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intel? server boards s5000psl and s5000xsl technical product specification intel order number: D41763-005 revision 1.4 november 2007 enterprise platforms and services division ? marketing revision 1.4 intel order number: D41763-005 ii
intel? server boards s5000psl and s5000xsl revision history revision history date revision number modifications november 2005 0.5 preliminary draft march 2006 0.9 updated all sections with the latest product information, updated illustrations, added section for regulatory/certificat ion, added appendix for sensor table, post code diagnostic led?s, post code & error handling, supported chassis, added references for the s5000xsl. may 2006 1.0 updated the server board pict ure and block diagram, added information for which slot the romb card goes in to, added information on the hdd led header, added information on the snoop filter, and cl eaned other general things up in the document. september 2006 1.1 updated legal di sclaimer; updated processor table; updated memory section september 2006 1.2 updated reference documents aug 2007 1.3 updated to reflect new proc essor support and new product codes where applicable. updated sections 3.1, 3.1.3.4.2.3, 3.2.1.4, 3.2.1.5, 3.2.2. 1, 3.5.2, 6.1. added 3.1..3.4.2.3. updated table 1, 2, 46; updated fig 2; updated appendix a and appendix e; november 2007 1.4 added board dimension to table 1, server board features ; corrected processor naming convention; removed table 2, processor support matrix ; corrected table 8, nic status led ; removed unused bnb temp sensor from table 46, bmc sensors . disclaimers information in this document is provided in connection with intel ? products. no license, express or implied, by estoppel or otherwise, to any intellectual property rights is granted by this document. except as provided in intel's terms and conditions of sale for such products, intel assumes no liability whatsoever, and intel disclaims any express or implied warranty, relating to sale and / or use of intel products including liability or warranties relating to fitness for a particular purpose, merchantability, or infringem ent of any patent, copyright or other intellectual property right. intel products are not intended for use in medical, lif e saving, or life sustaining applications. intel may make changes to specifications and product descr iptions at any time, without notice. designers must not rely on the absence or characteristics of any features or instructions marked "reserved" or "undefined." intel reserves these for fu ture definition and shall have no respons ibility whatsoever for conflicts or incompatibilities arising from future changes to them. the intel ? server boards s5000psl and s5000xsl may contain desi gn defects or errors known as errata which may cause the product to deviate from published specifications. refer to the intel? server boards s5000psl and s5000xsl specification update for published errata. intel corporation server baseboards contain a number of high-density vlsi and power delivery components that need adequate airflow to cool. intel?s own chassis are designed and tested to meet the int ended thermal requirements of these components when the fully integrated system is used together. it is t he responsibility of the system integrator that chooses not to use intel developed server building blocks to consult vendor dat asheets and operating parameters to determine the amount of air flow required for their specific applicat ion and environmental conditions. intel corporation can not be held responsible if components fail or the server boar d does not operate correctly when used outside any of their published oper ating or non-oper ating limits. revision 1.4 intel order number: D41763-005 iii
intel, pentium, itanium, and x eon are trademarks or registered tr ademarks of intel corporation. *other brands and names may be clai med as the property of others. copyright ? intel corporation 2006, 2007. revision 1.4 intel order number: D41763-005 iv
intel? server boards s5000psl and s5000xsl tps table of contents table of contents 1. introduction ................................................................................................................... ..... 13 1.1 chapter outline...................................................................................................... 13 1.2 server board use disclaimer ................................................................................ 13 2. server board overview ...................................................................................................... 15 2.1 server board feature set...................................................................................... 15 2.2 server board layout.............................................................................................. 17 2.2.1 server board connector and component layout.................................................. 18 2.2.2 server board mechanical drawings ...................................................................... 20 2.2.3 server board atx i/o layout ................................................................................ 26 3. functional architecture ..................................................................................................... 27 3.1 intel ? 5000p / 5000x memory controller hub (mch) ............................................ 29 3.1.1 system bus interface............................................................................................. 29 3.1.2 processor support ................................................................................................. 29 3.1.3 memory sub-system .............................................................................................. 31 3.1.4 snoop filter (5000x mch only) ............................................................................. 41 3.2 enterprise south bridge (esb2-e) ........................................................................ 41 3.2.1 pci sub-system..................................................................................................... 42 3.2.2 serial ata support ................................................................................................ 44 3.2.3 parallel ata (pata) support ................................................................................ 45 3.2.4 usb 2.0 support.................................................................................................... 45 3.3 video support ........................................................................................................ 45 3.3.1 video modes.......................................................................................................... 47 3.3.2 video memory interface......................................................................................... 47 3.3.3 dual video ............................................................................................................. 47 3.4 sas controller ....................................................................................................... 48 3.4.1 sas raid support ................................................................................................ 48 3.4.2 sas / sata connector sharing ............................................................................ 48 3.5 network interface controller (nic) ........................................................................ 48 3.5.1 intel ? i/o acceleration technolgy .......................................................................... 49 3.5.2 mac address definition......................................................................................... 49 3.6 super i/o ............................................................................................................... 49 3.6.1 serial ports ............................................................................................................ 50 revision 1.4 intel order number: D41763-005 v
table of contents intel? server boards s5000psl and s5000xsl tps 3.6.2 floppy disk controller ........................................................................................... 50 3.6.3 keyboard and mouse support ............................................................................... 50 3.6.4 wake-up control.................................................................................................... 50 3.6.5 system health support.......................................................................................... 50 4. platform management........................................................................................................ 51 5. connector / header locations and pin-outs.................................................................... 53 5.1 board connector information................................................................................. 53 5.2 power connectors ................................................................................................. 54 5.3 system management headers .............................................................................. 56 5.3.1 intel ? remote management module (intel ? rmm) connector ............................... 56 5.3.2 lcp / aux ipmb header ....................................................................................... 57 5.3.3 ipmb header ......................................................................................................... 58 5.3.4 hsbp header ........................................................................................................ 58 5.3.5 sgpio header....................................................................................................... 58 5.3.6 ses i 2 c.................................................................................................................. 58 5.3.7 hdd activity led header ...................................................................................... 59 5.4 front panel connector........................................................................................... 59 5.5 i/o connectors....................................................................................................... 59 5.5.1 vga connector...................................................................................................... 59 5.5.2 nic connectors ..................................................................................................... 60 5.5.3 ide connector ....................................................................................................... 60 5.5.4 intel ? remote management module nic connector ............................................. 61 5.5.5 sata / sas connectors ........................................................................................ 63 5.5.6 serial port connectors........................................................................................... 63 5.5.7 keyboard and mouse connector ........................................................................... 64 5.5.8 usb connector...................................................................................................... 65 5.6 fan headers .......................................................................................................... 66 6. jumper blocks.................................................................................................................. .. 68 6.1 cmos clear and password reset usage procedure ........................................... 69 6.1.1 clearing the cmos................................................................................................ 69 6.1.2 clearing the password........................................................................................... 69 6.2 bmc force update procedure .............................................................................. 70 6.3 bios select jumper .............................................................................................. 70 7. intel ? light guided diagnostics........................................................................................ 71 7.1 5 volt standby led ............................................................................................... 71 revision 1.4 intel order number: D41763-005 vi
intel? server boards s5000psl and s5000xsl tps table of contents 7.2 fan fault leds...................................................................................................... 72 7.3 system id led and system status led ............................................................... 73 7.3.1 system status led ? bmc initialization ................................................................ 74 7.4 dimm fault leds .................................................................................................. 76 7.5 processor fault leds............................................................................................ 77 7.6 post code diagnostic leds .................................................................................. 78 8. design and environmental specifications....................................................................... 79 8.1 server boards s5000psl and s5000xsl design specifications ......................... 79 8.2 board-level calculated mtbf................................................................................ 79 8.3 server board power requirements ....................................................................... 80 8.3.1 processor power support...................................................................................... 81 8.4 power supply output requirements ..................................................................... 81 8.4.1 grounding .............................................................................................................. 82 8.4.2 standby outputs .................................................................................................... 82 8.4.3 remote sense ....................................................................................................... 82 8.4.4 voltage regulation ................................................................................................ 83 8.4.5 dynamic loading ................................................................................................... 83 8.4.6 capacitive loading ................................................................................................ 84 8.4.7 ripple / noise ........................................................................................................ 84 8.4.8 timing requirements............................................................................................. 84 8.4.9 residual voltage immunity in standby mode ........................................................ 87 9. regulatory and certification information......................................................................... 88 9.1 product regulatory compliance ............................................................................ 88 9.1.1 product safety compliance ................................................................................... 88 9.1.2 product emc compliance ? class a compliance ................................................. 88 9.1.3 certifications / registrations / declarations ........................................................... 89 9.2 product regulatory compliance markings ............................................................ 89 9.3 electromagnetic compatibility notices .................................................................. 90 9.3.1 fcc verification statement (usa) ........................................................................ 90 9.3.2 ices-003 (canada) ............................................................................................... 90 9.3.3 europe (ce declaration of conformity) ................................................................. 91 9.3.4 vcci (japan) ......................................................................................................... 91 9.3.5 bsmi (taiwan) ....................................................................................................... 91 9.3.6 rrl (korea)........................................................................................................... 91 9.3.7 cnca (ccc-china) ............................................................................................... 92 revision 1.4 intel order number: D41763-005 vii
table of contents intel? server boards s5000psl and s5000xsl tps 9.4 restriction of hazardous substances (rohs) compliance................................... 92 appendix a: integration and usage tips................................................................................ 93 appendix b: bmc sensor tables ............................................................................................ 94 appendix c: post code diagnostic led decoder ............................................................. 109 appendix d: post code errors ............................................................................................ 114 appendix e: supported intel ? server chassis ..................................................................... 117 glossary....................................................................................................................... ............ 118 reference documents ............................................................................................................ 121 revision 1.4 intel order number: D41763-005 viii
intel? server boards s5000psl and s5000xsl tps list of figures list of figures figure 1. server board photograph ............................................................................................ 17 figure 2. major board components............................................................................................ 19 figure 3. mounting hole positions .............................................................................................. 20 figure 4. component positions.................................................................................................. .21 figure 5. restricted areas on side 1 .......................................................................................... 2 2 figure 6. restricted areas on side 2 .......................................................................................... 2 3 figure 7. restricted areas on side 2, ?detail b? ......................................................................... 24 figure 8. cpu and memory duct keepout ................................................................................. 25 figure 9. atx i/o layout ....................................................................................................... ..... 26 figure 10. functional block diagram.......................................................................................... 28 figure 11. cek processor mounting .......................................................................................... 31 figure 12. memory layout ....................................................................................................... ... 32 figure 13. minimum two dimm memory configuration.............................................................. 37 figure 14. recommended four dimm configuration ................................................................. 38 figure 15. single branch mode sparing dimm configuration .................................................... 40 figure 16. smbus block diagram.............................................................................................. 52 figure 17. jumper blocks (j1c3, j1d1, j1d2, j1e32) .............................................................. 68 figure 18. 5 volt standby status led location.......................................................................... 71 figure 19. fan fault led locations ........................................................................................... 72 figure 20. system id led and system status led locations................................................... 73 figure 21. dimm fault led locations........................................................................................ 76 figure 22. processor fault led locations ................................................................................. 77 figure 23. post code diagnostic led location ....................................................................... 78 figure 24. power distribution block diagram ............................................................................. 80 figure 25. output voltage timing ............................................................................................... 85 figure 26. turn on/off timing (power supply signals).............................................................. 86 figure 27. diagnostic led placement diagram ....................................................................... 109 revision 1.4 intel order number: D41763-005 ix
list of tables intel? server boards s5000psl and s5000xsl tps list of tables table 1. server board features................................................................................................. .15 table 2. i 2 c addresses for memory module smb ...................................................................... 33 table 3. maximum eight-dimm system memory configruation ? x8 single rank ..................... 34 table 4. maximum eight-dimm system memory configuration ? x4 dual rank........................ 34 table 5. pci bus segment characteristics................................................................................. 42 table 6. video modes ........................................................................................................... ...... 47 table 7. nic status led........................................................................................................ ..... 48 table 8. serial b header pin-out ............................................................................................... .50 table 9. board connector matrix ................................................................................................ 53 table 10. power connector pin-out (j9b5) ................................................................................ 54 table 11. 12 v power connector pin-out (j3j2) ........................................................................ 55 table 12. power supply signal connector pin-out (j9d1) ......................................................... 55 table 13. p12v4 power connector pin-out (j5a2) .................................................................... 55 table 14. rmm connector pin-out (j5b1).................................................................................. 56 table 15. lpc / aux ipmb header pin-out (j2j1)..................................................................... 57 table 16. ipmb header pin-out (j4j1) ....................................................................................... 58 table 17. hsbp header pin-out (j1j7, j1j2) ............................................................................ 58 table 18. sgpio header pin-out (j2h1, j1j5) .......................................................................... 58 table 19. ses i 2 c header pin-out (j1j3)................................................................................... 58 table 20. hdd activity led header pin-out (j2j3).................................................................... 59 table 21. front panel ssi standard 24-pin connector pin-out (j1e4) ...................................... 59 table 22. vga connector pin-out (j7a1)................................................................................... 59 table 23. rj-45 10/100/1000 nic connector pin-out (ja6a1, ja6a2)...................................... 60 table 24. ide 40-pin connector pin-out (j2j2) .......................................................................... 60 table 25. 40-pin rmm nic module connector pin-out (j3b2) ................................................... 61 table 26. sata / sas connector pin-out (j1j1, j1h2, j1h1, j1g2, j1g1, j1f2) ................... 63 table 27. external db9 serial a port pin-out (j7a1).................................................................. 63 table 28. internal 9-pin serial b header pin-out (j1b1)............................................................. 64 table 29. stacked ps/2 keyboard and mouse port pin-out (j9a1) ........................................... 64 table 30. external usb connector pin-out (ja6a1, ja6a2) ...................................................... 65 table 31. internal usb connector pin-out (j3j1)....................................................................... 65 table 32. ssi 4-pin fan header pin-out (j9j1, j5j1, j9b3, j9b4)............................................ 66 revision 1.4 intel order number: D41763-005 x
intel? server boards s5000psl and s5000xsl tps list of tables table 33. ssi 6-pin fan header pin-out (j3h1, j3h2, j3h3, j3h4).......................................... 66 table 34. server board jumpers (j1c3, j1d1, j1d2, j1e3) ..................................................... 68 table 35. system status led.................................................................................................... .74 table 36. server board design specifications ........................................................................... 79 table 37. intel ? xeon ? processor dual processor tdp guidelines ........................................... 81 table 38. 550 w load ratings ................................................................................................... 81 table 39. voltage regulation limits ........................................................................................... 8 3 table 40. transient load requirements..................................................................................... 83 table 41. capacitive loading conditions ................................................................................... 84 table 42. ripple and noise..................................................................................................... .... 84 table 43. output voltage timing ................................................................................................ 85 table 44. turn on/off timing ................................................................................................... .. 86 table 45. bmc sensors.......................................................................................................... .... 96 table 46. post progress code led example ........................................................................ 110 table 47. diagnostic led post code decoder ...................................................................... 110 table 48. post error messages and handling........................................................................ 114 table 49. post error beep codes .......................................................................................... 116 table 50. bmc beep codes ..................................................................................................... 11 6 revision 1.4 intel order number: D41763-005 xi
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intel? server boards s5000psl and s5000xsl tps list of tables 1. introduction this technical product specification (tps) provides board-specific information about the features, functionality, and high-leve l architecture of the intel ? server boards s5000psl and s5000xsl. see the intel ? s5000 server board family datasheet for details about board sub-systems, including the chipset, bios, and server management. in addition, design level information for specific sub-systems can be obtained by ordering the external product specifications (eps) for a given sub-system. eps documents are not publicly available and must be ordered through your local intel representative. 1.1 chapter outline this document is divided into the following chapters ? chapter 1 ? introduction ? chapter 2 ? server board overview ? chapter 3 ? functional architecture ? chapter 4 ? platform management ? chapter 5 ? connector and header location and pin-out ? chapter 6 ? configuration jumpers ? chapter 7 ? light-guided diagnostics ? chapter 8 ? power and environmental specifications ? chapter 9 ? regulatory and certification information ? appendix a ? integration and usage tips ? appendix b ? bmc sensor tables ? appendix c ? post code diagnostic led decoder ? appendix d ? post code errors ? appendix e ? supported intel ? server chassis 1.2 server board use disclaimer intel corporation server boards support add-in peripherals and contain a number of high-density vlsi and power delivery components that need adequate airflow to cool. intel ensures through its own chassis development and testing that when intel se rver revision 1.4 intel order number: D41763-005 13
server board overview intel? server boards s5000psl and s5000xsl tps building blocks are used together, the fully integrated system will meet the intended thermal requirements of these components. it is the responsibility of the system integrator who chooses not to use intel-developed server building blocks to consult vendor datasheets and operating parameters to determine the amount of air flow required for their specific application and environment al conditions. intel corporation cannot be held responsible if co mponents fail or the server board does not operate correctly when used outside any of their published operating or non-operating limits. revision 1.4 intel order number: D41763-005 14
intel? server boards s5000psl and s5000xsl tps list of tables 2. server board overview the intel ? server boards s5000psl and s5000xsl are monolithic printed circuit boards with features that support the pedestal server markets. 2.1 server board feature set table 1. server board features feature description server board dimension 13.0 inches x12.0 inc hes (330.2 mm x 304.8 mm) processors socket j (771-pin lga sockets ) supporting one or two multi-core intel ? xeon ? processors 5000 sequence, with system bus speeds of 667 mhz, 1066 mhz, and 1333 mhz. only the product code ending with an ?r? support 45nm dual-core 2p in tel? xeon? processors or 45nm quad-core 2p intel? xeon? processors. memory eight dimm sockets supporting fully buffered dimm tec hnology (fbdimm) memory. 240-pin ddr2-533 and ddr2-677 fbdimms can be used. chipset intel ? 5000p memory controller hub (server board s5000psl only) intel ? 5000x memory controller hub (server board s5000xsl only) intel ? esb2-e i/o controller add-in pci, pci-x*, pci express* cards ? one full-length / full-height pci-x 64-bit slot with up to 133-mhz support when only one pci-x slot is populated ? one full-length / full-height pci-x 64- bit slot with up to 100 mhz support ? one full-length / full-height pc i express* x8 (x4 throughput) [1] or x8 (x8 throughput) slot [2] ? one half-length / full-height pci express* x8 (x4 throughput) slot ? two full-length / full-height pci express* x16 (x8 throughput) slots revision 1.4 intel order number: D41763-005 15
server board overview intel? server boards s5000psl and s5000xsl tps feature description server board dimension 13.0 inches x12.0 inc hes (330.2 mm x 304.8 mm) on-board connectors/headers external connections: ? stacked ps/2* ports for keyboard and mouse ? stacked video / db9 serial port a connector ? two rj45 / 2xusb connectors for 10 / 100 / 1000 mb and usb 2.0 support ? one usb 2x5 pin header, which supports two usb ports ? one usb port type a connector ? one dh10 serial port b header ? six sata-2 connectors with embedded raid 0, 1, and 10 support [2] . software raid 5 support through an optional sata software raid 5 key [3] ? two sata-2 connectors and four sas/ sata-2 c onnectors with embedded raid 0, 1, and 10 support [1] . software raid 5 support through an optional sas raid key [3] . the embedded sas raid supports up to 8 hard drives with expander backplane ? one ata100 40-pin connector ? one rmm/rmm2 connector to support the optional intel ? remote management module or intel ? remote management module 2 ? one i/o connector supporting an optional rmm/rmm2 nic i/o module ? ssi-compliant front panel header ? ssi-compliant 24-pin main power connector, s upporting the atx-12 v standar d on the first 20 pins video on-board ati* es1000 video controller with 16-mb ddr sdram hard drive support for six sata-2 hard drives support for four sas/sata-2 hard drives with non-expanded backplane [4] . lan two 10 / 100 / 1000 intel ? 82563eb phys supporting intel ? i/o acceleration technology fans support for ? two processor fans ? four front hot-swap fans ? two rear system fans server management support for intel ? system management software note 1: available with product codes s5000pslsas/s5000pslsasr, bb5000pslsas/bb5000pslsasr note 2: available with product codes s5000pslsata/s5000pslsatar, s5000pslromb/s5000pslrombr, bb5000pslsata/bb5000prlsatar, bb5000pslromb/bb5000pslrombr, or bb5000xslsata/bb5000xslsatar note 3: the sata software raid 5 key is same as sas software raid 5 key, but install to different on-board connector. note 4: available with product codes s5000pslsas/s5000psasr, bb5000pslsas/bb5000pslsasr, s5000pslromb/s5000pslrombr, or bb5000pslsromb/bb5000pslrombr revision 1.4 intel order number: D41763-005 16
intel? server boards s5000psl and s5000xsl tps list of tables 2.2 server board layout figure 1. server board photograph revision 1.4 intel order number: D41763-005 17
server board overview intel? server boards s5000psl and s5000xsl tps 2.2.1 server board connector and component layout the following figure shows the board layout of the server board. each connector and major component is identified by a letter. a table of component descriptions follows the figure. revision 1.4 intel order number: D41763-005 18
intel? server boards s5000psl and s5000xsl tps list of tables a. pci-x 64-bit, 100-mhz slot 1 q. dimm sockets gg. enclosure management sas ses i2c [1] b. pci-x 64-bit, 133-/100-mhz slot 2 r. proc essor 1 socket hh. hot-swap backplane a header c. pci express* x4 [1] / or pci express* x8 [2] slot 3 (x8 physical connector) s. processor 2 socket ii. sata 0 d. rmm/rmm2 nic connector t. processor 2 fan header jj. sata 1 e. pci express* x4 slot 4 (x8 physical connector, romb slot) u. processor 1 fan header kk. sata 2 or sas 0 [3] f. pci express x8 slot 5 (x16 physical connector) v. system fan 4 header ll. sata 3 or sas 1 [3] g. pci express x8 slot 6 (x16 physical connector) w. system fan 3 header mm. sata 4 or sas 2 [3] h. cmos battery x. ipmb connector nn. sata 5 or sas 3 [3] i. p12v4 connector y. system fan 2 header oo. usb port j. connector for intel ? remote management module or intel ? remote management module 2 z. system fan 1 header pp. front control panel header k. back panel i/o ports aa. processor power connector qq. sata software raid 5 key connector [2] l. diagnostic and identify leds bb. usb header rr. sas software raid 5 key connector [1] m. system fan 6 header cc. ide connector ss. serial b / emergency management port header n. system fan 5 header dd. enclosure management sata sgpio header [2] tt. chassis intrusion header o. main power connector ee. intel ? local control panel header p. auxilliary power signal connector ff. hot-swap backplane b header note 1 : available with product codes s5000pslsas/s5000pslsasr, bb5000pslsas/bb5000xslsasr note 2: available with product codes s5000pslsata / s5000psl satar, s5000pslsromb / s5000pslrombr, bb5000pslsata / bb5000pslsata r, bb5000pslromb / bb5000pslrombr, or bb5000xslsata/bb5000xslsatar note 3: sas connector available with product codes s5000pslsas/s5000pslsasr, bb5000pslsas/bb5000xslsasr figure 2. major board components revision 1.4 intel order number: D41763-005 19
server board overview intel? server boards s5000psl and s5000xsl tps 2.2.2 server board mechanical drawings figure 3. mounting hole positions revision 1.4 intel order number: D41763-005 20
intel? server boards s5000psl and s5000xsl tps list of tables figure 4. component positions revision 1.4 intel order number: D41763-005 21
server board overview intel? server boards s5000psl and s5000xsl tps max height of components and mating components shall not exceed 15.24mm [.600"] heatsink area. .325" [8.26mm] max component height restrictio, 2 places socket area, no component placement allowed, 2 places .118" [3.81mm] max component height restriction, 2 places .433" [14mm] max component height restriction 3 heatsink dissasembly area, .275" [8.26mm] max component height restriction, 4 places imm3 component height 3.6 mm 304.80 12.000 [] typ 18.72 0.737 [] 11.20 0.441 [] typ 20.32 0.800 [] typ 301.50 11.870 [] typ 311.66 12.270 [] typ 322.40 12.693 [] typ 326.57 12.857 [] 330.20 13.000 [] typ 5.33 0.210 [] typ 7.92 0.312 [] typ 16.05 0.632 [] 6.35 0.250 [] 93.98 3.700 [] 22.86 60.96 2.400 [] 116.000 4.5669 [] 60.100 2.3661 [] 72.800 2.8661 [] ? ground pad both sides no component 8 plcs 10.160 0.4000 [] figure 5. restricted areas on side 1 revision 1.4 intel order number: D41763-005 22
intel? server boards s5000psl and s5000xsl tps list of tables no components this zone 16 plcs 2 .100 [2.54<<] max component height in these zones cek heatsink spring plate zone no component placement or through hole leads allowed no components allowed traces okay in this region limited component height .058" maximum 13 places 3 see detail b r typ 25.40 1.000 [] typ 5.08 0.200 [] 78.74 3.100 [] 177.80 7.000 [] 12.70 0.500 [] 7.62 0.300 [] 12.07 0.475 [] 57.15 2.250 [] 5.08 0.200 [] 17.78 0.700 [] 96.52 3.800 [] 5.08 0.200 [] 11 plcs 20.320 0.8000 [] typ 7.620 0.3000 [] r typ 14.730 0.5799 [] ? ground pad no component 1 place 10.160 0.4000 [] 2x 8.000 0.3150 [] 2x 3.120 0.1228 [] 20.320 0.8000 [] 66.554 2.6202 [] 2x 0.350 0.0138 [] figure 6. restricted areas on side 2 revision 1.4 intel order number: D41763-005 23
server board overview intel? server boards s5000psl and s5000xsl tps chassis id pads 5.00 0.197 [] 5.00 0.197 [] 3x 4.00 0.157 [] 3x 10.13 0.399 [] 3x 3.00 0.118 [] figure 7. restricted areas on side 2, ?detail b? revision 1.4 intel order number: D41763-005 24
intel? server boards s5000psl and s5000xsl tps list of tables no component allowed 16.510 [0.6500] 10.160 [0.4000] 0.000 [0.0000] 0.000 [0.0000] 188.152 [7.4076] 193.152 [7.6044] 273.091 [10.7516] 288.290 [11.3500] 187.152 [7.3682] 194.152 [7.6438] 111.351 [4.3839] 118.351 [4.6595] 112.851 [4.4430] 117.851 [4.6398] 107.920 [4.2488] 101.402 [3.9922] 26.635 [1.0486] 73.482 [2.8930] 97.846 [3.8522] 143.732 [5.6588] 26.578 [1.0464] 43.302 [1.7048] 143.136 [5.6353] 168.123 [6.6190] 178.578 [7.0306] 154.685 [6.0900] 145.600 [5.7323] 235.085 [9.2553] 282.585 [11.1254] 317.580 [12.5032] 320.040 [12.6000] 14.0mm component height limit defined by duct detail 14.0mm component height limit defined by duct detail 27.0 mm component height limit defined by duct detail 9.0 mm component height limit defined by duct detail 15.0mm component height limit defined by duct detail 13.0 mm component height limit defined by duct detail support area, no component allowed support area, no component allowed 16.5mm component height limit define by duct detail 1.25mm component height limit define by duct detail figure 8. cpu and memory duct keepout revision 1.4 intel order number: D41763-005 25
server board overview intel? server boards s5000psl and s5000xsl tps 2.2.3 server board atx i/o layout the drawing below shows the layout of the rear i/o components for the server board. af000222 e g c a b d h f a. ps/2 mouse e. nic port 1 (1 gb) b. ps/2 keyboard f. usb port 2 (top), 3 (bottom) c. serial port g. nic port 2 (1 gb) d. video h. usb port 0 (top), 1 (bottom) figure 9. atx i/o layout revision 1.4 intel order number: D41763-005 26
intel? server boards s5000psl and s5000xsl tps list of tables 3. functional architecture the architecture and design of the intel ? server boards s5000psl and s5000xsl are based on the intel ? s5000p and s5000x chipsets respectively. these chipsets are designed for systems that use the intel ? multi-core xeon ? processor with system bus speeds of 667 mhz, 1066 mhz, and 1333 mhz. the chipset contains two main components: the memory controller hub (mch) for the host bridge and the i/o controller hub for th e i/o sub-system. the chipset uses the enterprise south bridge (esb2-e) for the i/o controller hub. this chapter provides a high- level description of the functionality associated with each chipset component and the architectural blocks that make up the server bo ard. for more information about the functional architecture blocks, see the intel ? s5000 server board family datasheet. revision 1.4 intel order number: D41763-005 27
server board overview intel? server boards s5000psl and s5000xsl tps figure 10. functional block diagram revision 1.4 intel order number: D41763-005 28
intel? server boards s5000psl and s5000xsl tps list of tables 3.1 intel ? 5000p / 5000x memory controller hub (mch) the memory controller hub (mch) is a single 1432-pin fcbga pack age, which includes the following core platform functions: ? system bus interface for the processor sub-system ? memory controller ? pci-express ports including the enterprise south bridge interface (esi) ? fbd thermal management ? smbus interface this section provides a high-level overview of some of these core functions as they pertain to this server board. additional information can be obtained from the intel s5000 server board family datasheet and the intel 5000 series chipset memory controller hub datasheet. 3.1.1 system bus interface the mch is configured for symmetric multi-processing across two independent front side bus interfaces that connect to the multi - core intel ? xeon ? processors. each front side bus on the mch uses a 64-bit wide 667-, 1066-, or 1333-mhz data bus. the 1333- mhz data bus is capable of transferring data at up to 10.66 gb/s. the mch supports a 36-bit wide address bus, capable of addressing up to 64 gb of memory. the mch is the priority agent for both front side bus interfaces, and is optimized for one processor on each bus. 3.1.2 processor support the server board supports the following processors: ? one or two dual-core intel ? xeon ? processors 5000 series with a 667-, 1066-, or 1333-mhz front side bus with frequencies starting at 2.67ghz. ? one or two dual-core intel ? xeon ? processors 5100 series with a 1066- , or 1333-mhz front side bus with frequencies starting at 1.60ghz. ? one or two dual-core intel ? xeon ? processors 5300 series with a 1066-, or 1333-mhz front side bus with frequencies starting at 1.60ghz. revision 1.4 intel order number: D41763-005 29
server board overview intel? server boards s5000psl and s5000xsl tps ? one or two dual-core intel ? xeon ? processors 5200 series with a 1066-, or 1333-mhz front side bus with frequencies starting at 1.86ghz. ? only product code ending with ?r? supports this processor series. ? one or two quad-core intel ? xeon ? processors 5400 series with a 1066-, or 1333-mhz front side bus with frequencies starting at 2.33ghz. ? only product code ending with ?r? supports this processor series. previous generations of the intel ? xeon ? processors are not supported on the server board. see the following table for a detailed list of supported multi-core intel ? xeon ? processors. see http://support.intel.com/support/motherboards/server/s5000psl/ for a complete updated list of supported processors. on the support tab, look for ?compatibility? and then ?supported processor list?. note: only intel? multi-core xeon processors with 667mhz, 1066mhz or 1333mhz front side bus are supported. 3.1.2.1 processor population rules when two processors are installed, both must be of identical revision, core voltage, and bus/core speed. when only one processor is installed, it must be in the socket labeled cpu1. the other socket must be empty. the board is designed to provide up to 130a of current per processor. processors with higher current requirements are not supported. no terminator is required in the second processor socket when using a single processor configuration. 3.1.2.2 common enabling kit (cek) design support the server board complies with intel?s common enabling kit (cek) processor mounting and heatsink retention solution. the server board ships with a cek spring snapped onto the underside of the server board, beneath each processor socket. the heatsink attaches to the cek, over the top of the processor and the thermal interface material (tim). see the figure below for the stacking order of the chassis, cek spring, server board, tim, and heatsink. the cek spring is removable, allowing for the use of non-intel heatsink retention solutions. note: the processor heat sink and cek spring shown in the following diagram are for reference purposes only. the actual processor heat sink and cek solutions compatible with this generation server board may be of a different design. revision 1.4 intel order number: D41763-005 30
intel? server boards s5000psl and s5000xsl tps list of tables tp02091 heatsink assembly thermal interface material (tim) server board cek spring chassis af000196 figure 11. cek processor mounting 3.1.3 memory sub-system the mch masters four fully buffered dimm (fbd) memory channel s. fbd memory utilizes a narrow high speed frame oriented interface referred to as a channel. the four fbd channels are organized into two branches of two channels per branch. each bran ch is supported by a separate memory controller. the two channels on each branch operate in lock-step to increase fbd bandwidth. the four channels are routed to eight dimm sockets and are capable of supporting registered ddr2-533 and ddr2-667 fbdimm memory (stacked or unstacked). the read bandwidth of each fbdimm channel 4.25 gb/s for ddr2-533 fbdimm memory which revision 1.4 intel order number: D41763-005 31
server board overview intel? server boards s5000psl and s5000xsl tps gives a total read bandwidth of 17 gb/s for four dimm channels. the read bandwidth of each fbdimm channel 5.35 gb/s for ddr2- 667 fbdimm memory which gives a total read bandwidth of 21.4 gb/s for four dimm channels. on the intel ? server boards s5000psl and s5000xsl, a pair of channels becomes a branch where branch 0 consists of channels a and b, and branch 1 consists of channels c and d. fbd memory c hannels are organized into two branches for support of raid 1 (mirroring). tp02299 dimm d2 dimm d1 dimm c2 dimm c1 dimm b2 dimm b1 dimm a2 dimm a1 branch 0 mch channel a channel b channel d channel c branch 1 figure 12. memory layout to boot the system, the system bios on the server board uses a dedicated i 2 c bus to retrieve dimm information needed to program the mch memory registers. the following table provides the i 2 c addresses for each dimm socket. revision 1.4 intel order number: D41763-005 32
intel? server boards s5000psl and s5000xsl tps list of tables table 2. i 2 c addresses for memory module smb device address dimm a1 0xa0 dimm a2 0xa2 dimm b1 0xa0 dimm b2 0xa2 dimm c1 0xa0 dimm c2 0xa2 dimm d1 0xa0 dimm d2 0xa2 3.1.3.1 memory rasum features the mch supports several memory rasum (reliability, availab ility, serviceability, usability, and manageability) features. these features include the intel ? x4 single device data correction (intel ? x4 sddc) for the following: ? memory error detection and correction ? memory scrubbing ? retry on correctable errors ? memory built-in self-test ? dimm sparing ? memory mirroring see the intel ? s5000 server board family datasheet for more information about these features. revision 1.4 intel order number: D41763-005 33
server board overview intel? server boards s5000psl and s5000xsl tps 3.1.3.2 supported memory the server board supports up to eight ddr2-533 or ddr2-667 fully-buffered dimms (fbd memory). the following tables show the maximum memory configurations supported with the specified memory technology. table 3. maximum eight-dimm system memory configruation ? x8 single rank dram technology x8 single rank maximum capacity mirrored mode maximum capacity non-mirrored mode 256 mb 1 gb 2 gb 512 mb 2 gb 4 gb 1024 mb 4 gb 8 gb 2048 mb 8 gb 16 gb table 4. maximum eight-dimm system memory configuration ? x4 dual rank dram technology x4 dual rank maximum capacity mirrored mode maximum capacity non-mirrored mode 256 mb 4 gb 8 gb 512 mb 8 gb 16 gb 1024 mb 16 gb 32 gb 2048 mb 16 gb 32 gb note : only fully buffered ddr2 dimms (fbdimms) are supported on this server board. see the intel ? server board s5000psl/s5000xsl tested memory list for a list of supported memory for this server board. 3.1.3.3 dimm population rules and supported dimm configurations dimm population rules depend on the operating mode of the memory controller, which is determined by the number of dimms installed. dimms must be populated in pairs. dimm pairs are populated in the following dimm slot order: a1 & b1, c1 & d1, a2 & b2, c2 & d2. dimms within a given pair must be identical with respect to size, speed, and organization. however, dimm capacitie s can be different between different dimm pairs. revision 1.4 intel order number: D41763-005 34
intel? server boards s5000psl and s5000xsl tps list of tables for example, a valid mixed dimm configuration may have 512mb di mms installed in dimm slots a1 & b1, and 1gb dimms installed in dimm slots c1 & d1. intel supported dimm configurations for this server board are shown in the following table. supported and validated configur ation : slot is populated supported but not validated c onfiguration : slot is populated slot is not populated mirroring: y = yes. indicates that c onfiguration supports memory mirroring. sparing: y(x) = yes. indicates that configuration supports memory sparing. where x = 0 : sparing supported on branch0 only 1 : sparing supported on branch1 only 0,1 : sparing supported on both branches branch 0 branch 1 channel a channel b channel c channel d dimm_a1 dimm_a2 dimm_b1 dimm b2 dimm c1 dimm c2 dimm d1 dimm d2 mirroring possible sparing possible y (0) y y (0) y y (0, 1) notes: - single channel mode is only tested and supported with a 512mb x8 fbdimm installed in dimm slot a1. - the supported memory configurations mu st meet population rules defined above. revision 1.4 intel order number: D41763-005 35
er board overview intel? server boards s5000psl and s5000xsl tps revision 1.4 - for best performance, the number of dimms installed should be balanced across both memory branches. for example: a four dimm configuration will perform better than a two dimm configurat ion and should be installed in dimm slots a1, b1, c1, and d1. an eight dimm configuration will perform better then a six dimm configuration. - although mixed dimm capacities between channel s is supported, intel does not validate dimms in mixed dimm configurations. intel order number: D41763-005 36 serv
intel? server boards s5000psl and s5000xsl tps design and environmental specifications revision 1.4 3.1.3.3.1 minimum non-mirrored mode configuration the server board is capable of supporting a minimum of one dimm installed. however, for system performance reasons, intel?s recommendation is that at least 2 dimms be installed. the following diagram shows the recommended minimum dimm memory configuration. populated dimm slots are shown in grey . tp02300 dimm d2 dimm d1 dimm c2 dimm c1 dimm b2 dimm b1 dimm a2 dimm a1 branch 0 mch channel a channel b channel d channel c branch 1 figure 13. minimum two dimm memory configuration note: the server board supports single dimm mode operation. intel will only validate and support this configuration with a single 512 mb x8 fbdimm installed in dimm socket a1. intel order number: D41763-005 37
design and environmental specifications intel? server boards s5000psl and s5000xsl tps revision 1.4 3.1.3.4 non-mirrored mode memory upgrades the minimum memory upgrade increment is two dimms per branch. the dimms must cover the same slot position on both channels. dimms pairs must be identical with respect to size, speed, and organization. dimms that cover adjacent slot positions do not need to be identical. when adding two dimms to the configuration shown in figure 13 (above), the dimms should be populated in dimm sockets c1 and d1 as shown in the following diagram. populated dimm sockets are shown in grey . tp02301 dimm d2 dimm d1 dimm c2 dimm c1 dimm b2 dimm b1 dimm a2 dimm a1 branch 0 mch channel a channel b channel d channel c branch 1 figure 14. recommended four dimm configuration functionally, dimm sockets a2 and b2 could also have been populated instead of dimm sockets c1 and d1. however, your system will not achieve equivalent performance. figure 13 , on the previous page, shows the supported dimm configuration that is recommended because it allows both branches to operate independently and simultaneously. fbd bandwidth is doubled when both branches operate in parallel. intel order number: D41763-005 38
intel? server boards s5000psl and s5000xsl tps design and environmental specifications revision 1.4 intel order number: D41763-005 39 3.1.3.4.1 mirrored mode memory configuration when operating in mirrored mode, both branches operate in lock step. in mirrored mode, branch 1 contains a replicate copy of the data in branch 0. the minimum dimm configuration to support memory mirroring is four dimms, populated as shown in figure 14 , above. all four dimms must be identical with respect to size, speed, and organization. to upgrade a four dimm mirrored memory configuration, four additional dimms must be added to the system. all four dimms in the second set must be identical to the first with the exception of speed. the mch will adjust to the lowest speed dimm. 3.1.3.4.2 sparing mode memory configuration the mch provides memory sparing capabilities. sparing is a ras feature that involves configuring a dimm to be placed in reserve so it can be use to replace a dimm that fails. dimm sparing occurs within a given bank of memory and is not supported across branches. there are two supported memory sparing configurations. ? single branch mode sparing ? dual branch mode sparing
design and environmental specifications intel? server boards s5000psl and s5000xsl tps revision 1.4 3.1.3.4.2.1 single branch mode sparing channel a channel b channel c channel d branch 0 branch 1 intel? 5000p/5000x memor y co nt ro lle r h ub slot 1 slot 2 dimm_c2 dimm_c1 dimm_d2 dimm_d1 dimm_a1 dimm_a2 dimm_b1 dimm_b2 figure 15. single branch mode sparing dimm configuration ? dimm_a1 and dimm_b1 must be identical in organization, size and speed. ? dimm_a2 and dimm_b2 must be identical in organization, size and speed. ? dimm_a1 and dimm_a2 need not be identical in organization, size and speed. ? dimm_b1 and dimm_b2 need not be identical in organization, size and speed. ? sparing should be enabled in bios setup. ? the bios will configure rank sparing mode. ? the larger of the pairs {dimm_a1, dimm_b1} and {dimm_a2, dimm_b2} will be selected as the spare pair unit. intel order number: D41763-005 40
intel? server boards s5000psl and s5000xsl tps design and environmental specifications revision 1.4 intel order number: D41763-005 41 3.1.3.4.2.2 dual branch mode sparing dual branch mode sparing requires that all eight dimm sockets be populated and must comply with the following population rules. ? dimm_a1 and dimm_b1 must be identical in organization, size and speed. ? dimm_a2 and dimm_b2 must be identical in organization, size and speed. ? dimm_c1 and dimm_d1 must be identical in organization, size and speed. ? dimm_c2 and dimm_d2 must be identical in organization, size and speed. ? dimm_a1 and dimm_a2 need not be identical in organization, size and speed. ? dimm_b1 and dimm_b2 need not be identical in organization, size and speed. ? dimm_c1 and dimm_c2 need not be identical in organization, size and speed. ? dimm_d1 and dimm_d2 need not be identical in organization, size and speed. ? sparing should be enabled in bios setup. ? the bios will configure rank sparing mode. ? the larger of the pairs {dimm_a1, dimm_b1}, {dimm_a2, dimm_b2}, {dimm_c1, dimm_d1}, and {dimm_c2, dimm_d2} are selected as the spare pair units. 3.1.3.4.2.3 dual-ranked dimm sparing when a dual-ranked fbdimm is used as a spare, the bios has the ability to independently select a physical rank on that fbdimm as the spare unit and utilize the other physical rank as a normal unit. this selective sparing ensures maximization of available memory while still providing ras. however, populating differently-ranked fbdimms for sparing is not a good practice and may yield unpredictable results. 3.1.4 snoop filter (5000x mch only) the 5000x version of the mch includes a snoop filter. depending on the application of the server, this feature can be used to enhance the performance of the server by eliminating traffic on the snooped system bus of the processor being snooped. by removing snoops form the snooped bus, the full bandwidth is available for other transactions. 3.2 enterprise south bridge (esb2-e) the esb2-e is a multi-function device that provides four distinct functions: an i/o controller, a pci-x* bridge, a gb ethernet controller, and a baseboard management controller (bmc). each function has its own set of configuration registers. once configured, each appears to the system as a distinct hardware controller. the esb2-e provides the gateway to all pc-com patible i/o devices and features. the server boards use the following esb2-e features: ? pci-x bus interface ? six-channel sata interface with sata busy led control ? dual gbe mac ? baseboard management controller (bmc)
design and environmental specifications intel? server boards s5000psl and s5000xsl tps revision 1.4 intel order number: D41763-005 42 ? single ata interface, with ultra dma 100 capability ? universal serial bus 2.0 (usb) interface ? removable media drives ? lpc bus interface ? pc-compatible timer/counter and dma controllers ? apic and 8259 interrupt controller ? power management ? system rtc ? general purpose i/o this section describes the function of most of the listed features as they pertain to these server boards. for more detail information, see the intel s5000 server board family datasheet or the intel 631xesb/632xesb i/o controller hub datasheet. 3.2.1 pci sub-system the primary i/o buses for the server board ar e pci, pci express*, and pci-x,* with six independent pci bus segments. the pci buses comply with the pci local bus specification, revision 2.3. the table below lists the characteristics of the pci bus segments. details about each bus segment follow the table. table 5. pci bus segment characteristics pci bus segment voltage width speed type pci i/o card slots pci32 esb2-e 3.3 v 32 bit 33 mhz pci none. used internally for video controller pxa esb2-e 3.3 v / 5.0 v 64 bit 100 mhz pci-x* pci-x slot 1 pxa esb2-e 3.3 v / 5.0 v 64 bit 133 mhz pci-x* pci-x slot 2 pe0 esb2-e pci express* port0 3.3 v x4 10 gb/s pci express* x4 throughput pci express* slot 4 (special keyed for romb card) pe1 esb2-e pci express* port1 3.3 v x4 10 gb/s pci express x4 throughput pci express* slot 3 (sas sku); x8 throughput pci express* slot 3 by combining pe2 and pe1 (sata and romb sku) pe2 esb2-e pci express* port2 3.3 v x4 10 gb/s pci express x4 throughput to onboard sas (re-routed to slot 3 in sata sku or romb sku) pe4, pe5 bnb pci express* ports 4, 5 3.3 v x8 20 gb/s pci express x8 throughput pci express* slot 5 pe6, pe7 bnb pci express* ports 6, 7 3.3 v x8 20 gb/s pci express x8 throughput pci express* slot 6
intel? server boards s5000psl and s5000xsl tps design and environmental specifications revision 1.4 intel order number: D41763-005 43 3.2.1.1 pci32: 32-bit, 33-mhz pci sub-system all 32-bit, 33-mhz pci i/o is directed through the esb2-e ich6. the 32-bit, 33-mhz pci segment created by the esb2-e-ich6 is known as the pci32 segment. the pci32 segment supports the following embedded devices: ? 2d graphics accelerator: ati* es1000 video controller 3.2.1.2 pxa: 64-bit, 133-mhz pci sub-system one 64-bit pci-x bus segment is directed through the esb2-e ich6. this pci-x segment, pxa, is routed to pci-x slots 1 and 2. with only one pci-x adapter populated in slot 2 and slot 1 left empty, pci-x slot 2 supports a maximum speed of 133mhz. with both slot 1 and slot 2 populated, slot 2 supports a maximum speed of 100mhz. pci-x slot 1 supports a maximum speed of 100mhz even when slot 2 is not populated. 3.2.1.3 pe0: one x4 pci express* bus segment one x4 pci express* bus segment is direct ed through the esb2-e. this pci express* segment, pe0, is routed to pci express* slot 4 that is special keyed to support romb card. 3.2.1.4 pe1: one x4 pci express* bus segment one x4 pci express* bus segment is direct ed through the esb2-e. this pci express* segment, pe1, is routed to pci express* slot 3. this becomes a x8 pci express* bus segment by combining pe2 with pe1 for sata server board or romb server board that do not have on- board sas controller. 3.2.1.5 pe2: one x4 pci express* bus segment one x4 pci express* bus segment is direct ed through the esb2-e. this pci express* segment, pe2, is routed to pci express* slot 3 for server boards that do not have on-board sas controller (sata server board or romb server board), or to the onboard sas controller for server boards that do have on-board sas controller (sas server board). 3.2.1.6 pe4, pe5: two x4 pci express* bus segments two x4 pci express* bus segments are directed through the mch. these pci express* segments, pe4 and pe5, are routed to pci express* slot 5. 3.2.1.7 pe6, pe7: two x4 pci express* bus segments two x4 pci express* bus segments are directed through the mch. these pci express* segments, pe6 and pe7, are routed to pci express* slot 6. 3.2.1.8 pci express* riser slot pci express* slot 6 supports 3 rd party riser cards for both 1u and 2u system configurations. two pci express* pins are designated as riser type pins with the definitions noted in the table below.
design and environmental specifications intel? server boards s5000psl and s5000xsl tps revision 1.4 intel order number: D41763-005 44 lp riser type 1 lp riser type 0 gpi: esb2 gpi 28 gpi: esb2 gpi 27 slot 6 setup 1 pci-e pin: b48 [rsvd] pci-e pin: b49 [gnd] 2u riser, 2 x4 pci express* slots 2 0 1 1u riser, 1 x8 pci express* slot 3 1 0 notes: 1 the server board contains a weak pull-up resistor on the two riser type nets. 2 the 2u riser card needs to pull-down the pci express* pin b48 with a 0 ohm resistor and leave as a no-connect (nc) pci express* pin b49. 3 the 1u riser card needs to follow the standard pci express* adapter pin-out by leaving pin b48 as a no-connect (nc) and pin b49 as ground. the following table provides the supported bus throughput for the given riser card used and the number of add-in cards installed. pci express* slot 6 riser support 1 add-in card 2 add-in cards 1u riser card x8 na 2u riser card x4 x4 note: there are no population rules for installing a single add-in card in the 2u riser card; a single add in card can be installed in either pci express* slot. 3.2.2 serial ata support the esb2-e has an integrated serial ata (sata) controller that supports independent dma operation on six ports and supports data transfer rates of up to 3.0 gb/s. the six sata ports on the server board are numbered sata-0 thru sata-5. the sata ports can be enabled/disabled and/or configured by accessing the bios setup utility during post. 3.2.2.1 intel ? embedded server raid technology ii support the onboard storage capability of this server board includes support for intel ? embedded server raid technology which provides thr ee standard software raid levels: data stripping (raid level 0), data mirroring (raid level 1), and data stripping with mirroring (raid level 10). for higher performance, data stripping can be used to alleviate disk bottlenecks by taking advantage of the dual independent dma engines that each sata port offers. data mirroring is used for data security. should a disk fail, a mirrored copy of the failed disk is brought on-line. there is no loss of either pci resources (request/grant pair) or add-in card slots. with the addition of an optional intel raid activation key, intel ? embedded server raid technology is also capable of providing fault to lerant data stripping (software raid level 5), such that if a sata hard drive should fail, the lost data can be restored on a replacement drive from the other drives that make up the raid 5 pack. see figure 2 major board components for the location of intel raid activation key connector location. intel ? embedded server raid technology functionality requires the following items:
intel? server boards s5000psl and s5000xsl tps design and environmental specifications revision 1.4 intel order number: D41763-005 45 ? intel ? esb-2 io controller hub ? intel ? embedded server raid technology option rom ? intel ? embedded server raid technology ii drivers, most recent revision ? at least two sata hard disk drives intel ? embedded server raid technology is not available in the following configurations: ? the sata controller in legacy mode or ahci mode ? intel ? embedded server raid technology ii has been disabled 3.2.2.2 intel ? embedded server raid technology option rom the intel ? embedded server raid technology for sata option rom provides a pre-os user interface for the intel ? embedded server raid technology im plementation and provides the ability for an intel ? embedded server raid technology volume to be used as a boot disk as well as to detect any faults in the intel ? embedded server raid technology volume(s) attached to the intel ? raid controller. 3.2.3 parallel ata (pata) support the integrated ide controller of the esb2-e ich6 provides one ide channel. it redefines signals on the ide cable to allow both host and target throttling of data and transfer rates of up to 100 mb/s. for this server board, the ide channel was designed to provide optical drive support to the platform. the bios initializes and supports atapi devices such as ls-120/240, cd-rom, cd-rw and dvd-rom. the ide channel is accessed through a single standard 40- pin ide connector (j2j2) that provides the i/o signals. the ata channel can be configured and enabled or disabled by accessing the bios setup utility during post. 3.2.4 usb 2.0 support the usb controller functionality integrated into esb2-e provides the server board with the interface for up to eight usb 2.0 ports. four external connectors are located on the back edge of the server board. one internal 2x5 header (j3j1) is provided, capable of supporting two optional usb 2.0 ports. one usb port type a connector (j3g1) is provided to support installation of a usb device inside the server chassis. an additional usb port is dedicated to the intel ? remote management module (intel ? rmm) connector. 3.3 video support the server board provides an ati* es1000 pci graphics accelerator, along with 16 mb of video ddr sdram and support circuitry for an embedded svga video sub-system. the ati es1000 chip contains an svga video controller, clock generator, 2d engine, and ramdac in a 359-pin bga. one 4m x 16 x 4-bank ddr sdram chip provides 16 mb of video memory. the svga sub-system supports a variety of modes, up to 1024 x 768 resolution in 8 / 16 / 32 bpp modes under 2d. it also supports both crt and lcd monitors up to a 100 hz vertical refresh rate.
design and environmental specifications intel? server boards s5000psl and s5000xsl tps revision 1.4 intel order number: D41763-005 46 video is accessed using a standard 15-pin vga connector found on the back edge of the server board. the on-board video controller can be disabled using the bios setup utility or when an add-in video card is installed. the system bios provides the option for dual-video operation when an add-in video card is configured in the system.
intel? server boards s5000psl and s5000xsl tps design and environmental specifications revision 1.4 intel order number: D41763-005 47 3.3.1 video modes the ati* es1000 chip supports all standard ibm* vga modes. the following table shows the 2d modes supported for both crt and lcd. table 6. video modes 2d video mode support 2d mode refresh rate (hz) 8 bpp 16 bpp 32 bpp 640x480 60, 72, 75, 85, 90, 100, 120, 160, 200 supported suppor ted supported 800x600 60, 70, 72, 75, 85, 90, 100, 120,160 supported suppor ted supported 1024x768 60, 70, 72, 75,85,90,100 supported suppor ted supported 1152x864 43,47,60,70,75, 80,85 supported s upported supported 1280x1024 60,70,74,75 support ed supported supported 1600x1200 52 supported s upported supported 3.3.2 video memory interface the memory controller sub-system of the es1000 arbitrates requests from the direct memory interface, the vga graphics controller, the drawing co-processor, the display controller, the video scalar, and the hardware cursor. requests are serviced in a manner that ensures display integrity and maximum cpu/co-processor drawing performance. the server board supports a 16 mb (4 meg x 16-bit x 4 banks) ddr sdram device for video memory. 3.3.3 dual video the bios supports single- and dual-video modes. the dual-video mode is enabled by default. ? in single mode (dual monitor video = disabled), the on-board video controller is disabled when an add-in video card is detected. ? in dual mode (on-board video = enabled, dual monitor video = enabled), the on-board video controller is enabled and will be the primary video device. the external video card will be allocated resources and is considered the secondary video device. the bios setup utility provides options to configure the feature as follows. on-board video enabled disabled dual monitor video enabled disabled shaded if on-board video is set to "disabled"
design and environmental specifications intel? server boards s5000psl and s5000xsl tps revision 1.4 intel order number: D41763-005 48 3.4 sas controller the sas1064e controller supports x4 pci express* link widths and is a single-function pci express end-point device. the sas controller supports the sas protocol as described in the serial attached scsi standard, version 1.0. the controller also supports sas 1.1 features. the sas1064e controller supports a 32-bit external memory bus that provides an interface for flash rom and nvsram devices. 3.4.1 sas raid support raid modes 0, 1, and 10 are supported. an optional sas raid key can be used to support sw raid 5. support up to four hard drives with non-expander backplane or support up to eight hard drives with expander backplane. 3.4.2 sas / sata connector sharing four sata connectors are shared between sata and sas, depending on the version of the server board. for sas server boards, four of the six sata connectors are used for sas functionality. for sata server boards, all six sata connectors are used for sata functionality. 3.5 network interface controller (nic) network interface support is provided from the built in dual gbe mac features of the esb2 in conjunction with the intel ? 82563eb compact physical layer transceiver (phy). together, they provide the server board with support for dual lan ports designed for 10/100/1000 mbps operation. the 82563eb device is based upon proven phy technology integrated into intel?s gigabit ethernet controllers. the physical layer circuitry provides a standard ieee 802.3 ethernet interface for 1000base-t, 100base-tx, and 10base-t applications (802.3, 802.3u, and 802.3ab). the 82563eb device is capable of transmitting and receiving data at rates of 1000 mbps, 100 mbps, or 10 mbps. each network interface controller (nic) drives two leds located on each network interface connector. the link / activity led (at the right of the connector) indicates network connection when on, and transmit / receive activity when blinking. the speed led (at the left of the connector) indicates 1000-mbps operation when amber, 100-mbps operation when green, and 10-mbps when off. the table below provides an overview of the leds. table 7. nic status led led color led state nic state off 10 mbps green 100 mbps green/amber (right) amber 1000 mbps on active connection green (left) blinking transmit / receive activity
intel? server boards s5000psl and s5000xsl tps design and environmental specifications revision 1.4 intel order number: D41763-005 49 3.5.1 intel ? i/o acceleration technolgy intel ? i/o acceleration technology moves network data more efficiently through dual-core intel ? xeon ? processor 5000 sequence-based servers for improved application responsiveness across diverse operating systems and virtualized environments. intel ? i/oat improves network application responsiveness by unleashing the power of dual-core intel ? xeon ? processors 5000 sequence through more efficient network data movement and reduced system overhead. intel multi-port network adapters with intel ? i/oat provide high-performance i/o for server consolidation and virtualization via stateless network acceleration that seamlessly scales across multiple ports and virtual machines. intel ? i/oat provides safe and flexible network acceleration through tight integration into popular operating systems & virtual machine monitors, avoiding the support risks of 3rd-party network stacks and preserving existing network requirements such as teaming and failover. 3.5.2 mac address definition each intel ? server board s5000psl / s5000xsl has four mac addresses assigned to it at the intel factory. during the manufacturing process, each server board will have a white mac address sticker placed on the board. the sticker will display the mac address in both bar code and alpha numeric formats. the printed mac address is assigned to nic 1 on the server board. nic 2 is assigned the nic 1 mac address + 1. two additional mac addresses are assigned to the baseboard management controller (bmc) embedded in the esb-2. these mac addresses are used by the bmc?s embedded network stack to enable ipmi remote management over lan. bmc lan channel 1 is assigned the nic1 mac address + 2, and bmc lan channel 2 is assigned the nic2 mac address + 2 3.6 super i/o legacy i/o support is provided by using a national semiconductor* pc87427 super i/o device. this chip contains all of the necessary circuitry to support the following functions: ? gpios ? two serial ports ? keyboard and mouse support ? wake up control ? system health support
design and environmental specifications intel? server boards s5000psl and s5000xsl tps revision 1.4 3.6.1 serial ports the server board provides two serial ports: an external db9 serial port and an internal dh10 serial header. the rear db9 serial a port is a fully-functional serial port that can support any standard serial device. serial b is an optional port that is accessed through a 9-pin internal dh-10 header. a standard dh10 to db9 cable can be used to direct serial b to the rear of a chassis. the serial b interface follows the standard rs232 pin-out as defined in the following table. table 8. serial b header pin-out pin signal name serial port b header pin-out 1 dcd 2 dsr 3 rx 4 rts 5 tx 6 cts 7 dtr 8 ri 9 gnd 3.6.2 floppy disk controller the server board does not support a floppy disk controller interface. however, the system bios recognizes usb floppy devices. 3.6.3 keyboard and mouse support dual-stacked ps/2* ports are provided on the back edge of the server board for keyboard and mouse support. either port can support a mouse or keyboard. neither port supports hot plugging. 3.6.4 wake-up control the super i/o contains functionality that allows various events to power on and power off the system. 3.6.5 system health support the super i/o provides an interface via gpios for bios and system management firmware to activate the diagnostic leds, the fru fault indicator leds for processors, fbdimms, fans and the system status led. see section 7 for the location of the leds on the server board. the super i/o provides pmw fan control to the system fans, monitors tach and presence signals for the system fans and monitors server board and front panel temperature. intel order number: D41763-005 50
intel? serv er boards s5000psl and s5000xsl tps design and environmental specifications revision 1.4 intel order number: D41763-005 51 4. platform management the platform management sub-system is based on the integrated baseboard management controller features of the esb2-e. the on-board platform management sub-system consists of communication buses, sensors, system bios , and server management firmware. the following diagram provides an overview of the server management bus (smbus) architecture used on this server board. see appendix b for on-board sensor data. for more detailed platform management information, see the intel ? s5000 server board family datasheet.
design and environmental specifications intel? server boards s5000psl and s5000xsl tps revision 1.4 intel order number: D41763-005 52 figure 16. smbus block diagram
intel? server boards s5000psl and s5000xsl tps design and environmental specifications revision 1.4 intel order number: D41763-005 53 5. connector / header locations and pin-outs 5.1 board connector information the following section provides detailed information regarding all connectors, headers and jumpers on the server board. table 9. board connector matrix lists all connector types available on the board and the corresponding reference designators printed on the silkscreen. table 9. board connector matrix connector quantity reference designators connector type pin count power supply 4 j9b5 j3j2 j9d1 j5a2 main power cpu power p/s aux / ipmb p12v4 power 24 8 5 4 cpu 2 j8g1, j5g1 cpu sockets 771 main memory 8 j7b1, j7b2 , j7b3, j8b1, j8b2 , j8b3, j9b1, j9b2 dimm sockets 240 pci-x 2 j1b2, j2b1 card edge pci express* x8 2 j2b2, j3b1 card edge pci express* x16 2 j4 b2, j4b1 card edge intel ? rmm 1 j5b1 mezzanine 120 rmm nic 1 j3b2 mezzanine 40 raid key 2 j1e1, j1d3 key holder 3 ide 1 j2j2 shrouded header 40 system fans 4 j3h1, j3h2, j3h3, j3h4 header 6 system fans 2 j9b3, j9b4 header 4 cpu fans 2 j9j1, j5j1 header 4 battery 1 xbt4d1 battery holder 3 keyboard / mouse 1 j9a1 ps2, stacked 12 stacked rj45 / 2xusb 2 ja6a1, ja6a2 external lan built-in magnetic and dual usb 22 stacked video / verial port a 1 j7a1 external dsub / db9 24 serial port b 1 j1b1 header 10 front panel 1 j1e4 header 24 internal usb 1 j3j1 header 10 internal usb 1 j3g1 type a connector 4 chassis intrusion 1 j1a1 header 2 serial ata / sas 6 j1g1, j1f2, j1 h1, j1g2, j1j1, j1h2 header 7 hsbp / sgpio 4 j1j2, j1j7 , j2h1, j1j5 header 4 ses i2c 1 j1j3 header 3
design and environmental specifications intel? server boards s5000psl and s5000xsl tps revision 1.4 intel order number: D41763-005 54 connector quantity reference designators connector type pin count lcp/aux ipmb 1 j2j1 header 4 ipmb 1 j4j1 header 3 hdd activity 1 j2j3 header 2 configuration jumpers 4 j1d2 (password clear), j1d1 (cmos clear), j1c3 (bios bank select), j1e3 (bmc force update) jumper 3 5.2 power connectors the main power supply connection uses an ssi-compliant 2x12 pin connector (j9b5). in addition, there are three additional power related connectors: ? one ssi-compliant 2x4 pin power connector (j3j2) provides 12v power to the cpu voltage regulators ? one ssi-compliant 1x5 pin connector (j9d1) provides i 2 c monitoring of the power supply ? one ssi-compliant 2x2 pin connector (j5a2) provides additional 12v power to the server board the following tables define the connector pin-outs. table 10. power connector pin-out (j9b5) pin signal color pin signal color 1 +3.3 vdc orange 13 +3.3 vdc orange 2 +3.3 vdc orange 14 -12 vdc blue 3 gnd black 15 gnd black 4 +5 vdc red 16 ps_on# green 5 gnd black 17 gnd black 6 +5 vdc red 18 gnd black 7 gnd black 19 gnd black 8 pwr_ok gray 20 rsvd_(-5 v) white 9 5 vsb purple 21 +5 vdc red 10 +12 vdc yellow 22 +5 vdc red 11 +12 vdc yellow 23 +5 vdc red 12 +3.3 vdc orange 24 gnd black
intel? server boards s5000psl and s5000xsl tps design and environmental specifications revision 1.4 intel order number: D41763-005 55 table 11. 12 v power connector pin-out (j3j2) pin signal color 1 gnd black 2 gnd black 3 gnd black 4 gnd black 5 +12 vdc yellow / black 6 +12 vdc yellow / black 7 +12 vdc yellow / black 8 +12 vdc yellow / black table 12. power supply signal connector pin-out (j9d1) pin signal color 1 smb_clk_esb_fp_pwr_r orange 2 smb_dat_esb_fp_pwr_r black 3 smb_alrt_3_esb_r red 4 3.3 v sense- yellow 5 3.3 v sense+ green table 13. p12v4 power connector pin-out (j5a2) pin signal color 1 gnd black 2 gnd black 3 +12 vdc yellow / black 4 +12 vdc yellow / black
design and environmental specifications intel? server boards s5000psl and s5000xsl tps revision 1.4 intel order number: D41763-005 56 5.3 system management headers 5.3.1 intel ? remote management module (intel ? rmm) connector a 120-pin intel ? rmm connector (j5b1) is included on the server board to support the optional intel ? remote management module. there is no support for third party asmi cards on this server board. note: this connector is not compatible with the intel ? server management module professional edition (product code axximmpro) or the intel ? server management module advanced edition (product code axximmadv). table 14. rmm connector pin-out (j5b1) pin signal name pin signal name 1 reserved - nc 2 gnd 3 esb_plt_rst_g1_n 4 reserved - nc 5 gnd 6 reserved - nc 7 reserved - nc 8 gnd 9 reserved - nc 10 gnd 11 gnd 12 reserved - nc 13 gnd 14 irq_serial_r 15 usb_esb_p7p 16 gnd 17 usb_esb_p7n 18 gnd 19 gnd 20 reserved - nc 21 p3v3 22 reserved - nc 23 lpc_lad<0> 24 gnd 25 lpc_lad<1> 26 lpc_frame_n 27 p3v3 28 lpc_lad<2> 29 lpc_lclk 30 lpc_lad<3> 31 p3v3 32 p3v3 33 smb_1_3v3sb_ms_dat 34 smb_ipmb_3v3sb_dat 35 smb_1_3v3sb_sl_dat 36 smb_ipmb_3v3sb_clk 37 smb_1_3v3sb_ms_clk 38 smb_0_3v3sb_ms_clk 39 smb_1_3v3sb_int 40 smb_0_3v3sb_int 41 p3v3_aux 42 smb_0_3v3sb_ms_dat 43 spb_imm_dsr_n 44 smb_0_3v3sb_sl_dat 45 spb_imm_rts_n 46 p3v3_aux 47 spb_imm_cts_n 48 fm_imm_present_n 49 spb_imm_dcd_n 50 spb_imm_dtr_n 51 spb_ri_n 52 spb_imm_sin 53 spb_imm_sout 54 p3v3_aux 55 p3v3_aux 56 v_lcddata7 57 v_lcdcntl3 56 v_lcddata6 59 p3v3_aux 60 v_lcddata5
intel? server boards s5000psl and s5000xsl tps design and environmental specifications revision 1.4 intel order number: D41763-005 57 pin signal name pin signal name 61 reserved - nc 62 v_lcddata4 63 reserved - nc 64 v_lcddata3 65 gnd 66 v_lcdcntl1 67 v_lcdcntl0 68 gnd 69 reserved - nc 70 v_lcddata15 71 gnd 72 v_lcddata714 73 v_lcddata23 74 v_lcddata13 75 v_lcddata22 76 v_lcddata12 77 v_lcddata21 78 v_lcddata11 79 v_lcddata20 80 gnd 81 v_lcddata19 82 v_lcdcntl2 83 gnd 84 v_dvo_ddc_sda 85 fm_man_lan_type1 86 v_dvo_ddc_scl 87 fm_man_lan_type2 88 rst_ps_pwrgd 89 reserved - nc 90 reserved - nc 91 reserved - nc 92 reserved - nc 93 mii_mdc_rmii_spare 94 reserved - nc 95 mii_col_rmiib_rxer 96 gnd 97 gnd 98 mii_crs_rmiib_crs 99 mii_txer_rmiib_txen 100 mii_txclk_rmiib_rxclk 101 mii_mdio_rmiib_present 102 gnd 103 gnd 104 mii_txd3_rmiib_txd1 105 mii_rxd3_rmiib_rxd1 106 mii_txd2_rmiib_txd0 107 mii_rxd2_rmiib_rxd0 108 gnd 109 gnd 110 mii_txd1_rmiia_txd1 111 mii_rxd1_rmiia_rxd1 112 mii_txd0_rmiia_txd0 113 mii_rxd0_rmiia_rxd0 114 gnd 115 gnd 116 mii_txen_rmiia_txen 117 mii_rxclk 118 mii_rxer_rmiia_txer 119 mii_rxdv_rmiia_crs 120 gnd 5.3.2 lcp / aux ipmb header table 15. lpc / aux ipmb header pin-out (j2j1) pin signal name description 1 smb_ipmb_5vsb_dat bmc imb 5v standby data line 2 gnd ground 3 smb_ipmb_5vsb_clk bmc imb 5v standby clock line 4 p5v_stby +5 v standby power
design and environmental specifications intel? server boards s5000psl and s5000xsl tps revision 1.4 intel order number: D41763-005 58 5.3.3 ipmb header table 16. ipmb header pin-out (j4j1) pin signal name description 1 smb_ipmb_5vsb_dat bmc imb 5v standby data line 2 gnd ground 3 smb_ipmb_5vsb_clk bmc imb 5v standby clock line 5.3.4 hsbp header table 17. hsbp header pin-out (j1j7, j1j2) pin signal name description 1 smb_ipmb_5v_dat bmc imb 5v data line 2 gnd ground 3 smb_ipmb_5v_clk bmc imb 5v clock line 4 gnd ? hsbp_a p5v ? hsbp_b ground for hsbp a +5v for hsbp b 5.3.5 sgpio header table 18. sgpio header pin-out (j2h1, j1j5) pin signal name description 1 sgpio_clock sgpio clock signal 2 sgpio_load sgpio load signal 3 sgpio_dataout sgpio data out 4 sgpio_datain sgpio data in 5.3.6 ses i 2 c table 19. ses i 2 c header pin-out (j1j3) pin signal name description 1 smb_sas_3v3_dat bmc sas 3v data line 2 gnd ground 3 smb_sas_3v3_clk bmc sas 3v clock line
intel? server boards s5000psl and s5000xsl tps design and environmental specifications revision 1.4 intel order number: D41763-005 59 5.3.7 hdd activity led header table 20. hdd activity led header pin-out (j2j3) pin signal name description 1 led_scsi_conn_n hdd activity led input 2 gnd ground 5.4 front panel connector the server board provides a 24-pin ssi front panel connector (j1e4) for use with intel ? and third-party chassis. the following table provides the pin-out for this connector. table 21. front panel ssi standard 24-pin connector pin-out (j1e4) pin signal name pin signal name 1 p3v3_stby 2 p3v3_stby 3 key 4 p5v_stby 5 fp_pwr_led_n 6 fp_id_led_buf_n 7 p3v3 8 fp_led_status_green_n 9 led_hdd_activity_n 10 fp_led_status_a mber_n 11 fp_pwr_btn_n 12 nic1_act_led_n 13 gnd 14 nic1_link_led_n 15 bmc_rst_btn_n 16 smb_sensor_3v3stb_data 17 gnd 18 smb_sensor_3v3stb_clk 19 fp_id_btn_n 20 fp_chassis_intru 21 fm_sio_temp_sensor 22 nic2_act_led_n 23 fp_nmi_btn_n 24 nic2_link_led_n 5.5 i/o connectors 5.5.1 vga connector the following table details the pin-out definition of the vga connector (j7a1) that is part of the stacked video / serial port a connector. table 22. vga connector pin-out (j7a1) pin signal name description 1 v_io_r_conn red (analog color signal r) 2 v_io_g_conn green (analog color signal g) 3 v_io_b_conn blue (analog color signal b) 4 tp_vid_conn_b4 no connection 5 gnd ground 6 gnd ground 7 gnd ground 8 gnd ground 9 tp_vid_conn_b9 no connection
design and environmental specifications intel? server boards s5000psl and s5000xsl tps revision 1.4 intel order number: D41763-005 60 pin signal name description 10 gnd ground 11 tp_vid_conn_b11 no connection 12 v_io_ddcdat ddcdat 13 v_io_hsync_conn hsync (horizontal sync) 14 v_io_vsync_conn vsync (vertical sync) 15 v_io_ddcclk ddcclk 5.5.2 nic connectors the server board provides two stacked rj45 / 2xusb connectors side-by-side on the back edge of the board (ja6a1, ja6a2). the pin-out for nic connectors are identical and are defined in the following table. table 23. rj-45 10/100/1000 nic connector pin-out (ja6a1, ja6a2) pin signal name 1 gnd 2 p1v8_nic 3 nic_a_mdi3p 4 nic_a_mdi3n 5 nic_a_mdi2p 6 nic_a_mdi2n 7 nic_a_mdi1p 8 nic_a_mdi1n 9 nic_a_mdi0p 10 nic_a_mdi0n 11 (d1) nic_linka_1000_n (led 12 (d2) nic_linka_100_n (led) 13 (d3) nic_act_led_n 14 nic_link_led_n 15 gnd 16 gnd 5.5.3 ide connector the server board provides one legacy ide ata100 40-pin connector (j2j2). the pin-out is defined in the following table. table 24. ide 40-pin connector pin-out (j2j2) pin signal name pin signal name 1 esb_plt_rst_ide_n 2 gnd 3 ride_dd_7 4 ride_dd_8 5 ride_dd_6 6 ride_dd_9
intel? server boards s5000psl and s5000xsl tps design and environmental specifications revision 1.4 intel order number: D41763-005 61 pin signal name pin signal name 7 ride_dd_5 8 ride_dd_10 9 ride_dd_4 10 ride_dd_11 11 ride_dd_3 12 ride_dd_12 13 ride_dd_2 14 ride_dd_13 15 ride_dd_1 16 ride_dd_14 17 ride_dd_0 18 ride_dd_15 19 gnd 20 key 21 ride_ddreq 22 gnd 23 ride_diow_n 24 gnd 25 ride_dior_n 26 gnd 27 ride_piordy 28 gnd 29 ride_ddack_n 30 gnd 31 irq_ide 32 tp_pide_32 33 ride_da1 34 ide_pri_cblsns 35 ride_da0 36 ride_da2 37 ride_dcs1_n 38 ride_dcs3_n 39 led_ide_n 40 gnd 5.5.4 intel ? remote management module nic connector the server board provides an internal 40-pin c onnector (j3b2) to accommodate a proprietary form factor intel ? remote management module nic module. the following table details the pin- out of the intel ? rmm nic module connector. table 25. 40-pin rmm nic module connector pin-out (j3b2) pin signal name pin signal name 1 fm_man_lan_type2 2 fm_man_lan_type1 3 p3v3_aux 4 mii_mdio_rmiib_present 5 p3v3_aux 6 mii_mdc_rmii_spare 7 gnd 8 mii_rxd3_rmiib_rxd1 9 gnd 10 mii_rxd2_rmiib_rxd0 11 gnd 12 mii_rxd1_rmiia_rxd1 13 gnd 14 mii_rxd0_rmiia_rxd0 15 gnd 16 mii_rxdv_rmiia_crs 17 gnd 18 mii_rxclk 19 gnd 20 mii_rxer_rmiia_rxer 21 gnd 22 key 23 gnd 24 mii_txclk_rmiib_rxclk 25 gnd 26 mii_txen_rmiia_txen 27 gnd 28 mii_txd0_rmiia_txd0 29 gnd 30 mii_txd1_rmiia_txd1 31 gnd 32 mii_txd2_rmiib_txd0 33 gnd 34 mii_txd3_rmiib_txd1
design and environmental specifications intel? server boards s5000psl and s5000xsl tps revision 1.4 intel order number: D41763-005 62 pin signal name pin signal name 35 p3v3_aux 36 mii_col_rmiib_rxer 37 p3v3_aux 38 mii_crs_rmiib_crs 39 p3v3_aux 40 mii_txer_rmiib_txen
intel? server boards s5000psl and s5000xsl tps design and environmental specifications revision 1.4 intel order number: D41763-005 63 5.5.5 sata / sas connectors the server board provides up to six sata / sas connectors: ? sata-0 (j1j1) ? sata-1 (j1h2) ? sata-2 / sas-0 (j1h1) ? sata-3 / sas-1 (j1g2) ? sata-4 / sas-2 (j1g1) ? sata-5 / sas-3 (j1f2) the pin configuration for each connector is identical and is defined in the following table. table 26. sata / sas connector pin-out (j1j1, j1h2, j1h1, j1g2, j1g1, j1f2) pin signal name description 1 gnd ground 2 sata/sas_tx_p_c positive side of transmit differential pair 3 sata/sas_tx_n_c negative side of transmit differential pair 4 gnd ground 5 sata/sas_rx_n_c negative side of receive differential pair 6 sata/sas_rx_p_c positive side of receive differential pair 7 gnd ground 5.5.6 serial port connectors the server board provides one external db9 serial a port (j7a1) and one internal 9-pin serial b header (j1b1). the following tables define the pin-outs. table 27. external db9 serial a port pin-out (j7a1) pin signal name description 1 spa_dcd dcd (carrier detect) 2 spa_sin_l rxd (receive data) 3 spa_sout_n txd (transmit data) 4 spa_dtr dtr (data terminal ready) 5 gnd ground 6 spa_dsr dsr (data set ready) 7 spa_rts rts (request to send) 8 spa_cts cts (clear to send) 9 spa_ri ri (ring indicate)
design and environmental specifications intel? server boards s5000psl and s5000xsl tps revision 1.4 intel order number: D41763-005 64 table 28. internal 9-pin serial b header pin-out (j1b1) pin signal name description 1 spb_dcd dcd (carrier detect) 2 spb_dsr dsr (data set ready) 3 spb_sin_l rxd (receive data) 4 spb_rts rts (request to send) 5 spb_sout_n txd (transmit data) 6 spb_cts cts (clear to send) 7 spb_dtr dtr (data terminal ready) 8 spb_ri ri (ring indicate) 9 spb_en_n enable 5.5.7 keyboard and mouse connector two stacked ps/2* ports (j9a1) support a keyboard and a mouse. either ps/2 port can support a mouse or keyboard. the following table details the pin-out of the ps/2 connectors. table 29. stacked ps/2 keyboard and mouse port pin-out (j9a1) pin signal name description 1 kb_data_f keyboard data 2 tp_ps2_2 test point ? keyboard 3 gnd ground 4 p5v_kb_f keyboard / mouse power 5 kb_clk_f keyboard clock 6 tp_ps2_6 test point ? keyboard / mouse 7 ms_dat_f mouse data 8 tp_ps2_8 test point ? keyboard / mouse 9 gnd ground 10 p5v_kb_f keyboard / mouse power 11 ms_clk_f mouse clock 12 tp_ps2_12 test point ? keyboard / mouse 13 gnd ground 14 gnd ground 15 gnd ground 16 gnd ground 17 gnd ground
intel? server boards s5000psl and s5000xsl tps design and environmental specifications revision 1.4 intel order number: D41763-005 65 5.5.8 usb connector the following table details the pin-out of the external usb connectors (ja6a1, ja6a2) found on the back edge of the server board. table 30. external usb connector pin-out (ja6a1, ja6a2) pin signal name description 1 usb_oc usb_pwr 2 usb_pn datal0 (differential data line paired with datah0) 3 usb_pp datah0 (differential data line paired with datal0) 4 gnd ground one 2x5 connector on the server board (j3j1) provides an option to support an additional two usb ports. the pin-out of the connector is detailed in the following table. table 31. internal usb connector pin-out (j3j1) pin signal name description 1 usb2_vbus5 usb power (port 5) 2 usb2_vbus4 usb power (port 4) 3 usb_esb_p5n_conn usb port 5 negative signal 4 usb_esb_p4n_conn usb port 4 negative signal 5 usb_esb_p5p_conn usb port 5 positive signal 6 usb_esb_p4p_conn usb port 4 positive signal 7 ground 8 ground 9 key no pin 10 tp_usb_esb_nc test point
design and environmental specifications intel? server boards s5000psl and s5000xsl tps revision 1.4 intel order number: D41763-005 66 5.6 fan headers the server board provides four ssi-compliant 4- pin and four ssi-compliant 6-pin fan headers to be used as cpu, and io cooling fans. 3-pin fans are supported on all fan headers. 6-pin fans are supported on header j3h4, j3h3, j3h2, and j3h1. 4-pin fans are supported on header j9j1, j5j1, j3h4, j3h3, j9b4, and j9b3. 4-pin fans are not supported on header j3h2, and j3h1, since these headers are tied to the cpu1 pwm. these fan headers should also not be used for cpu cooling fans. the pin configuration for each of the 4-pin and 6-pin fan headers is identical and is defined in the following tables. ? two 4-pin fan headers are designated as processor cooling fans: - cpu1 fan (j9j1) - cpu2 fan (j5j1) ? four 6-pin fan headers are designated as hot-swap system fans: - hot-swap system fan 1 (j3h4) - hot-swap system fan 2 (j3h3) - hot-swap system fan 3 (j3h2) - hot-swap system fan 4 (j3h1) ? two 4-pin fan headers are designated as rear system fans: - system fan 5 (j9b4) - system fan 6 (j9b3) table 32. ssi 4-pin fan header pin-out (j9j1, j5j1, j9b3, j9b4) pin signal name type description 1 ground gnd ground is the power supply ground 2 12v power power supply 12 v 3 fan tach in fan_tach signal is connect ed to the bmc to monitor the fan speed 4 fan pwm out fan_pwm signal to control fan speed table 33. ssi 6-pin fan header pi n-out (j3h1, j3h2, j3h3, j3h4) pin signal name type description 1 ground gnd ground is the power supply ground 2 12v power power supply 12 v 3 fan tach in fan_tach signal is connect ed to the bmc to monitor the fan speed 4 fan pwm out fan_pwm signal to control fan speed 5 fan presence in indica tes the fan is present 6 fan fault led out lights the fan fault led note : intel corporation server boards support peripheral components and contain a number of high-density vlsi and power delivery components that need adequate airflow to cool. intel?s own chassis are designed and tested to meet the intended thermal requirements of these
intel? server boards s5000psl and s5000xsl tps design and environmental specifications revision 1.4 intel order number: D41763-005 67 components when the fully integrated system is used together. it is the responsibility of the system integrator that chooses not to use intel developed server building blocks to consult vendor datasheets and operating parameters to determine the amount of air flow required for their specific application and environmental conditions. intel corporation can not be held responsible if components fail or the server board does not operate correctly when used outside any of their published operating or non-operating limits.
design and environmental specifications intel? server boards s5000psl and s5000xsl tps revision 1.4 6. jumper blocks the server board has several 3-pin jumper blocks that can be used to configure, protect, or recover specific features of the server board. pin 1 on each jumper block can be identified by the following symbol on the silkscreen: af000422 3 2 cmos clear 3 2 password clear j1e3 j1d1 disable enable 3 2 bmc force update j1d2 disable enable bios bank select j1c3 3 2 force lower bank normal operation (default) protect clear figure 17. jumper blocks (j1c3, j1d1, j1d2, j1e32) table 34. server board jumpers (j1c3, j1d1, j1d2, j1e3) jumper name pins system results 1-2 intel order number: D41763-005 68 if these pins are jumper the system will boot from an alternate bios image. j1c3: bios bank select 2-3 system is configured for normal operation. (default) 1-2 these pins should have a jumper in place for normal system operation. (default) j1d1: cmos clear 2-3 if these pins are jumpered, the cmos se ttings will be cleared 5 seconds after removing ac power. these pins should not be jumpered for normal operation 1-2 these pins should have a jumper in place for normal system operation. (default) j1d2: password clear 2-3 if these pins are jumpered, administrator and user passw ords will be cleared 5 seconds after removing ac power. these pins s hould not be jumpered for normal operation. 1-2 bmc firmware force update mode ? disabled (default) j1e3: bmc forced update 2-3 bmc firmware force update mode ? enabled
intel? server boards s5000psl and s5000xsl tps design and environmental specifications revision 1.4 intel order number: D41763-005 69 6.1 cmos clear and password reset usage procedure the cmos clear (j1d1) and password reset (j1d2) recovery features are designed such that the desired operation can be achieved with minimal system down time. the usage procedure for these two features has changed from previous generation intel server boards. the following procedure outlines the new usage model. 6.1.1 clearing the cmos 1. power down server. do not unplug the power cord. 2. open the server chassis. for instructions, see your server chassis documentation. 3. move jumper (j1d1) from the default operating position, covering pins 1 and 2, to the reset / clear position, covering pins 2 and 3. 4. remove ac power. 5. wait 5 seconds. 6. move the jumper back to default position, covering pins 1 and 2. 7. close the server chassis. 8. power up the server. the cmos is now cleared and can be reset by going into bios setup. note: removing ac power before performing the cmos clear operation will cause the system to automatically power up and immediately power down, after the procedure is followed and ac power is re-applied. if this happens, remove the ac power cord again, wait 30 seconds, and re- install the ac power cord. power up system and proceed to the bios setup utility to reset the desired settings. 6.1.2 clearing the password 1. power down server. do not unplug the power cord. 2. open the chassis. for instructions, see your server chassis documentation. 3. move jumper (j1d20 from the default operating position, covering pins 1 and 2, to the password clear position, covering pins 2 and 3. 4. close the server chassis. 5. power up the server, wait 10 seconds or post completes. 6. power down the server. 7. open the chassis and move the jumper back to default position, covering pins 1 and 2. 8. close the server chassis. 9. power up the server. the password is now cleared and can be reset by going into bios setup.
design and environmental specifications intel? server boards s5000psl and s5000xsl tps revision 1.4 intel order number: D41763-005 70 6.2 bmc force update procedure when performing a standard bmc firmware update procedure, the update utility places the bmc into an update mode, allowing the firmware to load safely onto the flash device. in the unlikely event that the bmc firmware update process fails due to the bmc not being in the proper update state, the server board provides a bmc force update jumper (j1e3) which will force the bmc into the proper update state. the following procedure should be following in the event the standard bmc firmware update process fails. 1. power down and remove the ac power cord. 2. open the server chassis. see your serv er chassis documentation for instructions. 3. move jumper from the default operating position, covering pins1 and 2, to the enabled position, covering pins 2 and 3. 4. close the server chassis. 5. reconnect the ac cord and power up the server. 6. perform the bmc firmware update procedure as documented in the readme.txt file that is included in the given bmc firmware update package. after successful completion of the firmware update process, the firmware update utility may generate an error stating that the bmc is still in update mode. 7. power down and remove the ac power cord. 8. open the server chassis. 9. move jumper from the enabled position, covering pins 2 and 3 to the disabled position, covering pins 1 and 2. 10. close the server chassis. 11. reconnect the ac cord and power up the server. note: normal bmc functionality is disabled with the force bmc update jumper is set to the enabled position. the server should never be run with the bmc force update jumper set in this position. this jumper setting should only be used when the standard firmware update process fails. this jumper should remain in the default / disabled position when the server is running normally. 6.3 bios select jumper the jumper block at j1c3, located at the left of pci-x* slot 1, is used to select which bios image the system will boot to. pin 1 on the jumper is identified with a ? ?. this jumper should only be moved if you want to force the bios to boot to the secondary bank, which may hold a different version of bios. the rolling bios feature of the server board will automatically alternate the boot bios to the secondary bank if the bios image in the primary bank is corrupted and cannot boot.
intel? server boards s5000psl and s5000xsl tps design and environmental specifications revision 1.4 7. intel ? light guided diagnostics the server boards have several on-board diagnostic leds to assist in troubleshooting board- level issues. this section provides a description the location and function of each led on the server board. for a more detailed description of what drives the diagnostic led operation, see the intel ? s5000 server board family datasheet. 7.1 5 volt standby led several server management features of this server board require that a 5 volt stand-by voltage be supplied from the power supply. some of the features and components that require this voltage be present when the system is ?off? include the bmc within the esb2-e, onboard nics, and optional rmm connector with intel rmm installed. the led is located just to the right of the cmos battery in the center of the server board and is labeled ?5vsb_led? is illuminated when ac power is applied to the platform and 5 volt standby voltage is supplied to the server board by the power supply. af000224 figure 18. 5 volt standby status led location intel order number: D41763-005 71
design and environmental specifications intel? server boards s5000psl and s5000xsl tps revision 1.4 7.2 fan fault leds fan fault leds are present for the two cpu fans and the two rear system fans. the two cpu fan fault leds are located next to each cpu fan header. the two rear system fan fault leds are located next to each rear system fan header are shown in the following figure. af000203 figure 19. fan fault led locations intel order number: D41763-005 72
intel? server boards s5000psl and s5000xsl tps design and environmental specifications revision 1.4 7.3 system id led and system status led the server board provides leds for both system id and system status. these leds are located in the rear i/o area of the server board between the ps/2* mouse / keyboard stacked connectors and the video / serial stacked connectors. the location of these leds are shown in the following figure. af000204 a b a. system id led b. system status led figure 20. system id led and system status led locations the blue system id led can be illuminated using either of two mechanisms. ? by pressing the system id button on the sy stem front panel the id led will display a solid blue color, until the button is pressed again. ? by issuing the appropriate hex ipmi ?chassis identify? value, the id led will either blink blue for 15 seconds and turn off or will blink indefinitely until the appropriate hex ipmi chassis identify value is issued to turn it off. intel order number: D41763-005 73
design and environmental specifications intel? server boards s5000psl and s5000xsl tps revision 1.4 intel order number: D41763-005 74 the bi-color system status led operates as follows: table 35. system status led color state criticality description off n/a not ready ac power off green / amber alternating blink not ready pre dc power on ? 20-30 second bmc initialization when ac is applied to the server. control p anel buttons are disabled until bmc initialization is complete. green solid on system ok system booted and ready. green blink degraded system degraded ? unable to use all of the installed memory (more than one dimm installed). ? correctable errors over a threshold of 10 and migrating to a spare dimm (memory sparing). this indicates that the user no longer has spared dimms indicating a redundancy lost condition. corresponding di mm led should light up. ? in mirrored configuration, when memory mirroring takes place and system loses memory redundancy. this is not covered by (2). ? redundancy loss such as power-supply or fan. this does not apply to non-redundant sub-systems. ? pci-e link errors ? cpu failure / disabled ? if there are two processors and one of them fails ? fan alarm ? fan failure. number of operational fans should be more than minimum number needed to cool the system ? non-critical threshold cr ossed ? temperature and voltage amber blink non-critical non-fatal alarm ? system is likely to fail ? critical voltage threshold crossed ? vrd hot asserted ? minimum number of fans to c ool the system not present or failed ? in non-sparing and non-mirroring mode if the threshold of ten correctable errors is crossed within the window amber solid on critical, non- recoverable fatal alarm ? system has failed or shutdown ? dimm failure when there is one dimm present, no good memory present ? run-time memory uncorrectable error in non-redundant mode ? ierr signal asserted ? processor 1 missing ? temperature (cpu thermtrip, memory temphi, critical threshold crossed) ? no power good ? power fault ? processor configuration erro r (for instance, processor stepping mismatch) 7.3.1 system status le d ? bmc initialization when the ac power is first applied to the system and 5v-stby is present, the bmc controller on the server board requires 5-10 seconds to initialize. during this time, the system status led will blink, alternati ng between amber and green, and the power button functionality of the control panel is disabled preventing the server from powering up. once
intel? server boards s5000psl and s5000xsl tps design and environmental specifications revision 1.4 intel order number: D41763-005 75 bmc initialization has completed, the status led will stop blinking and the power button functionality is restored and can be used to turn on the server.
design and environmental specifications intel? server boards s5000psl and s5000xsl tps revision 1.4 7.4 dimm fault leds the server board provides a memory fault led for each dimm socket. these leds are located towards the rear of the server board next to each dimm connector. af000205 figure 21. dimm fault led locations intel order number: D41763-005 76
intel? server boards s5000psl and s5000xsl tps design and environmental specifications revision 1.4 7.5 processor fault leds the server board provides a fault led for each processor socket. these leds are located near the processor sockets. af000206 figure 22. processor fault led locations intel order number: D41763-005 77
design and environmental specifications intel? server boards s5000psl and s5000xsl tps revision 1.4 7.6 post code diagnostic leds post code diagnostic leds are located on the back edge of the server board in the rear i/o area of the server board between the ps/2 mice / keyboard stacked connectors and the video / serial stacked connectors. during the system boot process, the bios ex ecutes a number of platform configuration processes, each of which is assigned a specific hex post code number. as each configuration routine is started, the bios will display the given post code to the post code diagnostic leds on the back edge of the server board. to assist in troubleshooting a system hang during the post process, the diagnostic leds can be used to identify the last post process to be executed. see appendix c for a complete description of how these leds are read, and for a list of all supported post codes. a. status led d. bit 2 led (post led) b. id led e. bit 1 led (post led) c. msb led (post led) f. lsb led (post led) figure 23. post code diagnostic led location intel order number: D41763-005 78
intel? serv er boards s5000psl and s5000xsl tps design and environmental specifications revision 1.4 intel order number: D41763-005 79 8. design and environmental specifications 8.1 server boards s5000psl and s5000xsl design specifications the operation of the server boards at conditions beyond those shown in the following table may cause permanent damage to the system. exposure to absolute maximum rating conditions for extended periods may affect system reliability. table 36. server board design specifications operating temperatur e 0o c to 55o c 1 (32o f to 131o f) non-operating temperat ure -40o c to 70o c (-40o f to 158o f) dc voltage 5% of all nominal voltages shock (unpackaged) trapezoidal, 50 g, 170 inches / sec shock (packaged) <20 pounds 20 to <40 pounds 40 to <80 pounds 80 to <100 pounds 100 to <120 pounds 120 pounds 36 inches 30 inches 24 inches 18 inches 12 inches 9 inches vibration (unpackaged) 5 hz to 500 hz 3.13 g rms random note: 1 chassis design must provide proper airflow to avoid exceeding the dual-core intel ? xeon ? processor 5000 sequence maximum case temperature . disclaimer note : intel corporation server boards contain a number of high-density vlsi and power delivery components that need adequate airflow to cool. intel ensures through its own chassis development and testing that when intel server building blocks are used together, the fully integrated system will meet the intended thermal requirements of these components. it is the responsibility of the system integrator who chooses not to use intel developed server building blocks to consult vendor datasheets and operating parameters to determine the amount of air flow required for their specific application and environmental conditions. intel corporation cannot be held responsible, if components fail or the server board does not operate correctly when used outside any of their published operating or non-operating limits. 8.2 board-level calculated mtbf the predicted board mean time between failures is 97,549 hours of operation. as of this writing actual mtbf testing across multiple systems is complete with a demonstrated 25,222 hours. since our validation test is only run up to about 25,000 hours across multiple servers, we still maintain that actual mtbf data will likely be over 97,549 hours of operation based on statistical regression.
intel? server boards s5000psl and s5000xsl tps design and environmental specifications revision 1.4 this section provides power supply design guidelines for a system using the intel ? server boards s5000psl and s5000xsl, including voltage and current specifications, and power supply on/off sequencing characteristics. the following diagram shows t he power distribution implemented on these server boards. figure 24. power distribution block diagram intel order number: D41763-005 80 8.3 server board power requirements
intel? server boards s5000psl and s5000xsl tps design and environmental specifications revision 1.4 intel order number: D41763-005 81 8.3.1 processor power support the server board supports the thermal design point (tdp) guideline for intel ? xeon ? processors. the flexible motherboard guidelines (fmb) has also been followed to help determine the suggested thermal and current design values for anticipating future processor needs. the following table provides maximum values for icc, tdp power and t case for the dual core intel ? xeon ? processor 5000 sequence family. table 37. intel ? xeon ? processor dual processor tdp guidelines tdp power max tcase icc max 130 w 70o c 150 a note: these values are for reference only. the dual-core intel? xeon?) processor 5000 sequence datasheet contains the actual specifications for the processor. if the values found in the dual-core intel(r) xeon(r) processor 5000 sequence datasheet are different than those published here, the dual-core intel(r) xeon(r) processor 5000 sequence datasheet values will supersede these, and should be used. 8.4 power supply output requirements this section is for reference purposes only. the intent is to provide guidance to system designers to determine a power supply for use with this server board. this section specifies the power supply requirements intel used to develop a power supply for its 5u server system. the combined power of all outputs shall not exceed the rated output power of the power supply. the power supply must meet both static and dynamic voltage regulation requirements for the minimum loading conditions. table 38. 550 w load ratings voltage minimum continuous maximum continuous peak +3.3 v 1.5 a 24 a +5 v 1.0 a 24 a +12 v1 0.5 a 16 a 18 a +12 v2 0.5 a 16 a 18 a +12 v3 0.5 a 14 a +12 v4 0.5 a 8 a 13 a -12 v 0 a 0.5 a +5 vsb 0.1 a 3.0 a 3.5 a 1. maximum continuous total dc out put power should not exceed 550 w. 2. maximum continuous combined load on +3.3 vdc and +5 vdc outputs shall not exceed 140w. 3. maximum peak total dc output power should not exceed 660w. 4. peak power and current loading shall be supported for a minimum of 12 seconds. 5. maximum combined current for the 12 v outputs shall be 41 a. 6. peak current for the combined 12 v outputs shall be 50a.
design and environmental specifications intel? server boards s5000psl and s5000xsl tps revision 1.4 intel order number: D41763-005 82 8.4.1 grounding the grounds of the pins of the power supply output connector provide the power return path. the output connector ground pins is connected to safety ground (power supply enclosure). this grounding should is designed to ensure passing the maximum allowed common mode noise levels. 8.4.2 standby outputs the 5 vsb output shall be present when an ac input greater than the power supply turn on voltage is applied. 8.4.3 remote sense the power supply has remote sense return to regulate out ground drops for all output voltages: +3.3 v, +5 v, +12 v1, +12 v2, +12 v3, -12 v, and 5 vsb. the power supply uses remote sense (3.3 vs) to regulate out drops in the system for the +3.3 v output. the +5 v, +12 v1, +12 v2, +12 v3, ?12 v and 5 vsb outputs only use remote sense referenced to the remote sense return signal. the remote sense input impedance to the power supply must be greater than 200 on 3.3 vs and 5 vs. this is the value of the resistor connecting the remote sense to the output voltage internal to the power supply. remote sense must be able to regulate out a minimum of a 200 mv drop on the +3.3 v output. the remote sense return must be able to regulate out a minimum of a 200 mv drop in the power ground return. the current in any remote sense line shall be less than 5 ma to prevent voltage sensing errors. the power supply must operate within specification over the full range of voltage drops from the power supply?s output connector to the remote sense points.
intel? server boards s5000psl and s5000xsl tps design and environmental specifications revision 1.4 intel order number: D41763-005 83 8.4.4 voltage regulation the power supply output voltages must stay within the following voltage limits when operating at steady state and dynamic loading conditions. these limits include the peak-peak ripple / noise. table 39. voltage regulation limits parameter tolerance minimum nominal maximum units +3.3v - 5% / +5% +3.14 +3.30 +3.46 v rms +5v - 5% / +5% +4.75 +5.00 +5.25 v rms +12v 1 - 5% / +5% +11.40 +12.00 +12.60 v rms +12v 2 - 5% / +5% +11.40 +12.00 +12.60 v rms +12v 3 - 5% / +5% +11.40 +12.00 +12.60 v rms +12v 4 - 5% / +5% +11.40 +12.00 +12.60 v rms - 12v - 5% / +9% - 11.40 -12.00 -13.08 v rms +5vsb - 5% / +5% +4.75 +5.00 +5.25 v rms 1. maximum continuous total output power should not exceed 670 w. 2. maximum continuous load on the comb ined 12 v output shall not exceed 48 a. 3. peak load on the combined 12 v output shall not exceed 52 a. 4. peak total dc output pow er should not exceed 730 w. 8.4.5 dynamic loading the output voltages shall remain within limits for the step loading and capacitive loading specified in the table below. the load transient repetition rate shall be tested between 50 hz and 5 khz at duty cycles ranging from 10%-90%. the load transient repetition rate is only a test specification. the step load may occur anywhere within the minimum load to the maximum load conditions. table 40. transient load requirements output step load size 1 load slew rate test capacitive load +3.3v 7.0a 0.25 a/ sec 4700 f +5v 7.0a 0.25 a/ sec 1000 f +12v 25a 0.25 a/ sec 4700 f +5vsb 0.5a 0.25 a/ sec 20 f 1. step loads on each 12v output may happen simultaneously.
design and environmental specifications intel? server boards s5000psl and s5000xsl tps revision 1.4 intel order number: D41763-005 84 8.4.6 capacitive loading the power supply shall be stable and meet all requirements with the following capacitive loading ranges. table 41. capacitive loading conditions output minimum maximum units +3.3 v 250 6800 f +5 v 400 4700 f +12 v 1, 2, 3, 4 500 each 11,000 f -12 v 1 350 f +5 vsb 20 350 f 1. maximum continuous total output power should not exceed 670 w. 2. maximum continuous load on the comb ined 12 v output shall not exceed 48 a. 3. peak load on the combined 12 v output shall not exceed 52 a. 4. peak total dc output pow er should not exceed 730 w. 8.4.7 ripple / noise the maximum allowed ripple/noise output of the power supply is defined in the following table. this is measured over a bandwidth of 0hz to 20mhz at the power supply output connectors. a 10 f tantalum capacitor in parallel with a 0.1 f ceramic capacitor are placed at the point of measurement. table 42. ripple and noise +3.3 v +5 v +12 v 1, 2, 3, 4 -12 v +5 vsb 50mvp-p 50mvp-p 120mvp-p 120mvp-p 50mvp-p 1. maximum continuous total output power should not exceed 670 w. 2. maximum continuous load on the comb ined 12 v output shall not exceed 48 a. 3. peak load on the combined 12 v output shall not exceed 52 a. 4. peak total dc output pow er should not exceed 730 w. 8.4.8 timing requirements the following are the timing requirements for the power supply operation. the output voltages must rise from 10% to within regulation limits (t vout_rise ) within 5 to 70 ms. 5 vsb is allowed to rise from 1.0 to 25 ms. all outputs must rise monotonically. each output voltage shall reach regulation within 50 ms (t vout_on ) of each other during turn on of the power supply. each output voltage shall fall out of regulation within 400 msec (t vout_off ) of each other during turn off. the following tables and diagrams show the timing requirements for the power supply being turned on and off via the ac input with pson held low, and the pson signal with the ac input applied.
intel? server boards s5000psl and s5000xsl tps design and environmental specifications revision 1.4 table 43. output voltage timing item description minimum maximum units t vout_rise output voltage rise time from each main output. 5.0 1 70 1 ms t vout_on all main outputs must be within r egulation of each other within this time. 50 ms t vout_off all main outputs must leave regulation within this time. 400 ms 1. the 5vsb output voltage rise time is from 1.0 ms to 25 ms tp02313 v out v1 v2 v3 v4 t vout_on t vout_rise 10% v out t vout_off figure 25. output voltage timing intel order number: D41763-005 85
design and environmental specifications intel? server boards s5000psl and s5000xsl tps revision 1.4 table 44. turn on/off timing item description minimum maximum units t sb_on_delay delay from ac being applied to 5vsb being within regulation. 1500 ms t ac_on_delay delay from ac being applied to all output voltages being within regulation. 2500 ms t vout_holdup time all output voltages stay within regulation after loss of ac. 21 ms t pwok_holdup delay from loss of ac to de-assertion of pwok 20 ms t pson_on_delay delay from pson# active to output voltages within regulation limits. 5 400 ms t pson_pwok delay from pson# deactivate to pwok being de-asserted. 50 ms t pwok_on delay from output voltages with in regulation limits to pwok asserted at turn on. 100 500 ms t pwok_off delay from pwok de-asserted to output voltages (3.3v, 5v, 12v, -12v) dropping out of regulation limits. 1 ms t pwok_low duration of pwok being in the de-asserted state during an off/on cycle using ac or the pson signal. 100 ms t sb_vout delay from 5vsb being in regulation to o/ps being in regulation at ac turn on. 50 1000 ms t 5vsb_holdup time the 5vsb output voltage stay s within regulation after loss of ac. 70 ms ac input vout pwok 5vsb pson t sb_on_delay t ac_on_delay t pwok_on t vout_holdup t pwok_holdup t pson_on_delay t sb_on_delay t pwok_on t pwok_off t pwok_off t pson_pwok t pwok_low t sb_vout ac turn on/off cycle pson turn on/off cycle t 5vsb _ holdup figure 26. turn on/off timing (power supply signals) intel order number: D41763-005 86
intel? server boards s5000psl and s5000xsl tps design and environmental specifications revision 1.4 intel order number: D41763-005 87 8.4.9 residual voltage immunity in standby mode the power supply should be immune to any residual voltage placed on its outputs (typically, a leakage voltage through the system from standby output) up to 500 mv. there shall be no additional heat generated, nor stressing of any internal components with this voltage applied to any individual output, and all outputs simultaneously. it also should not trip the power supply protection circuits during turn on. residual voltage at the power supply outputs for a no load condition shall not exceed 100 mv when ac voltage is applied and the pson# signal is de-asserted.
design and environmental specifications intel? server boards s5000psl and s5000xsl tps revision 1.4 intel order number: D41763-005 88 9. regulatory and certification information to help ensure emc compliance with your local regional rules and regulations, before computer integration, make sure that the chassis, power supply, and other modules have passed emc testing using a server board with a microprocessor from the same family (or higher) and operating at the same (or higher) speed as the microprocessor used on this server board. the final configuration of your end system product may require additional emc compliance testing. for more information please contact your local intel representative. this is an fcc class a device. integration of it into a class b chassis does not result in a class b device. 9.1 product regulatory compliance intended application ? this product was evaluated as information technology equipment (ite), which may be installed in offices, schools, computer rooms, and similar commercial type locations. the suitability of this product for other product categories and environments (such as: medical, industrial, telecommunications, nebs, residential, alarm systems, test equipment, etc.), other than an ite application, may require further evaluation. 9.1.1 product safety compliance ? ul60950 ? csa 60950(usa / canada) ? en60950 (europe) ? iec60950 (international) ? cb certificate & report, iec60950 (report to include all country national deviations) ? gost r 50377-92 ? listed on one system license (russia) ? belarus license ? listed on system license (belarus) ? ce - low voltage directive 73/23/eee (europe) ? iram certification (argentina) 9.1.2 product emc compliance ? class a compliance ? fcc /ices-003 - emissions (usa/canada) verification ? cispr 22 ? emissions (international) ? en55022 - emissions (europe) ? en55024 - immunity (europe) ? ce ? emc directive 89/336/eec (europe) ? vcci emissions (japan) ? as/nzs 3548 emissions (australia / new zealand) ? bsmi cns13438 emissions (taiwan) ? gost r 29216-91 emissions - listed on one system license (russia) ? gost r 50628-95 immunity ?listed on one system license (russia) ? belarus license ? listed on one system license (belarus)
intel? server boards s5000psl and s5000xsl tps design and environmental specifications revision 1.4 ? rrl mic notice no. 1997-41 (emc) & 1997-42 (emi) (korea) 9.1.3 certifications / regi strations / declarations ? ul certification or nrtl (us/canada) ? cb certifications (international) ? ce declaration of conformity (cenelec europe) ? fcc/ices-003 class a attestation (usa/canada) ? c-tick declaration of conformity (australia) ? med declaration of conformity (new zealand) ? bsmi certification (taiwan) ? rrl certification (korea) ? ecology declaration (international) 9.2 product regulatory compliance markings the intel ? server board bears the following regulatory marks. regulatory compliance region marking ul mark usa/canada ce mark europe emc marking (class a) canada canada ices-003 class a canada nmb-003 classe a intel order number: D41763-005 89 bsmi marking (class a) taiwan c-tick marking australia / new zealand rrl mic mark korea country of origin exporting requirements made in xxxxx (provided by label, not silkscreen) model designation regul atory identification examples (server board s5000psl) for boxed type boards; or board pb number for non-boxed boards (typically high-end boards)
design and environmental specifications intel? server boards s5000psl and s5000xsl tps revision 1.4 intel order number: D41763-005 90 9.3 electromagnetic compatibility notices 9.3.1 fcc verification statement (usa) this device complies with part 15 of the fcc rules. operation is subject to the following two conditions: (1) this device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. intel corporation 5200 n.e. elam young parkway hillsboro, or 97124-6497 phone: 1-800-628-8686 this equipment has been tested and found to comply with the limits for a class b digital device, pursuant to part 15 of the fcc rules. these limits are designed to provide reasonable protection against harmful interference in a residential installation. this equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. however, there is no guarantee that interference will not occur in a particular installation. if this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures: ? reorient or relocate the receiving antenna. ? increase the separation between the equipment and the receiver. ? connect the equipment into an outlet on a circuit different from that to which the receiver is connected. ? consult the dealer or an experienced radio/tv technician for help. any changes or modifications not expressly approv ed by the grantee of this device could void the user?s authority to operate the equipment. the customer is responsible for ensuring compliance of the modified product. all cables used to connect to peripherals must be shielded and grounded. operation with cables, connected to peripherals that are not shielded and grounded may result in interference to radio and tv reception. 9.3.2 ices-003 (canada) cet appareil numrique respecte les limites bruits radiolectriques applicables aux appareils numriques de classe b prescrites dans la norme sur le matriel brouilleur: ?appareils numriques?, nmb-003 dicte par le ministre canadian des communications. english translation of the notice above: this digital apparatus does not exceed the class b limits for radio noise emissions from digital apparatus set out in the interference-causing equipment standard entitled ?digital apparatus,? ices-003 of the canadian department of communications.
intel? server boards s5000psl and s5000xsl tps design and environmental specifications revision 1.4 9.3.3 europe (ce declaration of conformity) this product has been tested in accordance too, and complies with the low voltage directive (73/23/eec) and emc directive (89/336/eec). the product has been marked with the ce mark to illustrate its compliance. 9.3.4 vcci (japan) english translation of the notice above: this is a class b product based on the standard of the voluntary control council for interference (vcci) from information technology equipment. if this is used near a radio or television receiver in a domestic environment, it may cause radio interference. install and use the equipment according to the instruction manual. 9.3.5 bsmi (taiwan) the bsmi certification marking and emc warning is located on the outside rear area of the product. 9.3.6 rrl (korea) following is the rrl certification information for korea. english translation of the notice above: 1. type of equipment (model name): on license and product 2. certification no.: on rrl certificate. obta in certificate from local intel representative 3. name of certification recipient: intel corporation 4. date of manufacturer: refer to date code on product 5. manufacturer/nation: intel corporation/re fer to country of origin marked on product intel order number: D41763-005 91
design and environmental specifications intel? server boards s5000psl and s5000xsl tps revision 1.4 intel order number: D41763-005 92 9.3.7 cnca (ccc-china) the ccc certification marking and emc warning is located on the outside rear area of the product. a 9.4 restriction of hazardous substances (rohs) compliance intel has a system in place to restrict the use of banned substances in accordance with the european directive 2002/95/ec. compliance is based on declaration that materials banned in the rohs directive are either (1) below all applicable substance threshold limits or (2) an approved/pending rohs exemption applies. note: rohs implementation details are not fully defined and may change. threshold limits and banned substances are noted below. ? quantity limit of 0.1% by mass (1000 ppm) for: - lead - mercury - hexavalent chromium - polybrominated biphenyls diphenyl ethers (pbde) ? quantity limit of 0.01% by mass (100 ppm) for: - cadmium
intel? server boards s5000psl and s5000xsl tps appendix a: integration and usage tips appendix a: integration and usage tips ? when adding or removing components or peripherals from the server board, ac power must be removed. with ac power plugged into the server board, 5-volt standby is still present even though the server board is powered off. ? processors must be installed in order. cpu 1 is located near the edge of the server board and must be populated to operate the board. ? on the back edge of the server board are four diagnostic leds that display a sequence of red, green, or amber post codes during the boot process. if the server board hangs during post, the leds will display the last post event run before the hang. ? only fully buffered dimms (fbdimms) are supported on this server board. for a list of supported memory for this server board, see the intel? s5000psl, s5000xsl, s5000xvn, and server system sc5400ra tested memory list . ? for a list of intel supported operating systems, add-in cards, and peripherals for this server board, see the intel ? s5000psl, s5000xsl, s5000xvn, and server system sc5400ra tested hardware and os list. ? for a list of intel supported hard disk drives for this workstation board, see the intel ? server board/systems tested hard drive list. ? only multi-core intel ? xeon ? processors with system bus speeds of 667 (intel ? xeon ? processors 5000 series only), 1066, or 1333 mhz are supported on this server board. previous generation intel ? xeon ? processors are not supported. ? for the best performance, the number of fbdimms installed should be balanced across both memory branches. for example: a four-dimm configuration will perform better than a two dimm configuration. in a four-dimm configuration, fbdimms should be installed in dimm sockets a1, b1, c1, and d1. an eight-dimm configuration will perform better then a six dimm configuration. ? the intel ? rmm connector is not compatible with the intel ? server management module professional edition (product code axximmpro) or with the intel ? server management module advanced edition (product code axximmadv) ? removing ac power before performing the cm os clear operation will cause the system to automatically power up and immediately power down after the cmos clear procedure is followed and ac power is re-applied. if this happens, remove the ac power cord, wait 30 seconds, and then re-connect the ac power cord. power up the system and proceed to the bios setup utility to reset the desired settings. ? normal bmc functionality is disabled with the force bmc update jumper set to the ?enabled? position (pins 2-3). the server should never be run with the bmc force update jumper set in this position and should only be used when the standard firmware update process fails. this jumper should remain in the default (disabled) position (pins 1-2) when the server is running normally. ? when performing a bios update procedure, the bios select jumper must be set to its default position (pins 2-3). revision 1.4 intel order number: D41763-005 93
appendix b: bmc sensor tables intel? server boards s5000psl and s5000xsl tps appendix b: bmc sensor tables this appendix lists the sensor identification numbers and information about the sensor type, name, supported thresholds, assertion and de-assertion information, and a brief description of the sensor purpose. see the intelligent platform management interface specification, version 2.0, for sensor and event/reading-type table information. ? sensor type the sensor type is the values enumerated in the sensor type codes table in the ipmi specification. the sensor type provides the context in which to interpret the sensor, such as the physical entity or characteristic that is represented by this sensor. ? event / reading type the event/reading type values are from the event/reading type code ranges and generic event/reading type codes tables in the ipmi specification. digital sensors are a specific type of discrete sensor, which have only two states. ? event offset/triggers event thresholds are event-generating thresholds for threshold types of sensors. - [u,l][nr,c,nc]: upper nonrecoverable, upper critical, upper noncritical, lower nonrecoverable, lower critical, lower noncritical - uc, lc: upper critical, lower critical event triggers are supported event-generating offsets for discrete type sensors. the offsets can be found in the generic event/reading type codes or sensor type codes tables in the ipmi specification, depending on whether the sensor event/reading type is generic or a sensor-specific response. ? assertion / de-assertion enables assertion and de-assertion indicators reveal the type of events the sensor generates: - as: assertions - de: de-assertion ? readable value / offsets - readable value indicates the type of value returned for threshold and other non- discrete type sensors. - readable offsets indicate the offsets for discrete sensors that are readable with the get sensor reading command. unless otherwise indicated, all event triggers are readable; readable offsets consist of the reading type offsets that do not generate events. ? event data event data is the data that is included in an event message generated by the sensor. for threshold-based sensors, the following abbreviations are used: - r: reading value - t: threshold value revision 1.4 intel order number: D41763-005 94
intel? serv er boards s5000psl and s5000xsl tps appendix b: bmc sensor tables revision 1.4 intel order number: D41763-005 95 ? rearm sensors the rearm is a request for the event status for a sensor to be rechecked and updated upon a transition between good and bad states. rearming the sensors can be done manually or automatically. this column indicates the type supported by the sensor. the following abbreviations are used in the comment column to describe a sensor: - a: auto-rearm - m: manual rearm ? default hysteresis the hysteresis setting applies to all thresholds of the sensor. this column provides the count of hysterisis for the sensor, which c an be 1 or 2 (positive or negative hysteresis). ? criticality criticality is a classification of the severity and nature of the condition. it also controls the behavior of the control panel status led ? standby some sensors operate on standby power. these sensors may be accessed and / or generate events when the main (system) power is off, but ac power is present.
appendix b: bmc sensor tables intel? server boards s5000psl and s5000xsl tps table 45. bmc sensors sensor name [1] sensor number system applica- bility sensor type event / reading type event offset triggers criticality assert / de-assert readable value / offsets event data rearm standby power down power cycle a/c lost ok power unit status 01h all power unit 09h sensor specific 6fh soft power control failure power unit failure crit as and de ? trig offset a, i x fully redundant ok redundancy lost degraded redundancy degraded degraded non-red: stuff res from redund degraded non-red: suff from insuff degraded non-red: insufficient critical redun degrade from full degraded power unit redun- dancy 02h chassis- specific power unit 09h generic 0bh redun degrade from non- redundant degraded as and de ? trig offset a x watchdog 03h all watchdog 2 23h sensor specific 6fh timer expired, status only hard reset power down power cycle timer interrupt ok as ? trig offset a, i x revision 1.4 intel order number: D41763-005 96
intel? server boards s5000psl and s5000xsl tps appendix b: bmc sensor tables sensor name [1] sensor number system applica- bility sensor type event / reading type event offset triggers criticality assert / de-assert readable value / offsets event data rearm standby platform security violation 04h all platform security violation attempt 06h sensor specific 6fh secure mode violation attempt out-of-band access password violation ok as and de ? trig offset a, i x chassis intrusion ok physical security 05h chassis intrusion is chassis- specific physical security 05h sensor specific 6fh lan leash lost [2] degraded as and de ? trig offset a x fp diag interrupt (nmi) 07h all critical interrupt 13h sensor specific 6fh front panel nmi / diagnostic interrupt bus uncorrectable error ok as ? trig offset a, i ? system event log 09h all event logging disabled 10h sensor specific 6fh log area reset / cleared ok as ? trig offset a, i x session audit 0ah all session audit 2ah sensor specific 6fh 00h ? session activation 01h ? session deactivation ok ? as defined by ipmi a, i x system event ('system event') 0bh all system event 12h sensor specific 6fh 00 ? system reconfigured 04 ? pef action ok as ? trig offset a, i x bb +1.2v vtt 10h all voltage 02h threshold 01h [u,l] [c,nc] threshold defined as and de analog r, t a, i ? bb+1.8v nic core 11h all voltage 02h threshold 01h [u,l] [c,nc] threshold defined as and de analog r, t a, i x ? bb +1.5v aux 12h all voltage 02h threshold 01h [u,l] [c,nc] threshold defined as and de analog r, t a, i bb +1.5v 13h all voltage 02h threshold 01h [u,l] [c,nc] threshold defined as and de analog r, t a, i ? revision 1.4 intel order number: D41763-005 97
appendix b: bmc sensor tables intel? server boards s5000psl and s5000xsl tps sensor name [1] sensor number system applica- bility sensor type event / reading type event offset triggers criticality assert / de-assert readable value / offsets event data rearm standby bb +1.8v 14h all voltage 02h threshold 01h [u,l] [c,nc] threshold defined as and de analog r, t a, i ? bb +3.3v 15h all voltage 02h threshold 01h [u,l] [c,nc] threshold defined as and de analog r, t a, i ? bb +3.3v stb 16h all voltage 02h threshold 01h [u,l] [c,nc] threshold defined as and de analog r, t a, i x bb +1.5v esb 17h all voltage 02h threshold 01h [u,l] [c,nc] threshold defined as and de analog r, t a, i x bb +5v 18h all voltage 02h threshold 01h [u,l] [c,nc] threshold defined as and de analog r, t a, i ? bb +1.2v nic 19h all voltage 02h threshold 01h [u,l] [c,nc] threshold defined as and de analog r, t a, i ? bb +12v aux 1ah all voltage 02h threshold 01h [u,l] [c,nc] threshold defined as and de analog r, t a, i ? bb 0.9v 1bh all voltage 02h threshold 01h [u,l] [c,nc] threshold defined as and de analog r, t a, i ? bb vbat 1eh all voltage 02h digital discrete 05h 01h ? limit exceeded critical as and de ? r, t a, i x bb temp 30h all temperature 01h threshold 01h [u,l] [c,nc] threshold defined as and de analog r, t a, i x front panel temp 32h all temperature 01h threshold 01h [u,l] [c,nc] threshold defined as and de analog r, t a, i x fbdimm aggregate [3] 48h all temperature 01h threshold 01h ? ? ? ? ? a, i ? cpu 1 fan 50h chassis- specific fan 04h threshold 01h [l] [c,nc] [4] threshold defined as and de analog r, t m, i ? cpu 2 fan 51h chassis- specific fan 04h threshold 01h [l] [c,nc] [4] threshold defined as and de analog r, t m, i ? sys fan 1 tach 52h chassis- specific fan 04h threshold 01h [l] [c,nc] [4] threshold defined as and de analog r, t m, i ? revision 1.4 intel order number: D41763-005 98
intel? server boards s5000psl and s5000xsl tps appendix b: bmc sensor tables sensor name [1] sensor number system applica- bility sensor type event / reading type event offset triggers criticality assert / de-assert readable value / offsets event data rearm standby sys fan 2 tach 53h chassis- specific fan 04h threshold 01h [l] [c,nc] [4] threshold defined as and de analog r, t m, i ? sys fan 3 tach' 54h chassis- specific fan 04h threshold 01h [l] [c,nc] [4] threshold defined as and de analog r, t m, i ? sys fan 4 tach 55h chassis- specific fan 04h threshold 01h [l] [c,nc] [4] threshold defined as and de analog r, t m, i ? sys fan 5 tach' 56h chassis- specific fan 04h threshold 01h [l] [c,nc] [4] threshold defined as and de analog r, t m, i ? sys fan 6 tach 57h chassis- specific fan 04h threshold 01h [l] [c,nc] [4] threshold defined as and de analog r, t m, i ? tach fan (not used on this server) 58h chassis- specific fan 04h threshold 01h [l] [c,nc] [4] threshold defined as and de analog r, t m, i ? tach fan (not used on this server) 59h chassis- specific fan 04h threshold 01h [l] [c,nc] [4] threshold defined as and de analog r, t m, i ? tach fan (not used on this server) 5ah chassis- specific fan 04h threshold 01h [l] [c,nc] [4] threshold defined as and de analog r, t m, i ? fan 1 present 60h chassis- specific fan 04h generic 08h device present ok as and de ? t a ? fan 2 present 61h chassis- specific fan 04h generic 08h device present ok as and de ? t a ? fan 3 present 62h chassis- specific fan 04h generic 08h device present ok as and de ? t a ? fan 4 present 63h chassis- specific fan 04h generic 08h device present ok as and de ? t a ? fan 5 present 64h chassis- specific fan 04h generic 08h device present ok as and de ? t a ? fan 6 present 65h chassis- specific fan 04h generic 08h device present ok as and de ? t a ? revision 1.4 intel order number: D41763-005 99
appendix b: bmc sensor tables intel? server boards s5000psl and s5000xsl tps sensor name [1] sensor number system applica- bility sensor type event / reading type event offset triggers criticality assert / de-assert readable value / offsets event data rearm standby fan 7 present 66h chassis- specific fan generic 08h device present ok as and de 04h ? t a ? fan 8 present 67h chassis- specific fan generic 08h device present ok as and de 04h ? t a ? fan 9 present 68h chassis- specific fan generic 08h device present ok as and de 04h ? t a ? fan 10 present 69h chassis- specific fan generic device present ok as and de ? a ? t 04h 08h full redundant ok redundancy lost degraded fan redun- dancy [5] 6fh chassis- specific fan generic 0bh as and de ? trig offset a x 04h redundancy degraded degraded non-red: suff res from redund degraded non-red: suff from insuff degraded non-red: insufficient non critical redun degrade from full degraded degraded redun degrade from non- redundant presence ok failure degraded predictive fail degraded power supply status [5] 1 70h chassis- specific power supply 08h sensor specific 6fh as and de ? trig offset a x a/c lost degraded configuration error ok presence ok failure degraded predictive fail degraded power supply status [5] 2 71h chassis- specific power supply sensor specific 6fh as and de ? trig offset a 08h a/c lost degraded x revision 1.4 intel order number: D41763-005 100
intel? server boards s5000psl and s5000xsl tps appendix b: bmc sensor tables sensor name [1] sensor number system applica- bility sensor type event / reading type event offset triggers criticality assert / de-assert readable value / offsets event data rearm standby configuration error ok power nozzle power supply 1 78h chassis- specific current 03h threshold [u] [c,nc] threshold defined as and de analog r, t a, i ? 01h power nozzle power supply 2 79h chassis- specific current threshold 01h [u] [c,nc] threshold defined as and de analog r, t a, i ? 03h 7ah chassis- specific current 03h threshold [u] [c,nc] threshold defined as and de analog r, t a, i ? power gauge v1 rail (+12v) 01h power supply 1 power gauge v1 rail (+12v) power supply 2 7bh chassis- specific current 03h threshold 01h [u] [c,nc] threshold defined as and de analog r, t a, i ? power gauge (aggre-gate power) power supply 1 7ch chassis- specific other units threshold 01h [u] [c,nc] threshold defined as and de analog r, t a, i ? 0bh power gauge (aggregate power) power supply 2 7dh chassis- specific other units threshold 01h [u] [c,nc] threshold defined as and de 0bh analog r, t a, i ? revision 1.4 intel order number: D41763-005 101
appendix b: bmc sensor tables intel? server boards s5000psl and s5000xsl tps sensor name [1] sensor number system applica- bility sensor type event / reading type event offset triggers criticality assert / de-assert readable value / offsets event data rearm standby system acpi power state 82h all system acpi power state sensor specific 6fh s0 / g0 s1 22h s3 s4 s5 / g2 g3 mechanical off ok as ? trig offset a, i x button 84h all button sensor specific 6fh power button reset button ok as ? trig offset a, i x 14h smi timeout 85h all smi timeout f3h digital discrete 03h 01h ? state asserted critical as and de ? trig offset a, i ? sensor failure 86h all sensor failure f6h oem sensor specific 73h i 2 c device not found i 2 c device error detected i 2 c bus timeout ok as ? trig offset a x nmi signal state 87h all oem c0h digital discrete 01h ? state asserted ok ? 01h ? a, i ? 03h smi signal state 88h all oem c0h digital discrete 03h 01h ? state asserted ok ? 01h ? a, i ? ierr critical thermal trip critical config error critical presence ok proc 1 status 90h all processor 07h sensor specific as and de ? 6fh disabled degraded trig offset m x ierr critical thermal trip critical proc 2 status 91h all processor config error critical 07h sensor specific 6fh as and de ? trig offset m presence ok x revision 1.4 intel order number: D41763-005 102
intel? server boards s5000psl and s5000xsl tps appendix b: bmc sensor tables sensor name [1] sensor number system applica- bility sensor type event / reading type event offset triggers criticality assert / de-assert readable value / offsets event data rearm standby disabled degraded proc 1 temp [6] 98h all temperature 01h threshold 01h [u,l] [c,nc] threshold defined as and de analog r, t a, i ? p1 therm margin [7] 99h all temperature 01h threshold 01h ? ? ? ? ? a, i ? proc 2 temp [6] 9ah all temperature 01h threshold 01h [u,l] [c,nc] threshold defined as and de analog r, t a, i ? p2 therm margin [7] 9bh all temperature 01h threshold 01h ? ? ? ? ? a, i ? p1b therm margin [8] 9ch all temperature 01h threshold 01h ? ? ? ? ? a, i ? p2b therm margin [8] 9dh all temperature 01h threshold 01h ? ? ? ? ? a, i ? bus correctable error ok pcie link0 a0h all sensor specific 6fh pcie link0 bus uncorrectable error degraded as ? see the bios eps a, i ? bus correctable error ok pcie link1 a1h all sensor specific 6fh sensor specific 6fh bus uncorrectable error degraded as ? see the bios eps a, i ? bus correctable error ok pcie link2 a2h all sensor specific 6fh sensor specific 6fh bus uncorrectable error degraded as ? see the bios eps a, i ? bus correctable error ok pcie link3 a3h all sensor specific 6fh sensor specific 6fh bus uncorrectable error degraded as ? see the bios eps a, i ? bus correctable error ok pcie link4 a4h all sensor specific 6fh sensor specific 6fh bus uncorrectable error degraded as ? see the bios eps a, i ? revision 1.4 intel order number: D41763-005 103
appendix b: bmc sensor tables intel? server boards s5000psl and s5000xsl tps sensor name [1] sensor number system applica- bility sensor type event / reading type event offset triggers criticality assert / de-assert readable value / offsets event data rearm standby bus correctable error ok pcie link5 a5h all sensor specific 6fh sensor specific 6fh bus uncorrectable error degraded as ? see the bios eps a, i ? bus correctable error ok pcie link6 a6h all sensor specific 6fh sensor specific 6fh bus uncorrectable error degraded as ? see the bios eps a, i ? bus correctable error ok pcie link7 a7h all sensor specific 6fh sensor specific 6fh bus uncorrectable error degraded as ? see the bios eps a, i ? bus correctable error ok pcie link8 a8h all sensor specific 6fh sensor specific 6fh bus uncorrectable error degraded as ? see the bios eps a, i ? bus correctable error ok pcie link9 a9h all sensor specific 6fh sensor specific 6fh bus uncorrectable error degraded as ? see the bios eps a, i ? bus correctable error ok pcie link10 aah all sensor specific 6fh sensor specific 6fh bus uncorrectable error degraded as ? see the bios eps a, i ? bus correctable error ok pcie link11 abh all sensor specific 6fh sensor specific 6fh bus uncorrectable error degraded as ? see the bios eps a, i ? bus correctable error ok pcie link12 ach all sensor specific 6fh sensor specific 6fh bus uncorrectable error degraded as ? see the bios eps a, i ? pcie link13 adh all sensor specific sensor specific bus correctable error ok as ? see the bios eps a, i ? revision 1.4 intel order number: D41763-005 104
intel? server boards s5000psl and s5000xsl tps appendix b: bmc sensor tables sensor name [1] sensor number system applica- bility sensor type event / reading type event offset triggers criticality assert / de-assert readable value / offsets event data rearm standby 6fh 6fh bus uncorrectable error degraded proc 1 thermal control c0h all temperature 01h threshold 01h [u] [c] non- critical as and de analog trig offset m ? proc 2 thermal control c1h all temperature 01h threshold 01h [u] [c] non- critical as and de analog trig offset m ? proc 1 vrd over temp c8h all temperature 01h digital discrete 05h 01h ? limit exceeded non- critical as and de ? trig offset m ? proc 2 vrd over temp c9h all temperature 01h digital discrete 05h 01h ? limit exceeded non- critical as and de ? trig offset m ? proc 1 vcc d0h all voltage 02h threshold 01h [u,l] [c,nc] threshold defined as and de analog r, t a ? proc 2 vcc d1h all voltage 02h threshold 01h [u,l] [c,nc] threshold defined as and de analog r, t a ? proc 1 vcc out-of- range d2h all voltage 02h digital discrete 05h 01h ? limit exceeded non- critical as and de discrete r, t a ? proc 2 vcc out-of- range d3h all voltage 02h digital discrete 05h 01h ? limit exceeded non- critical as and de discrete r, t a ? cpu population error d8h all processor 07h generic 03h 01h ?- state asserted critical as and de ? r, t a ? fault status asserted degraded device installed ok disabled degraded dimm a1 e0h all slot connector 21h sensor specific 6fh sparing ok as ? trig offset a ? dimm a2 e1h all slot connector sensor specific fault status asserted degraded as ? trig offset a ? revision 1.4 intel order number: D41763-005 105
appendix b: bmc sensor tables intel? server boards s5000psl and s5000xsl tps sensor name [1] sensor number system applica- bility sensor type event / reading type event offset triggers criticality assert / de-assert readable value / offsets event data rearm standby device installed ok disabled degraded 21h 6fh sparing ok fault status asserted degraded device installed ok disabled degraded dimm b1 e2h all slot connector 21h sensor specific 6fh sparing ok as ? trig offset a ? fault status asserted degraded device installed ok disabled degraded dimm b2 e3h all slot connector 21h sensor specific 6fh sparing ok as ? trig offset a ? fault status asserted degraded device installed ok disabled degraded dimm c1 e4h all slot connector 21h sensor specific 6fh sparing ok as ? trig offset a ? fault status asserted degraded device installed ok disabled degraded dimm c2 e5h all slot connector 21h sensor specific 6fh sparing ok as ? trig offset a ? fault status asserted degraded device installed ok disabled degraded dimm d1 e6h all slot connector 21h sensor specific 6fh sparing ok as ? trig offset a ? fault status asserted degraded device installed ok dimm d2 e7h all slot connector 21h sensor specific 6fh disabled degraded as ? trig offset a ? revision 1.4 intel order number: D41763-005 106
intel? server boards s5000psl and s5000xsl tps appendix b: bmc sensor tables sensor name [1] sensor number system applica- bility sensor type event / reading type event offset triggers criticality assert / de-assert readable value / offsets event data rearm standby sparing ok memory a error ech all memory 0ch sensor specific 6fh correctable ecc uncorrectable ecc ok as ? trig offset a ? memory b error edh all memory 0ch sensor specific 6fh correctable ecc uncorrectable ecc ok as ? trig offset a ? memory c error eeh all memory 0ch sensor specific 6fh correctable ecc uncorrectable ecc ok as ? trig offset a ? memory d error efh all memory 0ch sensor specific 6fh correctable ecc uncorrectable ecc ok as ? trig offset a ? b0 dimm sparing enabled f0h all entity presence 25h sensor specific 6fh entity present ok as ? trig offset a ? fully redundant ok non-red: suff res from redund non-red: suff res from insuff res degraded b0 dimm sparing redun- dancy f1h all memory 0ch discrete 0bh non-red: insuff res crtical as ? trig offset a ? b1 dimm sparing enabled f2h all entity presence 25h sensor specific 6fh entity present ok as ? trig offset a ? fully redundant ok non-red: suff res from redund non-red: suff res from insuff res degraded b1 dimm sparing redun- dancy f3h all memory 0ch discrete 0bh non-red: insuff res crtical as ? trig offset a ? revision 1.4 intel order number: D41763-005 107
intel? server boards s5000psl and s5000xsl tps revision 1.4 intel order number: D41763-005 108 sensor name [1] sensor number system applica- bility sensor type event / reading type event offset triggers criticality assert / de-assert readable value / offsets event data rearm standby b01 dimm mirroring enabled f4h all entity presence 25h sensor specific 6fh entity present ok as ? trig offset a ? fully redundant ok non-red:suff res from redund non-red:suff res from insuff res degraded b01 dimm mirroring redun- dancy f5h all memory 0ch discrete 0bh non-red: insuff res crtical as ? trig offset a ? note 4: for system with redundant cooling capability, the contribution to system st atus is determined by the fan redundancy sen sor. note 1: actual sensor name strings in sdr may vary from t he names in this table, according to platform-specific usage. note 8: applicable with intle? xeon? processor 5300 series and 45nm 2p quad-core intel? xeon? processor note 7: applicable with intel? xeon? processor 5100 series and 45nm 2p dual-core intel? xeon? processor note 5: sensor only presents on sy stems that have applicable redundancy 9for instance, fan or power supply) note 3: fbdimm aggregate sensor will only have effect when cltt enabled. note 6: applicable with inte l? xeon? processor 5000 series note 2: not supported except for esb2 embedded nics. appendix b: bmc sensor tables
intel? server boards s5000psl and s5000xsl t psappendix c: post code diagnostic led decoder appendix c: post code diagnostic led decoder during the system boot process, the bios ex ecutes a number of platform configuration processes, each of which is assigned a specific hex post code number. as each configuration routine is started, the bios displays the post code to the post code diagnostic leds on the back edge of the server board. to assist in troubleshooting a system hang during the post process, the diagnostic leds can be used to identify the last post process that was executed. each post code is represented by a combination of colors from the four leds. the leds are capable of displaying three colors: green, red, and amber. the post codes are divided into two nibbles, an upper nibble and a lower nibble. each bit in the upper nibble is represented by a red led and each bit in the lower nibble is represented by a green led. if both bits are set in the upper and lower nibbles then both red and green leds are lit, resulting in an amber color. if both bits are clear, then the led is off. a. status led d. bit 2 led (post led) b. id led e. bit 1 led (post led) c. msb led (post led) f. lsb led (post led) figure 27. diagnostic led placement diagram revision 1.4 intel order number: D41763-005 109
appendix c: post code diagnostic led decoderi ntel? server boards s5000psl and s5000xsl tps in the below example, bios sends a value of ach to the diagnostic led decoder. the leds are decoded as follows: ? red bits = 1010b = ah ? green bits = 1100b = ch since the red bits correspond to the upper nibble and the green bits correspond to the lower nibble, the two are concatenated as ach. table 46. post progress code led example 8h 4h 2h 1h leds red green red green red green red green ach 1 1 0 1 1 0 0 0 result amber green red off msb bit 2 bit 1 lsb table 47. diagnostic led post code decoder diagnostic led decoder g=green, r=red, a=amber checkpoint msb bit 2 bit 1 lsb description host processor 0x10h off off off r power-on initialization of the host processor (bootstrap processor) 0x11h off off off a host processor cache initialization (including ap) 0x12h off off g r starting application processor initialization 0x13h off off g a smm initialization chipset 0x21h off off r g initializing a chipset component memory 0x22h off off a off reading configuration data from memory (spd on dimm) 0x23h off off a g detecting presence of memory 0x24h off g r off programming timing parameters in the memory controller 0x25h off g r g configuring memory parameters in the memory controller 0x26h off g a off optimizing me mory controller settings 0x27h off g a g initializing memory, such as ecc init 0x28h g off r off testing memory pci bus 0x50h off r off r enumerating pci busses 0x51h off r off a allocating resources to pci busses 0x52h off r g r hot plug pci controller initialization 0x53h off r g a reserved for pci bus 0x54h off a off r reserved for pci bus 0x55h off a off a reserved for pci bus 0x56h off a g r reserved for pci bus revision 1.4 intel order number: D41763-005 110
intel? server boards s5000psl and s5000xsl t psappendix c: post code diagnostic led decoder diagnostic led decoder g=green, r=red, a=amber description checkpoint msb bit 2 bit 1 lsb 0x57h off a g a reserved for pci bus usb 0x58h g r off r resetting usb bus 0x59h g r off a reserved for usb devices ata / atapi / sata 0x5ah g r g r resetting pata / sata bus and all devices 0x5bh g r g a reserved for ata smbus 0x5ch g a off r resetting smbus 0x5dh g a off a reserved for smbus local console 0x70h off r r r resetting the video controller (vga) 0x71h off r r a disabling the video controller (vga) 0x72h off r a r enabling the video controller (vga) remote console 0x78h g r r r resetting the console controller 0x79h g r r a disabling the console controller 0x7ah g r a r enabling the console controller keyboard (ps2 or usb) 0x90h r off off r resetting the keyboard 0x91h r off off a disabling the keyboard 0x92h r off g r detecting the presence of the keyboard 0x93h r off g a enabling the keyboard 0x94h r g off r clearing keyboard input buffer 0x95h r g off a instructing keyboard controller to run self test (ps2 only) mouse (ps2 or usb) 0x98h a off off r resetting the mouse 0x99h a off off a detecting the mouse 0x9ah a off g r detecting the presence of mouse 0x9bh a off g a enabling the mouse fixed media 0xb0h r off r r resetting fixed media device 0xb1h r off r a disabling fixed media device 0xb2h r off a r detecting presence of a fixed medi a device (ide hard drive detection, etc.) 0xb3h r off a a enabling / configuring a fixed media device removable media 0xb8h a off r r resetting removable media device 0xb9h a off r a disabling removable media device 0xbah a off a r detecting presence of a removable media device (ide cdrom detection, etc.) 0xbch a g r r enabling / configuring a removable media device boot device selection revision 1.4 intel order number: D41763-005 111
appendix c: post code diagnostic led decoderi ntel? server boards s5000psl and s5000xsl tps diagnostic led decoder g=green, r=red, a=amber description checkpoint msb bit 2 bit 1 lsb 0xd0 r r off r trying boot device selection 0xd1 r r off a trying boot device selection 0xd2 r r g r trying boot device selection 0xd3 r r g a trying boot device selection 0xd4 r a off r trying boot device selection 0xd5 r a off a trying boot device selection 0xd6 r a g r trying boot device selection 0xd7 r a g a trying boot device selection 0xd8 a r off r trying boot device selection 0xd9 a r off a trying boot device selection 0xda a r g r trying boot device selection 0xdb a r g a trying boot device selection 0xdc a a off r trying boot device selection 0xde a a g r trying boot device selection 0xdf a a g a trying boot device selection pre-efi initialization (pei) core 0xe0h r r r off started dispatching early initialization modules (peim) 0xe2h r r a off initial memory found, configured, and installed correctly 0xe1h r r r g reserved for in itialization module use (peim) 0xe3h r r a g reserved for initialization module use (peim) driver execution environment (dxe) core 0xe4h r a r off entered efi driver execution phase (dxe) 0xe5h r a r g started dispatching drivers 0xe6h r a a off started connecting drivers dxe drivers 0xe7h r a a g waiting for user input 0xe8h a r r off checking password 0xe9h a r r g entering bios setup 0xeah a r a off flash update 0xeeh a a a off calling int 19. one beep unless silent boot is enabled. 0xefh a a a g unrecoverable boot failure / s3 resume failure runtime phase / efi operating system boot 0xf4h r a r r entering sleep state 0xf5h r a r a exiting sleep state 0xf8h a r r r operating system has requested efi to close boot services (exitbootservices ( ) has been called) 0xf9h a r r a operating system has swit ched to virtual address mode (setvirtualaddressmap ( ) has been called) 0xfah a r a r operating system has r equested the system to reset (resetsystem () has been called) pre-efi initialization module (peim) / recovery 0x30h off off r r crisis recovery has been initiated because of a user request 0x31h off off r a crisis recovery has been initiated by software (corrupt flash) revision 1.4 intel order number: D41763-005 112
intel? server boards s5000psl and s5000xsl t psappendix c: post code diagnostic led decoder diagnostic led decoder g=green, r=red, a=amber description checkpoint msb bit 2 bit 1 lsb 0x34h off g r r loading crisis recovery capsule 0x35h off g r a handing off control to the crisis recovery capsule 0x3fh g g a a unable to co mplete crisis recovery. revision 1.4 intel order number: D41763-005 113
appendix d: post code errors intel? server boards s5000psl and s5000xsl tps appendix d: post code errors whenever possible, the bios will output the current boot progress codes on the video screen. progress codes are 32-bit quantities plus optional data. the 32-bit numbers include class, subclass, and operation information. the class and subclass fields point to the type of hardware that is being initialized. the operation field represents the specific initialization activity. based on the data bit availability to display progress codes, a progress code can be customized to fit the data width. the higher the data bit, the higher the granularity of information that can be sent on the progress port. the progress codes may be reported by the system bios or option roms. the response column in the following table is divided into two types: ? pause: the message is displayed in the error manager screen, an error is logged to the sel, and user input is required to continue. the user can take immediate corrective action or choose to continue booting. ? halt: the message is displayed in the error manager screen, an error is logged to the sel, and the system cannot boot unless the error is resolved. the user needs to replace the faulty part and restart the system. table 48. post error messages and handling error code error message response 004c keyboard / interface error pause 0012 cmos date / time not set pause 5220 configuration clear ed by jumper pause 5221 passwords cleared by jumper pause 5223 configuration default loaded pause 0048 password check failed halt 0141 pci resource conflict pause 0146 insufficient memory to shadow pci rom pause 8110 processor 01 internal error (ierr) on last boot pause 8111 processor 02 internal error (ierr) on last boot pause 8120 processor 01 thermal trip error on last boot pause 8121 processor 02 thermal trip error on last boot pause 8130 processor 01 disabled pause 8131 processor 02 disabled pause 8160 processor 01 unable to apply bios update pause 8161 processor 02 unable to apply bios update pause 8190 watchdog timer failed on last boot pause 8198 operating system boot watchdog ti mer expired on last boot pause 0192 l3 cache size mismatch halt 0194 cpuid, processor fam ily are different halt 0195 front side bus mismatch pause 0197 processor speeds mismatched pause 8300 baseboard management controlle r failed self-test pause 8306 front panel controller locked pause 8305 hotswap controller failed pause revision 1.4 intel order number: D41763-005 114
intel? server boards s5000psl and s5000 xsl tps appendix d: post code errors error code error message response 84f2 baseboard management controller failed to respond pause 84f3 baseboard management cont roller in update mode pause 84f4 sensor data record empty pause 84ff system event log full pause 8500 memory component could not be configured in the selected ras mode. pause 8520 dimm_a1 failed self test (bist). pause 8521 dimm_a2 failed self test (bist). pause 8522 dimm_a3 failed self test (bist). pause 8523 dimm_a4 failed self test (bist). pause 8524 dimm_b1 failed self test (bist). pause 8525 dimm_b2 failed self test (bist). pause 8526 dimm_b3 failed self test (bist). pause 8527 dimm_b4 failed self test (bist). pause 8528 dimm_c1 failed self test (bist). pause 8529 dimm_c2 failed self test (bist). pause 852a dimm_c3 failed self test (bist). pause 852b dimm_c4 failed self test (bist). pause 852c dimm_d1 failed self test (bist). pause 852d dimm_d2 failed self test (bist). pause 852e dimm_d3 failed self test (bist). pause 852f dimm_d4 failed self test (bist). pause 8540 memory component lost redundancy during the last boot. pause 8580 dimm_a1 correctable ecc error encountered. pause 8581 dimm_a2 correctable ecc error encountered. pause 8582 dimm_a3 correctable ecc error encountered. pause 8583 dimm_a4 correctable ecc error encountered. pause 8584 dimm_b1 correctable ecc error encountered. pause 8585 dimm_b2 correctable ecc error encountered. pause 8586 dimm_b3 correctable ecc error encountered. pause 8587 dimm_b4 correctable ecc error encountered. pause 8588 dimm_c1 correctable ecc error encountered. pause 8589 dimm_c2 correctable ecc error encountered. pause 858a dimm_c3 correctable ecc error encountered. pause 858b dimm_c4 correctable e cc error encountered. pause 858c dimm_d1 correctable e cc error encountered. pause 858d dimm_d2 correctable ecc error encountered. pause 858e dimm_d3 correctable e cc error encountered. pause 858f dimm_d4 correctable ecc error encountered. pause 8600 primary and secondary bios ids do not match. pause 8601 override jumper is set to force boot from lower alternate bios bank of flash rom pause 8602 watchdog timer expired (secondary bios may be bad!) pause 8603 secondary bios checksum fail pause revision 1.4 intel order number: D41763-005 115
appendix d: post code errors intel? server boards s5000psl and s5000xsl tps post error beep codes the following table lists post error beep codes. prior to system video initialization, bios uses these beep codes to inform users on error conditions. the beep code is followed by a user visible code on post progress leds. table 49. post error beep codes beeps error message post progress code description 3 memory error system halted because a fatal error related to the memory was detected. 6 bios rolling back error the system has detected a corrupted bios in the flash part, and is rolling back to the last good bios. the bmc may generate beep codes upon detection of failure conditions. beep codes are sounded each time the problem is discovered, such as on each power-up attempt, but are not sounded continuously. codes that are common across all intel ? server boards and systems that use the intel ? 5000 chipset are listed in the following table. each digit in the code is represented by a sequence of beeps whose count is equal to the digit. table 50. bmc beep codes code reason for beep associated sensors supported? 1-5-2-1 cpu: empty slot / population error ? processor slot 1 is not populated. cpu population error yes 1-5-2-2 cpu: no processors (terminators only) n/a no 1-5-2-3 cpu: configuration erro r (e.g., vid mismatch) n/a no 1-5-2-4 cpu: configuration erro r (e.g, bsel mismatch) n/a no 1-5-4-2 power fault: dc power unexpectedly lost (power good dropout) power unit ? power unit failure offset yes 1-5-4-3 chipset control failure n/a no 1-5-4-4 power control fault power unit ? soft power control failure offset yes revision 1.4 intel order number: D41763-005 116
intel? server boards s5000psl and s5000 xsl tps appendix d: post code errors appendix e: supported intel ? server chassis the intel ? server boards s5000psl and s5000xsl are supported in the following intel ? pedestal server chassis: ? intel ? server chassis sc5400 base ? intel ? server chassis sc5400 brp ? intel ? server chassis sc5400 lx ? intel ? server chassis sc5400 lxi ? intel ? entry server chassis sc5299-e dp ? intel ? entry server chassis sc5299-e brp revision 1.4 intel order number: D41763-005 117
glossary intel? server boards s5000psl and s5000xsl tps glossary this appendix contains important terms used in the preceding chapters. for ease of use, numeric entries are listed first (e.g., ?82460gx?) with alpha entries following (e.g., ?agp 4x?). acronyms are then entered in their respective place, with non-acronyms following. term definition acpi advanced configurat ion and power interface ap application processor apic advanced programmable interrupt control asic application specif ic integrated circuit asmi advanced server management interface bios basic input / output system bist built-in self test bmc baseboard management controller bridge circuitry connecting one computer bus to another, allowing an agent on one to access the other bsp bootstrap processor byte 8-bit quantity. cbc chassis bridge controller (a microcontroller c onnected to one or more ot her cbcs, together they bridge the ipmb buses of multiple chassis. cek common enabling kit chap challenge handshake authentication protocol cmos in terms of this specification, this describes the pc-at compatible region of battery-backed 128 bytes of memory, which normally resides on the server board. dpc direct platform control eeprom electrically erasable programmable read-only memory ehci enhanced host controller interface emp emergency management port eps external product specification esb2 enterprise south bridge 2 fbd fully buffered dimm f mb flexible mother board frb fault resilient booting fru field replaceable unit fsb front side bus gb 1024 mb gpio general purpose i/o gtl gunning transceiver logic hsc hot-swap controller hz hertz (1 cycle / second) i2c inter-integrated circuit bus ia intel ? architecture ibf input buffer ich i/o controller hub ic mb intelligent chassis management bus ierr internal error revision 1.4 intel order number: D41763-005 118
intel? server boards s5000psl and s5000xsl tps glossary term definition ifb i/o and firmware bridge intr interrupt ip internet protocol ipmb intelligent platform management bus ipmi intelligent platform management interface ir infrared itp in-target probe kb 1024 bytes kcs keyboard controller style lan local area network lcd liquid crystal display led light emitting diode lpc low pin count lun logical unit number mac media access control mb 1024kb mch memory controller hub md2 message digest 2 ? hashing algorithm md5 message digest 5 ? hashing algorithm ? higher security ms milliseconds mttr memory type range register mux multiplexor nic network interface controller nmi nonmaskable interrupt obf output buffer oem original equipment manufacturer ohm unit of electrical resistance pef platform event filtering pep platform event paging pia platform information area (this feature confi gures the firmware for the platform hardware) pld programmable logic device pmi platform management interrupt post power-on self test psmi power supply management interface pwm pulse-width modulation ram random access memory rasum reliability, availability, se rviceability, usability, and manageability risc reduced instruction set computing rom read only memory rtc real-time clock (component of ich peripheral chip on the server board) sdr sensor data record secc single edge connector cartridge seeprom serial electrically erasable programmable read-only memory sel system event log revision 1.4 intel order number: D41763-005 119
glossary intel? server boards s5000psl and s5000xsl tps term definition sio server input / output smi server management interrupt (smi is the highest priority nonmaskable interrupt) smm server management mode sms server management software snmp simple network management protocol tbd to be determined tim thermal interface material uart universal asynchronous receiver / transmitter udp user datagram protocol uhci universal host controller interface utc universal time coordinare vid voltage i dentification vrd voltage regulator down word 16-bit quantity zif zero insertion force revision 1.4 intel order number: D41763-005 120
intel? server boards s5000psl and s5000xsl tps reference documents reference documents see the following documents for additional information: ? intel ? s5000 server board family datasheet ? intel server boards s5000psl and s5000xsl specification update ? intel 5000 series chipset memory controller hub datasheet. ? intel 631xesb/632xesb i/o controller hub datasheet. revision 1.4 intel order number: D41763-005 121

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