Emerson MVME55006E manual Default VME Settings, Firmware SettingsMOTLoad Firmware

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Firmware SettingsMOTLoad Firmware

Example

MVME5500> help testRam

Usage: testRam [-aPh] [-bPh] [-iPd] [-nPh] [-tPd] [-v]

Description: RAM Test [Directory] Argument/Option Description

-a Ph: Address to Start (Default = Dynamic Allocation)

-b Ph: Block Size (Default = 16KB)

-i Pd: Iterations (Default = 1)

-n Ph: Number of Bytes (Default = 1MB)

-t Ph: Time Delay Between Blocks in OS Ticks (Default = 1)

-v O : Verbose Output MVME5500>

4.5Firmware Settings

The following sections provide additional information pertaining pertaining to the MVME5500 VME bus interface settings as configured by MOTLoad. A few VME settings are controlled by hardware jumpers while the majority of the VME settings are managed by the firmware command utility vmeCfg.

4.5.1Default VME Settings

As shipped from the factory, the firmware on the MVME5500 will program default values into the Universe II VME Interface chip. The firmware allows certain VME settings to be changed in order for the user to customize his/her environment. The following is a description of the default VME settings that are changeable by the user. For more information, refer to the MOTLoad User’s Manual and Tundra’s Universe II User Manual, listed in Appendix C, Related Documentation.

zVME3PCI Master Enable = Y

N = Do not set up or enable the VMEbus Interface. Y= Set up and enable the VMEbus Interface.

zPCI Slave Image 0

This image is set to zeroes and thus disabled.

zPCI Slave Image 1 Control = C0820000

Sets LSI1_CTL to indicate that this image is enabled, write posting is enabled, VMEbus data width is 32 bits, VMEbus address space is A32, data and non-supervisory AM encoding, no BLT transfers to the VMEbus, and to accept addresses in PCI memory space.

zPCI Slave Image 1 Base Address Register = 91000000

Sets LSI1_BS to indicate that the lower bound of PCI memory addresses to be transferred to the VMEbus by this image is 0x91000000.

zPCI Slave Image 1 Bound Address Register = B0000000

Sets LSI1_BD to indicate that the upper bound of PCI memory addresses to be transferred by this image is 0xB0000000.

zPCI Slave Image 1 Translation Offset = 70000000

MVME55006E Single-Board Computer Installation and Use (6806800A37D)

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Contents MVME55006E Single-Board Computer Contact Address Contents RAM55006E Memory Expansion Module ContentsSpecifications Related Documentation List of Tables List of Tables List of Figures 14 VIO Keying Pin SettingsList of Figures About this Manual Overview of ContentsAbout this Manual Model Number Description ConventionsNotation Description BoldComments and Suggestions Summary of ChangesAbout this Manual Notation Description Date Change ReplacesAbout this Manual Overview Hardware Preparation and InstallationIntroduction Getting StartedHardware Preparation and Installation Overview of Startup ProceduresUnpacking Guidelines Startup OverviewConfiguring the Hardware Configuring the HardwareMVME5500 Jumper Settings Configuring the BoardJumpers Switches Function Settings Configuring the BoardHardware Preparation and Installation Items in brackets are factory default settingsEthernet 2.2 PMC/SBC Mode Selection J102 J110 Settings Front Panel and Rear P2 Ethernet SettingsFlash 0 Programming Enable Switch S3-1 Flash Boot Bank Select Header J8Flash Boot Bank Select Header J8 Flash 0 Block Write Protect Switch S3-2 Safe Start ENV Switch S5-1S5-1 Settings PCI Bus 0.0 Speed Switch S4-1 Srom Initialization Enable Switch S5-2Srom Initialization Enable Switch S5-2 J27 Settings PCI Bus 1.0 Speed Switch S4-2S4-2 Settings VME Scon Select Header J27Setting the PMC Vio Keying Pin Eeprom Write Protect Switch S3-3S3-3 Settings Eeprom Write Protect Switch S3-3Procedure Installing the RAM5500 ModuleInstalling PMCs Installing PMCsMounting the PMC Module Primary PMCspan 15 Typical Placement of a PMC Module on a VME ModulePrimary PMCspan 16 PMCspan Installation on a VME ModuleSecondary PMCspan Installing the Board Installing the BoardConnector Function MVME5500 ConnectorsConnection to Peripherals Switches and Indicators Applying PowerCompleting the Installation Startup and OperationFunction Label Color Description Front-Panel LED Status IndicatorsFunctional Description Block DiagramMVME5500 Features Summary FeaturesFeature Description Functional DescriptionL3 Cache ProcessorSystem Controller ProcessorFunctional DescriptionMemory Controller Interface CPU Bus InterfaceInterrupt Controller 4 I2C Serial Interface and DevicesTimers Direct Memory Access DMADirect Memory Access DMA Flash MemoryPCI Local Buses and Devices System MemoryGigabit Ethernet Interface 2 10/100Mb Ethernet InterfacePMC Sites PCI-to-PCI BridgesPCI Idsel Definition PCI Bus ArbitrationReal Time Clock and Nvram Asynchronous Serial PortsSystem Control and Status Registers Sources of ResetVME Interface PMC ExpansionDebug Support RAM55006E Memory Expansion Module RAM5500 Feature SummaryFunctional Description 1 RAM5500 DescriptionSrom Memory Expansion Connector Pin AssignmentsClocks RAM55006E Memory Expansion ModuleMemory Expansion Connector Pin Assignments RAM5500 Connector P1 Pin AssignmentsPin Signal CKD00 CKD01 CKD02 CKD03 CKD04 CKD05 RAM5500 Programming IssuesRAM55006E Memory Expansion Module RAM5500 Programming IssuesSerial Presence Detect SPD Data Serial Presence Detect SPD Data MOTLoad Firmware MOTLoad CommandsImplementation and Memory Requirements Tests UtilitiesMOTLoad Firmware MOTLoad Commands Command ListCommand List Command DescriptionMOTLoad FirmwareCommand List Command ListMOTLoad Firmware MOTLoad Commands Using the Command Line InterfaceMOTLoad Firmware Using the Command Line InterfaceHelp RulesDefault VME Settings Firmware SettingsFirmware SettingsMOTLoad Firmware PCI Slave Image 4 VMEbus Slave Image 0 Translation Offset = Default VME Settings1.1 CR/CSR Settings Deleting VME Settings Remote Start Connectors Connector Pin AssignmentsEthernet Connectors J2 Asynchronous Serial Port Connector J1COM1 Connector J1 Pin Assignments Ethernet Connector J2 Pin AssignmentsIpmc Connector J3 Pin Assignments Ipmc Connector J3Ipmc Connector J3 PCI/PMC Expansion Connector J4 Pin Assignments 4 PCI/PMC Expansion Connector J4AD1 AD0 AD3 AD2 AD5 AD4 AD7 AD6 AD9 AD8 PCI/PMC Expansion Connector J4Connector Pin AssignmentsCPU COP Connector J5 Pin Assignments CPU COP Connector J5Connector Pin AssignmentsCPU COP Connector J5 PMC 1 Connector J11 Pin Assignments PMC 1 Interface Connectors J11, J12, J13, J14PMC 1 Interface Connectors J11, J12, J13, J14 PMC 1 Connector J12 Pin Assignments PMC 1 Connector J13 Pin Assignments PMC 1 Connector J14 Pin Assignments PMC 2 Interface Connectors J21, J22, J23, J24 Boundary Scan Connector J1810 Boundary Scan Connector J18 Pin Assignments 11 PMC 2 Connector J21 Pin Assignments12 PMC 2 Connector J22 Pin Assignments 13 PMC 2 Connector J23 Pin Assignments 14 PMC 2 Connector J24 Pin Assignments 15 COM2 Planar Connector J33 Pin Assignments Asynchronous Serial Port COM2 Planar Connector J3316 VME Connector P2 Pin Assignments PMC Mode VMEbus Connectors P1 & P2 PMC ModePin VMEbus Connectors P1 & P2 SBC ModeConnector Pin Assignments VMEbus Connectors P1 & P2 SBC ModePin Row Z Row a Row B Row C Row D 17 VME Connector P2 Pinout with IPMC712VMEbus Connectors P1 & P2 SBC Mode 18 VME Connector P2 Pinouts with IPMC76119 Memory Expansion Connector P4 Pin Assignments Memory Expansion Connector P4Memory Expansion Connector P4Connector Pin Assignments Headers Connector Pin AssignmentsHeadersJ100 J101 Pin Signal J34 J97J98 J99 J28 J32 Pin Signal 22 PMC/SBC Mode Selection Headers J28, J32 Pin Assignments23 P2 I/O Selection Headers J102 J110 Pin Assignments SBC/IPMC712 Mode SBC/IPMC761 Mode PMC Mode 25 VME Scon Select Header J27 Pin Assignments 24 Flash Boot Bank Select Header J8 Pin AssignmentsConnector Pin Assignments Power Requirements SpecificationsEnvironmental Specifications Supply Current Requirements207,058 hours SpecificationsEnvironmental SpecificationsThermally Significant Components Thermal ValidationTable B-1 Thermally Significant Components 100 Thermal ValidationThermally Significant ComponentsComponent Temperature Measurement Component Temperature MeasurementPreparation Measuring Local Air Temperature Measuring Junction TemperatureMeasuring Case Temperature Thermal ValidationFigure B-4 Machining a Heatsink Measuring Case Temperature104 Related Documentation Emerson Network Power Embedded Computing DocumentsManufacturers’ Documents Table C-2 Manufacturers’ Documents106 Related DocumentationManufacturers’ DocumentsTable C-3 Related Specifications Related SpecificationsRelated Specifications Document Title and Source Or Search Term108 Related DocumentationNumerics Index110