Xembedded / Xycom XVME-690 Manual
Contents
1. POST ie PCI Devices The following table describes the settings associated with the POST setup menu s Memory Test section 3 9 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com BIOS Setup Menus Low Memory Standard Test Enable basic memory confidence test of memory below 1MB address boundary conventional memory or memory normally used by DOS Low Memory Exhaustive Test Enable exhaustive memory confidence test of memory below 1MB address boundary High Memory Standard Test Enable basic memory confidence test of memory between 1MB and 4 2GB address boundaries extended memory High Memory Exhaustive Test Enable exhaustive memory confidence test of memory between 1MB and 4 2GB address boundaries Huge Memory Standard Test Enable basic memory confidence test of memory above 4 2GB address boundary available using PAE technology Huge Memory Exhaustive Test Enable exhaustive memory confidence test of memory above 4 2GB address boundary Click During Memory Test Enable disable speaker click when testing each block Clear Memory During Test Enable storing O s in all memory locations tested Only necessary when some legacy DOS programs are run as they may rely on cleared memory to operate properly The following table describes the settings associated with the PO2. P7 Geyserville Enabled Microcode Update Enabled Embedded BIOS 2000 V6 0 5 Copyright 2006 General Software Inc N Figure 3 7 BIOS Feature Configuration The following table describes each setting in the Features menu Quick Boot Enable time optimized POST causing certain preconfigured OEM optimizations to be made when the system boots Depending on the system Quick Boot can reach the DOS prompt in as little as 85ms milliseconds Advanced Power Management APM Enable legacy power management used by the system when an ACPI aware operating system is not running during POST such as when the system is running the preboot environment or while running DOS Windows95 Windows98 or Linux kernels below version 2 6 Uses the SMM feature see Firmbase to operate properly 3 17 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com BIOS Setup Menus ACPI Enable ACPI system description and power management ACPI replaces PnP and APM Used with ACPI aware OSes such as Linux kernels version 2 6 and above Windows XP and Windows Vista Commonly also uses the SMM feature see Firmbase to operate properly POST Memory Manager PMM Enable memory allocation services for option ROMs especially network cards running PXE Some option ROMs may use this interface incorrectly causing system crashes Other PXE option ROMs may not run
3. A rtisan Artisan Technology Group is your source for quality TecmoogyGroup new and certified used pre owned equipment FAST SHIPPING AND SERVICE CENTER REPAIRS WE BUY USED EQUIPMENT DELIVERY Experienced engineers and technicians on staff Sell your excess underutilized and idle used equipment TENS OF THOUSANDS OF at our full service in house repair center We also offer credit for buy backs and trade ins IN STOCK ITEMS www artisantg com WeBuyEquipment EQUIPMENT DEMOS HUNDREDS OF InstraV ea REMOTE INSPECTION LOOKING FOR MORE INFORMATION MANUFACTURERS Remotely inspect equipment before purchasing with Visit us on the web at www artisantg com 7 for more our interactive website at www instraview com 7 information on price duotations drivers technical LEASING MONTHLY specifications manuals and documentation RENTALS ITAR CERTIFIED ode We aed Contact us 888 88 SOURCE sales artisantg com www artisantg com XVME 689 690 Single Slot VMEbus Intel Celeron M or Pentium M Processor Module User Manual 2006 XYCOMVMETM INC Printed in the United States of America Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com Revision Description Date A Init 12 05 B Updates from design 5 1 06 C Edits 7 26 06 D Edits 9 19 06 E Edits 10 19 06 Part Number 74690 Trademark Information Brand or product names are trademarks or registered trademar
4. FDD1 connects a single 3 5 floppy drive Only one drive is supported Power for this external drive is not supplied by the XVME 990 Table 5 5 XVME 990 FDD1 Connector Pin out 5 5 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com Rear Transition Module IDE1 Connector IDEI connects up to two hard drives primary master and slave Power for the drives is not supplied by the XVME 990 Table 5 6 XVME 990 IDE Connector Pin out 26 GND 27 2 29 30 31 io 32 33 2 34 3 36 14 36 18 37 16 se 17 18 iS ow 4 Caution It is recommended that only an 80 conductor 40 pin EIDE cable is used with the XVME 689 690 This cable type has additional ground planes that can handle the faster interface speeds Intermitted hard drive functions can be traced back to the use of a standard 40 conductor 40 pin cable The IDE controller supports enhanced PIO modes which reduce the cycle times for 16 bit data transfers to the hard drive Check with your drive manual to see if the drive you are using supports these modes The higher the PIO mode the shorter the cycle time As the IDE cable length increases this reduced cycle time can lead to erratic operation As a result it is in your best interest to keep the IDE cable as short as possible The PIO modes can be selected in the BIOS setup see p Error Bookmark not defined The Auto configuration will at
5. J VMERETRY HDI PSTROBE 15 SATA RXPI AUD GND VD17 HD13 PPD 3 5 3 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com Rear Transition Module Z g AUD LINE OUT L VD18 HD14 PPD 4 SB1_GND AUD_LINE_OUT_R VD19 HD15 PPD 5 c DMA66 PDIAG VD20 PPD 6 Bl VD21 DIOW PPD 7 n ao Zaz elio iw FRWC VD22 DIOR DAC RED JSBI VD23 IORDY DAC GREEN Pulled upto 5V DAC BLUE 1 a D SBO li Z q BO PWR 5V P3 Interconnect connector The P3 connector on the XVME 990 is used to pass the P2 signals through to an adjacent XVME 977 or XVME 979 drive card It has the same pin out as rows A B and C of P2 The required interconnect 64 pin cable is included with the XVME 977 or XVME 979 modules Note since the cable is only 64 pins the row b of this connector is not carried across but is bused on the VMEbus back plane n alclalcla AAZ SARE Table 5 4 shows pin out of the interconnect of VMEbus P2 to P3 Row b eee 2 GND HDO 3 0 P VME RETRY A24 A25 6 1 RT2 E HD4 A27 ps GND 8 9 1 1 DTRZ E A30 A31 GND 5V VD16 VDIT VDIS VDI9 VD20 VD21 VD22 VD23 GND VD24 VD25 VD26 VD27 VD28 VD29 VD30 5 4 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com Rear Transition Module FTK0 IDEATP NC FRDD DCHG FDD1 Connector
6. and HH MM SS seconds SS The hour is calculated according to the 24 Real Time Clock hour military clock 00 00 00 through 23 59 59 Use TAB or ENTER to move the cursor right and SHIFT TAB to move it left Use the number keys 0 9 to change the field values It is not necessary to enter the seconds or type zeros in front of numbers Sets the real time clock for the month MM day DD and MMIDDI YYYY year YYYY The valid values in this field are 01 01 1981 through 12 31 2099 Use TAB or to ENTER move the cursor right and SHiFT TAB to move it left Use the number keys 0 9 to change the field values It is not necessary to type zeros in front of numbers The CPU information is automatically obtained The system memory information does not describe physical RAM rather it describes the RAM as configured subtracting RAM used for System Management Mode Shadowing Video buffers and other uses This provides realistic values about how much memory is actually available to operating systems and applications The Real Time Clock fields are editable with keystrokes To navigate through the MM DD YY YY and HH MM SS fields use the TAB and BACKTAB keys The hours are normally specified in military time thus 13 means 1pm or one hour after noon whereas 01 means lam or one hour after midnight When the cursor leaves RTC fields they either affect the battery backed RTC right away allowing the system to continue with
7. Round Robin Master Interface Request Level Request Mode Demand Slave cycle byte swapping Byte swap disable Release Mode When Done Master cycle byte swapping Byte swap disable Embedded BIOS 2000 V6 0 5 Copyright 2006 General Software Inc Figure 3 10 System Controller VMEbus Master setup 3 24 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com BIOS Setup Menus Option Description 1 1 O System Resources This read only field displays the status Enabled or Disabled of the XVME 661 system resources This value is automatically detected BERR Timeout This field is used to set the VMEbus error timeout Choices are 16us 32us 64us default 128us 256us 512us 1024us and Disabled Arbitration Mode This field is used to set the VMEbus arbitration mode Choices are Priority Single default or Round Robin Note These fields are only referenced if the board is the system controller If it is not the setup field values are ignored BERR Timeout is set to Disabled 0 and Arbitration Mode is set to Round Robin with an Arbitration timeout value of 0 Disabled 3 25 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com BIOS Setup Menus 3 11 VMEbus Slave Configuration The VMEbus slave setup allows configuration of the XVME processor board s VMEbus slave
8. as the console without testing for the presence of the terminal emulation program Never causes the BIOS to never invoke console redirection but instead always use the main keyboard and video display If there is no keyboard or video display the system operates headless 3 18 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com BIOS Setup Menus 3 8 Firmbase Technology Configuration This menu is highly configurable by the OEM who may elect to eliminate some of the Firmbase Technology tuning parameters in more fixed function devices To illustrate what all of the standard Firmbase Technology configuration parameters are System Configuration Utility Main Exit Boot Post PnP SIO Features Firmbase Misc Firmbase Technology Configuration Enable to provide SMM Support necessary for Firmbase Technology Enabled Legacy USB USB boot Firmbase And some other features Firmbase Features Enabled by Firmbase Technology Legacy USB Enab ed USB Boot Enabled EHCI USB 2 0 Enabled Firmbase Disk I O Disabled Firmbase User Registry Disabled Firmbase User Section Disabled Firmbase Network Stack Disabled Firmbase User Shell Disabled Firmbase Application Suite Disabled Embedded BIOS 2000 v6 0 5 Copyright 2006 General Software Inc N Figure 3 8 Firmbase Technology Configuration The following table pres
9. drives and one 3 5 floppy drive Pin outs for all of the connectors are in this chapter Similarly the IDE1 connector connects one or two standard hard drives The connector IDE1 uses a standard 80 conductor 40pin EIDE cable This cable can not exceed a cable length of 12 5 1 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com Rear Transition Module Connectors This section describes the pin outs for each of the fifth teen connectors on the XVME 990 X IDE1 Connector The P1 connector connects up to two EIDE hard drives Power for the drives is not supplied by the XVME 990 X Table 5 1 XVME 990 IDEI Connector Pin out 6 H GND 5 Hoo AE 9 ra 29 HDACK 12 HD12 32 Caution The IDE controller supports enhanced PIO modes which reduce the cycle times for 16 bit data transfers to the hard drive Check with your drive manual to see if the drive you are using supports these modes The higher the PIO mode the shorter the cycle time As the IDE cable length increases this reduced cycle time can lead to erratic operation As a result it is in your best interest to keep the IDE cable as short as possible The PIO modes can be selected in the BIOS setup The Auto configuration will attempt to classify the connected drive if the drive supports the auto ID command If you experience problems change the Transfer Mode to Standard 5 2
10. 2 Pin out 2 16 Table 3 1 Slave Interface Submenu essere eren nennen 3 27 Table 5 1 XVME 990 IDE Connector Pin OU cece see esse se se ee ee ge ee ge nennen 5 2 vii Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com Introduction Chapter 1 Introduction The XVME 689 690 VMEbus Intel Pentium and Celeron M PC compatible VMEbus processor module combines the high performance and ruggedized packaging of the VMEbus with the broad application software base of the IBM PC AT standard It integrates the latest processor and chipset technology The only difference between the XVME 690 and XVME 689 is the CPU used The XVME 689 is the lowest power draw of any of our processors while maintaining a very high level of processing power Module Features The XVME 689 690 offers the following features Intel Pentium M Processor at 1 8GHz or Celeron M Processor at 1 5GHz are the options for the XVME 690 The XVME 689 is configured with the Celeron M Processor at 1 0GHZ Both processor models can be configured with 256MB to 2GB SDRAM 2Mb on die level 2 cache on Pentium M 1 8GHz running at the speed of the processor and the Celeron M 1 5GB and 1 0GB offer 1MB on die level 2 cache Integrated Video controller using shared system DRAM for VRAM Enhanced IDE controller capable of driving two EIDE devices on P2 Compatible with XVME 977 and XVME 979 Two channels of SATA
11. 9 to VMEbus P2 DB 9 Pin Location Signal Name VMEbus P2 Pin Location 1 DCD2 Row a 12 2 RXD2 Row a 11 3 TXD2 Row a 10 4 DTR2 Row a 9 5 GND Row a 8 6 DSR2 Row a 7 7 RTS2 Row a 6 8 CTS2 Row a 5 9 RI2 Row a 4 VGA Connector The video is BIOS selectable and is available on either the front panel or out the VMEbus P2 The table below shows the pin out of the standard video connector and also the VMEbus P2 pin out for the rear access of video The XVME 990 rear transition module connects to the rear of the VMEbus in the same slot as the XVME 689 690 and allows for standard connections to off board devices The XVME 990 provides a standard SVGA connector for rear access Figure 5 6 Table 5 13 VGA Connector Pin out to VMEbus P2 SVGA VMEbus P2 Pin out RED Row d Pin 20 GREEN Row d Pin 21 BLUE Row d Pin 22 NC 6 GND RowdPimi 5 eno RewdPi3i 5 10 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com Rear Transition Module o ev ViDA NG NC HSYNC Row d Pin 23 VSYNC Row d Pin 24 LDDCCLK Row d Pin 25 LPT 1 The 26 pin header connector brings out the signals for the LPT or printer port The use of a standard 26 pin ribbon cable to 25 pin D Shell will be required to cable to a standard printer Table 5 14 Parallel Port Connector Pin out showing connections to VMEbus P2 and 26 pin header on the XVME 990 P2 VM
12. Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com Rear Transition Module Caution The total cable length for EIDE drives must not exceed 12 inches Also if two drives are connected they must be no more than six inches apart Use the SATA drive interface if longer cabling is reguired Serial ATA hard drive Interface The use of the XVME 990 rear transition module allows for connection to one or two SATA 150 drives Table 5 2 shows pin out of SATA interface VMEbus Signal Name SATA connector SATA Signal Name P2 Pin on P2 on the xvme 990 Fig 5 2 SATA connector Row z H ue GND Satatpina end IE ee Z3 SATA_TXNO SATA1 pin 3 Transmit Li ed GND SATA1 pin 4 GND GND_____ SATA1 pin 7 GND Z7 SATA RXPO SATA1 pin 6 Receive FID ss eS GND SATA2pin1 GND Z11 SATA TXN1 SATA2 pin 3 Transmit Z12 GND SATA2pind GND Zi4 GND SATA2pin7 GND Mating connector to connector on the XVME 990 is Molex 67489 9005 P2 Connector The XVME 990 P2 connector connects directly to the X VME 689 690 P2 connector through the VME chassis backplane If the backplane used is NOT a 5 row 160 pin connector type of back plane the outer rows of signals will not connect to the functions of the XVME 990 and therefore will not be available Table 5 3 X VME 990 P2 Connector Pin out ey IDERSTI GND HD ING
13. Clock IRQ9 Universe IID IRO9 PCI X Video IRQ10 Onboard PMC X IRQ11 PCI Expansion to PMC 1 IRQ11 Ethernet 2 IRQ12 Mouse IRQ13 Math Coprocessor reserved IRQ14 Primary IDE IRQ15 Secondary IDE The above interrupt mapping is one possible scenario The user or operating system may choose a different mapping for some of these interrupts based on what devices are actually in the system and require interrupts If COM2 or LPT1 are not used then these would free up IRQ3 and IRQ7 respectively Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com PCI Device Map Table 4 3 PCI device Map Programming Device ID MFG CF8 DWORD R G INT ABCD AD Line Devic 82546GB Ethernet 1079 8086 Ethernet Controller Function 0 8000 8000 PCI X R G 0 PX_IRQ O AD 20 09H 82546GB Ethernet2 1079 8086 Ethernet Controller Function 1 8000 8000 PCI X R G 0 PX IRO I AD 20 09H PMC XVME 690 PMC X site 8007 8000 PCI R G 1 3012 AD 26 OFH 855GME 6300ESB 3580 8086 3584 8086 3885 8086 Host Hub interface DDR SDRAM I F Legacy control Device 0 Host to AGP Bridge Virtual PCI to PCI Device 1 Intel 855GME GMCH Only Integrated Graphics Controller IGD Device 2 Hub to PCI bridge LPC Interface IDE Con
14. Configuration parameters Figure 3 9 shows the Misc Setup men 3 20 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com BIOS Setup Menus System Configuration Utility Main Exit Boot Post PnP SIO Features Firmbase Cache Control CPU Cache System Cache Keyboard Control Keyboard Numlock LI Disabled Typematic Rate 30 sec Typematic Delay 250ms Miscellaneous BIOS Configuration Lowercase Hex Displays Disabled Embedded BIOS 2000 V6 0 5 Copyright 2006 General Software Inc Figure 3 9 Misc Setup Menu The following table presents the settings in the Misc Setup menu System Cache Enables POST s support for cache in the system Modern processors virtually require cache to be enabled to achieve acceptable performance However to diagnose certain problems related to caching in the system such as multiprocessing systems it may be desirable to disable this setting Keyboard Numlock LED Enables the Numlock key when POST initializes the PS 2 keyboard Typematic Rate Specify the rate at which the PS 2 keyboard controller repeats characters when most keys are pressed down USB typematic is automatic and does not use this parameter Typematic Delay Specifies the amount of time a repeating key may be pressed on a PS 2 keyboard until the key repeat feature begins repeating the keystroke USB typematic is automatic and does not
15. KB in size For more information on the XVME 990 refer to Chapter 5 1 3 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com Introduction Caution The IDE controller supports enhanced PIO modes which reduce the cycle times for 16 bit data transfers to the hard drive Check with your drive manual to see if the drive you are using supports these modes The higher the PIO mode the shorter the cycle time As the IDE cable length increases this reduced cycle time can lead to erratic operation As a result it is in your best interest to keep the IDE cable as short as possible The PIO modes can be selected in the BIOS setup see p Error Bookmark not defined The Auto configuration will attempt to classify the connected drive if the drive supports the auto ID command If you experience problems change the Transfer Mode to Standard Caution The total cable length must not exceed 18 inches Also if two drives are connected they must be no more than six inches apart See SATA below for longer cable lengths Serial ATA Hard Drive The XVME 689 690 features two 2 SATA 150 drive interfaces out the rear P2 VMEbus connector The use of the optional rear transition module XVME 990 allows for the connection of two drives using standard SATA cables If your application requires the external drives to be mounted in a location that requires a long cable run the SATA drives are bet
16. OS Enable PnP feature When disabled a PnP aware OS will not find any PnP services in the BIOS and all other configuration parameters in the menu will be greyed out Enable to support legacy OSes like DOS Windows95 Windows98 and WindowsNT Disable for operating systems like WindowsXP or Windows Vista or for Linux operating systems with ACPI support Enable delay of configuration of PnP hardware and option ROMs When enabled BIOS will NOT configure the devices and instead defer assignment of resources such as DMA I O memory and IRQs to the PnP OS When disabled the BIOS performs conflict detection and resolution and assigns resources for the OS Disable this parameter when running non PnP OSes like DOS Enable this parameter when running PnP OSes like Windows95 Windows98 and WindowsNT IRQO Enable exclusive use of IRQO by PnP IRQI Enable exclusive use of IRQ1 by PnP IRQ2 Enable exclusive use of IRQ2 by PnP IRQ3 Enable exclusive use of IRQ3 by PnP IRQ4 Enable exclusive use of IRQ4 by PnP IRQ5 Enable exclusive use of IRQ5 by PnP IRQ6 Enable exclusive use of IRQ6 by PnP IRQ7 Enable exclusive use of IRQ7 by PnP IRQS Enable exclusive use of IRQ8 by PnP IRQ9 Enable exclusive use of IRQ9 by PnP IRQ10 Enable exclusive use of IRQ10 by PnP IRQ11 Enable exclusive use of IRQ11 by PnP IRQ12 Enable exclusive use of IRQ12 by PnP IRQ13 Enable exclusive use of IRQ13 by
17. SEINES RE N RE EE EE N 2 3 NESER EE RE AE AE EE AE EE EE RR OE IN 2 3 Eront Panel Layout AE OE RE EE OE eN 2 5 COMMECLONS RA OE EE EE EA N NE N OE 2 6 COM 1 and COMS J4 Pin Definitions ee ee ee Re AA GR AA Ge AA Ge ee ee RA EEEE E NEE ee ee ee 2 10 Figure 2 11 RJ 45 Serial Port Connector eese ee Se ee Se Se de Se Ee ke Ede Ge ee ee ee ee Ge ee 2 10 Some pins in columns Z and D are use internally as test points these are denoted by italics These pins are not intended to drive any external devices and MUST not be used for any purpose VMEbus P2 Connector oi ade bed Hh RR Ee E E ee Eo e SY Eee Ee N ge N END RA EE ER 2 12 VMEbus AG nero E EE NE GR EE OE EE OE 2 13 Table 2 17 VMEbus P2 Conhfector eri ten ES Se ee seed see ke Ee bee see dade ATE Noag Had dba ebd ewe dee AE 2 13 Installing the XVME 689 690 into a Backplane eese 2 17 Enabling the PCI Ethernet Controller seen 2 19 Chapter 3 BIOS Setup Menus pP 3 1 SS Maan Setup Gr EE EE EE 3 2 332 o dn RE EE EE RE RE N EE 3 4 3 3 System Boot Menu occisi eie rrt ab RE OE EN 3 5 34 POST Memory Tests C Se ee 3 9 3 5 Plug and Play Configuration MENU iese se see ee ee Ge Ge Ge GRA RA Ge AR ee ee ee ee Ge Ge 3 12 3 6 BIOS Super I O Configuration MENU ese see se ee ee Ge Ge GRA RA GR Ge ee ee ee ee Ge Ge 3 15 3 7 BIOS Super I O Configuration MENU esse esse es se
18. Translation Offset register is offset by 384K which is equivalent to the A0000h FFFFFh range on the XVME 690 board Example VMEbus Slave Image 1 BS A0000h BD 400000h TO 060000h This rather awkward mapping defined by the PC AT architecture can also be over come if the VMEbus Slave Image window is always configured with a 1Mbyte Translation Offset From a user and software standpoint this is always more desirable because the interrupt vector table system parameters and communication buffers keyboard are placed in low DRAM This provides for more system protection Caution When setting up slave images the address and other parameters should be set first Then only after the VMEbus slave image is set up correctly should the VMEbus slave image be enabled If a slave image is going to be remapped disable the slave image first then reset the address After the image is configured correctly enable the image again The VMEbus slave cycle becomes a master cycle on the PCI bus The PCI bus arbiter is the 6300ESB chip It arbitrates between the various PCI masters the Pentium and the Local bus IDE bus mastering controller Because the VMEbus can not be retried all VMEbus slave cycles must be allowed to be processed This becomes a problem when a Pentium cycle to the PCI slave image is in progress while a VMEbus slave cycle to the onboard DRAM is in progress The Pentium cycle will not give up the PCI bus and the VMEbus slave cycle will not give up
19. VO 26 14 PMC VO 27 d8 PMC VO 28 15 PMC I O 29 49 PMC O 30 16 PMC VO 31 50 PMC I O 32 17 PMC I O 33 51 PMC O 34 18 52 PMC I O 19 GND using jumper 53 GND using jumper 20 PMC I O 35 54 PMC O 36 5 8 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com Rear Transition Module 21 PMC I O 37 55 PMC VO 38 22 PMC I O 39 56 PMC VO 40 23 PMC VO 41 57 PMC VO 42 24 PMC I O 43 58 PMC VO 44 25 PMC I O 45 59 PMC I O 46 26 PMC I O 47 60 PMC VO 48 27 PMC I O 49 61 PMC I O 50 28 PMC VO 51 62 PMC I O 52 29 PMC I O 53 63 PMC I O 54 30 PMC I O 55 64 PMC I O 56 31 PMC I O 57 65 PMC VO 58 32 PMC VO 59 66 PMC I O 60 33 PMC VO 61 67 PMC O 62 34 PMC I O 63 68 PMC I O 64 Ethernet RJ 45 Two Gigabyte Ethernet ports are available on the XVME 990 If the VMEbus has Vita 31 1 Capability the rear Ethernet ports can not be used they will conflict with the VMEbus switch fabric connections on the back plane Fig 5 4 RJ 45 Connector 5 2 Table 5 11 RJ 45 10 100 1000 BaseT Connector Pin out RX GND GND RX GND GND 5 9 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com Rear Transition Module COM 2 Communications port 2 is a RS 232 serial communication port using a standard DB 9 connector Figure 5 5 Com 2 DB 9 Table 5 12 Showing pin out of DB
20. be able to access the features of the VMEbus To solve this problem XycomVME has developed extensive Board Support Packages BSPs that simplify the integration of VMEbus data into PC software applications XycomVME s BSPs provide users with an efficient high level interface between their applications and the VMEbus to PCI bridge device Board Support Packages are available for MS DOS Windows NT Windows 2000 Windows XP Windows XP Embedded Linux VxWorks and QNX 1 6 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com Introduction Operational Description Pentium M CAR ITP Voltage amp Celeron M clock FLEX700 Regulator mPGA478 IE 1 1GHz to 1 8 GHz 400 MHz FSS Front panel WGA Connector a ER Video Analog VGA BEEGME DDR 256 333 ek n RAM MUX pin S GMCH 256 512M5 1 2GB WGA p2 Hublink 1 5 1 Binch IDE PCI X bus Hard Drive EE TE PMC PAC Compact Flash a l FZ Mezzanine itar Cand Site Deze P2 IDE M 6300ESB 825456GB HO CO Ta 1220 1020 VO Cantraller Hub SaeeT Ednemet SATAI 2 RN VMEbus Pl SATA PZ Gbit LAN WITAS14 Swriches amp User O us es 80 pin PCI E Expansion ACO CODEC Pz WH Universe ID Flash eu ee PCI to VME silos LPC Bus interface CH3114 FPGA Super IO Byte Swapping VMEbus buffers igi cond AMI E VMEbus F1 and P2 COM Front Panel FesetAbort Frart Panel Fa P2 LEDE witch Front Pa
21. capable of RS 232 and RS 422 485 configurations The Parallel port can be configured for ECP or EPP parallel port This is done in the SMC SCH3114 LPC Super I O and programmed via the BIOS Com ports 1 and 3 are RJ 45 s on the front panel and Com2 is available out the P2 VMEbus connector and requires the use of the XVME990 which provides a standard DB 9 connection Keyboard Mouse Interface A combined keyboard and mouse port PS 2 connector is provided on the front panel A PS 2 splitter cable part number 140232 provided with the module may be used to separate the two ports so that both devices may be simultaneously connected to the module IF a mouse is not required a keyboard can be connected directly to the PS 2 port The keyboard and mouse are controlled in the SMC SCH3114 LPC Super I O PMC Expansion The XVME 689 690 provides an on board PMC site for use with standard 32 64 bit 33 66MHz PMC and PMC X modules The PMC site is serviced by the on board PCI X bus For electrical isolation the PMC front panel bezel is not connected to the main CPU ground PCI X or PCI extended is an enhanced version of PCI Peripheral Component Interconnect computer bus Although PCI X is backward compatible with traditional PCI devices and systems this specification implements additional features and performance improvements include 3 3V signaling increased speed grades and adaptation to other form factors PCI X effectively doubles the speed and amount of
22. data exchanged between the computer processor and peripherals PCI X bus was designed for and is ideally suited for server cards such as FPGA DSP Fibre Channel RAID high speed networking and other demanding devices If a standard PCI PMC card is fitted on the XVME 689 690 PMC site the on board PCI X bus reverts to the PCI bus speed Additional PMC Expansion Options The XVME 689 690 supports optional PMC PCI Mezzanine Card expansion using XVME 976 209 expansion module The XVME 976 209 provides two PCI Mezzanine Card PMC sites The XVME 976 209 module is designed to plug directly into the X VME 689 690 using the 80 pin expansion board connector Another XVME 976 209 can be used to extend the XVME 689 690 and first XVME 976 209 to five PMC card sites Watchdog Timer The XVME 689 690 has a long duration watchdog timer which can count from 1 to 255 seconds or from 1 to 255 minutes The BIOS supports various system events which can be routed to the watchdog timer The 1 5 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com Introduction timer when enabled can generate either an interrupt or a master reset depending on how the watchdog timer is configured Note The timeout range is from 1 0 second to 2 25 seconds it will typically be 1 6 seconds Software Support The XVME 689 690 is fully PC compatible and will run off the shelf PC software but most packages will not
23. if PXE is not supported Because of the state of these option ROMs the setting is provided as an option to the user SMBUS API Enable INT 15h services that permit certain software to access devices on the system s SMBUS without having knowledge of the SMBUS controller itself Such devices include TV radio tuners volume controls brightness and contrast controls etc SMBIOS Enable System Management BIOS interface specification support exposing information about the type of hardware including the chassis motherboard layout type of CPU and DRAM sticks to applications such as WfM which runs on PXE in the preboot environment Manufacturing Mode Enable automatic entry into manufacturing mode when POST encounters a critical error Used in closed device settings such as smart phones that need access to docking stations when they don t boot Splash Screen Enable graphical POST including animation sound icons advertisements and other multimedia objects that may be configured by the OEM Console Redirection Configure the console redirection feature over a serial port Automatic causes POST the debugger and the preboot environment to use the system s first serial port COMI when an RS232 cable is detected with DSR and CTS modem signals active indicating a terminal emulation program is likely to be attached ot the other end of the cable Always causes the BIOS to always use the serial port
24. is not user configurable in the BIOS setup See p 4 5 for a discussion of translation addresses 3 27 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com BIOS Setup Menus 3 12 Front Panel resources control Use this menu to select front panel or rear transition module I O for the Video and the two Ethernet ports System Configuration Utility Features Misc VME Master VME Slave FrontPanelConfig Front Panel Config Video routed to front VGA Port or rear Overridded by JP8 on Video Routed to Front or Rear Front Board Default front LAN Port A Routed to Front or Rear Front LAN Port B Routed to Front or Rear Front Embedded BIOS 2000 V6 0 5 Copyright 2006 General Software Inc 3 28 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com Programming Chapter 4 Programming Memory Map The preliminary memory map of the XVME 689 690 as seen by the CPU is shown below The I O designation refers to memory which is viewed as part of the AT bus or as part of VMEbus depending on how the Universe is programmed XVME 689 690 MEMORY MAP Table 4 1 Memory Map ADDRESS RANGE HEX SIZE DEVICE FFFCO0000 FFFFFFFF 256K SYSTEM BIOS end of DRAM FFFBFFFF OOK VO MEMORY 00100000 end of DRAM OOK DRAM 000F0000 000FFFFF 64K SYSTEM BIOS 000E0000 OOOEFFFF 64K S
25. menu to the left of the currently displayed menu in the menu bar RIGHT key Go forward to the menu to the right of the currently displayed menu in the menu bar PGUP Key Move the cursor up several lines a full window s worth scrolling the window as necessary PGDN key Move the cursor down several lines a full window s worth scrolling the window as necessary HOME key Move the cursor to the first configurable field in the current menu scrolling the window as necessary END key Move the cursor to the last configurable field in the current menu scrolling the window as necessary ESC key Exit the Setup system discarding all changes except date time changes which take place on the fly TAB key Move the cursor down to the next configurable field Shift TAB key backtab Move the cursor up to the last configurable field key Toggle an Enable Disable field or increase a numeric field s value key Toggle an Enable Disable field or decrease a numeric field s value SPACE key Toggle an Enable Disable field BKSP key Reset an Enable Disable or multiple choice field or back up in numeric or string fields Digits 0 9 Used to enter numeric parameters Alphabetic A Z a z Used to enter text data on ASCII fields such as email addresses Special symbols amp _ etc Used to enter special text on ASCII fields that permit these characters The basic idea when using the Setu
26. shown the P3 connector supplies Vi o 5v VCC 5V and GND through the center pins Notes 1 PCICLK2 and PCICLK3 are not supplied by the XVME 690 These clocks were needed for on board PCI devices and were not used by any currently supported daughtercards 2 6 8 2 14 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com Installation and Setup PMC Host Connectors PMC Host Connector 1 Table 2 19 XVME 690 Daughterboard PMC Host Connector 1 Pin out INTA 4 O 12V GND 5V 19 VO Pin 6 7 8 9 00 o 8 MET 15 16 7 10 11 12 13 14 15 16 7 1 Oo 32 AD 17 G DEVSEL 9 GND PLOCK P FRAME IRDY Bin 37 DEVSEL ND V 3 GND PLOCK A 6 Ant 64 REQ64 2 15 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com Installation and Setup PMC Host Connector 2 Table 2 202 XVME 690 PMC Host Connector 2 Pin out Pin Signal Pin Signa 1 12V 33 GND 35 3 TMS TRDY e eo se sre 8 PCI RSVD9A 40 GND 9 rers a 33v AD 16 RES NO CPU Fan Power Connector The fan 12 V and 5 V supplies are protected with a polyswitch This device will open up if 12 V or 5 V is shorted to GND Once the shorting condition is removed the polyswitch will allow current
27. use this parameter Lowercase Hex Displays Enables the display of hexadecimal numbers in the debugger with lowercase letters instead of 3 21 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com BIOS Setup Menus uppercase letters ie 2f8ah instead of 2F8AH Proprietary Stimulation Enables System Monitor s callout to the OEM s BPM adaptation code to execute code that causes stimulation of the SMM environment for measurement purposes Hard Disk Read Stimulation Enables System Monitor s read of a preconfigured number of sectors from a location on the first hard disk in the system in order to stimulate the SMM environment This is useful when measuring code path lengths in USB boot when the first hard drive is configured in the BBS list as a USB hard drive Hard Disk Write Stimulation Enables System Monitor s write of a preconfigured number of sectors to a location on the first hard disk in the system in order to stimulate the SMM environment This is useful when measuring code path lengths in USB boot when the first hard drive is configured in the BBS list as a USB hard drive Please note that when this parameter is selected the system automatically enables reading so that the stimulation of the system includes reading a range of sectors into a memory buffer and writing the same data back to the same range of sectors for safety Thus thi
28. 0 Use TAB to switch between Point OEM Versions 53 Month day and year and OEM Board Version 3 Hour Minute and Second BIOS Build Date MM DD YYYY Use digits and BKSP System BIOS Size 128KB To change field CPM CSPM BPM Modules P7C7 855 X690 Processor CPU Intel Pentium M Processor 1 80GHz System Memory RAM Low Memory KB 628 Extended Memory KB 1035136 Real Time Clock RTC RTC Date MM DD YYYY RTC Time HH MM SS Embedded BIOS 2000 V6 0 5 Copyright 2006 General Software Inc N Figure 3 1 Main Setup Menu Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com BIOS Setup Menus BIOS Version Indicates the major and minor core architecture versions 6 x where x is a number from 0 to 999 BIOS Build Date Date in MM DD Y format on which the OEM built the system BIOS binary file System BIOS Size Size of BIOS exposed in low memory below the 1MB boundary Commonly 128K B would mean that the BIOS is visible in the address space from E000 0000 to F000 FFFF CPM CSPM BPM Modules Indicates the names of the key architectural modules used to create the system BIOS binary file The CPM module provides the CPU family support the CSPM module provides the northbridge support and the BPM module provides the board level support Option Description Real Time Clock Sets the real time clock for hour HH minute MM
29. 1 Table 2 3 Abort CMOS Clear Register Settings Sam Re RW RESERVED Reed RESERVED Reewed RESERVED Reseved 3 RESERVED Reewd ABORT STS 1 Abort toggle switch caused interrupt OR ABORT CLR 0 Clear and disable abort R W 1 Enable abort RESERVED Reseved CLRCMOS 0 Clear CMOS 1 CMOS okay 2 3 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com Bit LED Signal Result Installation and Setup Register 219h Flash Control Register This register controls the following LEDs and signals Table 2 4 LED BIOS Register Settings 0 7 Fault LED on 1 Fault LED off 0 PASS LED off 1 PASS LED on RESERVED R W p EE Er 7 RESERVED Reeva O To Register 233h Watchdog Timer Register This register controls watchdog timer operation Table 2 5 Watchdog Timer Register Settings Bit Som Rest o i MRESET EN 1 Timeout generates 0 Timeout generates IRQ10 WDOG_STS Watchdog timer status bit WDOG_CLR Toggling this bit clears the watchdog timer back to a zero count Note Before enabling the watchdog timer for the first time it is necessary to reset the count back to zero by toggling bit 7 WDOG CLR Toggling implies changing the state of bit 0 to 1 or 1 to 0 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOU
30. 15 11 INTRQ 1 DEVADR 2 11 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com Installation and Setup VMEbus Connectors VMEbus P1 Connector Table 2 16 P1 Connector Pin out LA B c D Do BBSY DO v DOT BOR Doo GND Doe GND SYSCLK GND MCLK 1 2 3 4 7 9 0 4 2 3 MMD GND SYSCLK MMD 1 1 1 1 12 GND Ds BR SVYSRESET 13 SDBi4 dso BR LWORD5 GAZ 14 GND WRITE BRZ ams y 16 GND DTACK AMO A2 i 18 GND as am AO J 20 GND tacky GND Aa 22 GND lACKOUT ne me 24 eno A7 trav AM 26 enpo Ao Ra Aa 28 GND A03 IRQ3 A10 29 RSVBUS10 A02 IRQ2 A09 LI O 30 GND A01 IRQ1 A08 31 RSVBUS11 12V NC 12V GND 5V Some pins in columns Z and D are use internally as test points these are denoted by italics These pins are not intended to drive any external devices and MUST not be used for any purpose 2 12 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com Installation and Setup VMEbus P2 Connector Was 5V Was 5V 4 GND RI2 A24 HD2 PPACK CTS2 6 GND RTg DSR2 8 GND GND 9 SATA TXP1 DTR2 TXD2 RXD2 DCD2 AUD LINE IN L AUD LINE IN R AUD GND AUD LINE OUT L AUD LIN
31. 150 out P2 Use the XVME 990 to provide the connectors needed to connect external SATA drives Floppy disk controller capable of driving one floppy drive on P2 Compatible with XVME 977 Dual 10 100 1000 Base T Ethernet controllers with front panel RJ 45 connectors with isolated ground or selectable out the PO to support rear Ethernet or Vita 31 1 Type VII Compact Flash site on optional carrier VME64X VMEbus interface with programmable hardware byte swapping Support for Vita 31 1 Switch Fabric in complaint back planes Three serial ports e Two RS 232 serial port on front panel Com 1 and 3 with electrical isolation Com port 1 and 3 can be configured for RS 232 422 485 e One RS 222 serial port Com 2 on P2 Com port 2 is RS 232 only Three Universal Serial Bus USB 2 0 port one on front the other two out P2 EPP ECP configurable parallel port P2 on 26 pin header on the XVME 990 Combined PS 2 compatible keyboard mouse port on front panel PCI 80 pin Expansion Connectors NOT Compatible with XVME 976 01 thru XMVE 976 205 Carriers must use the X V ME 976 209 PMC PCI Mezzanine Card site with front panel I O 32 64 bit 33 66MHz with rear I O using optional PO connector This site is on the internal PCI X bus Front panel ABORT RESET switch with indicating lights Red for fail and green for pass Electrical isolation and noise immunity on the Ethernet ports Serial Port and PMC site Ejector type handles in IEEE 1101 10 Com
32. 24 or VMEbus Extended A32 address space The default is VMEbus Extended Determines the amount of dual access memory that is available to external VMEbus masters The slave memory size cannot be more than the total memory size or greater than 16 MB for VMEbus Standard Address Space The choices are 1MB default 2MB 4MB 8MB 16MB and 32MB unavailable for VMEbus Standard Address Space These fields determine the base VMEbus address prefix for the first 12 bits of the address to which the VMEbus slave interface will respond The three fields are the high H middle M and low L nibbles of these 12 bits The address is HMLOOOOOh In the default screen configuration H is A M is A and L is 4 so the address is AA400000h The values change depending on the Size and Address Space field values When the Address Space value is VMEbus Standard the dual access memory must be located on a 1 MB boundary and the upper two nibbles are ignored so the high and medium nibbles are changed to 0 and are made read only When the Address Space value is VMEbus Extended the slave address must be a multiple of the slave memory size When the Size is greater than 1 MB the low nibble is truncated to an even value Note The address that is set with these fields is the address that is used by the VMEbus processors The PC AT processor on the XVME 690 will see a translated address This translation and the amount of translation is calculated by the BIOS and
33. 485RXD s a RS 232 JP62 RS 422 RS 485 Y denotes default gt j r rj r P UJ JP60 OP a aw Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com Installation and Setup Switch Settings The XVME 689 690 has one four pole switch SW1 shown in Figure 2 2 The switches functions are explained in table 2 2 This switch controls the system response to the front panel Abort switch Figure 2 2 shows the switch settings reguired to reset on the XVME 689 690 CPU to reset only the VME backplane or to reset both The XVME 689 690 is shipped with all four switches in the closed position which causes the push button reset switch to reset both the X VME 689 690 and the VME backplane 4 32 Figure 2 2 SW1 XVME 689 690 has a 4 position DIP switch to control the following functions Table 2 2 Four Pole Switch SW1 Functions Position Open Closed 1 Do not respond to SYSRESET Respond to SYSRESET 2 Toggle switch does not cause SYSRESET Toggle switch causes SYSRESET 3 SYSFAIL asserted on Power Up SYSFAIL not asserted on Power 4 No local reset Toggle switch causes local reset Registers The XVME 689 690 modules contain the following XycomVME defined VO registers 218h 219h 233h and 234h Register 218h Abort CMOS Clear Register This register controls the abort toggle switch and allows you to read the CMOS clear jumper main board J2
34. A horizontal ZIF connector is used on the board Samtec part number ZF5 40 01 TM WT The connector on the board has a reverse pin out because of the connector orientation relative to the hard drive This allows the flex cable to loop up to the hard drive with the connector side facing the board Table 2 14 On Board storage devices us the J17 1 8inch Hard Drive Connector pin assignment Pin Description Pin Description Pin Description Pin Description 1 factory use 11 DD4 21 GROUND 31 DA1 2 factory use 12 DD11 22 DMARQ 32 PDIAG 3 RESET 13 DD3 23 GROUND 33 DAO 4 GROUND 14 DD12 24 DIOW 34 DA2 5 DD7 15 DD2 25 DIOR 35 CS0 6 DD8 16 DD13 26 GROUND 36 CS1 7 DD6 17 DD1 27 IORDY 37 DASP 8 DD9 18 DD14 28 GROUND 38 3 3V 9 DD5 19 DDO 29 DMACK 39 3 3V 10 DD10 20 DD15 30 INTRQ 40 DEVADR The Hitachi CAK60 CE has a 40 pin ZIF connector Table 2 15 1 8inch Hard Drive Connector pin assignment on hard drive Pin Description Pin Description Pin Description Pin Description 40 factory use 30 DD4 20 GROUND 10 DA1 39 factory use 29 DD11 19 DMARQ 9 PDIAG 38 RESET 28 DD3 18 GROUND 8 DAO 37 GROUND 27 DD12 17 DIOW 7 DA2 36 DD7 26 DD2 16 DIOR 6 CS0 35 DD8 25 DD13 15 GROUND 5 CS1 34 DD6 24 DD1 14 IORDY 4 DASP 33 DD9 23 DD14 13 GROUND 3 3 3V 32 DD5 22 DDO 12 DMACK 2 3 3V 31 DD10 21 DD
35. ATUS ID associated with each level The upper bits are programmed in the STATUS ID register The lowest bit is cleared if the source of the interrupt is a software Interrupt and set for all other interrupt sources Consult the Universe Users Manual for a more in depth explanation VMEbus Reset Options When the front panel Reset switch is toggled the XVME 689 690 can perform the following reset options 1 Reset the VME backplane only 2 Resetthe XVME 689 690 CPU only 3 Reset both 4 Reset neither See Switch Settings in section 3 of this manual for information on how to configure SW1 for the Reset options Software Selectable Byte Swapping Hardware The VMEbus can be used to communicate to either Intel based modules or a Motorola based modules these two companies have created data transaction that use different byte ordering in their data storage A hardware approach to swapping these byte orders is a faster solution when compared to a software only byte swapping method Software selectable byte swapping hardware is integrated into the XVME 689 690 to allow for the difference between the Intel and Motorola byte ordering schemes allowing easy communication over the VMEbus The byte swapping package incorporates several buffers either to pass data straight through or to swap the data bytes as they are passed through Note The configurable byte swapping hardware does not support 64 bit byte swapping If needed this should be
36. Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com Installation and Setup VGA Connector P9 The video is BIOS selectable and is available on either the front panel on a standard SVGA connector or out the VMEbus P2 The table below shows the pin out of the standard video connector and also the VMEbus P2 pin out for the rear access of video The XVME 990 rear transition module connects to the rear of the VMEbus in the same slot as the XVME 689 690 and allows for standard connections to off board devices The XVME 990 provides a standard SVGA connector for rear access Figure 2 9 SVGA Connector Table 2 9 VGA Connector Pin out SVGA VMEbus P2 Pin out RED NC 6 eno RewdPi3i 5 eno RewdPi3i 25MIL VIDA NC LDDCDAT Row d Pin 26 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com Installation and Setup USB Port Connector J5 USB provides an expandable hot pluggable Plug and Play serial interface that ensures a standard low cost connection for peripheral devices Devices suitable for USB range from simple input devices such as keyboards mice and joysticks to advanced devices such as printers scanners storage devices modems and video conferencing cameras USB 2 0 has a raw data rate at 480Mbps and it is rated 40 times faster than its predecessor interface USB 1 1 which tops at 12Mbps USB port 1 is
37. CPI has largely replaced this feature however it is necessary for platforms to support older operating systems Figure 3 5 shows the PnP Setup menu 3 12 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com BIOS Setup Menus System Configuration Utility Main Exit Boot Post PnP SIO Features Firmbase Misc Plug n Play PnP Configuration Enable Plug n Play 1 0A specification Plug n Play Support Plug n Play OS ROs Reserved for Plug n Play RO RO RO RO RO RO RO RO RO RO RO 1 RO 1 RO 1 LO OANA OF WBN F CO I I I I I T I I I I I I T I T 5 w o gt a 10 sl olv Fo H Pel 10 Disabl Disabl num H po O O1 0 0 orm mer Oo 5 H Q Mar MA Channels Reserved for Plug n Play MA 0 Disabl Figure 3 5 Plug n Play Configuration Menu 3 13 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com BIOS Setup Menus The PnP menu consists of two sections basic configuration that enables Plug n Play and identifies if a PnP should perform configuration or let the OS do it and then another section that defines which system IRQs should be reserved for PnP s use so that PCI doesn t use them The following table presents the fields in the PnP menu Plug n Play Plug n Play
38. CPU configurations Ordering CPU Type Number XVME 689 1XY Intel Celeron M 1 0GHz XVME 690 5XY Intel Celeron M 1 5GHz XVME 690 8XY Intel Pentium M 1 8GHz Handle and PO configurations Memory configurations Y 1 VME 64 IEEE 1101 1 Std legacy handles w o X 1 for 256 MB ECC DRR SDRAM VMEbus PO Y 2 VME 64 IEEE 1101 10 Compact PCI type handles X 2 for 512 MB ECC DRR SDRAM w o VMEbus PO Y 2 3 VME 64 IEEE 1101 1 Std legacy handles with the X 3 for 1 GB ECC DRR SDRAM VMEbus PO Y 4 VME 64 IEEE 1101 10 Compact PCI type handles X 4 for 2 GB ECC DRR SDRAM With the VMEbus PO Note Some features on the XVME 689 690 are only available in a 160 pin 5 Row VMEbus P2 backplane The ordering number is broken into two parts The model number is the 689 or 690 The tab number is the three digits after the slash For the XVME 689 or XVME 690 the tab number indicates the CPU type amount of SDRAM memory the middle digit and the ejector handle type and optional PO connector These options are explained more fully in 0 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com Introduction There are also several expansion module options for the XVME 690 Table 1 3 XVME 689 69 Expansion Module Options Ordering Number Description XVME 990 1 Drive Adapter Module for external drives cables out back of VME backplane Pr
39. Chapter 5 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com Installation and Setup Chapter 2 Installation and Setup Board Layout This chapter provides information on configuring the XVME 689 690 modules It also provides information on installing the XVME 689 690 into a backplane and enabling the Ethernet controller BBA BUITE AEVAELT Fig 2 1 shows the jumper switch and connector locations on the XVME 689 690 2 1 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com Installation and Setup Jumper Settings The following table Lists XVME689 690 jumpers their default positions and their functions Table 2 1 XVME 689 690 Jumper Settings ELE NNNM XVME 690 cannot generate SYSFAIL N XVME 690 generates SYSFAIL normally Disables system resources no auto SYSCON y Enables system resources auto SYSCON N XVME 690 can reset VMEbus XVME 690 cannot reset VMEbus N Normal Clear CMOS y Boot from FLASH Boot from ROM Orb ground not connected to logic ground y Orb ground connected to logic ground Normal Video out Front Panel VGA Video re routed to P2 connector no ien out front panel SIO COM RXD1 RXD1 SIO COM RXD1 RXD422 SIO COM RXD1 RXD485 DCD1 485TXD SRD1 485TXD STD1 485RXD DTR1
40. E OUT R PDIAG 1 GND FRWC IDX MOO HDRQO FDSO HDAKO FDIRC FSTEP FWD FWE FTKO IDEATP NC FWP FRDD Table 2 17 VMEbus P2 Connector Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com 2 13 Installation and Setup 80pin PCI connector P3 The P3 high speed micro strip connector has all the PCI signals along with 2 separate PCI clocks and the 2 request and grants predefined The CPU board and the Interface boards will be keyed for either 3 3V or 5V signaling The keying mechanism is based on standoffs At this point all CPU boards will be 5V PCI signaling The V IO pins on the connector are used to define the signaling level to the other PCI boards This connector is used to attach the XVME 976 209 dual PMC carrier The XVME 976 209 can support one additional carrier module stacked to create a three slot set of boards that can support five PMC cards Table 2 18 PCI bus interconnect for optional carrier module P3 Pin Number P3 Pin Number Name AD 23 2 4 6 5 5 NC 52 NC NC 54 NC PCLKS3 note 1 5 PIRQ 56 PIROB PlIRQC CdS PIROD 5 2 4 68 i i REQO 69 0 0 0 0 REQ2 AD 31 AD 30 AD 29 AD 28 7 NG Ba j NC 1 1 53 DEVSE O ING 0 1 0 54 j 56 i i 60 0 0 i 66 0 1 ACK64 P U GNT7 80 REQGA PU Although not
41. Ebus 26 Pin P2 VMEbus 26 Pin Connector header Connector header DOS pa 2 Poumo 5 PERROR Di4 pie e eooura os is Nb ps s Pue os 2 N po 9 Pur o 2 CN Do4 DOS me a Be o s oo Do 26 NC Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com 5 11 Rear Transition Module Audio Input and Output The audio connects on the rear transition module are line level inputs and outputs To drive a speaker an amplifier will be needed Table 5 15 Showing VMEbus P2 to Audio plugs Row a AUD LINE IN L AUD LINE IN R 16 17 AUD GND 16 AUD LINE OUT L 17 AUD LINE OUER 5 12 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com 0 Appendix A SDRAM and Battery Installation Appendix A SDRAM and Battery Installation Memory Type The XVME 689 690 has one 200 pin DDR333 SDRAM memory module SODIMM site in which memory is inserted The XVME 689 690 supports 256MB 512MB 1MB and 2MB of PC2700 SDRAM Table A 1 lists the SODIMM configurations Table A 1 SDRAM SODIMM Configurations XycomVME Part Number Device Type and Size Vendor Vendor part number 200193 SODIMM 256MB DDR333 Micron Virtium MT9VDDT3272HY 335F2 VL485L3223C B3 200194 SODIMM 512MB DDR333 Micron MT9VDDT6472HY 335F2 Virt
42. F8 CF9 CFC Programming N A N A N A Secondary IDE Controller Generates CS1 Primary IDE Controller Generates CS1 XycomVME LED control register Byte Swap port Available Parallel Port 2 note 1 Available Serial Port 2 note 1 Available Secondary IDE Controller Generates CS3 Parallel Port 1 note 1 Available VGA EGA2 note 2 Available Primary Floppy disk controller Primary IDE Controller Generates CS3 Serial port 1 note 1 Industry Pack IP I O Industry Pack IP ID ELCR1 Edge or level triggered ELCR2 Edge or level triggered PCI configuration address register note 4 Reset Control Register PCI configuration data register note 4 Note 1 The serial and parallel port addresses may be changed or the port may be disabled Therefore these address maybe used for some applications and not for others Note 2 Reference the Intel 855GME datasheet for detailed information Note 3 Reference the Intel 6300ESB datasheet for detailed information Note 4 Reference The PCI local bus specification rev 2 3 6300ESB datasheet for PCI configuration information Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com Programming IRQ Map Table 4 2 IRQ Map INT Function IRQO System Timer IRQ1 Keyboard IRQ2 Interrupt Cascade reserved IRQ3 COM2 IRQ4 COM1 IRQ5 Ethernet 1 IRQ5 PCI Expansion to PMC 2 IRQ6 Floppy IRQ7 Parallel Port LPT1 IRQ8 Real Time
43. PnP IRQ14 Enable exclusive use of IRQ14 by PnP IRQ15 Enable exclusive use of IRQ15 by PnP 3 14 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com BIOS Setup Menus 3 6 BIOS Super VO Configuration Menu The SIO menu is used to configure Super I O components on the XVME 690 689 These components commonly are serial and parallel port controllers to floppy disk and keyboard controllers The I O DMA and IRQ assignments of each peripheral are configurable so these values are also brought out to the SIO Setup menu Figure 3 6 shows the SIO Setup menu for the XVME 690 689 System Configuration Utility Main Exit Boot Post BIOS Super I O Configuration SCH3114 Devices Parallel Port Address IRQ DMA Mode Serial Port 1 Address IRQ Serial Port 2 Address IRQ Serial Port 3 Address IRQ Embedded BIOS 2000 V6 0 5 Copyright 2006 General Software Inc Enabled 378h IRQ 7 Channel 4 Printer Enabled 3f8h IRQ 4 Enabled 2f8h IRO 3 Enabled 3e8h IR 3 Features Firmbase Figure 3 6 BIOS Super VO Configuration Menu The following table provides the basic types of devices that might appear in a typical SIO menu Parallel Port Serial Port Enable parallel LPT printer port Legacy I O addresses are 378h 278h and 3bch IRQ7 was originally used on the IBM PC Enable serial COM communicatio
44. RCE www artisantg com Installation and Setup Register 234h Flash Paging and Byte Swap Register This register controls access to the Flash paging and byte swapping functions Table 2 6 Flash Paging and Byte Swap Register Settings FLB A15 Flash address 15 page control bit FLB A16 Flash address 16 page control bit FLB A17 Flash address 17 page control bit Unused set to 0 Do not use Unused set to 0 Do not use Unused set to 0 Po not use SWAPS No swapping data invariant occurs during slave cycles SWAPM 1 No swapping data invariant occurs during master cycles Front Panel Layout Ethernet port 1 and 2 Yellow LED Com 1 and Com 3 Speed Green LED USB 1 i Keyboard SVGA SER Mouse PS 2 N b Ao MET PMC Site Indicator LEDs Panel LEDs and Switch Reset sys Switch Controller en s Fail LED The reset switch can be enabled to reset see the setup of Sw 1 shown in Figure 2 2 and table 2 2 This switch can be configured to either just reset the X V ME 689 690 or to reset both the VMEbus and the XVME 689 690 The green pass and red fail LEDs are used as an indication of board health during the BIOS boot up Both the green pass and red fail LEDs will light during the POST of the board As the BIOS complete the POST the red fail LED will be turned off This is an indication the XVME 689 690 has passed the POST The blue SYS Controller LED is lit when the XVME 689 690 is configured as the VME
45. SBPO USBPO 3 Figure 5 3 showing the USB connector MEE Table 5 8 USB Port Connector Pin mm 5 7 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com Rear Transition Module PO VMEbus connector This connector is used to distribute the on board PMC rear I O and the rear Ethernet ports if Vita 31 1 is not in use Table 5 9 showing pin out of the VMEbus PO MDIAXO MDIAXO MDIAX2 MDIAX2 MDIAX1 MDIAXI GND N MDIBXO MDIBXO MDIBXI GND MC 1020 MC 1025 MC 1030 P PMC IO28 MC 1035 PMC 1034 PMC 1033 MC 1040 PMC 1039 PMC 1038 MC IO45 C 1050 C TOSS PMC IO54 PMC IO53 MC 1060 PMC IO59 PMC IOS8 MC 1057 MC IO56 GN C PMC IO64 PMC IO63 PMC IO62 PMC IO61 MC IO29 EE USER VO Connector This is a 68 pin SCSI type connector that brings out the rear PMC site I O from the XVME 689 690 PMC site to the PO to the XVME 990 PO to this USER VO Table 5 10 Showing pin out of the User I O connector Pin Number Signal Name Pin Number Signal Name 1 PMC VO 1 35 PMC VO 2 2 PMC I O 3 36 PMC VO 4 3 PMC VO 5 37 PMC VO 6 4 PMC I O 7 38 PMC I O 8 5 PMC VO 9 39 PMC I O 10 6 PMC VO 11 40 PMC VO 12 7 PMC VO 13 41 PMC VO 14 8 PMC VO 15 42 PMC VO 16 9 PMC VO 17 43 PMC VO 18 10 PMC VO 19 44 PMC I O 20 11 PMC VO 21 45 PMC I O 22 12 PMC I O 23 46 PMC VO 24 13 PMC I O 25 47 PMC
46. ST setup menu s Error Control section Pause on POST Errors Enable pause when errors are detected during POST so that the user can view the error message and enter Setup or continue to boot the OS The following table describes the settings associated with the POST setup menu s POST User Interface section POST Display Messages Enable display of text messages during POST When disabled POST is quiet POST Operator Prompt Enable operator prompts if POST is configured to POST Display PCI Devices ask interactive questions of the user about whether to load specific features i e whether or not to load SMM Enable display of PCI devices POST Display PnP Devices Enable display of ISA PnP devices The following table describes the settings associated with the POST setup menu s Debugging section POST Debugger Breakpoints Enable processing of INT 3 breakpoint instructions embedded into option ROMs When enabled if an INT 3 instruction is encountered control is transferred to the BIOS debugger so that the option ROM can be debugged When disabled these instructions perform no action 3 10 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com BIOS Setup Menus POST Fast Reboot Cycle Enable early reboot in POST allowing service technician to verify that the hardware can reboot very guickly many times in
47. VME 912 The compact flash socket on the optional carrier module will support type I or type II Compact Flash cards The compact flash resides as a master on the secondary IDE port There are no unique drivers required The XVME 689 690 can be booted from the compact flash drive if configured in the BIOS Boot menu NOTE 1 4 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com Introduction The XVME 689 690 module can accept either an on board 1 8 hard drive XVME 913 or the Compact Flash carrier XVME 912 but not both VMEbus Interface The XVME 689 690 uses the PCI local bus to interface to the VMEbus via a PCI to VME bridge device Tundra Universe IID The VMEbus interface supports full DMA to and from the VMEbus integral FIFOs for posted writes block mode transfers and read modify write operations The interface contains one master and eight slave images that can be programmed in a variety of modes to allow the VMEbus to be mapped into the XVME 689 690 local memory This makes it easy to configure VMEbus resources in protected and real mode programs The XVME 689 690 also incorporates onboard hardware byte swapping see Table 1 2 For a complete API the XycomVME Board Support Packages tailored to your operating system will allow quick programming of your application Serial and Parallel Ports VME 689 690 includes three high speed 16550 compatible serial ports RS 232C with Com 1
48. VME 973 1 5 5 P4 connector XVME 973 1 5 6 parallel port deett tnis 1 5 PO 104 EE RE EE ito 1 5 PCI Ethernet controller enabling 2 19 pinouts CPU fan power iese see se se ee ee 2 16 keyboard port esses 2 6 P1 connector XVME 973 1 5 2 P3 connector XVME 973 1 5 5 P4 connector XVME 973 1 5 6 USE EE EN EE 2 15 Univeral Serial Bus USB 2 9 5 7 MOA wm 2 8 5 10 VMEbus P1 esses 2 12 die EE EE iuit 1 5 PMC connectors ss see ee ee 2 15 ports keyboard ies esse se eg ss SE ee ke 1 5 parallel n ettet ret ged 1 5 3 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com Index ul AE EE ua 1 5 registers Abort Clear CMOS 2 3 Abort Clear CMOS register 2 3 Flash Paging and Byte Swap2 5 4 9 4 10 LBD BIOS ierat etes 2 4 LED BIOS register 2 4 watchdog MET sesse es se ee ee ee 2 4 reset options VMEbus 4 7 RJ 45 10 100 Base T Connector 2 19 5 9 SDRAM enciende tene 1 10 installation iiri rte tete 1 serial ports i epit tet 1 5 Software Support sess 1 6 specifications hard Waters tete e 1 10 switch settings oiris iiias 2 3 system TESOUICES ee ee ee ee e
49. X AE EE EE N N 2 vi Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com Table of Contents Table of Figures and Tables Figure 1 1 XVME 689 690 Block Diagram esse ses esse esse ese ese ss ge es ge ee ge ee ge ee Ge ee Ge ee Ge Ge ed RA ee ee 1 7 Figure 2 1 XVME 690 Front Panel etre o oes es Ee oe ge wreed Bee eg 2 18 Figure 3 1 Main Setup Menu esce etes nb ertet pte ie to iiss BES PE Le SES Be FECE cast ke eN ge De eie 3 2 Figure 3 2 Slave Interface Submenu iese sesse se se ee ee ee ee Ge Ge ener 3 26 Figure 4 1 Byte Ordering Schemes esee ee ee ee Ge Ge GR rennen 4 8 Figure 4 2 Address Invariant Translation esesseeseesseeeseeeeeenee nennen ener rennen 4 8 Figure 4 3 Maintaining Numeric Consistency 0 cei ceecesceseceseeeeeeeeeeeeaeeeaeeeaeecaaecaeceaeenaeeeaeees 4 9 Figure 4 4 Maintaining Address Consistency iese sesse ss see se ee Ge Ge Ge GRA RA Ge Re Re ee ee 4 10 Table 1 1 Maximum Video Modes Supported se Se ee ee ee ee Ge Ge GRA ek RA ee 1 3 Table 1 2 XVME 690 CPU configurations se esse esse ee se ee sed ee ek ek ee ee ee ee ee ee ee ee Ge 1 10 Table 1 3 XVME 689 690 Expansion Module Options ese es se es se ee se ee se ee se ee ee Ge 1 11 Table 2 1 XVME 689 690 Jumper Settings essere 2 2 Table 2 202 XVME 690 PMC Host Connector
50. YSTEM BIOS 000D8000 000DFFFF 32K Universe Real Mode Window 000D0000 000D7FFF 32K Open memory block 000CC000 000CFFFF 16K Open memory block 000C0000 000C7FFF 32K VGA BIOS 000A0000 000BFFFF 128K VGA DRAM MEMORY 00000000 0009FFFF 640K DRAM See Intel 6300ESB data sheet for a description for optional settings for setting memory holes or gaps within Memory map area The PCI devices are located at the very top of memory just below the system BIOS VO Map This Preliminary VO map for the XVME 690 contains VO ports of the IBM AT architecture plus some additions for PCI I O registers and XycomVME specific VO registers Hex Range Device 000 01F DMA controller 1 8237A 5 equivalent 020 021 Interrupt controller 1 8259 equivalent 022 023 Available 025 02F Interrupt controller 1 8259 equivalent note 3 040 05F Timer 8254 2 equivalent 060 06F 8742 equivalent keyboard 070 07F Real Time Clock bit 7 NMI mask note 3 080 091 DMA page register note 3 92 Fast GateA20 and Fast CPU Init 93 9F DMA page register note 3 OAO OBF Interrupt controller 2 8259 eguivalent note 3 OCO ODF DMA controller 2 8237A 5 equivalent note 3 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com OFO OF1 OF2 0FF 170 177 1FO 1F7 219 234 235 277 278 27F 280 2F7 2F8 2FF 300 36F 376 378 37F 380 3BF 3C0 3DF 3E0 3EF 3F0 3F5 3F6 3F8 3FF 400 47F 480 4BF 4D0h 4D1h C
51. available on the front panel using a standard connector as shown in Figure 2 10 below The other two USB ports USB 2 and 3 are routed out the VMEbus P2 connector and can be accesses either directly off the VMEbus P2 connector using the pin assignment shown in Fig 2 10 The USB 5 V supplies are protected with a polyswitch This device will open up if 45 V is shorted to GND Once the shorting condition is removed the polyswitch will allow current flow to resume Figure 2 10 USB Connector UsBPO sd de Table 2 10 USB Port Connector Pin out Table 2 11 Rear USB ports 2 and 3 USB Port Connector Pin out on VMEbus P2 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com Installation and Setup COM1 and COM3 J4 Pin Definitions The XVME 689 690 has two serial ports out the front panel Com 1 and Com 3 these two com ports use the RJ 45 connector The third com port is out the VMEbus P2 connector and when the XVME 990 rear transition module is in place com port 2 uses a DB 9 connector See below for connector layout and pin descriptions Figure 2 11 RJ 45 Serial Port Connector COM1 Pin Definitions RS485 Com3 Pin Definitions Table 2 13 Serial Port Connector Pin out for Comm 3 2 10 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com Installation and Setup On Board Hard Drive Compact Flash Site J17
52. bus system controller This is the function that grants bus ownership to multiple bus VME masters and provides the 16MHz clock signal on the back plane 2 5 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com Installation and Setup Connectors This section provides pin outs for the XVME 689 690 connectors Refer to the EMC warning at the beginning of this manual before attaching cables Keyboard Mouse Port Connector P7 Table 2 7 Keyboard Port Connector Pin out Pin Keyboard Data Mouse Data 3 6 Mouse Clock 2 6 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com Installation and Setup Front panel P12 Rear Transition Module and Vita 31 1 Ethernet The Ethernet ports on the XVME 689 690 are switch able between the front and the rear of the XVME 689 690 When in the rear mode the Ethernet ports can use the optional available at order time only PO connector for either Vita 31 1 switch fabric over the Vita 31 1 compliant backplane or Ethernet out the XVME 990 2 rear transition module The Vita 31 1 and the rear transition module can not supply Ethernet at the same time if a Vita 31 1 compliant backplane is in use then the rear transition module RJ 45s must not be used Table 2 8 RJ 45 10 100 1000 BaseT Connector Pin out GND GND RX GND GND Figure 2 8 RJ 45 10 100 1000Mbps 2 7
53. ccess PCI memory master access VMEbus slave access System Resources The XVME 689 690 automatically provides slot 1 system resource functions also referenced as SysCon if the Bus Grant 3 jumpers are set correctly on the VMEbus backplane The system resource functions are explained in the Universe manual Contact Tundra at www tundra com for a PDF version of the Universe manual This function can be disabled using the X V ME 689 690 s jumper J3 See Jumper Settings in Chapter 2 p 2 2 VMEbus Master Interface The XVME 689 690 can be either a VMEbus master by accessing a PCI slave channel or the DMA channel initiates a transaction There are 8 PCI slave images The first PCI slave image has a 4K resolution the other have 64K resolution The master can generate A16 A24 A32 VMEbus cycles for each PCI slave image The address mode and type are also programmed on a PCI slave image basis The PCI memory address location for the VMEbus master cycle is specified by the Base and Bound address The VME address is calculated by adding the Base address to the Translation offset address AII PCI slave images are located in the PCI bus Memory Space The master cycles are all byte swapped maintaining address coherency Caution PCI slave images mapped to a system DRAM area will access the system DRAM not the PCI slave image Also the Universe configuration register has a higher priority than the PCI slave images This means if the PCI slave image an
54. ch is preconfigured by the OEM This may run OEM specific applications Firmbase Network Stack Firmbase Desktop Enables Firmbase Technology internet protocol stack including MAC driver for the platform TCP UDP as well as presentation level drivers configured by the OEM which may include SNMP SMTP TELNETD and HTTP server Enables Firmbase Technology graphical shell Firmbase User Shell Enables Firmbase Technology command line interpreter a multi user command shell with DOS like and Unix like command structure can be used to start Firmbase applications written with the Firmbase SDK a General Software product Firmware Application Suite Enables Firmbase applications configured for the system by the OEM Typically includes Boot Security Platform Update Facility and High Availability Monitor Firmbase Technology Enables Firmbase Technology as a whole the industry s most comprehensive and full featured System Management Mode SMM operating environment Some hardware platforms require Firmbase Technology to run as they may use it to virtualize hardware such as virtual video and audio PCI devices Some BIOS features such as ACPI and APM may require Firmbase Technology to operate 3 9 Misc Menu The Misc menu provides for configuration of BIOS settings that don t easily fit in any other category They include Cache Control Keyboard Control Debugger Settings and System Monitor Utility
55. d the Universe configuration registers are mapped in to the same memory area the configuration registers will take precedence VMEbus Slave Interface The XVME 689 690 can be either a VMEbus slave by being accessing a VMEbus slave image or the DMA channel initiates a transaction There are eight PCI slave images The first slave image has a 4K resolution the others 2 4 6 8 have 64K resolution Slave images 1 8 have been implemented on the XVME 689 690 The slave can respond to A16 A24 A32 VMEbus cycles for each VMEbus 4 5 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com Programming slave image The address mode and type are also programmed on a VMEbus slave image basis The VMEbus memory address location for the VMEbus slave cycle is specified by the Base and Bound address The PCI address is calculated by adding the Base address to the Translation offset address The XVME 689 690 DRAM memory is based on the PC AT architecture and is not contiguous The VMEbus Slave Images may be setup to allow this DRAM to appear as one Contiguous block The first VMEbus slave Image must have Base and Bound register set to 640K Example VMEbus Slave Image 0 BS 0000000h BD A0000h TO 0000000h The second VMEbus Slave Image must have the Base register set to be contiguous with the Bound register from the first VMEbus Slave Image The Bound register is limited by the Total XVME 689 690 DRAM The
56. e 3 24 4 5 Universal Serial Bus USB port 2 0 5 7 Universe chip 4 5 4 7 4 8 4 0 4 10 4 VGA connector 2 8 5 10 VME interface esse esse esse see se de ee se ee 4 5 VMEbus compliance ee ee ee ee 1 10 interiade uec eere Ne eds Eg ee ede 1 5 interrrupt handling 4 6 interrupt generation eessss 4 7 reset ODHONS esse se ee ee ee ee 4 7 VMEbus connectors essss 2 12 VMEbus slave interface 3 26 VMEbus system resources 3 24 watchdog timer eee 1 5 watchdog timer register 2 4 XVME 9000 EXFP er 1 11 XVME 973 1 ees 1 3 1 11 5 1 XVME 973 5 iicet retreat 1 11 XVME 9706 ee seders kke Ede es Eed 1 5 1 11 XVME 9TT ict det terne 1 3 1 11 XVMB 979 epos dekke ESEG Seks es 1 3 1 11 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com A rtisan Artisan Technology Group is your source for quality TecmoogyGroup new and certified used pre owned equipment FAST SHIPPING AND SERVICE CENTER REPAIRS WE BUY USED EQUIPMENT DELIVERY Experienced engineers and technicians on staff Sell your excess underutilized and idle used equipment TENS OF THOUSANDS OF at our full service in house repair center We also offer credit for buy backs and trade ins IN STOCK ITEMS www artisan
57. e ee ee Ge Ge GR RA GR Re ee ee ee ee Ge Ge 3 17 3 8 Firmbase Technology Configuration eese ee ee ee ee Ge Ge de 3 19 39 Eed Menu sci vied EE IE ER EE OR EE EE OE Rae 3 20 EKORA RES GE NE OE OR EE AE 3 24 3 12 Front Panel resources contro i vise sesde see ee NEG ese Ad ee de eei p eek da ER Ru egi ee e 3 28 Chapter 4 Programming ss Eis EE ER o oo EK eth Sk Ke GEK Ee 4 1 v Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com Table of Contents Memory MaDi ceiaio RE EE EE OR EE RE TE 4 1 TOU Map is see N EE EE P EN 4 1 IRQ Ll 4 3 PCT Device Map LM 4 4 NASIEN RUK SR EE EE EE ER N EE 4 5 Software Selectable Byte Swapping Hardware esee 4 7 Chapter 5 XVME 990 Rear Transition Module eese 5 1 uU MERE N 5 2 Serial ATA hard drive Interface i e cte rie Ite ene rere eee PEE e rade ena e de a 5 3 Appendix A SDRAM and Battery Installation see ese ee ee ER RE EE EER RR EE RA ER EER RE nnne nnns 1 Memory Type ee 1 Installing SDRAM iss see be Gee Ge ee Ee ee ee ge Dep A BG Se Gee bek Gee Be eg Ee Bere ede gede bg ee 1 Module Battery Install ata On ss ies ee rerit ee gee DR ee Re RE GE ae Re Cok Ee Ee s eee Ne ee 2 TAG O
58. e p 2 4 4 10 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com Rear Transition Module Chapter 5 XVME 990 Rear Transition Module The XVME 990 rear transition module is available in two configurations a XVME 990 1 without PO connector and the User I O connector and a XVME 990 2 with the PO connector and the User I O connector This module can be used to connect to external not in the rack hard drive floppy drives or to the XVME 977 or XVME 979 mass storage units Please consult the separate XVME 977 and XVME 979 manuals for more information on those products It should be noted that the X VME 973 and XVME 974 rear transition modules can be used with the XVME 689 690 If one of these RTMs are used with the XVME 689 690 some functions normally available at the rear or will not be available The XVME 990 Drive Adapter Module is used to connect an external DVD CD ROM or hard drive and a floppy drive or use the SATA interface to your XVME 689 690 module It has a single edge connector labeled P2 which connects to the P2 backplane connector on the rear of the VME chassis illustrates how to connect the XVME 990 to the VME chassis backplane P2 connector rig Bu aua Bu ul ea cis za t Le iE z a Gada ED a gucag B M i pc ERTELE 7 Gare bia DAGARAGEOE S m LINE OUTLINE IN The XVME 990 X module has two connectors on it for the connection of up to two IDE hard
59. ectromagnetic interference and or susceptibility levels that are in violation of regulations which apply to the legal operation of this device It is the responsibility of the system integrator and or user to apply the following directions as well as those in the user manual which relate to installation and configuration All interface cables should be shielded both inside and outside of the VME enclosure Braid foil type shields are recommended for serial parallel and SCSI interface cables Where as external mouse cables are not generally shielded an internal mouse interface cable must either be shielded or looped 1 turn through a ferrite bead at the enclosure point of exit bulkhead connector External cable connectors must be metal with metal back shells and provide 360 degree protection about the interface wires The cable shield Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com must be terminated directly to the metal connector shell shield ground drain wires alone are not adeguate VME panel mount connectors that provide interface to external cables e g RS232 USB keyboard mouse etc must have metal housings and provide direct connection to the metal VME chassis Connector ground drain wires are not adequate Environmental Protection Statement This product has been manufactured to satisfy environmental protection requirements where possible Many of the components used s
60. els via P2 One 1 8 on board EIDE via optional carrier module Compact Flash One on board Compact flash site via optional carrier module Floppy Drive Via P2 to XVME 977 PMC Site On board 66 MHz 64 Bit PMC PCI X with front and PO I O Access Site is 3 3V interface level Optional 32bit 33 MHz sites available via XVME 976 209 2 sites total 3 and XVME 976 210 4 sites total 5 Stereo Audio AD1981B AC97 CODEC Line Level Stereo Input and Output Via P2 USB One USB 2 0 via Front panel Two USB 2 0 via P2 Serial Ports RS 232C 16550 compatible 3 COM1 Com 2 Com3 Com 1 can be configured for RS 232 422 485 Com 2 and 3 are RS 232 only Parallel Interface EPP ECP compatible 1 Keyboard and Mouse Via Front Panel Regulatory Compliance European Union CE Electromagnetic Compatibility 89 336 EEC RoHS Compliant product available Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com Introduction VMEbus Specification VMEbus Compliance Complies with VMEbus Specification ANSI VITA 1 1994 A32 A24 A16 D64 D32 D16 D08 EO DTB Master A32 A24 A16 D64 D32 D16 D08 EO DTB Slave R 0 3 Bus Requester Interrupter I 1 1 7 DYN IH 1 IH 7 Interrupt Handler SYSCLK and SYSRESET Driver PRI SGL RRS Arbiter RWD ROR bus release Form Factor DOUBLE 233 7 mm x 160 mm 9 2 x 6 3 System Configuration and Expansion Options Tables Table 1 2 XVME 690
61. ents the settings that enable high level features enabled by Firmbase Technology Legacy USB Enables BIOS support for USB keyboards and mice Up to 8 USB keyboards and 8 USB mice may be supported at a time Use of PS 2 keyboard and mouse concurrently with USB devices is discouraged as the legacy PS 2 keyboard controller cannot easily separate simultaneous data streams from both device classes USB Boot Enables BIOS support for accessing USB mass storage devices and emulating legacy floppy hard drive and CDROM drive devices with them 3 19 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com BIOS Setup Menus Enable this option in order for USB devices to be supported in the BBS device list see the BOOT menu EHCI USB 2 0 Enables EHCI Firmbase Technology driver allowing USB Boot feature to use high speed transfers on USB 2 0 ports in the system Firmbase Disk I O Enables Firmbase Technology FAT file system driver so that Firmbase applications such as Boot Security Platform Update Facility and HA Monitor as well as the HA and TCB components of the kerne have access to files residing on drives containing FAT file systems Also turn on this option if you wish to run Firmbase applications from FAT file systems on either ATA or USB mass storage devices Firmbase User Registry Enables execution of the USER Firmbase registry section whi
62. er The maximum video modes supported are listed in the following table The highest supported interlaced monitor mode is 1280x1024 16 bit 65k color and 43 Hz Video output is available on the front panel through a standard 15 pin D shell connector The graphics controller is in the 855GME which uses up to 64MB main 1 2 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com Introduction memory as video memory The 855GME has a built in 3D graphics engine and its display render core frequency is up to 200MHz Table 1 1 Maximum Video Modes Supported Resolution Bit Depth Colors Vertical Refresh 640x480 24 bit 16M color 100 Hz 800x600 24 bit 16M color 100 Hz 1024x768 24 bit 16M color 100 Hz 1280x1024 24 bit 16M color 75 Hz 1600x1200 16 bit 65k color 60 Hz Ethernet Controller The 82546GB dual Giga bit Ethernet controller provides a pair of 10 100 1000baseT Ethernet interfaces The 82546GB contains both the MAC and the physical layer The RJ 45 connectors on the module s front panel provide auto sensing for 10Base T 100Base and 1000Base TX connections Each RJ 45 connector has two indicator lights When mounted vertically the top light is the link activity light and the bottom light the one closer to the COM ports is the 10Base T 100Base TX indicator When it is off the connection is 10Base T when it is on the connection is 100Base TX When the Etherne
63. fan power connector esse se see 2 16 drivers loading Ethernet 2 19 drives Compact Flash esse sees see ee ee ee ee 1 4 Hoppy EE 1 3 5 5 Wats iita 1 3 5 2 5 6 Ethernet driver loading 2 19 expansion PC IUM 21st pre trenes 1 5 POL n rrt tte teda 1 5 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com Index PEM aeree EE N 1 5 dle EE N 1 5 Short ISA OE OE EERS 1 5 Expansion Options eess 1 11 Flash Paging and Byte Swap register 2 5 4 9 4 10 POPPY drive ite tea 1 3 3 2 front panel XVME 660 ss 2 18 hard drive o rci ees 1 3 hardware specifications 1 10 I Omap N niet EE IE N 4 1 installation SDRAM 6 5 sesse en ese ARE Ee gs EED en due 1 XVME 600 dee eed 2 17 XKVME O73 seeks ees ds ge ee be Ek ENE 5 1 interrupt generation VMEbus 4 7 interrupt handling VMPBDUS osse Ee bes ee ee oe Ee eed 4 6 IRQ map eee hast cecus 4 3 ei tbi eode 4 6 jumper settings J3 mainboard 3 24 4 5 keyboard interface ees esse se ee ek de 1 5 keyboard port connector 2 6 LED BIOS register ss 2 4 memory MAP sesse ee AA AA enne 4 1 memory SDRAM eee 1 10 P1 connector XVME 973 1 5 2 P3 connector X
64. flow to resume Table 2 21 CPU Fan Power Connector Pin out 2 16 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com Installation and Setup Installing the XVME 689 690 into a Backplane This section provides the information necessary to install the XVME 689 690 into the VMEbus backplane The XVME 689 690 is a double high single slot VMEbus module Note XycomVME modules are designed to comply with all physical and electrical VMEbus backplane specifications of VME64x Note The XVME 689 690 is available from the factory in two basic configurations with PO and without PO The without PO would normally be used in a legacy system since most of these racks are equipped with a stiffener bar in the PO location Also note that to use the extended features of the XVME 689 690 the backplane must use 160 pin P1 and P2 Caution Do not install the XVME 689 690 on a VMEbus system without a P2 backplane Warning Never install or remove any boards before turning off the power to the bus and all related external power supplies 1 Disconnect all power supplies to the backplane and the card cage Disconnect the power cable Make sure backplane 5 rows 160 pin connectors P1 and P2 are available Verify that all jumper settings are correct Verify that the card cage slot is clear and accessible Lp UD AD Install the XVME 689 690 in the card cage by centering the unit o
65. ices the PCI to VME bridge chip known as the tundra Universe II chip and the 80 pin expansion connector used to connect the XVME 976 209 and XVME 976 210 Dual PMC carrier modules These carrier modules can be stacked to allow for up to five 5 PMC sites on one XVME 689 690 PCI X or PCI extended is an enhanced version of PCI Peripheral Component Interconnect computer bus Although PCI X is backward compatible with traditional PCI devices and systems this specification implements additional features and performance improvements include 3 3V signaling increased speed grades and adaptation to other form factors PCI X effectively doubles the speed and amount of data exchanged between the computer processor and peripherals PCI X bus was designed for and is ideally suited for server cards such as Fibre Channel RAID high speed networking and other demanding devices Onboard Memory SDRAM Memory The XVME 689 690 has a socket for a single 200 pin SODIMM providing 256 MB 512MB 1GB and 2GB of ECC DDR 266 333MHz SDRAM Approved SDRAM suppliers are listed in 0 Flash BIOS The XVME 689 690 system BIOS is contained in a 1MB flash device to facilitate system BIOS updates Contact XycomVME support for available updates at support xycomvme com if needed Be sure to record your current version number and the reason for the request Video Controller The 855GME Graphics and Memory Controller Hub GMCH has a built in 2D 3D graphics controll
66. imary PIDE 2 PIDE Floppy COM2 Only RS 232 two ports of SATA 150 LPT1 1 USB port Audio in out and Analog Video out plus PO for rear I O from PMC site and Ethernet 31 1 or rear RJ 45 Ethernet XVME 990 2 Drive Adapter Module for external drives cables out back of VME backplane Primary PIDE 2 PIDE Floppy COM2 Only RS 232 two ports of SATA 150 LPT1 1 USB port Audio in out and Analog Video out XVME 976 209 PMC Carrier module with two PMC module sites The XVME 976 209 allows for stacking of a second XVME 976 209 this combination will accommodate a total of five PMC modules XVME 977 011 Single slot Mass Storage Module with hard drive and floppy drive XVME 979 1 Single slot Mass Storage System with CD ROM and external floppy connector XVME 979 2 Single slot Mass Storage System with CD ROM hard drive and external floppy connector XVME 979 3 Single slot Mass Storage System with RW CD ROM and external floppy connector XVME 979 4 Single slot Mass Storage System with RW CD ROM hard drive and external floppy connector XVME 979 5 Single slot Mass Storage System with RW DVD CD ROM and external floppy connector XVME 979 6 Single slot Mass Storage System with RW DVD CD ROM hard drive and external floppy connector XVME 9000 EXF External Floppy Drive for use with XVME 979 The XVME 976 XVME 977 and XVME 979 expansion modules are described in their own manuals The XVME 990 is described in
67. implemented through software Byte Ordering Schemes The Motorola family of processors stores data with the least significant byte located at the highest address and the most significant byte at the lowest address This is referred to as a big endian bus and is the VMEbus standard The Intel family of processors stores data in the opposite way with the least significant byte located at the lowest address and the most significant byte located at the highest address This is referred to as a little endian or PCI bus This fundamental difference is illustrated in Figure 4 1 which shows a 32 bit quantity stored by both architectures starting at address M 4 7 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com Programming Address MOTOROLA M High Byte High Byte Low Byte Figure 4 1 Byte Ordering Schemes Note The two architectures differ only in the way in which they store data into memory not in the way in which they place data on the shared data bus The XVME 689 690 contains a Universe chip that performs address invariant translation between the PCI bus Intel architecture and the VMEbus Motorola architecture and byte swapping hardware to reverse the Universe chip byte lane swapping Contact Tundra at www tundra com for a PDF version of the Universe manual Figure 4 2 shows address invariant translation between a PCI bus and a VMEbus Pentium Reg
68. interfaces Note When the Slave 1 amp 2 Operational Mode setting is Compatible slave images 0 and are reserved for BIOS use See p Error Bookmark not defined for more details System Configuration Utility Features Misc VME Master VME Slave FrontPanelConfig lave lave VME salve enable and disable lave lave lave lave 1 2 3 4 lave 5 6 7 8 OD YYNY 00 00 NH lave Embedded BIOS 2000 V6 0 5 Copyright 2006 General Software Inc Figure 3 2 Slave Interface Submenu 3 26 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com BIOS Setup Menus Table 3 1 Slave Interface Submenu Description Slave Interface Address Modifiers Address Space Base Address High Nibble Base Address Med Nibble Base Address Low Nibble Used to turn the slave interface boot state On or Off default When turned Off other VME masters cannot access memory on the XVME 690 Determines which type of VMEbus slave access is permitted to read or write to the XVME 690 dual access memory The first field determines whether the slave interface responds to Data access only default Program access only or Both The second field determines whether the slave interface responds to Supervisory access only Non Privileged access only default or Both Determines if VME masters access the slave s dual access memory in the VMEbus Standard A
69. ister 32 bit VMEbus Address M M 1 M 2 M 3 XVME 689 690 VMEbus Figure 4 2 Address Invariant Translation Notice that the internal data storage scheme for the PCI Intel bus is different from that of the VME Motorola bus For example the byte 78 the least significant byte is stored at location Mon the PCI machine while the byte 78 is stored at the location MA3 on the VMEbus machine Therefore the data bus connections between the architectures must be mapped correctly 4 8 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com Programming Numeric Consistency Numeric consistency or data consistency refers to communications between the XVME 689 690 and the VMEbus in which the byte ordering scheme described above is maintained during the transfer of a 16 bit or 32 bit quantity Numeric consistency is achieved by setting the XVME 689 690 buffers to pass data straight through which allows the Universe chip to perform address invariant byte lane swapping Numeric consistency is desirable for transferring integer data floating point data pointers etc Consider the long word value 12345678h stored at address Mby both the XVME 689 690 and the VMEbus as shown in Figure 4 3 Pentium Register 32 bit VMEbus Byte swapping Hardware Address M M 1 M 2 M 3 XVME 690 VMEbus Figure 4 3 Maintaining Numeric Consistency Due to the Universe chip the data must be passed s
70. ium VL485L6523C B3 200195 SODIMM 1GB DDR333 Micron MT18VDDT12872HY 335F 1 Virtium VL485L2925C B3 200196 SODIMM 2GB DDR333 Virtium Installing SDRAM Follow these steps to install the SODIMM 1 Follow standard antistatic procedures using a wrist strap to minimize the chance of damaging the XVME 689 690 and its components 2 Power off the XVME 689 690 remove it from the VME backplane and place it on a safe antistatic grounded surface Remove all connectors if not already removed 4 Locate the PX connector on the XVME 689 690 slightly in front of the P1 VME backplane connector ane 5 Pull the metal clips on either side of the SODIMM until it pops up at an angle roughly 30 from horizontal 6 Grasping the upper two corners or the edges of the SODIMM gently pull it out of the socket and set it to the side 7 Insert the new SODIMM until seated into the connector assuring it fits snugly into the connector retainer clips Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com 0 Appendix A SDRAM and Battery Installation 8 Gently push the SODIMM down until the metal clips snap into place to hold it If you cannot gently push the SODIMM into position you may need to redo step 7 9 Replace the XVME 689 690 module reconnect all connectors etc 10 Power up the unit and make sure that the memor
71. ks of their respective owners Intel and Pentium are registered trademarks and Celeron is a trademark of Intel Corporation Windows Windows NT Windows 2000 and Windows XP are registered trademarks of Microsoft Corporation in the US and in other countries Copyright Information This document is copyrighted by XycomVME Incorporated XycomVME and shall not be reproduced or copied without expressed written authorization from XycomVME The information contained within this document is subject to change without notice XycomVME does not guarantee the accuracy of the information WARNING This is a Class A product In a domestic environment this product may cause radio interference in which case the user may be required to take adequate measures Warning for European Users Electromagnetic Compatibility European Union Directive 89 336 EEC requires that this apparatus comply with relevant ITE EMC standards EMC compliance demands that this apparatus is installed within a VME enclosure designed to contain electromagnetic radiation and which will provide protection for the apparatus with regard to electromagnetic immunity This enclosure must be fully shielded An example of such an enclosure is a Schroff 7U EMC RFI VME System chassis which includes a front cover to complete the enclosure The connection of non shielded equipment interface cables to this equipment will invalidate European Free Trade Area EFTA EMC compliance and may result in el
72. l used to autodetect the drive s cable type IDE CABLE SETTINGS PATA cable autodetection sometimes fails with older drives so 40 pin is the default to ensure data integrity If higher performance is desired and it normally is you should change this setting to 80 pin or AUTO if you re sure an 80 pin cable is installed 3 8 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com BIOS Setup Menus 3 4 POST Memory Tests The POST menu is used to configure POST This menu is shown in Figure 3 4 scrolled down more so the full set of options can be seen System Configuration Utility Main Exit Boot Post PnP SIO Features Firmbase Misc mory Tests Enable basic memory Confidence test below Low Memory Standard Test Disabled 1MB during POST Low Memory Exhaustive Test Disabled High Memory Standard Test Disabled High Memory Exhaustive Test Disabled Click During Memory Test Enabled Clear Memory During Test Disabled Post Error Control Pause on POST Errors Enabled POST User Interface Enabled Enabled ae POS lay PnP Devices Enab POST Debugging POST Debugger Breakpoints Disabled POST Slow Reboot Cycle Disabled POST Fast Reboot Cycle Disabled Device Initialization POST Floppy Seek Disabled POST Hard Disk Seek Enabled Figure 3 4 POST memory test Menu POST Display Messages POST Operator Prompt
73. llation and Setup Enabling the PCI Ethernet Controller Loading the Ethernet Driver To enable the Ethernet controller you must load the applicable Ethernet driver for your operating system from the Documentation and Support Library CD included with the XVME 690 For best results always use the supplied drivers Ethernet RJ 45 10 100 1000 BaseT Connector P12 Table 2 23 RJ 45 10 100 1000 BaseT Connector Pin out Signal TX TX RX GND GND RX GND GND 2 19 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com BIOS Setup Menus Chapter 3 BIOS Setup Menus The XVME 689 690 customized BIOS is designed to surpass the functionality provided for normal PCs The custom BIOS allows access to the value added features on the X VME 689 690 Some of the on board features of the XVME 689 690 can also be setup via on board jumpers most of the time if a feature can be setup either way the jumper takes priority over the BIOS settings Navigation moving your cursor around selecting items and changing them is easy in the Setup system The following chart is a helpful user reference Table 3 1 BIOS Keyboard navigation UP key also E Move the cursor to the line above scrolling the window as necessary DOWN key also X Move the cursor to the line below scrolling the window as necessary LEFT key Go back to the
74. n the plastic guides in the slots P1 connector facing up Push the board slowly toward the rear of the chassis until the P1 and P2 connectors engage The board should slide freely in the plastic guides Caution Do not use excessive force or pressure to engage the connectors If the boards do not properly connect with the backplane remove the module and inspect all connectors and guide slots for damage or obstructions 6 Secure the module to the chassis by tightening the machine screws at the top and bottom of the board 7 Connect all remaining peripherals by attaching each interface cable into the appropriate connector on the front of the X VME 689 690 board as shown in Table 2 2 17 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com Installation and Setup 8 Turn on power to the VMEbus card cage Table 2 22 Front Panel Connector Labels Keyboard Mouse KEYBD MOUSE Display cable VGA USB cable US B Ethernet cable 10 100 1000T COM 1 COM Parallel device LPT1 PMC card Note The floppy drive and hard drive are either cabled across P2 to an XVME 977 or an XVME 979 mass storage module or they are connected to the XVME 990 1 or XVME 990 2 board Refer to Chapter 5 for more information on the XVME 990 Figure 2 1 XVME 690 Front Panel 2 18 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com Insta
75. ns port Legacy I O addresses and IRQs are as follows COMI VO 3f8h IRQ4 COM2 VO 2f8h IRQ3 CONG VO 3e8h IRO4 COMA VO 2e8h IRQ3 It should be noted that these are not the only possible addresses but they are the ones that will ensure compatibility with the most legacy software Artisan Technology Group Quality Instrumentation 3 15 Guaranteed 888 88 SOURCE www artisantg com BIOS Setup Menus especially early DOS programs that do not use BIOS to access the COM ports Keyboard Enable PC AT or PS 2 keyboard controller Mouse Enable PC AT or PS 2 mouse portion of keyboard controller GPIO device name Enable GPIO device ACPI device name Enable ACPI device 3 16 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com BIOS Setup Menus 3 7 BIOS Super VO Configuration Menu The Features menu is used to configure the system BIOS major features including Quick Boot APM ACPI PMM SMBUS SMBIOS Manufacturing Mode Splash Screen Console Redirection and others added by the OEM Figure 3 7 shows a typical Setup System Configuration Utility Main Exit Boot Post PnP SIO Features Firmbase Misc BIOS Feature Configuration Select APIC mode to Support APIC aware Interrupt Processing APIC Mode Operating Systems POST Memory Manager Disabled SMBUS API Disabled Console Redirection Automatic
76. onductor Cable UDMA Mode 80 Conductor Cable Fastest Supported Mode Embedded BIOS 2000 V6 0 5 Copyright 2006 General Software Inc N In addition to the boot device list there are two more sections in the BOOT menu namely the Floppy Drive Configuration and IDE Drive Configuration sections Both of these sections tell the BIOS what kind of equipment is connected to the motherboard so that the BIOS can inspect the equipment For example the floppy drive section allows you to specify whether a floppy drive is a 514 360KB floppy a 544 1 2MB floppy a 3 2 720KB floppy or a 32 1 44MB floppy the first three are largely supplied for compatibility since these floppy drives are no longer available in stores Similarly the IDE Drive Configuration section describes the type of hard drive equipment that is connected to the motherboard including the cable type IDE drives or actually more properly Parallel ATA PATA drives are connected to the motherboard with a flat cable with either 40 or 80 wires running in parallel hence Parallel ATA as opposed to Serial ATA The 40 pin connector supports speeds up to UDMA2 whereas 80 pin cables are needed for higher transfer rates to eliminate noise The BIOS can be told what type of cable is available so that it knows whether higher transfer rates are allowed or it can be told to autodetect the cable type in which case the drive and the motherboard must both support the hardware protoco
77. ons and boot devices to be configured This menu is shown in Figure 3 3 System Configuration Utility Main Exit Boot Post PnP SIO Features Firmbase Misc System Boot Configuration Select Initialization And boot priority for All devices Boot Device Prioritization BBS 0 Fixed USB 0 Backspace deletes 1 E 0 Pri Master Selection Space 2 Bar and change 3 Selections loppy Drive Configuration loppy O0 1 44MB 3 5 E Drive Configuration Type Autoconfig Mode 1ti word DMA mode Type toconfig Mode lti word DMA mode Type toconfig Mode Fastest support mode Type Autoconfig H H H H H H H H H Mode Fastest support mode Embedded BIOS 2000 V6 0 5 Copyright 2006 General Software Inc EBENEN Figure 3 3 System Boot Configuration Menu When the BIOS completes POST it follows this list attempting to process each item Some items are drives such as an ATA IDE drive or a USB hard disk or CDROM The ordering of the drives in the list the BIOS controls the process in several ways First it is the list of drives that are scanned and assigned BIOS unit numbers for DOS 0 1 2 for floppy type devices and 80h 81h 83h and so on for hard drives If a drive on the list is not plugged in or working properly the BIOS moves on to the next drive skipping the inoperative device Second once the drives in the list have been verified POST attempts to bo
78. or safety Thus this feature is theoretically nondestructive WARNING BECAUSE THE OEM S ADAPTATION AND OTHER FACTORS ARE BEYOND GENERAL S CONTROL YOU ARE ADVISED THAT THIS FEATURE COULD CAUSE DATA LOSS AT YOUR SOLE EXPENSE ACCORDINGLY IT IS PROVIDED AS IS WITHOUT WARRANTY OF ANY KIND ALWAYS BACKUP YOUR DATA BEFORE PERFORMING DIAGNOSTICS ON ANY SYSTEM AS THEY COULD CAUSE DATA LOSS 3 23 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com BIOS Setup Menus 3 10 VMEbus Master System Controller Submenu The XVME 690 automatically provides slot 1 system resource functions The system resource functions are explained in the Universe manual Contact Tundra at www tundra com for a PDF version of the Universe manual This function can be disabled using XVME 690 jumper J3 Refer to Jumper Settings in Chapter 2 p 2 2 for more information System resources are VMEbus Arbiter BERR timeout SYSCLK and IACK daisy chain driver These resources must be provided by the module installed in the system controller slot left most slot The status of the X VME 690 system resources is reported in a read only field Note The BERR timeout is the VMEbus error timeout value System Configuration Utility Features Misc VME Master VME Slave FrontPanelConfig System Controller Master Resources is this board Syscon Enabled BERR Timeout 16 us Arbitration Mode
79. ot from them in that order as well Drives without bootable partitions might be configured but skipped over in the boot phase so that other drives on the list become candidates for booting the OS Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com BIOS Setup Menus This list can also contain other boot actions as boot from network ports When deciding what boot action to do first and then next in succession POST first scans all the drives in the list to verify they are present and operating properly as described earlier in this section and then goes down the list and tries to perform the actions in order During this boot phase if the list item is a drive an attempt is made to boot from the boot record of that drive If the list item is a device like a network PMC card an attempt is made to boot from that device If the list item is a non bootable device it moves on to the next item in the boot list The following table shows a list of boot devices and their configuration parameters Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com BIOS Setup Menus Device Prioritization BBS Boot 0 Fixed USB 1 IDE 0 Pri 2 Floppy 0 3 None Floppy Drive Floppy 0 ID ID ID ID ID IDE 2 Type ID ID E 0 Type E 0 Mode E 1 Type E 1 Mode E 2 Mode E 3 Type 0 Mas
80. p system is to navigate to the menus containing fields you want to review and change those fields as desired When your settings are complete navigate to the EXIT menu 3 1 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com BIOS Setup Menus and select Save Settings and Restart This causes the settings to be stored in nonvolatile memory in the system and the system will reboot so that POST can configure itself with the new settings After rebooting it may be desirable to reenter the Setup system as necessary to adjust settings as necessary Once the system boots the Setup system cannot be entered this is because the memory used by the BIOS configuration manager is deallocated by the system BIOS so that it can be used by the OS when it boots To reenter the Setup system after boot simply press the reset on the front panel or cycle the system power Note The default values given in the descriptions are for the XVME 689 690 board with no peripheral devices attached If drives are connected their values will be shown 3 1 Main Setup Menu This Main menu System Summary provides information about the BIOS processor system memory and allows the setup of date and time Only the date and time fields are user definable in this menu System Configuration Utility Main Exit Boot Post PnP SIO Features Firmbase Misc General Software R System BIOS BIOS Version 6
81. pact PCI type or IEEE 1101 1 legacy VME type VME64 VMEbus interface with programmable hardware byte swapping 1 1 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com Introduction Architecture CPU Chip The Intel Pentium M and Celeron M processors have a new micro architecture but remain software compatible with previous members of the Intel microprocessor family The Pentium M has longer pipeline stages and thus does more per clock cycle which allows it to run at a lower clock frequency thus saving power The Pentium M has a large L2 cache 2MB on 90nm and 1MB on 160nm which boosts performance A Pentium M is comparable in performance to a Pentium 4 running at 5096 higher clock rate but dissipates less than half the power With a junction temperature range of 0 to 100C and a max power dissipation ranging from 10W to 24Watts the Pentium M is capable of withstanding a great deal of thermal stress while reducing the overall power dissipation for the product PCI Local Bus Interface The Intel 855GME 6300ESB chipset supports the Pentium M processors with up to 400MHz front side bus The XVME 689 690 incorporates one PCI X bus which is used to service the two Intel 82546EB Ethernet controllers and the on board PMC site The PMC site supports both 32 bit 33MHz and 64 bit 66MHz bus speeds with 5V I O support The XVME 689 690 supports on PCI bus for 32 bit 33MHz operation this bus serv
82. rel Figure 1 1 XVME 689 690 Block Diagram 1 7 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com Introduction Environmental Specifications The XVME 689 690 will meet the following environmental reguirements Environmental Specification Operating Non Operating Thermal 40 to 85 C Humidity 1096 to 9096 RH 10 to 90 RH non non condensing condensing Shock 30 g peak 50 g peak acceleration acceleration 11 11 msec duration msec duration Vibration 0 015 0 38mm 0 030 0 76mm peak to peak 5 2000 Hz peak to peak displacement 5 g maximum displacement 2 5g acceleration maximum acceleration Emissions EN 55022 EN 55022 Immunity EN 50082 2 EN 50082 2 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com Introduction Hardware Specifications Characteristic Specification Power Specifications 5 4 A typical 10 5 A maximum Voltage Specifications 5V 12V 12V all 5 2 5 CPU speed Intel Pentium M Low Power 1 8 GHz Processor Onboard memory SDRAM up to 2 GB one 200 pin SODIMM Integrated Graphics Controller 1600 x 1200 maximum resolution 24 bit color maximum 4 MB Shared memory Ethernet Controllers 2 Intel 82546GB 10 100 1000Base TX Gigabit Ethernet RJ 45 Mass Storage Integrated SATA 150 Controller SATAO and SATA1 via P2 EIDE Ultra DMA 100 interface 2 chann
83. s feature is theoretically nondestructive WARNING BECAUSE THE OEM S ADAPTATION AND OTHER FACTORS ARE BEYOND GENERAL S CONTROL YOU ARE ADVISED THAT THIS FEATURE COULD CAUSE DATA LOSS AT YOUR SOLE EXPENSE ACCORDINGLY IT IS PROVIDED AS IS WITHOUT WARRANTY OF ANY KIND ALWAYS BACKUP YOUR DATA BEFORE PERFORMING DIAGNOSTICS ON ANY SYSTEM AS THEY COULD CAUSE DATA LOSS Floppy Disk Read Stimulation Enables System Monitor s read of a preconfigured number of sectors from a location on the first floppy disk in the system in order to stimulate the SMM environment This is useful when measuring code path lengths in USB boot when the first floppy drive is configured in the BBS list as a USB floppy drive Floppy Disk Write Stimulation Enables System Monitor s write of a preconfigured number of sectors to a location on the first floppy disk in the system in order to stimulate the SMM environment This is useful when measuring code path lengths in USB boot when the first floppy drive is configured in the BBS list as a USB floppy 3 22 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com BIOS Setup Menus drive Please note that when this parameter is selected the system automatically enables reading so that the stimulation of the system includes reading a range of sectors into a memory buffer and writing the same data back to the same range of sectors f
84. succession Platform will continue to reboot after every boot until the system s CMOS is reset as there is no way to enter Setup from this early point during POST POST Slow Reboot Cycle Enable late reboot in POST allowing service technician to cause the system to move through POST and then reboot causing POST to be reexecuted over and over until Setup is reentered and this option is disabled When left unattended this is a straightforward way of having POST exercise system memory and peripherals without requiring a boot to a drive with an operating system installed The following table describes the settings associated with the POST setup menu s Device Initialization section POST Floppy Seek Enable head seek on each floppy drive configured in the system Used to recalibrate the drive in some systems with older DOS operating systems POST Hard Disk Seek Enable head seek on each hard drive configured in the system This is a way of extending the standard testing performed on each drive during POST by requesting that the drive actually move the head Not available with all drives 3 11 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com BIOS Setup Menus 3 5 Plug and Play Configuration Menu The PnP menu is used to configure Plug n Play a legacy BIOS initiative used to support operating systems such as Windows95 Windows98 and WindowsNT A
85. t is switched to the rear optional PO no lights are available to indicate link or speed The use of the XVME 990 is required to connect RJ 45 cables to the rear of the XVME 689 and XVME 690 processor boards Storage Devices Hard Drive Floppy Compact PCI and On Board Drive EIDE and Floppy Drives The XVME 689 690 primary IDE and floppy drive signals are routed through the P2 connector inner three rows available in a legacy 96 pin back plane providing a simplified method of connecting up to two IDE devices and one external floppy drive The secondary IDE master signals support the optional on board hard drive or on board Compact Flash site and the secondary IDE slave signals are not supported When used with the XVME 977 and or the XVME 979 mass storage modules the IDE devices and floppy drives do not need to be located next to the processor Using the supplied six inch ribbon cable which connects the XVME boards J2 VME backplane connectors the XVME 977 or the XVME 979 can be installed up to four slots away from the XVME 690 on the VME backplane This allows greater flexibility in configuring the VMEbus card cage For applications that require mass storage outside the VMEbus chassis the X VME 990 rear transition module plugs onto the VMEbus J2 connector This module provides industry standard connections for IDE and floppy signals One floppy drive can be connected to the XVME 990 This drive may be 2 88 MB 1 44 MB 1 2 MB or 720 KB 360
86. tempt to classify the connected drive if the drive supports the auto ID command If you experience problems change the Transfer Mode to Standard Caution 5 6 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com Rear Transition Module The total cable length must not exceed 12 inches Also if two drives are connected they must be no more than six inches apart USB Port Connector USB provides an expandable hot pluggable Plug and Play serial interface that ensures a standard low cost connection for peripheral devices Devices suitable for USB range from simple input devices such as keyboards mice and joysticks to advanced devices such as printers scanners storage devices modems and video conferencing cameras USB 2 0 has a raw data rate at 480Mbps and it is rated 40 times faster than its predecessor interface USB 1 1 which tops at 12Mbps USB port 1 is available on the front panel using a standard connector as shown in Figure 2 10 below The other two USB ports USB 2 and 3 are routed out the VMEbus P2 connector and can be accesses either directly off the VMEbus P2 connector using the pin assignment shown in Fig 5 3 and table 5 4 The USB 5 V supplies are protected with a polyswitch This device will open up if 5 V is shorted to GND Once the shorting condition is removed the polyswitch will allow current flow to resume Table 5 7 USB Port Connector Pin out U
87. ter Configuration 1 44MB 3 5 E Drive Configuration Autoconfig Multi word DMA mode Autoconfig Multi word DMA mode Autoconfig Fastest support mode Autoconfig Artisan Technology Group Quality Instrumentation This is the order in which the BIOS will look for the Operating System Place the device to which you want to Boot at the top on the list The device Names are loaded by the BIOS as it finds the hardware Not Installed 360KB 5 25 1 2MB 5 25 720KB 3 5 1 44MB 3 5 and 2 88MB 3 5 AutoConfig AutoConfig Physical AutoConfig LBA AutoConfig Phoenix and Not Installed PIO Mode MULTI Word DMA Mode UDMA Mode 40 Conductor Cable UDMA Mode 80 Conductor Cable Fastest Supported Mode AutoConfig AutoConfig Physical AutoConfig LBA AutoConfig Phoenix and Not Installed PIO Mode MULTI Word DMA Mode UDMA Mode 40 Conductor Cable UDMA Mode 80 Conductor Cable Fastest Supported Mode AutoConfig AutoConfig Physical AutoConfig LBA AutoConfig Phoenix and Not Installed PIO Mode MULTI Word DMA Mode UDMA Mode 40 Conductor Cable UDMA Mode 80 Conductor Cable Fastest Supported Mode AutoConfig AutoConfig Physical AutoConfig LBA AutoConfig Phoenix and Not Installed 3 7 Guaranteed 888 88 SOURCE www artisantg com BIOS Setup Menus IDE 3 Mode Fastest support mode PIO Mode MULTI Word DMA Mode UDMA Mode 40 C
88. ter suited to that application SATA cable can be up to 1 meters or 39 long EIDE have be less than 18 long Serial ATA 7 pin connector The 0 5 wide cable connector directly connects the 4 signal wires and 3 ground lines to the receiving terminal in a single row Because the connector includes the shielding ground pins very little crosstalk is introduced Note that the receiving terminal uses extended connectors for the 3 ground signals so that the ground reference between the device and host can be shared prior to signals being applied at the input A similar mating sequence is enforced with the new 7 8 wide 15 pin single row power connector This feature is necessary to accommodate hot plugging The 7 pin plugs from both channels of the SATA 150 are on the XVME 990 the use of this rear transition module make it possible to connect to a SATA drive Contact www serialata org for more information on the SATA interface On Board Hard Drive Optional module XVME 913 The on board hard drive resides as a master on the secondary EIDE port The XVME 913 is a Kit of parts including 1 8 hard drive cable 4 brackets screws and standoffs There are no unique drivers required The XVME 689 690 can be booted from the on board hard drive if configured in the BIOS Boot menu NOTE The XVME 689 690 module can accept either an on board 1 8 hard drive XVME 913 or the Compact Flash carrier XVME 912 but not both Compact Flash Site Optional module X
89. tg com WeBuyEquipment EQUIPMENT DEMOS HUNDREDS OF InstraV ea REMOTE INSPECTION LOOKING FOR MORE INFORMATION MANUFACTURERS Remotely inspect equipment before purchasing with Visit us on the web at www artisantg com 7 for more our interactive website at www instraview com 7 information on price duotations drivers technical LEASING MONTHLY specifications manuals and documentation RENTALS ITAR CERTIFIED ode We aed Contact us 888 88 SOURCE sales artisantg com www artisantg com
90. the VMEbus thus the XVME 690 becomes deadlocked If the XVME 690 is to be used as a master and a slave at the same time the VMEbus master cycles must obtain the VMEbus prior to initiating VMEbus cycles All Slave interface cycles are byte swapped to maintain address coherency VMEbus Interrupt Handling The XVME 689 690 can service IRQ 7 1 A register in the Universe enables which interrupt levels will be serviced by the XVME 689 690 When a VMEbus IRQ is asserted the Universe requests the VMEbus and generates and IACK cycle Once the IACK cycle is complete a PCI bus interrupt is generated to allow the proper ISR Interrupt service routine to be executed The Universe connects to all 4 PCI bus interrupts These interrupts may be shared by other PCI bus devices The BIOS maps the PCI bus interrupts to the AT bus Interrupt controllers The AT bus interrupts must be uniquely mapped to each device Because the PCI devices share interrupt lines all ISR routines must be prepared to chain the interrupt vector to allow the other devices to be serviced 4 6 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com Programming Note The 6300ESB allows multiple PCI bus Interrupts to be mapped to one AT bus interrupt Example In the BIOS setup menu map the VMEbus IRQ 1 to PCI IRQ 11 VMEbus Interrupt Generation The XVME 689 690 can generate VMEbus interrupts on all 7 levels There is a unique ST
91. traight through the byte swapping hardware To do this maintaining numeric consistency enable the straight through buffers by setting bits 6 and 7 of the Flash Paging and Byte Swap register register 234h to 1 see p 2 4 Note With the straight through buffers enabled the XVME 690 does not support unaligned transfers Sixteen bit or 32 bit transfers must have an even address 4 9 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com Programming Address Consistency Address consistency or address coherency refers to communications between the XVME 689 690 and the VMEbus in which both architectures addresses are the same for each byte In other words the XVME 689 690 and the VMEbus memory images appear the same Address consistency is desirable for byte oriented data such as strings or video image data Consider the example of transferring the string Text to the VMEbus memory using a 32 bit transfer in Figure 4 4 Pentium Register 32 bit VMEbus Byte swapping Hardware Address M M 1 M 2 M 3 XVME 690 VMEbus Figure 4 4 Maintaining Address Consistency Notice that the data byte at each address is identical To achieve this the data bytes need to be swapped as they are passed from the PCI bus to the VMEbus To maintain address consistency enable the byte swapping buffers by setting bits 6 and 7 of the Flash Paging and Byte Swap register register 234h to 0 se
92. troller USB UHCI Controller USB EHCI Controller SMBus Controller AC 97 Audio AC 97 Modem Watchdog Timer APIC1 HUB to PCI X Bridge Serial ATA Controller 0000 0000 Universe IID PCI VMEbus Bridge 8000 5000 PCI R G 0 OAH PMC 1 70976 201 8000 A000 R G2 14H PMC 1 70976 203 8000 A000 R G2 14H PMC2 70976 203 8000 9000 R G 3 12H PCI Card 70976 205 8000 A000 R G2 DOOD gt O2 O0 O0 W O UUO UO O 2 0 J 14H Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com Programming VME Interface The VME interface is the Tundra Universe IID chip which is a PCI bus to VMEbus bridge device The XVME 690 implements a 32 bit PCI bus and a 32 64 bit VMEbus interface The Universe chip configuration registers are located in a 4 KB block of PCI memory space This memory location is programmable and defined by PCI configuration cycles The VMEbus controller has four main functions System Resources or the traffic cop of the bus Master interface which starts conversation on the bus Slave interface which responds to a bus master s question and the interrupt functions which uses seven 7 levels of interrupt control Note For your frame of reference the left side below is the XVME 689 690 board and the right side below is the VMEbus PCI memory slave access VMEbus master a
93. tructural parts printed circuit boards connectors batteries etc are capable of being recycled Final disposition of this product after its service life must be accomplished in accordance with applicable country state or local laws or regulations Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com rtisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com Table of Contents Table of Contents FOV NAG oe N N RS ER iE E Cn ee Ra i Table ot OS SR n tedio EE eb di Eee a ebur NO OE V able Of SES CRIT T EN vii Chapter ule 1 1 Module cnc m NE 1 1 Neelsie unl M ERR 1 2 NSR EES eie 0103 ao 1 6 Operational Description ire i ESE Bees ee boe cb Se Ge DEK Ue Ee DRAERS ee eV e De Gog GREG REEN ee EE Gee Eeden Ee ees ai 1 7 Environmental Specifications eiii soeke ke EL neci a ep besk ce RO bu bd eb be ek ee ode 1 8 Hardware Specifications ciini het pee reci ge Fei bi Free eo Pee e REC ele deo abe Pe KS ae 1 9 VMEbus Specification Rem 1 10 System Configuration and Expansion Options Tables eese 1 10 Chapter 2 Installation and Setup ses EERS REEKSE Ee tren ERA RSA Rek RED Deed RE DL n ES REA 2 1 JUTAPSP SSC SS ese EA NE OE NE N EE GEE EE EG 2 2 SWEN
94. y is recognized during boot up on the Boot time diagnostic screen that can be turned on in the BIOS see p Error Bookmark not defined Module Battery Installation During battery replacement polarity must be observed in installing the coin battery Please be sure to dispose of the spent battery in an environmentally correct manner The replacement battery must be a CR2032 or equivalent type EE T ue 5 Top is marked posite f 4 N J n P d T Batom ia masala Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com Index Index Abort toggle switch 4 6 Abort Clear CMOS register 2 3 backplane installing the XVME 660 2 17 BIOS menus Main MENU esse de ee ee ee 3 2 VMEbus menu Slave Interface submenus 3 26 System Controller submenu 3 24 block diagram sesse esse se ee ee ee ee 1 7 byte swapping 2 5 4 7 4 9 4 10 Compact Flash drive 1 4 compliance VMEbus 1 10 connectors CPU fan power 2 16 keyboard port sess 2 6 PMG wis cater eta EE rte Irene 2 15 RJ 45 10 100 Base T 2 19 5 9 Univeral Serial Bus USB 2 0 5 7 NGA D 2 8 5 10 VMEDUS vi ide aisle 2 12 XVME 973 1 P senda EE NE EE 5 2 D3 eed es EE EE ee horns 5 5 RE EE 5 6 CPU
95. your new settings or they revert back to old values if the new values are not valid entries 3 3 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com BIOS Setup Menus 3 2 Exit Menu The Exit menu provides methods for saving changes made in other menus discarding changes or reloading the standard system settings This menu is shown in Figure 3 2 below System Configuration Utility Main Exit Boot Post PnP SIO Features Firmbase Misc Save Settings and Restart Enter Press ENTER to save Change and reboot Exit Setup Without Saving Changes Enter System Reload Factory Defaults and Restart Enter Embedded BIOS 2000 V6 0 5 Copyright 2006 General Software Inc N Figure 3 2 Save Restore and Restart Menu To select any of these options position the cursor over the option and press the ENTER key Pressing the ESC key at any time within the Setup system is equivalent to requesting Exit Setup without Saving Changes All three options request verification before performing the selected action otherwise the system configuration might be saved or lost by accident Figure 3 3 illustrates the verification popup for saving and exiting the other options are similar 3 4 Artisan Technology Group Quality Instrumentation Guaranteed 888 88 SOURCE www artisantg com BIOS Setup Menus 3 3 System Boot Menu The Boot menu allows the system s boot acti
Download Pdf Manuals
Related Search