 104 Board Manual 105 106 Board Manual 107 Flash Memory Evaluation Board 108 Board Manual 109 110 Board Manual 111 112 Board Manual 113 114 Board Manual 115 116 4 4 Debug and Console Windows 118 Board Manual 119 3 C.9.3 Exceptions/Trapping
Top Page Image Contents