® Intel Server Boards S3200SH/S3210SH Technical Product Specification Intel Order Number: E14960-009 Revision 1.8 May, 2010 Enterprise Platforms and Services Division Revision History Intel® Server Boards S3200SH/S3210SH TPS Revision History Date Revision Number Modifications Sept. 2007 1.0 Initial release. Oct. 2007 1.1 Added new updates. Jan. 2008 1.2 Corrected some document errors. ® Apr. 2008 1.3 Added Intel Embedded Server RAID Technology. July 2008 1.4 Added CMOS Clear instructions Sept. 2008 1.5 Updated Diagnostic LEDs graphic Jan. 2009 1.6 Grammatical corrections. Feb. 2009 1.7 Grammatical corrections and minor updates. May 2010 1.8 Removed CCC. 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 infringement of any patent, copyright or other intellectual property right. Intel products are not intended for use in medical, life saving, or life sustaining applications. Intel may make changes to specifications and product descriptions 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 future definition and shall have no responsibility whatsoever for conflicts or incompatibilities arising from future changes to them. This document contains information on products in the design phase of development. Do not finalize a design with this information. Revised information will be published when the product is available. Verify with your local sales office that you have the latest datasheet before finalizing a design. The Intel Server boards Snow Hill family may contain design defects or errors known as errata which may cause the product to deviate from published specifications. Current characterized errata are available on request. This document and the software described in it is furnished under license and may only be used or copied in accordance with the terms of the license. The information in this manual is furnished for informational use only, is subject to change without notice, and should not be construed as a commitment by Intel Corporation. Intel Corporation assumes no responsibility or liability for any errors or inaccuracies that may appear in this document or any software that may be provided in association with this document. Except as permitted by such license, no part of this document may be reproduced, stored in a retrieval system, or transmitted in any form or by any means without the express written consent of Intel Corporation. Intel, Pentium, Itanium, and Xeon are trademarks or registered trademarks of Intel Corporation. *Other brands and names may be claimed as the property of others. Copyright © Intel Corporation 2007-2010. ii Revision 1.8 Intel Order Number: E14960-009 Intel® Server Boards S3200SH/S3210SH TPS Table of Contents Table of Contents 1. Introduction ..........................................................................................................................1 1.1 Chapter Outline........................................................................................................1 1.2 Server Board Use Disclaimer ..................................................................................1 2. Server Board Overview........................................................................................................2 2.1 Server Board Feature Set........................................................................................2 2.2 Server Board Layout..............................................................................................10 2.2.1 Server Board Mechanical Drawings ......................................................................11 3. Functional Architecture .....................................................................................................13 3.1 Processor Sub-System ..........................................................................................15 3.1.1 Processor Voltage Regulator Down (VRD)............................................................15 3.1.2 Reset Configuration Logic .....................................................................................15 ® 3.2 Intel 3200/3210 Chipset .......................................................................................16 ® 3.2.1 Intel 3200/3210 Chipset MCH: Memory Control Hub...........................................16 3.2.2 PCI-X Hub (LX board SKU only)............................................................................19 ® 3.2.3 Intel ICH9R: I/O Controller Hub 9R......................................................................20 3.3 Memory Sub-System .............................................................................................26 3.3.1 Memory Configuration ...........................................................................................26 3.3.2 Memory DIMM Support..........................................................................................28 3.4 I/O Sub-System .....................................................................................................28 3.4.1 PCI Subsystem ......................................................................................................28 3.4.2 Interrupt Routing ....................................................................................................30 3.5 BMC Controller ......................................................................................................36 3.6 PCI Express* to PCI-X Bridge 6702PXH (PXH-V) (LX Board SKU Only)..............38 3.7 Clock Generator.....................................................................................................38 3.8 Super I/O ...............................................................................................................38 3.9 GigE Controller 82541PI........................................................................................39 3.10 GigE PHY ..............................................................................................................39 3.11 On-Board Components..........................................................................................39 3.11.1 Video Support ........................................................................................................39 3.12 Replacing the Back-Up Battery..............................................................................42 4. System BIOS.......................................................................................................................43 4.1 BIOS Identification String.......................................................................................43 4.2 Logo / Diagnostic Window .....................................................................................44 Revision 1.8 iii Intel Order Number: E14960-009 Table of Contents Intel® Server Boards S3200SH/S3210SH TPS 4.3 BIOS Setup Utility ..................................................................................................44 4.3.1 Operation ...............................................................................................................44 4.3.2 Server Platform Setup Screens .............................................................................47 4.4 Loading BIOS Defaults ..........................................................................................75 4.5 Multiple Boot Blocks ..............................................................................................75 4.6 Recovery Mode......................................................................................................75 ® 4.7 Intel Matrix Storage Manager...............................................................................76 ® 4.8 Intel Embedded Server RAID Technology II Support...........................................76 5. Error Reporting and Handling...........................................................................................77 5.1 Error Handling and Logging...................................................................................77 5.1.1 Error Sources and Types.......................................................................................77 5.1.2 Error Logging via SMI Handler ..............................................................................78 5.1.3 SMBIOS Type 15...................................................................................................78 5.1.4 Logging Format Conventions.................................................................................78 5.2 Error Messages and Error Codes ..........................................................................80 5.2.1 Diagnostic LEDs ....................................................................................................80 5.2.2 POST Code Checkpoints.......................................................................................81 5.2.3 POST Error Messages and Handling ....................................................................84 5.2.4 POST Error Beep Codes .......................................................................................85 5.2.5 POST Error Pause Option .....................................................................................85 6. Connectors and Jumper Blocks .......................................................................................86 6.1 Power Connectors .................................................................................................86 6.1.1 Main Power Connector ..........................................................................................86 ® 6.2 Intel Riser Card for L SKU....................................................................................87 6.3 SMBus Connector..................................................................................................87 6.4 Front Panel Connector...........................................................................................87 6.5 I/O Connectors.......................................................................................................88 6.5.1 VGA Connector......................................................................................................88 6.5.2 NIC Connectors .....................................................................................................88 6.5.3 SATA Connectors ..................................................................................................89 6.5.4 Floppy Controller Connector..................................................................................89 6.5.5 Serial Port Connectors...........................................................................................90 6.5.6 Keyboard and Mouse Connector ...........................................................................91 6.5.7 USB Connector......................................................................................................91 6.6 Fan Headers ..........................................................................................................92 iv Revision 1.8 Intel Order Number: E14960-009 Intel® Server Boards S3200SH/S3210SH TPS Table of Contents 6.7 Miscellaneous Headers and Connectors ...............................................................92 6.7.1 Back Panel I/O Connectors ...................................................................................92 6.7.2 Chassis Intrusion Header ......................................................................................93 6.7.3 HDD Active LED Header .......................................................................................93 6.7.4 IPMB ......................................................................................................................93 6.7.5 HSBP .....................................................................................................................93 6.7.6 SATA SGPIO .........................................................................................................94 6.8 Jumper Blocks .......................................................................................................94 6.8.1 CMOS Clear and Password Reset Usage Procedure ...........................................94 6.8.2 BMC Force Update Procedure ..............................................................................95 7. Absolute Maximum Ratings ..............................................................................................96 7.1 Mean Time Between Failures (MTBF) Test Results..............................................96 7.2 Calculated Mean Time Between Failures (MTBF).................................................96 8. Design and Environmental Specifications.......................................................................97 8.1 Power Budget ........................................................................................................97 8.2 Power Supply Specifications .................................................................................98 8.2.1 Power Timing Requirements .................................................................................98 8.2.2 Dynamic Loading .................................................................................................101 8.2.3 AC Line Transient Specification...........................................................................101 8.2.4 AC Line Fast Transient (EFT) Specification ........................................................102 8.3 Product Regulatory Compliance ..........................................................................102 8.3.1 Product Safety Compliance .................................................................................102 8.3.2 Product EMC Compliance – Class A Compliance ...............................................103 8.3.3 Certifications / Registrations / Declarations.........................................................103 8.3.4 Product Regulatory Compliance Markings ..........................................................105 8.4 Electromagnetic Compatibility Notices ................................................................106 8.4.1 FCC (USA)...........................................................................................................106 8.4.2 ICES-003 (Canada) .............................................................................................107 8.4.3 Europe (CE Declaration of Conformity) ...............................................................107 8.4.4 VCCI (Japan) .......................................................................................................107 8.4.5 Taiwan Declaration of Conformity (BSMI)............................................................107 8.4.6 Korean Compliance (RRL)...................................................................................108 8.5 Mechanical Specifications ...................................................................................109 9. Hardware Monitoring .......................................................................................................112 9.1 Chassis Intrusion .................................................................................................112 Revision 1.8 v Intel Order Number: E14960-009 Table of Contents Intel® Server Boards S3200SH/S3210SH TPS Glossary ....................................................................................................................................113 Reference Documents..............................................................................................................116 vi Revision 1.8 Intel Order Number: E14960-009 Intel® Server Boards S3200SH/S3210SH TPS List of Figures List of Figures ® Figure 1. Intel Server Board S3210SHLX Diagram.....................................................................7 ® Figure 2. Intel Server Board S3210SHLC Diagram.....................................................................8 ® Figure 3. Intel Server Board S3200SH-L/S3200SH-V SKU Diagram..........................................9 ® Figure 4. Intel Server Board S3210SHLC .................................................................................10 ® Figure 5. Intel Server Board S3210SHLX – Hole and Component Positions............................11 ® Figure 6. Intel Server Boards S3210SHLC/S3200SHL/S3200SHV – Hole and Component Positions...............................................................................................................................12 ® Figure 7. Intel Server Boards S3200SH/S3210SH LC/L/V SKU–Block Diagram......................13 ® Figure 8. Intel Server Systems S3200SH/S3210SH LX SKU–Block Diagram ..........................14 Figure 9. Memory Bank Label Definition.....................................................................................27 Figure 10. Interrupt Routing Diagram .........................................................................................33 ® Figure 11. Intel ICH9R Interrupt Routing Diagram ....................................................................34 Figure 12. PXH-V Interrupt Routing Diagram .............................................................................35 Figure 13. Setup Utility — Main Screen Display .........................................................................48 Figure 14. Setup Utility — Advanced Screen Display.................................................................50 Figure 15. Setup Utility — Processor Configuration Screen Display ..........................................51 Figure 16. Setup Utility — Memory Configuration Screen Display..............................................53 Figure 17. Setup Utility — ATA Controller Configuration Screen Display...................................55 Figure 18. Setup Utility — Serial Port Configuration Screen Display..........................................57 Figure 19. Setup Utility — USB Controller Configuration Screen Display ..................................58 Figure 20. Setup Utility — PCI Configuration Screen Display ....................................................60 Figure 21. Setup Utility — Security Configuration Screen Display .............................................61 Figure 22. Setup Utility — Server Management Configuration Screen Display..........................62 Figure 23. Setup Utility — Console Redirection Screen Display ................................................64 Figure 24. Setup Utility — Server Management System Information Screen Display ................65 Figure 25. Setup Utility — Boot Options Screen Display ............................................................66 Figure 26. Setup Utility — Hard Disk Order Screen Display.......................................................67 Figure 27. Setup Utility — CDROM Order Screen Display .........................................................69 Figure 28. Setup Utility — Floppy Order Screen Display............................................................69 Figure 29. Setup Utility — Network Device Order Screen Display..............................................70 Figure 30. Setup Utility — BEV Device Order Screen Display....................................................71 Figure 31. Setup Utility — Boot Manager Screen Display ..........................................................72 Figure 32. Setup Utility — Error Manager Screen Display..........................................................72 Revision 1.8 vii Intel Order Number: E14960-009 List of Figures Intel® Server Boards S3200SH/S3210SH TPS Figure 33. Setup Utility — Exit Screen Display...........................................................................73 Figure 34. Example of Diagnostic LEDs on Server Board ..........................................................81 ® Figure 35. Intel Server Board S3210SHLX / S3210SHLC / S3200SHL Back Panel I/O Connectors...........................................................................................................................92 ® Figure 36. Intel Server Board S3200SHV Back Panel I/O Connectors.....................................93 Figure 37. Output Voltage Timing ...............................................................................................99 Figure 38. Turn On/Off Timing (Power Supply Signals)............................................................100 ® Figure 39. Intel Server Board S3200SH Mechanical Drawing ................................................109 ® Figure 40. Pedestal Mount I/O Shield Mechanical Drawing for the Intel Server Board S3200SH- V.........................................................................................................................................110 ® Figure 41. Pedestal Mount I/O Shield Mechanical Drawing for Intel Server Boards S3200SH- L/S3210SH-LX ...................................................................................................................111 viii Revision 1.8 Intel Order Number: E14960-009 Intel® Server Boards S3200SH/S3210SH TPS List of Tables List of Tables ® Table 1. Intel Server Board S3210SHLX Board SKU Layout Reference ....................................7 ® Table 2. Intel Server Board S3210SHLC Layout Reference.......................................................8 Table 3. Processor Support Matrix .............................................................................................16 Table 4. Segment F Connections ...............................................................................................17 Table 5. Supported DDR2 Modules ............................................................................................18 Table 6. Segment E Configuration IDs .......................................................................................19 Table 7. Segment D Arbitration Connections..............................................................................19 Table 8. Boot BIOS Destination Selection .................................................................................23 Table 9. SPI Required Command Codes...................................................................................23 Table 10. Memory Bank Labels and DIMM Population Order.....................................................27 Table 11. Characteristics of Dual/Single Channel Configuration with or without Dynamic Mode28 Table 12. PCI Bus Segment Characteristics...............................................................................29 Table 13. Segment A Configuration IDs .....................................................................................29 Table 14. Segment A Arbitration Connections............................................................................30 Table 15. PCI AND PCI-X Interrupt Routing/Sharing..................................................................30 Table 16. Interrupt Definitions.....................................................................................................31 Table 17. Video Modes...............................................................................................................41 Table 18. BIOS Setup Page Layout............................................................................................45 Table 19. BIOS Setup: Keyboard Command Bar........................................................................46 Table 20. Setup Utility — Main Screen Fields ............................................................................49 Table 21. Setup Utility — Advanced Screen Display Fields .......................................................51 Table 22. Setup Utility — Processor Configuration Screen Fields..............................................52 Table 23. Setup Utility — Memory Configuration Screen Fields.................................................53 Table 24. Setup Utility — ATA Controller Configuration Screen Fields ......................................56 Table 25. Setup Utility — Serial Ports Configuration Screen Fields ...........................................57 Table 26. Setup Utility — USB Controller Configuration Screen Fields......................................59 Table 27. Setup Utility — PCI Configuration Screen Fields........................................................60 Table 28. Setup Utility — Security Configuration Screen Fields.................................................61 Table 29. Setup Utility — Server Management Configuration Screen Fields .............................62 Table 30. Setup Utility — Console Redirection Configuration Fields..........................................64 Table 31. Setup Utility — Server Management System Information Fields ................................65 Table 32. Setup Utility — Boot Options Screen Fields ...............................................................67 Table 33. Setup Utility — Hard Disk Order Fields.......................................................................68 Revision 1.8 ix Intel Order Number: E14960-009 List of Tables Intel® Server Boards S3200SH/S3210SH TPS Table 34. Setup Utility — CDROM Order Fields.........................................................................69 Table 35. Setup Utility — Floppy Order Fields............................................................................70 Table 36. Setup Utility — Network Device Order Fields .............................................................70 Table 37. Setup Utility — BEV Device Order Fields ...................................................................71 Table 38. Setup Utility — Boot Manager Screen Fields..............................................................72 Table 39. Setup Utility — Error Manager Screen Fields .............................................................73 Table 40. Setup Utility — Exit Screen Fields ..............................................................................73 Table 41. Event List ....................................................................................................................77 Table 42. SMBIOS Type 15 Event Log record format.................................................................79 Table 43. Event Type Definition Table........................................................................................79 Table 44. POST Progress Code LED Example ..........................................................................81 Table 45. POST Code Checkpoints............................................................................................81 Table 46. POST Error Messages and Handling..........................................................................84 Table 47. POST Error Beep Codes ............................................................................................85 Table 48. Power Connector Pin-out (J4G1)................................................................................86 Table 49. Auxiliary CPU Power Connector Pin-out (J9B2) .........................................................86 Table 50. SMBus Connector Pin-out (J1E1)...............................................................................87 Table 51. Front Panel 24-Pin Header Pin-out (J1K2) .................................................................87 Table 52. VGA Connector Pin-out (J8B1)...................................................................................88 ® Table 53. NIC2-Intel 82541PI (10/100/1000) Connector Pin-out (J5B1)...................................88 ® Table 54. NIC1- Intel 82566E (10/100/1000) Connector Pin-out (J6B1)...................................89 Table 55. SATA Connector Pin-out (J2K1, J1K1, J1J3, J1H3, J1H2, J1H1) ..............................89 Table 56. Legacy 34-pin Floppy Connector Pin-out (J3K1) ........................................................89 Table 57. External DB9 Serial A Port Pin-out (J8B1)..................................................................90 Table 58. Keyboard and Mouse PS/2 Connectors Pin-out (J9A1)..............................................91 Table 59. USB Connectors Pin-out (J5B1) .................................................................................91 Table 60. Optional USB Connection Header Pin-out (J1G1)......................................................92 Table 61. Four-pin Fan Headers Pin-out (J4D1, J1K2, J7K1, and J4K1J6B2)...........................92 Table 62. Chassis Intrusion Header (J1B2) Pin-out....................................................................93 Table 63. HDD LED Header (J1J1) Pin-out ................................................................................93 Table 64. Absolute Maximum Ratings ........................................................................................96 Table 65. MTBF Data..................................................................................................................96 Table 66. Power Budget ............................................................................................................97 Table 67. Server Board Power Supply Voltage Specification .....................................................98 Table 68. Output Voltage Timing ................................................................................................98 x Revision 1.8 Intel Order Number: E14960-009 Intel® Server Boards S3200SH/S3210SH TPS List of Tables Table 69. Turn On/Off Timing ...................................................................................................100 Table 70. Transient Load Requirements...................................................................................101 Table 71. AC Line Sag Transient Performance ........................................................................101 Table 72. AC Line Surge Transient Performance .....................................................................102 Table 73. Product Certification Markings..................................................................................105 Revision 1.8 xi Intel Order Number: E14960-009 List of Tables Intel® Server Boards S3200SH/S3210SH TPS < This page intentionally left blank. > xii Revision 1.8 Intel Order Number: E14960-009 Intel® Server Boards S3200SH/S3210SH TPS Introduction 1. Introduction This Technical Product Specification (TPS) provides a high-level technical description for the ® Intel Server Boards S3200SH/S3210SH. It details the architecture and feature set for all functional sub-systems that make up the server boards. Note: The document uses the term “server board” throughout and it applies to all four board SKUs. When exceptions occur, the document calls out the specific board by name. 1.1 Chapter Outline This document contains the following chapters: ƒ Chapter 1 – Introduction ƒ Chapter 2 – Server Board Overview ƒ Chapter 3 – Functional Architecture ƒ Chapter 4 – System BIOS ƒ Chapter 5 – Error Reporting and Handling ƒ Chapter 6 – Connectors and Jumper Blocks ƒ Chapter 7 – Absolute Maximum Ratings ƒ Chapter 8 – Design and Environmental Specifications ƒ Chapter 9 – Hardware Monitoring ƒ Glossary ƒ Reference Documents 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 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 airflow 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 the published operating or non-operating limits. Revision 1.8 1 Intel Order Number: E14960-009 Server Board Overview Intel® Server Boards S3200SH/S3210SH TPS 2. Server Board Overview ® The Intel Server Boards S3210SHLX, S3200SHL, S3200SHV, and S3210SHLC are monolithic printed circuit boards (PCBs) with features designed to support the entry server market. 2.1 Server Board Feature Set ® ƒ All board SKUs are based on the Intel 3200/3210 Chipset ƒ Supports processors in LGA775 package ƒ 800/1066/1333 MHz Front Side Bus (FSB) speed ƒ Four DDR2 667/800MHz unbuffered DIMM memory sockets with or without ECC ® ƒ Supports the Intel ICH9R I/O Controller, interfaced with MCH via DMI ƒ LX board SKU supports the following I/O slots: o One PCI Express* x16 connector to be used as a x16 link from chipset (If a VGA adapter is inserted into this slot, the VGA card will only work at PCI Express* x1 speed; this is a chipset limitation.) o One PCI Express* x8 connector to be used as a PCI Express* x8 link from the chipset o Two PCI-X 133 MHz, 64-bit connectors o One PCI 5 V, 32-bit, 33 MHz connector ƒ LC board SKU supports following I/O slots: o One PCI Express* x16 connector to be used as a x16 link from chipset (If a VGA adapter is inserted into this slot, the VGA card only works at PCI Express* x1 speed; this is a chipset limitation.) o One PCI Express* x8 connector to be used as a PCI Express* x8 link from the chipset o One PCI Express* x8 connector routed to PCI Express* x4 bus from the ICH9R o Two PCI 5 V, 32-bit, 33 MHz connectors ƒ L and V board SKUs support the following I/O slots: o One PCI Express* x16 connector to be used as a x8 link from chipset (If a VGA adapter is inserted into this slot, the VGA card only works at PCI Express* x1 speed; this is a chipset limitation.) o One PCI Express* x8 connector routed to the PCI Express* x4 bus from the ICH9R o Two PCI 5 V, 32-bit, 33 MHz connectors ƒ On-board ServerEngines* LLC Pilot II controller (Integrated BMC) supports the following functions: o Integrated 2-D video controller on PCI Express* x1 o Super I/O on LPC o Baseboard Management Controller (BMC) based on ARM946E-S 2 Revision 1.8 Intel Order Number: E14960-009 Intel® Server Boards S3200SH/S3210SH TPS Server Board Overview ® ƒ Winbond* PC8374L super I/O chip interfaced to the Intel ICH9R through LPC supports the following: o PS/2 keyboard/mouse o Floppy disk drive (FDD) o Six SATA II connectors ƒ Five USB 2.0 ports: two ports on USB/LAN combo connectors at the rear of the server board, two ports via on-board headers, and one port on an internal vertical connector ® ƒ Two Gigabit (Gbit) Ethernet devices interfaced to the Intel ICH9R to support two rear panel RJ-45 connectors with integrated magnetics; one is through PCI Express* x1, the other one is through PCI32 ƒ ACPI (Advanced Configuration and Power Interface) power management ƒ System monitoring (temperature, voltage, and fans) ƒ VRD11 for processor The server board supports the following feature set: ƒ Processor and FSB support ® ® ® ® o Supports Intel Xeon processor 3000 series, Intel Xeon processor 3100 ® ® ® ® series, Intel Xeon processor 3200 series, and Intel Xeon processor 3300 series. ® o Supports Intel dual-core technology ® ® o Supports Intel Extended Memory System 64 Technology (Intel EM64T) ® ƒ Intel 3200/3210 Chipset components ® o Intel 3200/3210 Memory Controller Hub (MCH) ® ICH9R I/O Controller o Intel ® o Intel 6702 PXH-V PCI-X Hub (LX board SKU only) ƒ Memory System o Four DIMM sockets supporting DDR2 667/800MHz DIMMs o Data bandwidth per channel of 4.2 GB/s or 8.4 GB/s in dual channel when using DDR2 667 MHz o Support for up to two DDR2 channels for a total of four DIMMs (two DIMMs / channel) providing up to 8 GB max memory capacity o Support for 512 MB, 1 GB, and 2 GB DRAM modules Notes: 1. The server board does not support DDR2-533 DIMMs. 2. The server board does not support 256 MB DIMMs. ƒ I/O Subsystem ƒ Clock o CK-505 compliant System Clock Generator Revision 1.8 3 Intel Order Number: E14960-009 Server Board Overview Intel® Server Boards S3200SH/S3210SH TPS ƒ Video ƒ ServerEngines* Integrated BMC (Baseboard management controller) ƒ External 32 MB (or greater) DDR2 533 MHz memory ƒ VGA Video external connector ƒ Peripheral Interface (PCI Express* and PCI) o Two different PCI Express* configurations on a single board, dependent on board SKU ƒ LX board SKU: One PCI Express* x16 and one PCI Express* x8 slot, connected to the PCI Express* ports of the MCH ƒ LC board SKU: One PCI Express* x16 and one PCI Express* x8 slot, connected to the PCI Express* ports of the MCH; one PCI Express* x8 slot, connected to PCI Express* x4 interface of the ICH ƒ L and V board SKUs: Two PCI Express* x8 slots, one connected to the PCI Express* x8 interface of the MCH and the other connected to the PCI Express* x4 interface of the ICH ƒ HDD Interface o Six SATA II ports, 300 MB/s ƒ USB o Two USB 2.0 ports connected to the server rear panel o Two USB 2.0 ports connected to headers on the server board o One USB 2.0 port connected to an internal vertical connector ƒ LAN o One Gigabit Ethernet device (82541PI, MAC + PHY) connect to PCI interfaces ® on the Intel ICH9R ® o One Gigabit Ethernet PHY (82566DM) connected to the Intel ICH9R through GLC/LCI interface (not in V board SKU) o Two 10/100/1000 Base-TX interfaces through RJ-45 connectors with integrated magnetics o Link and speed LEDs on the RJ-45 connector ƒ Power Supply o SSI EEB (Server System Infrastructure Electronic Bay) Power Connectors o On-board Power generation ƒ VRD 11 processor core voltage ƒ 1.2 V regulator for FSB VTT ƒ 1.25 V regulator for MCH core and I/Osf ƒ 1.05 V regulator for ICH9R core ƒ 1.5 V regulator for the ICH9R I/O ƒ 1.8 V for DDR2 and 0.9 V for DDR2 termination ƒ 3.3 V SB voltage regulator ƒ 1.8 V AUX, 1.2 V AUX, and 0.9 V AUX for Integrated BMC and the DDR2 memory supporting it 4 Revision 1.8 Intel Order Number: E14960-009 Intel® Server Boards S3200SH/S3210SH TPS Server Board Overview ƒ System Management o Processor on die temperature monitoring through PECI (Platform Environment Control Interface) o Board temperature measurement o Fan speed monitoring and control o Voltage monitoring o IPMI-based (Intelligent Platform Management Interface) server management ƒ Battery o Socketed, Lithium coin cell-3 V ƒ Sockets o One LGA775 processor (Socket-T) o Four DDR2 DIMM Sockets o One battery (CR2032) ƒ Legacy Interfaces o Serial o Floppy o PS/2 keyboard o PS/2 mouse ƒ Power Management Modes Supported (ACPI [Advanced Configuration and Power Interface] Sleep states) o S0 – Full on o S1 – Power-on-suspend o S4 – Suspend to Disk o S5 – Soft on/off ƒ Connectors List o Four 240-Pin DDR2 DIMM connectors o PCI Express*, PCI-X, and PCI connectors (see SKU specific information) o One RJ-45 Connectors with magnetics and LEDs o One stacked RJ-45 with magnetics and LEDs and two-USB combo connector o 34-pin floppy drive connector o One serial port headers o Dual-stacked PS/2 keyboard and mouse connector o USB connectors (two stacked on the rear panel and three on the server board headers) o SSI-EEB ATX power connectors o One 4-pin auxiliary power connector o One stacked DB-15 VGA/DB-9 serial port connector o Six 7-pin SATA II connectors o 60-pin XDP connector o Four 4-pin, 0.10-inch pitch fan headers o 24-Pin, SSI-EEB, front panel connector Revision 1.8 5 Intel Order Number: E14960-009 Server Board Overview Intel® Server Boards S3200SH/S3210SH TPS o One 4-pin SATA RAID Key o One 2-pin intrusion detection ƒ BIOS o EFI BIOS ƒ Power Management o Support for Power Management of all capable components o ACPI-compliant motherboard and BIOS o Sleep Switch and dual mode LED indicator ƒ Manufacturing o Surface mount technology. Single-sided assembly for LC/V board SKUs and double-sided assembly for the LX board SKU o Six-layer PCB ƒ Form Factor o ATX 2.0, 12-inches x 9.6-inches, 1U thermally optimized, and SSI TEB Rev 2.11 compatible. ƒ Universal Serial Bus 2.0 (USB) o Two external USB ports (located at the rear panel) with an additional internal header providing two optional USB ports for front panel support o Supports wake-up from ACPI sleeping states S1 and S4 (S3 is not supported) o Supports legacy keyboard/mouse connections when using a PS/2-USB dongle ƒ LPC (Low Pin Count) bus segment with one embedded device o Super I/O controller (SMSC* SCH5027D) providing all PC-compatible I/O (floppy, serial, keyboard, mouse, two serial com ports) and integrated hardware monitoring. ƒ SSI-compliant connectors for SSI interface support ƒ Standard 24-pin SSI front panel, 2x12 main power connector, and 2x4 CPU power connector ƒ Fan Support o Five general purpose 4-pin fan headers ƒ One 4-pin processor fan header (active heat sink required) ƒ Four 4-pin system fan headers (3-pin fans are compatible with all fan headers. You should only use 4-pin fans with Sys Fan 1 and Sys Fan 2; Sys Fan 3 and Sys Fan 4 are connected to the PWM processor, which is programmed to work with the 4-pin active heat sink fan.) ƒ Diagnostic LEDs to display POST (Power-on Self-Test) code indicators during boot ƒ Onboard SATA RAID ® o Intel Matrix Storage Technology supports software SATA RAID 0, 1, 10 and 5; Microsoft Windows* driver support only. The following figure shows the board layout of the LX board SKU. A letter (shown in Table 1) identifies each connector and major component. 6 Revision 1.8 Intel Order Number: E14960-009 Intel® Server Boards S3200SH/S3210SH TPS Server Board Overview A B C D EF GH I J K L KK M JJ II HH GG FF EE DD CC BB AAZ Y X WVU T S R Q P O N AF002303 ® Figure 1. Intel Server Board S3210SHLX Diagram ® Table 1. Intel Server Board S3210SHLX Board SKU Layout Reference Ref Description Ref Description Ref Description A PCI-X (64-bit/133 MHz) Slot 1 N Channel 2 DIMM Sockets AA Password Clear Jumper B PCI-X (64-bit/133 MHz) Slot 2 O Channel 1 DIMM Sockets BB Front Panel Connector C IPMB P Processor Fan 2 Connector CC Chassis Intrusion Jumper D PCI 5 V (32-bit/33 MHz) Slot 3 Q Battery DD Floppy Connector E HSBP R Main Power Connector EE Internal USB F PCI Express* x8 S System Fan 2 Connector FF External USB G PCI Express* x16 T SATA 0 GG CMOS Clear Jumper H System Fan 1 Connector U SATA 1 HH BMC Force Update Jumper I Back Panel Connectors V SGPIO II BIOS Recovery Jumper J Diagnostic LEDs W SATA 2 JJ BMC Boot Block WP Jumper K Processor Fan 1 Connector X SATA 3 KK Serial Port Connector L 2X4 Aux Power Connector Y SATA 4 M Processor Socket Z SATA 5 Revision 1.8 7 Intel Order Number: E14960-009 Server Board Overview Intel® Server Boards S3200SH/S3210SH TPS The following figure shows the board layout of the LC board SKU. A letter identifies each connector and major component (shown in Table 2). A B C D E F G H LL KK I JJ J II K HH GG FF EE DD CC BB AA Z Y XWVU T S R Q P O N M L AF002304 ® Figure 2. Intel Server Board S3210SHLC Diagram ® Table 2. Intel Server Board S3210SHLC Layout Reference Ref Description Ref Description Ref Description A PCI (32-bit/33 MHz) Slot 1 N System Fan4 Connector AA SATA 4 B PCI (32-bit/33 MHz) Slot 2 O System Fan3 Connector BB SATA 5 C PCI Express* x8 (x8 lane) P Battery CC SATA 3 D PCI Express* x8 (x4 lane) Q Main Power Connector DD Internal USB E PCI Express* x16 R System Fan2 EE External USB F System Fan 1 Connector S Floppy Connector FF CMOS Clear Jumper G Back Panel Connectors T SGPIO GG Password Clear Jumper H Diagnostic LEDs U SATA 0 HH Recovery Mode Jumper I Processor Fan 1 Connector V HSBP II Serial Port J 2X4 Aux Power Connector W SATA1 JJ BMC Boot Block WP Jumper K Processor Socket X SATA2 KK Chassis Intrusion L Channel 2 DIMM Sockets Y IPMB LL BMC Force Update Jumper M Channel 1 DIMM Sockets Z Front Panel Connector 8 Revision 1.8 Intel Order Number: E14960-009 Intel® Server Boards S3200SH/S3210SH TPS Server Board Overview ® The following figure shows the board layout of the Intel Server Boards S3200SHL/S3200SHV. A letter identifies each connector and major component (shown in Table 3). A B C D E F G KK JJ H II I HH J GG FF EE DD CC BB AA Z Y X WVUT S R Q P O N M L K AF002310 ® Figure 3. Intel Server Board S3200SH-L/S3200SH-V SKU Diagram ® Table3. Intel Server Boards S3200SH-L/S3200SH-V Component Layout Reference Ref Description Ref Description Ref Description A PCI (32-bit/33 MHz) Slot 1 M System Fan4 Connector Y Front Panel Header B PCI (32-bit/33 MHz) Slot 2 N System Fan3 Connector Z SATA 4 C PCI Express* x8 (x4 lane) O Battery AA SATA 5 D PCI Express* x16 (x8 lane) P Main Power Connector BB SATA 3 E System Fan 1 Connector Q System Fan2 CC Internal USB F Back Panel Connectors R Floppy Connector DD External USB G Diagnostic LEDs S SGPIO EE CMOS Clear Jumper H Processor Fan 1 Connector T SATA 0 FF Password Clear Jumper I 2X4 Aux Power Connector U HSBP GG Recovery Mode Jumper J Processor Socket V SATA1 HH Serial Port K Channel 2 DIMM Sockets W SATA2 II BMC Boot Block WP Jumper L Channel 1 DIMM Sockets X IPMB JJ Chassis Intrusion KK BMC Force Update Jumper Revision 1.8 9 Intel Order Number: E14960-009 Server Board Overview Intel® Server Boards S3200SH/S3210SH TPS 2.2 Server Board Layout ® Figure 4. Intel Server Board S3210SHLC 10 Revision 1.8 Intel Order Number: E14960-009 Intel® Server Boards S3200SH/S3210SH TPS Server Board Overview 2.2.1 Server Board Mechanical Drawings ® Figure 5. Intel Server Board S3210SHLX – Hole and Component Positions Revision 1.8 11 Intel Order Number: E14960-009 Server Board Overview Intel® Server Boards S3200SH/S3210SH TPS ® Figure 6. Intel Server Boards S3210SHLC/S3200SHL/S3200SHV – Hole and Component Positions 12 Revision 1.8 Intel Order Number: E14960-009 S Bus M PWM/TACH Intel® Server Boards S3200SH/S3210SH TPS Functional Architecture 3. Functional Architecture This chapter provides a high-level description of the functionality associated with the ® architectural blocks that make up the Intel Server Boards S3200SH/S3210SH. ® Figure 7. Intel Server Boards S3200SH/S3210SH LC/L/V SKU–Block Diagram Revision 1.8 13 Intel Order Number: E14960-009 PCI 32 (Slot 1) PCIe* x8 (Slot 5) PCI 32 (Slot 2) PCI-E x8 (Slot 4) PCIe* x16 (Slot 6) DMI SATA Controller SATA Link SATA PWM/TACH Functional Architecture Intel® Server Boards S3200SH/S3210SH TPS ® Figure 8. Intel Server Systems S3200SH/S3210SH LX SKU–Block Diagram 14 Revision 1.8 Intel Order Number: E14960-009 Intel® Server Boards S3200SH/S3210SH TPS Functional Architecture 3.1 Processor Sub-System The server board supports the following processors: ® ® ƒ Intel Xeon processor 3000 series ® ® ƒ Intel Xeon processor 3100 series ® ® ƒ Intel Xeon processor 3200 series ® ® ƒ Intel Xeon processor 3300 series The server board does not support the following processors: ® ƒ All Intel 5XX and 6XX series processors ® ƒ All Intel 8XX and 9XX series processors The processors built on 65 nm (nanometer) and 45 nm process technology in the 775-land package use Flip-Chip Land Grid Array (FC-LGA4) package technology, and plug into a 775- ® land LGA socket, referred to as the Intel LGA775 socket. The processors in the 775-land package are based on the same core micro-architecture. They maintain compatibility with 32-bit software written for the IA-32 instruction set, while supporting 64-bit native mode operation when coupled with supported 64-bit operating systems and applications. 3.1.1 Processor Voltage Regulator Down (VRD) The server board has a VRD (Voltage Regulator Down) to support one processor. It is compliant with the VRD 12 DC-DC Converter Design Guide Line and provides a maximum of 125 A. The board hardware monitors the processor VTTEN (Output enable for VTT) pin before turning on the VRD. If the VTTEN pin of the processors is not asserted, the Power ON Logic will not turn on the VRD. 3.1.2 Reset Configuration Logic The BIOS determines the processor stepping and processor cache size through the CPUID instruction. The processor information is read at every system power-on. Note: The processor speed is the processor power-on reset default value. No manual processor speed setting options exist either in the form of a BIOS setup option or jumpers. Revision 1.8 15 Intel Order Number: E14960-009 Functional Architecture Intel® Server Boards S3200SH/S3210SH TPS Table 3. Processor Support Matrix Process Name Socket Core Frequency Cache size FSB Frequency ® ® Intel Xeon processor 1.86 GHz – ® Intel LGA775 2 MB or 4 MB 1066 MHz 3000 series 2.66 GHz ® ® Intel Xeon processor ® Intel LGA775 TBD TBD 1333 MHZ 3100 series ® ® Intel Xeon processor 2.13 GHz – ® Intel LGA775 8 MB 1066 MHz 3200 series 2.40 GHz ® ® Intel Xeon processor ® LGA775 TBD TBD 1333 MHZ Intel 3300 series ® 3.2 Intel 3200/3210 Chipset ® The server board is designed around the Intel 3200/3210 Chipset. The chipset provides an integrated I/O bridge and memory controller, and a flexible I/O subsystem core (PCI Express*). The chipset consists of three primary components. ® 3.2.1 Intel 3200/3210 Chipset MCH: Memory Control Hub ® ® The Intel 3200/3210 Chipset is designed for use with Intel processors in a UP server platform. The role of the MCH in the system is to manage the flow of information between its four interfaces: ƒ Processor Interface (FSB) ƒ System Memory Interface (DDR2) ® ƒ DMI interface to the Intel ICH9R South Bridge ƒ PCI Express* connectivity to one or two PCI Express* x8 connectors The feature list of the MCH includes: ƒ Processor / Host Interface o Supports LGA775 processors in an UP System configuration o 200/266/333 MHz FSB Clock frequency o GTL+ bus drivers with integrated GTL termination resistors ƒ System Memory Controller o Supports 512 Mbit and 1 Gbit memory technologies o DDR2 – 667, 800 MHz o 8 GB addressable memory o Supports unbuffered, ECC and non-ECC DIMMs o No support for DIMMs less than 512 MB and memory speeds less than 667 MHz ƒ DMI Interface 16 Revision 1.8 Intel Order Number: E14960-009 Intel® Server Boards S3200SH/S3210SH TPS Functional Architecture o Interface to ICH9R South Bridge o 100 MHz reference clock shared with PCI Express* interface(s) ƒ PCI Express* x8 Interface o Connected to two PCI Express* X8 connectors as shown in the block diagram o Compliant with the PCI Express* base specification The MCH accepts access requests from the host (processor) bus and directs those accesses to memory or to one of the PCI Express* or PCI buses. The MCH monitors the host bus, examining addresses for each request. Accesses may be directed to the following queues: ƒ A memory request queue for subsequent forwarding to the memory subsystem ƒ An outbound request queue for subsequent forwarding to one of the PCI Express* or PCI buses ® The MCH also accepts inbound requests from the Intel ICH9R. The MCH is responsible for generating the appropriate controls to control data transfer to and from memory. The MCH is a FC-BGA device and uses the proven components of the following previous generations: ƒ Hub interface unit ƒ PCI Express* interface unit ƒ DDR2 memory interface unit The MCH incorporates an integrated PCI Express* interface. The PCI Express* interface allows the MCH to directly interface with the PCI Express* devices. The MCH also increases the main memory interface bandwidth and maximum memory configuration with a 72-bit wide memory interface. The MCH integrates the following main functions: ƒ An integrated high performance main memory subsystem ƒ A PCI Express* bus which provides an interface to the PCI Express* devices (Fully compliant to the PCI Express* Base Specification, Rev 1.0a) ® ƒ A DMI which provides an interface to the Intel ICH9R Other features provided by the MCH include the following: ƒ Full support of ECC on the processor bus ƒ Twelve deep in-order queue, two deep defer queue ƒ Full support of unbuffered DDR2 ECC DIMMs ƒ Support for 512 MB, 1 GB, and 2 GB DDR2 memory modules 3.2.1.1 Segment F PCI Express* x8 The MCH PCI Express* Lanes 0~7 provide an x8 PCI Express* connection directly to the MCH. This resource can support x1, x4, and x 8 PCI Express* add-in cards or cards through the I/O riser when using the riser slot for the L board SKU. Table 4. Segment F Connections Revision 1.8 17 Intel Order Number: E14960-009 Functional Architecture Intel® Server Boards S3200SH/S3210SH TPS Lane Device Lane 0~7 Slot 6 (PCI Express* x16 with 8 Lanes layout) 3.2.1.2 MCH Memory Sub-System Overview The MCH supports a 72-bit wide memory sub-system that can support a maximum of 8 GB of DDR2 memory using 2 GB DIMMs. This configuration needs external registers for buffering the memory address and control signals. The four chip selects are registered inside the MCH and need no external registers for chip selects. The memory interface runs at 667/800 MT/s. The memory interface supports a 72-bit wide memory array. It uses seventeen address lines (BA [2:0] and MA [13:0]) and supports 512 MB, 1 GB, and 2 GB DRAM densities. The DDR DIMM interface supports single-bit error correction, and multiple bit error detection. 3.2.1.3 DDR2 Configurations The DDR2 interface supports up to 8 GB of main memory and supports single- and double- density DIMMs. The DDR2 can be any industry-standard DDR2. The following table shows the DDR2 DIMM technology supported. Table 5. Supported DDR2 Modules DDR2-667/800 Un-buffered SDRAM Module Matrix DIMM SDRAM SDRAM # SDRAM # Address bits DIMM Organization Capacity Density Organization Devices/rows/Banks rows/Banks/column 512 MB 64M x 72 256 Mbit 32M x 8 18 / 2 / 4 13 / 2 / 10 512 MB 64M x 72 512 Mbit 64M x 8 9 / 1 / 4 14 / 2 / 10 1 GB 128M x 72 512 Mbit 64M x 8 18 / 2 / 4 14 / 2 / 10 1 GB 128M x 72 1 Gbit 128M x 8 9 / 1 / 8 14 / 4 / 10 2 GB 256M x 72 2 GB 128M x 8 18 / 2 / 8 14 / 8 / 10 3.2.1.4 Memory Population Rules and Configurations You must follow a few rules when populating memory. The server board supports two DDR2 DIMM slots for channel A and two DDR2 DIMM slots for channel B. They are placed in a row and numbered from 0 to 3 with DIMM0 being closest to the MCH. The four slots are partitioned with channel A representing the channel A DIMMs (DIMM0 and DIMM1) and channel B representing the channel B DIMMs (DIMM2 and DIMM3). Note the following memory population rules: ƒ If dual-channel operation is needed, you must populate channel A and channel B identically (for example, same capacity). ƒ Use DDR2 667/800 MHz memory only. ƒ The slowest DIMM in the system determines the speed used on all the channels. 18 Revision 1.8 Intel Order Number: E14960-009 Intel® Server Boards S3200SH/S3210SH TPS Functional Architecture ƒ Supports ECC or non-ECC DIMMs. ƒ Different memory technologies (size and density) can be used. ƒ Single Channel Mode (either channel can be used): DIMM slots (within the same channel) may be populated in any order. ƒ Dual Channel Interleaved Mode: DIMM slots can be populated in any order as long as the total memory in each channel is the same. ƒ Dual Channel Asymmetric Mode: DIMM slots may be populated in any order. 3.2.2 PCI-X Hub (LX board SKU only) The PCI-X Hub (PXH-V) is a peripheral chip that performs PCI/PCI-X bridging functions between the PCI Express* interface and the PCI/PCI-X bus. The PXH-V contains two PCI bus interfaces that can be independently configured to operate in PCI (33 or 66 MHz) or PCI-X mode (66,100, or 133 MHz), for either 32 or 64 bits. 3.2.2.1 Segment E 64bit/133MHz PCI-X Subsystem One 64-bit PCI-X bus segment is directed through the PXH-V. This PCI-X segment (segment E) provides the following: o Two 3.3 V 64-bit PCI-X slots On Segment E, PCI-X is capable of speeds up to 133 MHz operation and supports full-length PCI and PCI-X adapters. 3.2.2.1.1 Device IDs (IDSEL) Each device under the PCI-X hub bridge has an IDSEL signal connected to one bit of AD [31:16], which acts as a chip select on the PCI-X bus segment in configuration cycles. This determines a unique PCI-X device ID value for use in configuration cycles. The following table shows the bit to which each IDSEL signal is attached for P64-C devices and a corresponding device description. Table 6. Segment E Configuration IDs IDSEL Value Device 18 PCI-X Slot 1 (64-bit/66-133 MHz) (LX board SKU only) 17 PCI-X Slot 2 (64-bit/66-133 MHz) (LX board SKU only) 3.2.2.1.2 Segment E Arbitration The PXH-V supports two PCI masters: two PCI-X slots or one riser slot. All PCI masters must arbitrate for PCI access using resources supplied by the PXH-V. The host bridge PCI interface (PXH-V) arbitration lines REQx* and GNTx* are a special case because they are internal to the host bridge. Table 7 defines the arbitration connections. Table 7. Segment D Arbitration Connections Revision 1.8 19 Intel Order Number: E14960-009 Functional Architecture Intel® Server Boards S3200SH/S3210SH TPS Baseboard Signals Device PCIX REQ_N1/GNT_N1 PCI-X Slot 1 (64-bit/66-133 MHz) (LX board SKU only) PCIX REQ_N0/GNT_N0 PCI-X Slot 2 (64-bit/66-133 MHz) ( LX board SKU only) ® 3.2.3 Intel ICH9R: I/O Controller Hub 9R 3.2.3.1 Direct Media Interface (DMI) DMI is the name given to the chip-to-chip connection between the Memory Controller Hub and ® the Intel ICH9. DMI is a x4 link that mostly adheres to the PCI Express* specification. ® Deviations of the DMI from standard PCI Express* specifications are described in the Intel ICH9 CSPEC. 3.2.3.2 Controller Link (M-Link) Controller Link is the name given to the interconnect that connects the north bridge (MCH) to ® the LAN Controller in the Intel ICH9. The Management Engine (ME) resides in the MCH and communicates with the ICH9 LAN Controller over this interface. 3.2.3.3 PCI Express* Interfaces The ICH9R provides six PCI Express* root ports (GEN1) which are compliant with the PCI Express* Base Specification, Revision 1.1. You can statically configure the PCI Express* root ports 1-4 as four x 1 ports, or ganged together to form two x 2 ports, one x 2 with two x1 ports, or one x4 port. Ports 5 and 6 can only be used as two x1 ports or one x2. The x4 configuration supports lane reversal. Each Root Port fully supports 2.5 Gb/s bandwidth in each direction. The root ports 1-4 are combined to form a single x4 link connecting to a PCI Express* x8 connector. Port 5 and 6 are used to support the dual GBe LAN channels. 3.2.3.4 Serial ATA II Interface ® The Intel ICH9 has an integrated SATA II host controller that supports independent DMA operation on the six Ports and supports data transfer rates of up to 300 MB/Sec. The SATA II controller provides two modes of operation – a legacy mode using I/O space and an Advanced Host Controller Interface (AHCI) mode using memory space. 3.2.3.5 PCI Interface ® The Intel ICH9 PCI interface provides a 33 MHz, 3.3 V, Revision 2.3 implementation. Except for PME#, all PCI signals are 5 V tolerant. The ICH9 integrates a PCI arbiter that supports up to seven external PCI bus masters in addition to the internal ICH9 requests. This allows for combinations of up to four PCI down devices and/or PCI slots. The server board supports one NIC, the 82541PI Gigabit Ethernet controller, and two PCI slots. 3.2.3.6 Low Pin Count Interface (LPC) ® The Low Pin Count interface on the Intel ICH9 provides a low system cost design interface solution for connecting the Super I/O for the legacy interfaces such as the parallel port, serial port, floppy drive, and so on. 20 Revision 1.8 Intel Order Number: E14960-009 Intel® Server Boards S3200SH/S3210SH TPS Functional Architecture 3.2.3.7 Compatibility Modules ® ICH9 incorporates various compatibility modules such as DMA controller, The Intel timer/counters, and interrupt controller. The DMA controller incorporates the logic of two 8237 DMA controllers with seven independently programmable channels. Channels 0 to 3 are hardwired to 8-bit, count-by-byte transfers and channels 5 to 7 are hardwired to 16-bit, count-by- word transfers. DMA channel 4 is used to cascade the two 8327 controllers together. The DMA controller is used to support the LPC DMA. The LPC DMA is handled through the LDRQ# lines from peripherals and special encoding on LAD[3:0] from the host. The timer/counter block contains three counters equivalent in function to those found in one 8254 programmable internal timer. These three counters are combined to provide the system timer function and speaker tone. The 14.318 MHz oscillator input provides the clock source for these three counters. ® The Intel ICH9 provides an ISA compatible Programmable Interrupt Controller (PIC) that incorporates the functionality of two 8259 interrupt controllers. Each 8259 supports eight interrupts that are cascaded with one master controller interrupt 2 for fifteen programmable interrupts. The interrupts are system timer, keyboard controller, serial ports, parallel ports, floppy disk, mouse, DMA channels, and mapped PCI-based interrupts. 3.2.3.8 Universal Serial Bus (USB) Controller ® The Intel ICH9 contains two EHCI and six UHCI USB controllers providing support for twelve USB 2.0 ports. All twelve ports are high-speed, full-speed, and low-speed capable. The port ® routing logic of the Intel ICH9 determines whether a USB port is controlled by one of the UHCI ® controllers or by the EHCI controller. The Intel ICH9 also implements a USB 2.0 based debug port. 3.2.3.9 Real Time Clock (RTC) ® The Intel ICH9 contains a Motorola MS146818A* functionally compatible Real-Time Clock (RTC) with two 128-Byte banks of battery backed RAM. The RTC performs two key functions on the server board: ƒ Keeping track of the time of day ƒ Storing system configuration data even when the system is powered down. The RTC operates on a 32.768 KHz (Kilohertz) crystal and a 3 V lithium battery. 3.2.3.10 GPIO ® The Intel ICH9 contains 61 General Purpose Inputs and Outputs (GPIO) for custom system design. 3.2.3.11 Enhanced Power Management ® The Intel ICH9 supports the Advanced Configuration and Power Interface, Version 2.0 (ACPI) that provides power and thermal management. The ICH9 also supports the Manageability Engine Power Management Support for new wake events from the MCH Management Engine. Revision 1.8 21 Intel Order Number: E14960-009 Functional Architecture Intel® Server Boards S3200SH/S3210SH TPS The server board fully complies with the Advanced Configuration and Power Interface (ACPI) specifications, Revision 2.0. 3.2.3.12 System Management Interface ® The Intel ICH9 functions as a SMBus host controller and allows the processor to communicate 2 with SMBus slaves. This interface is compatible with most I C devices. The ICH9 also supports slave functionality. The SMBus logic exists in device 31: function 3 configuration space. ® ® 3.2.3.13 Intel Quiet System Technology (Intel QST) ® The Intel ICH9 integrates two thermal sensors that monitor the temperature within the die. ® ® ® Those sensors support Intel Quiet System Technology (Intel QST). Intel QST is controlled by ® the management engine (ME) residing in the MCH and requires SPI flash to host the Intel QST firmware. ® The Intel ICH9 integrates four fan speed TACH sensors and three fan speed controllers, PWMs. Up to four system fans can be monitored and controlled. The ICH9 implements a single wire Simple Serial Transport (SST) bus that allows connection of up to five SST thermal or voltage monitoring devices. The ICH9 also supports the Platform Environmental Control Interface (PECI) that provides access to the CPU thermal data. ® The server board does not support ME or Intel QST. The integrated BMC firmware controls the fan speed. 3.2.3.14 Serial Peripheral Interface (SPI) The Serial Peripheral Interface (SPI) is a 4-pin interface that provides a potentially lower-cost ® alternative for the system flash versus the Firmware Hub on the LPC Bus. The Intel ICH9 supports two SPI flash components using two separate chip select pins. Each component can be up to 16 MB in size and operate in SPI Fast Read Instructions at frequencies of 20 MHZ or 33 MHz. The SPI Interface consists of the following components: ƒ Clock (CLK) ƒ Master Out Slave In (MOSI) ƒ Master In Slave Out (MISO) ƒ Chip Select (CS#) The SPI uses a Master – Slave protocol for communication. The SPI flash may operate in two operational modes: descriptor and non-descriptor. When operating in non-descriptor mode, the SPI Flash can only support the BIOS through register accesses. When operating in descriptor mode, the ICH9 allows a single SPI flash device to store system BIOS, Firmware, and Gigabit Ethernet EEPROM information. 22 Revision 1.8 Intel Order Number: E14960-009 Intel® Server Boards S3200SH/S3210SH TPS Functional Architecture When SPI is selected by the Boot BIOS Destination Strap and a SPI Device is detected by the ® Intel ICH9, LPC-based BIOS Flash is disabled. The boot destination strap is sampled by the ICH9 at pins GNT# and SPI_CS1# on the rising edge of the PWROK input. Alternately, the ICH9 supports soft straps when operating in Descriptor Mode. The ICH9 reads the soft strap data out of the SPI device prior to de-assertion of reset to the Manageability Engine and the Host system. ® GNT# and SPI_CS1# are both pulled-up with soft resistors internal to the Intel ICH9. The default BIOS flash without external straps is the FWH. For manufacturing or debugging support, the BIOS cycles may also be directed to the PCI bridge via the same external flash. Configurations other than the default are selected using 2.2K pull-up or pull-down resistors. The server board supports the boot BIOS Destination Selection as defined in Table 8. Table 8. Boot BIOS Destination Selection GNT# SPI_CS1# ROUTING 0 1 Flash Cycles Routed to SPI (Default) 1 0 Flash Cycles Routed to PCI (Test only) 1 1 Flash Cycles Routed to LPC (Test only) The SPI flash meets the following requirements: ƒ Erase size capability of 4 Kbyte or 64 Kbyte ƒ SPI device meets the command set per Table 9 For streamlined software development, command and opcode C7h (for Full Chip Erase) is recommended. ƒ Supports JEDEC ID OP Code 9FH. ƒ Supports multiple writes to a page without requiring a preceding command (minimum 512 writes). ƒ Ignores the upper address bit. For example, an address of FFFFFFFFh simply aliases to the top of the flash memory. ƒ Supports SPI Compatibility Mode 0. ƒ Receipt of an unsupported command causes a completed cycle without impact to the flash content. ƒ Minimum density of 16 Mb (BIOS + Gbe). ƒ To disable write protection, power up in an unlocked state or use the write status register. Table 9. SPI Required Command Codes Commands Opcode Notes Write Status 01h If the command is supported, the opcode Revision 1.8 23 Intel Order Number: E14960-009 Functional Architecture Intel® Server Boards S3200SH/S3210SH TPS Commands Opcode Notes must be 01h. Program Data 02h Write Data / Program Data Read Data 03h Write Disable 04h Read Status 05h If the command is supported, the opcode Write Enable 06h must be 06h. Fast Read 0Bh Enable Write 50 or 06h Status Register Erase Programmable 256 B, 4 Kbyte, 8 Kbyte, or 64 Kbyte erase The JEDEC Standard Manufacturer and JEDEC ID 9Fh Device ID read method is defined in Standard JESD21-C, PRN03-NV1. The SPI Flash Memory device is an Atmel AT26DF321*, 32-mbit, 2.7 to 3.6 V serial interface FLASH memory, Intel part number D64145-001/D64145-002. The AT26DF321 supports the block erase command opcodes 20H and D8H, providing, respectively, 4-Kbytes or 64-Kbytes block erase sizes. It installs directly onto the server board without the use of sockets. 3.2.3.15 Manageability ® The Intel ICH9 integrates several functions designed to manage the system and lower the total cost of ownership (TCO) of the system. These system management functions are designed to report errors, diagnose the system, and help the system recover from lockups without the aid of an external microcontroller. The management engine includes the following features: ƒ A TCO Timer used to detect system locks ƒ A Process Present Indicator that can determine if the processor fetches the first instruction after reset ƒ ECC Error reporting from the host controller ƒ A Function Disable option to prevent disabled functions from generating interrupts and power management events ƒ An Intruder Detect input for system cases ® 3.2.3.16 Unused Intel ICH9 Interfaces on the Server Board ® The server board does not support the following interfaces in the Intel ICH9: 1. AC’97 2.3 Controller – ICH9 integrates an Audio Codec ’97 Component Specifications, Version 2.3 controller that can be used to attach an Audio Codec (AC), a Modem Codec (MC), an Audio/Modem Codec (AMC), or a combination of ACs and a single MC ® 2. Intel High Definition Audio 3. The Management Engine (ME), SST, Fan tachometer and PWM, and PEC controller 24 Revision 1.8 Intel Order Number: E14960-009 Intel® Server Boards S3200SH/S3210SH TPS Functional Architecture 3.2.3.17 PCI Express* x4 Sub-system ® ICH9R supports one PCI Express* x4-lane interface that can also be configured as a The Intel single x1 or x4-lane port. The PCI Express* interface allows direct connection with the PXH-V or dedicated PCI Express* devices. (Fully compliant with the PCI Express* Base Specification, Rev 1.0a). 3.2.3.18 PCI ® One 32-bit PCI bus segment is directed through the Intel ICH9R Interface defined as segment ® A. This PCI Segment A supports two PCI connectors and one embedded Intel 82541PI LAN controller. ® The Intel ICH9R does not contain a PATA device controller in the chipset; therefore, SATA interface CD-ROM/DVD-ROMs are recommended for use with the server board. 3.2.3.19 SATA Controller ® The Intel ICH9R contains six SATA ports that support data transfer rates up to 300 Mbyte/s per port. 3.2.3.20 Compatibility Modules (DMA Controller, Timer/Counters, Interrupt Controller) ® The Intel ICH9R provides the functionality of two-cascaded 82C59 with the capability to handle 15 interrupts. It also supports processor system bus interrupts. 3.2.3.21 Advanced Programmable Interrupt Controller (APIC) ® The APICs in the Intel ICH9R use messages on the FSB for interrupt generation and notification to the processor. 3.2.3.22 Universal Serial Bus (USB) Controller ® The Intel ICH9R contains one EHCI USB 2.0 controller and can support four USB ports. The USB controller moves data between main memory and up to four USB connectors. All ports function identically and with the same bandwidth. The server board provides two external USB ports on the rear panel of the server board. The dual-stack USB connector is located within the standard ATX I/O panel area. The Universal Serial Bus Specification, Revision 1.1 defines the external connectors. The third/fourth USB port is optional and can be accessed by cabling from an internal 9-pin connector located on the server board to an external USB port located either in front or the rear of a chassis. 3.2.3.23 Enhanced Power Management ® One of the embedded features of the Intel ICH9R is a power management controller. It implements ACPI-compliant power management features. The server board supports sleep states S1, S4, and S5. Revision 1.8 25 Intel Order Number: E14960-009 Functional Architecture Intel® Server Boards S3200SH/S3210SH TPS 3.3 Memory Sub-System The server board supports up to four DIMM slots for a maximum memory capacity of 8 GB. The DIMM organization is x72, which includes eight ECC check bits. The memory interface runs at 533/667 MTs. The memory controller supports the following: ƒ Single-bit error correction ƒ Multiple-bit error detection ƒ Memory using 512 Mbit, 1 Gbit, or 2 Gbit DRAM based on memory technology Memory can be implemented with either single-sided (one row) or double-sided (two rows) DIMMs. 3.3.1 Memory Configuration The memory interface between the MCH and the DIMMs is a 72-bit (ECC) wide interface. There are two banks of DIMMs, labeled 1 and 2. Bank 1 contains DIMM socket locations DIMM_1A and DIMM_2A. Bank 2 contains DIMM socket locations DIMM_1B and DIMM_2B. The sockets associated with each bank or “channel,” are located next to each other and the DIMM socket identifiers are marked on the server board silkscreen near the DIMM socket. Bank 1 is associated with Memory Channel A while Bank 2 is associated with Memory Channel B. When only two DIMM modules are used, the population order must be DIMM_1A, DIMM_1B to ensure dual channel operating mode. For more information, see Figure 9. In order to operate in dual channel dynamic paging mode, the following conditions must be met: ƒ Two identical DIMMs are installed, one each in DIMM_1A and DIMM_1B ƒ Four identical DIMMs are installed (one in each socket location) Note: Three DIMMs cannot be installed on the server board. This configuration is not supported. DIMMs that are not “matched” (same type and speed) are not supported. Identical memory parts are preferred. The system is designed to populate any rank on either channel including either degenerate single channel case. DIMM and memory configurations must adhere to the following: ƒ DDR2 667/800 MHz, unbuffered, DDR2 DIMM modules ƒ DIMM organization: x64 non-ECC or x72 ECC ƒ Pin count: 240 ƒ DIMM capacity: 512 MB, 1 GB, and 2 GB DIMMs ƒ Serial PD: JEDEC Rev 2.0 ƒ Voltage options: 1.8 V ƒ Interface: SSTL2 26 Revision 1.8 Intel Order Number: E14960-009 Intel® Server Boards S3200SH/S3210SH TPS Functional Architecture Table 10. Memory Bank Labels and DIMM Population Order Location DIMM Label Channel Population Order J8J1 (DIMM_1A) A 1 J8J2 (DIMM_2A) A 3 J9J1 (DIMM_1B) B 2 J9J2 (DIMM_2B) B 4 Figure 9. Memory Bank Label Definition Revision 1.8 27 Intel Order Number: E14960-009 Functional Architecture Intel® Server Boards S3200SH/S3210SH TPS Table 11. Characteristics of Dual/Single Channel Configuration with or without Dynamic Mode Throughput Level Configuration Characteristics Highest Dual channel with dynamic paging mode All DIMMs matched Dual channel without dynamic paging mode DIMMs matched from Channel A to Channel B DIMMs not matched within channels Single channel with dynamic paging mode Single DIMM or DIMMs matched within a channel Lowest Single channel without dynamic paging DIMMs not matched mode 3.3.2 Memory DIMM Support The board supports unbuffered (not registered) DDR2 667/800 ECC or non-ECC DIMMs operating at 667/800 MT/s. Note: Only DIMMs tested and qualified by Intel or a designated memory test vendor are supported on this board. All DIMMs are supported by design, but only fully qualified DIMMs are supported on the board. The minimum supported DIMM size is 512 MB. Therefore, the minimum main memory configuration is 1 x 512 MB or 512 MB. The largest size DIMM supported is 2 GB and as such, the maximum main memory configuration is 8 GB implemented by 4 x 2 GB DIMMs. ƒ Unbuffered DDR2 667/800 compliant, ECC x8 and Non-ECC x8 or x16 memory DIMMs are supported. ƒ ECC single-bit errors (SBE) can be detected and corrected. Multiple-bit errors (MBE) can only be detected. ƒ The maximum memory capacity is 8 GB via four 2 GB DIMM modules. ƒ The minimum memory capacity is 512 MB via a single 512 MB DIMM module. 3.4 I/O Sub-System 3.4.1 PCI Subsystem The primary I/O buses for the server board are five independent PCI bus segments providing PCI, PCI Express*, and PCI-X resources (LX board SKU only). The PCI buses comply with the PCI Local Bus Specification, Rev 2.3. ® PCI segments A, B, C, and D are directed through the Intel ICH9R. PCI segment E is ® independently configured to PXH-V which is through the Intel ICH9R by PCI Express* x4 interface. PCI Segment F is directed through the MCH by PCI Express* x8 interface. Table 12 lists the characteristics of the three PCI bus segments. 28 Revision 1.8 Intel Order Number: E14960-009 Intel® Server Boards S3200SH/S3210SH TPS Functional Architecture Table 12. PCI Bus Segment Characteristics PCI Bus Voltage Width Speed Type PCI I/O Card Slots Segment A 3.3V 32 bits 33 MHz PCI 32 Slot 1, Slot 2, NIC 2, video B 3.3V 1 lane 2.5 GHz x1 PCI Express* Slot 3, X4 physical connector C 3.3V 1 lane 2.5 GHz x1 PCI Express* NIC 1 D 3.3V 4 lane 2.5 GHz x4 PCI Express* Slot 4, PXH, X8 physical connector E 3.3V 64 bits 66/100/133 MHz PCI-64 Slot 5, Slot 6 through riser card F 3.3V 8 lanes 2.5 GHz x8 PCI Express* Slot 6, X8 physical connector 3.4.1.1 P32-A: 32-bit, 33-MHz PCI Sub-system ® The Intel ICH9R provides a Legacy 32-bit PCI sub-system and acts as the central resource on this PCI interface. P32-A supports the following embedded devices and connectors: ® ƒ One Intel 82541PI Fast Ethernet Controller ƒ Two slots capable of supporting full length PCI add-in cards operating at 33 MHz 3.4.1.1.1 Device IDs (IDSEL) Each device under the PCI hub bridge has its IDSEL signal connected to one bit of AD (31:16), which acts as a chip select on the PCI bus segment in configuration cycles. This determines a unique PCI device ID value for use in configuration cycles. The following table shows the bit to which each IDSEL signal is attached for segment A devices and the corresponding device description. Table 13. Segment A Configuration IDs IDSEL Value Device ® 21 Intel 82541PI LAN (NIC2) 17 PCI Slot 1(32b/33MHz) 16 PCI slot 2(32b/33MHz) 3.4.1.1.2 Segment A Arbitration ® PCI segment A supports two PCI devices: the Intel ICH9R and one PCI bus master (NIC). All ® PCI masters must arbitrate for PCI access using resources supplied by the Intel ICH9R. The host bridge PCI interface (ICH9R) arbitration lines REQx* and GNTx* are a special case in that they are internal to the host bridge. Table 14 defines the arbitration connections. Revision 1.8 29 Intel Order Number: E14960-009 Functional Architecture Intel® Server Boards S3200SH/S3210SH TPS Table 14. Segment A Arbitration Connections Baseboard Signals Device ® PCI REQ_N5/GNT_N5 Intel 82541PI LAN (NIC2) PCI REQ_N1/GNT_N1 PCI Slot 1 (32-bit/33 MHz) PCI REQ_N0/GNT_N0 PCI Slot 2 (32-bit/33 MHz) 3.4.1.2 PCI Interface for Video subsystem ® The server board graphics subsystem is connected to the Intel ICH9R with a PCI Express* x1 bus. 3.4.2 Interrupt Routing The board interrupt architecture accommodates both PC-compatible PIC mode and APIC mode ® interrupts through the use of integrated I/O APICs in the Intel ICH9R. 3.4.2.1 Legacy Interrupt Routing ® For PC-compatible mode, the Intel ICH9R provides two 82C59-compatible interrupt controllers. The two controllers are cascaded with interrupt levels 8 through 15 entering on level 2 of the primary interrupt controller (standard PC configuration). A single interrupt signal is presented to ® the processor, to which the processor responds for servicing. The Intel ICH9R contains configuration registers that define which interrupt source logically maps to I/O APIC INTx pins. ® ® The Intel ICH9R handles both PCI and IRQ interrupts. The Intel ICH9R translates these to the ® APIC bus. The numbers in Table 15 indicate the Intel ICH9R PCI interrupt input pin to which the associated device interrupt (INTA, INTB, INTC, INTD, INTE, INTF, INTG, INTH for PCI bus ® and PXIRQ0, PXIRQ1, PXIRQ2, PXIRQ3 for PCI-X bus) is connected. The Intel ICH9R I/O APIC exists on the I/O APIC bus with the processor. Table 15. PCI AND PCI-X Interrupt Routing/Sharing Interrupt INT A INT B INT C INT D ® Intel 82541PI LAN (NIC2) PIRQB Integrated BMC PIRQC PCI Slot 1 (PCI 32-bit/33 MHz) PIRQG PIRQF PIRQE PIRQH PCI Slot 2 (PCI 32-bit/33 MHz) PIRQF PIRQG PIRQH PIRQE PCI-X Slot 5 (64-bit/133 MHz) (LX board SKU PXIRQ5 PXIRQ6 PXIRQ7 PXIRQ4 only) PCI-X Slot 6 (64-bit/133 MHz) (Riser, LX board PXIRQ0 PXIRQ1 PXIRQ2 PXIRQ3 SKU only) 30 Revision 1.8 Intel Order Number: E14960-009 Intel® Server Boards S3200SH/S3210SH TPS Functional Architecture 3.4.2.2 APIC Interrupt Routing ® I/O APIC For APIC mode, the server board interrupt architecture incorporates three Intel ® devices to manage and broadcast interrupts to local APICs in each processor. The Intel I/O APICs monitor each interrupt on each PCI device including PCI slots in addition to the ISA compatibility interrupts IRQ (0-15). When an interrupt occurs, a message corresponding to the interrupt is sent across a three-wire serial interface to the local APICs. The APIC bus minimizes interrupt latency time for compatibility interrupt sources. The I/O APICs can also supply greater than 16 interrupt levels to the processor(s). This APIC bus consists of an APIC clock and two bi-directional data lines. 3.4.2.3 Legacy Interrupt Sources Table 16 recommends the logical interrupt mapping of interrupt sources on the board. The ® actual interrupt map is defined using configuration registers in the Intel ICH9R. Table 16. Interrupt Definitions ISA Interrupt Description INTR Processor interrupt. NMI NMI to processor. IRQ0 System timer IRQ1 Keyboard interrupt. IRQ2 Slave PIC IRQ3 Serial port 1 interrupt from Super I/O* device, user-configurable. IRQ4 Serial port 1 interrupt from Super I/O* device, user-configurable. IRQ5 IRQ6 Floppy disk. IRQ7 Generic IRQ8_L Active low RTC interrupt. IRQ9 SCI* IRQ10 Generic IRQ11 Generic IRQ12 Mouse interrupt. IRQ13 Floaty processor. IRQ14 Compatibility IDE interrupt from primary channel IDE devices 0 and 1 IRQ15 Secondary IDE Cable ® SMI* System Management Interrupt: General purpose indicator sourced by the Intel ICH9R to the processor 3.4.2.4 Serialized IRQ Support The server board supports a serialized interrupt delivery mechanism. Serialized Interrupt Requests (SERIRQ) consist of a start frame, a minimum of 17 IRQ / data channels, and a stop frame. Any slave device in the quiet mode may initiate the start frame. While in the continuous mode, the start frame is initiated by the host controller. Revision 1.8 31 Intel Order Number: E14960-009 Functional Architecture Intel® Server Boards S3200SH/S3210SH TPS 3.4.3 PCI Error Handling The PCI bus defines two error pins, PERR# and SERR#, for reporting PCI parity errors and system errors, respectively. In the case of PERR#, the PCI bus master has the option to retry the offending transaction or report it using SERR#. SERR# reports all other PCI-related errors. If enabled by the BIOS, SERR# is routed to NMI. 32 Revision 1.8 Intel Order Number: E14960-009 Intel® Server Boards S3200SH/S3210SH TPS Functional Architecture ® Intel ICH9R IOAPIC 0 DMI INTERFACE IRQ0 IRQ1 IRQ2 IRQ3 IRQ4 IRQ5 IRQ6 IRQ7 IRQ8 ® IRQ9 Intel IRQ10 ® ICH9R Intel IRQ11 IRQ12 ICH9R IRQ13 8259PIC IRQ14 IRQ15 IRQ16 IRQ17 IRQ18 IRQ19 IRQ20 IRQ21 IRQ22 IRQ23 x8 PCI Express* INTR x8 Connector MCH CPU Figure 10. Interrupt Routing Diagram Revision 1.8 33 Intel Order Number: E14960-009 ® Intel ICH9R Interrupt Routing PCI Interface Serialized IRQ Interface Functional Architecture Intel® Server Boards S3200SH/S3210SH TPS Super I/O Timer Keyboard Cascade Serial Port2/ISA SERIRQ Serial Port1/ISA SERIRQ ISA Floppy/ISA ISA RTC SCI/ISA ISA ISA Mouse/ISA Coprocessor Error P IDE/ISA Not Used PIRQA# N/A PIRQB# ® Intel 82541PI NIC PIRQC# N/A PIRQD# N/A PIRQE# Slot 1 and 2 INTC PIRQF# Slot 1 and 2 INTA PIRQG# Slot 1 and2INTB PIRQH# Slot 1 and 2 INTD ® Figure 11. Intel ICH9R Interrupt Routing Diagram 34 Revision 1.8 Intel Order Number: E14960-009 Intel® Server Boards S3200SH/S3210SH TPS Functional Architecture PA IRQ0 PCI-X slot 6 INTD# PA IRQ1 PCI-X slot 6 INTA# PA IRQ2 PCI-X slot 6 INTC# PA IRQ3 PCI-X slot 6 INTB# PA IRQ4 PCI-X slot 5 INTD# PA IRQ5 PCI-X slot 5 INTA# PA IRQ6 PCI-X slot 5 INTB# PCI-X PA IRQ7 PCI-X slot 5 INTC# PA IRQ8 N/A Interface PA IRQ9 N/A PA IRQ10 A N/ PA IRQ11 N/A PA IRQ12 N/A PA IRQ13 N/A PA IRQ14 N/A PA IRQ15 N/A PXH-V PB IRQ0 N/A PB IRQ1 N/A PB IRQ2 N/A PB IRQ3 N/A PB IRQ4 N/A PB IRQ5 N/A PB IRQ6 N/A PB IRQ7 N/A PCI-X PB IRQ8 N/A Interface PB IRQ9 N/A PB IRQ10 N/A PB IRQ11 N/A PB IRQ12 N/A PB IRQ13 N/A PB IRQ14 N/A PB IRQ15 N/A Figure 12. PXH-V Interrupt Routing Diagram Revision 1.8 35 Intel Order Number: E14960-009 Functional Architecture Intel® Server Boards S3200SH/S3210SH TPS 3.5 BMC Controller The Integrated Baseboard Management Controller (Integrated BMC) is a highly integrated single-chip solution, integrating several devices typically found on servers. The Integrated BMC is mainly targeted at next generation servers and provides a highly-integrated server class product. The Integrated BMC contains the following integrated subsystems and features. Server Class Super I/O* functionality includes ƒ Keyboard style/BT interface for BMC support ƒ Two Fully Functional Serial Ports, compatible with the 16C550 ƒ Serial IRQ Support ƒ SMI/SCI/PME Support ƒ ACPI Compliant ƒ Up to 16 Shared GPIO ports ƒ Programmable Wake-up Event Support ƒ Plug and Play Register Set ƒ Power Supply Control ƒ Watchdog timer compliant with Microsoft SHDG ƒ LPC to SPI bridge for system BIOS support ƒ Real Time Clock (RTC) module with external RTC interface Baseboard Management Controller ƒ IPMI 2.0 Compliant ƒ Integrated 250 MHz 32-bit ARM9 processor ƒ Six I2C SMBus Modules with Master-Slave support ƒ Two independent 10/100 Ethernet Controllers with RMII support ƒ LPC Master interface for non-volatile code storage ƒ SPI Flash interface ƒ Three UART for ICMB support ƒ DDR2 16-bit up to 667 MHz memory interface ƒ 16 Mailbox Registers for communication between the host and the BMC ƒ Watchdog timer ƒ Three General Purpose Timers ƒ Dedicated Real Time Clock for BMC ƒ Up to 16 direct and 64 Serial GPIO ports ƒ Ability to maintain text and graphics controller history ƒ 12 10-bit Analog to Digital Converters ƒ Three Diode Inputs for Temperature measurements 36 Revision 1.8 Intel Order Number: E14960-009 Intel® Server Boards S3200SH/S3210SH TPS Functional Architecture ƒ Eight Fan Tach Inputs ƒ Four Pulse Width Modulators (PWM) ƒ Chassis Intrusion Logic with battery backed general purpose register ƒ LED support with programmable blink rate control ƒ Programmable IO Port snooping, which can be used to snoop on Port 80h ƒ Unique Chip ID for each part, burned at the time of production testing ƒ Hardware 32-bit Random Number generator ƒ JTAG Master interface ƒ On-Chip Test Infrastructure for testing BMC firmware Graphics Controller Subsystem ƒ Integrated Matrix Graphics Core ƒ 2D Hardware Graphics Acceleration ƒ DDR2 memory interface supports up to 128 Mbytes of memory ƒ Supports all display resolutions up to 1600 x 1200 16 bpp @ 75 Hz ƒ High speed Integrated 24-bit RAMDAC ƒ Single lane PCI Express* host interface USB Code to Host Memory Integrated BMC Block Diagram USB 1.1 Interrupt Fan Tach (12) ADC LPC Master, JTAG & JTAG Master, Controller PWM (4) Thermal USB 2.0 Master & SPI FLash ARM926EJ-S 16K D & I Cache RTC & Ethernet UART I2C Crypto General Purpose MAC with (3) (6) Accelerator TImers (3) RMII (2) DDR-II DDR-II 16-bit (up to Memory 667MHz) Controller BMC & KVMS Subsystem KCS System UART (3) GPIO BT & Wakeup Video Mailboxes Control Output LPC LPC Graphics Interface Interface Controller To Host Real Time Clock PCIe x1 LPC to SPI Watchdog Interface Interface Flash Bridge Timer (external RTC) BMC & KVMS Subsystem Graphics Subsystem Revision 1.8 37 Intel Order Number: E14960-009 Functional Architecture Intel® Server Boards S3200SH/S3210SH TPS 3.6 PCI Express* to PCI-X Bridge 6702PXH (PXH-V) (LX Board SKU Only) ® The Intel 6702PXH 64-bit PCI Hub is a peripheral chip that performs PCI bridging functions ® between the PCI Express* interface and the PCI bus. The Intel 6702PXH 64-bit PCI Hub contains a single PCI bus interface that can be configured to operate in PCI (33 or 66 MHz) or PCI-X Mode 1 (66, 100, or 133 MHz). ® The Intel 6702PXH 64-bit PCI Hub further supports the new PCI Standard Hot-Plug Controller and Subsystem Specification, Revision 1.0. Each PCI interface contains an I/OxAPIC with 24 interrupts and a standard hot plug controller. 3.7 Clock Generator A CK505 compliant Clock Synthesizer chip solution generates most of the required clocks on ® the Intel Server Board S3200SH. The CK505 synthesizes and distributes a multitude of clock outputs at various frequencies, timings, and drive levels using a single parallel resonance 14.31818 MHz (50 ppm or less) crystal. The CK505 clock generator supplies host clocks (at 200 MHz, 266 MHz, and 333 MHz), 100 MHz clocks, 48 MHz clocks, 33 MHz clocks, and 14 MHz clocks. The CK505 has twelve SRC outputs targeted for PCI Express* applications at 100 MHz. The CK505 is the main clock source for the entire system. ƒ The clock generator supports the following: o Differential host clock pairs for processor, MCH and XDP o Differential 100 MHz to ICH9 (DMI and SATA), MCH, XDP, and PCI Express* slots o 33 MHz clocks for ICH9, SIO, SM712, Port 80/81h and PCI32 slots ® o Single ended 48 MHz clock for the Intel CH9 USB Controller o Single ended 14.318 MHz clocks shared between the ICH9 and SIO o Debug jumpers to manually select FSB/host clock frequency ƒ SMBus interface for spread spectrum support ƒ Option to retain register contents in PWRDWN# state 3.8 Super I/O ® There is a Winbond* PC8374L super I/O located on the Intel ICH9 LPC bus. This device uses the following features on the server board: ƒ LPC rev 1.1 ƒ Floppy Disk Controller with a Digital Data Separator ƒ KB and Mouse Controller (KBC) ƒ ACPI 2.0b Compliant ƒ Sensor Path* Interface 38 Revision 1.8 Intel Order Number: E14960-009 Intel® Server Boards S3200SH/S3210SH TPS Functional Architecture 3.9 GigE Controller 82541PI ® The Intel 82541 Gigabit Ethernet Controller is a single, compact component with integrated Gigabit Ethernet Media Access Controller (MAC) and Physical Layer (PHY) function. This device interfaces with the ICH9 using PCI 32 bit/33MHz. The server board uses this device along with the integrated ICH9 MAC and external 82566 PHY to provide two Gigabit Ethernet Ports. The device has the following features: ƒ Uses PCI 32-bit/33 MHz PCI Interface ƒ IEEE802.3x compliant flow control support ƒ Integrated PHY for full 10/100/1000 Mbps full and half duplex operation ƒ On-board Microcontroller ƒ Wake-On LAN (WOL) Support ƒ IPMI support for server management 3.10 GigE PHY ® The Intel 82566 Gigabit Ethernet physical layer transceiver (PHY) is a single port device that supports the integrated ICH9 Media Access Controller (MAC) at 10 Mbps, 100 Mbps, or 1000 Mbps. The PHY is interfaced to the ICH9 using a high-speed serial interface, the Gigabit LAN Connect Interface (GLCI). This interface operates using two capacitively coupled differential pairs; one transmit pair and one receive pair. The PHY is also interfaced to the ICH9 using a lower frequency LAN Connect Interface (LCI). The LCI interface operates using eight single ended signals, one clock, three transmit, three receive, and one reset/sync. The dual interface, GLCI/LCI allows the interfaces to be dynamically controlled based on the link speed. In gigabit Ethernet mode, the GLCI is used to transmit and receive data and the LCI is used for Management Data Input/Output (MDIO). For all other link speeds including no-link and power-down, the GLCI is electrically idle. In sleeping states S3 – S5, the gigabit Ethernet link is not supported. 3.11 On-Board Components 3.11.1 Video Support The server board includes an integrated VGA graphics engine in Integrated BMC that supports standard VGA drivers with analog display capabilities. The graphics subsystem has 8 MB memory to support the onboard video controller. The baseboard provides a standard 15-pin VGA connector at the rear of the system, in the standard ATX I/O opening area. The video Revision 1.8 39 Intel Order Number: E14960-009 Functional Architecture Intel® Server Boards S3200SH/S3210SH TPS controller is disabled by default in BIOS Setup when an off-board video adapter is detected in either the PCI Express* or PCI slots. 40 Revision 1.8 Intel Order Number: E14960-009 Intel® Server Boards S3200SH/S3210SH TPS Functional Architecture 3.11.1.1 Video Modes Table 17. Video Modes 2D Mode Refresh Rate (Hz) 2D Video Mode Support 8 bpp 16 bpp 24 bpp 32 bpp 640x480 60, 72, 75, 90, 100 Supported Supported Supported Supported 800x600 60, 70, 75, 90, 100 Supported Supported Supported Supported 1024x768 60, 72, 75, 90, 100 Supported Supported Supported Supported 1280x1024 43, 60 Supported Supported Supported Supported 1280x1024 70, 72 Supported – Supported Supported 1600x1200 60, 66 Supported Supported Supported Supported 1600x1200 76, 85 Supported Supported Supported – 3D Mode Refresh Rate (Hz) 3D Video Mode Support with Z Buffer Enabled 8 bpp 16 bpp 24 bpp 32 bpp 640x480 60,72,75,90,100 Supported Supported Supported Supported 800x600 60,70,75,90,100 Supported Supported Supported Supported 1024x768 60,72,75,90,100 Supported Supported Supported Supported 1280x1024 43,60,70,72 Supported Supported – – 1600x1200 60,66,76,85 Supported – – – 3D Mode Refresh Rate (Hz) 3D Video Mode Support with Z Buffer Disabled 8 bpp 16 bpp 24 bpp 32 bpp 640x480 60,72,75,90,100 Supported Supported Supported Supported 800x600 60,70,75,90,100 Supported Supported Supported Supported 1024x768 60,72,75,90,100 Supported Supported Supported Supported 1280x1024 43,60,70,72 Supported Supported Supported – 1600x1200 60,66,76,85 Supported Supported – – Revision 1.8 41 Intel Order Number: E14960-009 Functional Architecture Intel® Server Boards S3200SH/S3210SH TPS 3.12 Replacing the Back-Up Battery The lithium battery on the server board powers the RTC for up to ten years in the absence of power. When the battery starts to weaken, it loses voltage, and the server settings stored in CMOS RAM in the RTC (for example, the date and time) may be wrong. For a list of approved devices, contact your customer service representative or dealer. WARNING Danger of explosion if battery is incorrectly replaced. Replace only with the same or equivalent type recommended by the equipment manufacturer. Discard used batteries according to manufacturer’s instructions. ADVARSEL! Lithiumbatteri - Eksplosionsfare ved fejlagtig håndtering. Udskiftning må kun ske med batteri af samme fabrikat og type. Levér det brugte batteri tilbage til leverandøren. ADVARSEL Lithiumbatteri - Eksplosjonsfare. Ved utskifting benyttes kun batteri som anbefalt av apparatfabrikanten. Brukt batteri returneres apparatleverandøren. VARNING Explosionsfara vid felaktigt batteribyte. Använd samma batterityp eller en ekvivalent typ som rekommenderas av apparattillverkaren. Kassera använt batteri enligt fabrikantens instruktion. VAROITUS Paristo voi räjähtää, jos se on virheellisesti asennettu. Vaihda paristo ainoastaan laitevalmistajan suosittelemaan tyyppiin. Hävitä käytetty paristo valmistajan ohjeiden mukaisesti. 42 Revision 1.8 Intel Order Number: E14960-009 System BIOS Intel® Server Boards S3200SH/S3210SH TPS 4. System BIOS 4.1 BIOS Identification String The BIOS Identification string uniquely identifies the revision of the BIOS used on the server. The string is formatted as follows: BoardFamilyID.OEMID.MajorRev.MinorRev.BuildID.BuildDateTime Where: ƒ BoardFamilyID = String name for this board family ƒ OEMID = Three-character OEM ID. “86B” is used for Intel server boards ƒ MajorRev = Two decimal digits ƒ MinorRev = Two decimal digits ƒ BuildID = Four decimal digits ƒ BuildDateTime = Build date and time in MMDDYYYYHHMM format: MM = Two-digit month DD = Two-digit day of month YYYY = Four-digit year HH = Two-digit hour using 24-hour clock MM = Two-digit minute ® For example, Intel Server Board S3200SH BIOS Build 3, generated on Jan 21, 2006 at 11:59 AM displays the following BIOS ID string in the POST diagnostic screen: S3200.86B.01.00.0003.012120061159 The BIOS version in the Setup Utility displays as: S3200.86B.01.00.0003 The BIOS ID identifies the BIOS image. It is not used to designate either the board ID Snow Hill or the BIOS phase (Alpha, Beta, and so forth). The board ID is available in the SMBIOS type 2 structure in which the phase of the BIOS can be determined by the release notes associated with the image. The Board ID is also available via setup. Support for INT15H, Function DA8Ch (Get BIOSID) was removed. The BIOS ID must be read from the SMBIOS type 0 structure. Revision 1.8 43 Intel Order Number: E14960-009 Intel® Server Boards S3200SH/S3210SH TPS System BIOS 4.2 Logo / Diagnostic Window The logo / diagnostic window may be in one of two forms, quiet boot mode and verbose mode. In quiet boot mode, a logo splash screen displays. In verbose mode, a system summary and diagnostic screen display. The default is to display the logo in quiet boot mode. If no logo is present in the flash ROM, or if quiet boot mode is disabled in the system configuration, the summary and diagnostic screen display. The diagnostic screen consists of the following information ƒ BIOS ID ƒ Total memory detected (total size of all installed DIMMs) ƒ Processor information (Intel branded string, speed, and number of physical processors identified) ƒ Types of input devices (keyboard, mouse, and so forth) detected if plugged in (PS/2 and/or USB) 4.3 BIOS Setup Utility The BIOS setup utility is a text-based utility that allows the user to configure the system and view current settings and environment information for the platform devices. The setup utility controls the platform's built-in devices. The BIOS setup interface consists of a number of pages or screens. Each page contains information or links to other pages. The first page in Setup displays a list of general categories as links. These links lead to pages containing specific category’s configuration. The following sections describe the look and behavior for platform setup. 4.3.1 Operation BIOS Setup has the following features: ƒ Localization. The BIOS is only available in English. ƒ BIOS Setup is functional via console redirection over various terminal emulation standards. This may limit some functionality for compatibility (for example, usage of colors or some keys or key sequences or support of pointing devices). 4.3.1.1 Setup Page Layout The setup page layout is sectioned into functional areas. Each occupies a specific area of the screen and has dedicated functionality. Table 18 lists and describes each functional area. 44 Revision 1.8 Intel Order Number: E14960-009 System BIOS Intel® Server Boards S3200SH/S3210SH TPS Table 18. BIOS Setup Page Layout Functional Area Description Title Bar The title bar is located at the top of the screen and displays the title of the form (page) the user is currently viewing. It may also display navigational information. Setup Item List The Setup Item List is a set of controllable and informational items. Each item in the list occupies the left and center columns in the middle of the screen. The left column, the "Setup Item", is the subject of the item. The middle column, the "Option", contains an informational value or choices of the subject. A Setup Item may also be a hyperlink used to navigate form sets (pages). When it is a hyperlink, a Setup Item only occupies the “Setup Item” column. Item Specific Help Area The Item Specific Help area is located on the right side of the screen and contains help text for the highlighted Setup Item. Help information includes the meaning and usage of the item, allowable values, effects of the options, and so forth. Keyboard Command Bar The Keyboard Command Bar is located at the bottom right of the screen and continuously displays help for keyboard special keys and navigation keys. The keyboard command bar is context-sensitive—it displays keys relevant to current page and mode. Status Bar The Status Bar occupies the bottom line of the screen. This line displays the BIOS ID 4.3.1.2 Entering BIOS Setup You start the BIOS Setup by pressing during boot time when the OEM (Original Equipment Manufacturer) or Intel logo displays. When Quiet Boot is disabled, the message “press to enter setup” displays on the diagnostics screen. 4.3.1.3 Keyboard Commands The bottom right portion of the Setup screen provides a list of commands used to navigate through the Setup utility. These commands are displayed at all times. Each setup menu page contains a number of features. Except those used for informative purposes, each feature is associated with a value field. This field contains user-selectable parameters. Depending on the security option chosen and in effect by the password, a menu feature’s value may or may not be changeable. If a value is non-changeable, the feature’s value field is inaccessible. It displays as “grayed out.” Table 19 lists these options. Revision 1.8 45 Intel Order Number: E14960-009 Intel® Server Boards S3200SH/S3210SH TPS System BIOS Table 19. BIOS Setup: Keyboard Command Bar Key Option Description Execute The key activates sub-menus when the selected feature is a sub-menu, or Command displays a pick list if a selected option has a value field, or selects a sub-field for multi-valued features like time and date. If a pick list is displayed, the key selects the currently highlighted item, undoes the pick list, and returns the focus to the parent menu. Exit The key provides a mechanism for backing out of any field. This key undoes the pressing of the Enter key. When the key is pressed while editing any field or selecting features of a menu, the parent menu is re-entered. When the key is pressed in any sub-menu, the parent menu is re-entered. When the key is pressed in any major menu, the exit confirmation window displays and the user is asked whether changes can be discarded. If “No” is selected and the key is pressed, or if the key is pressed, the user is returned to where he/she was before was pressed, without affecting any existing settings. If “Yes” is selected and the key is pressed, setup is exited and the BIOS returns to the main System Options Menu screen. Select Item Use the up arrow to select the previous value in a pick list, or the previous option in  a menu item's option list. Activate the selected item by pressing the key.  Select Item The down arrow is used to select the next value in a menu item’s option list, or a value field’s pick list. Activate the selected item by pressing the key. Select Menu Use the left and right arrow keys to move between the major menu pages. The  keys have no effect if a sub-menu or pick list displays. Select Field Use the key to move between fields. For example, use to move from hours to minutes in the time item in the main menu. - Change Value Use the minus key on the keypad to change the value of the current item to the previous value. This key scrolls through the values in the associated pick list without displaying the full list. + Change Value Use the plus key on the keypad to change the value of the current menu item to the next value. This key scrolls through the values in the associated pick list without displaying the full list. On 106-key Japanese keyboards, the plus key has a different scan code than the plus key on the other keyboard, but will have the same effect. Setup Defaults Pressing causes the following message to display: Load Optimized defaults? (Y/N) If the key is pressed, all Setup fields are set to their default values. If the key is pressed, or if the key is pressed, the user is returned to where they were before was pressed without affecting any existing field values Save and Exit Pressing causes the following message to display: Save Configuration and Reset? (Y/N) If the key is pressed, all changes are saved and Setup is exited. If the key is pressed, or the key is pressed, the user is returned to where they were before was pressed without affecting any existing values. 4.3.1.4 Menu Selection Bar The Menu Selection Bar is located at the top of the screen. It displays the major menu selections available to the user. 46 Revision 1.8 Intel Order Number: E14960-009 System BIOS Intel® Server Boards S3200SH/S3210SH TPS 4.3.2 Server Platform Setup Screens The following sections describe the screens available for the configuration of a server platform. The tables in these sections describe the contents of each screen. These tables follow these guidelines: ƒ The BIOS Setup screens display the text and values in the Setup Item, Options, and Help columns in the tables. ƒ Bold text in the Options column of the tables indicates default values. These values do not display in bold on the setup screen. The bold text in this document serves as a reference point. ƒ The Comments column provides additional information where it may be helpful. This information does not display in the BIOS Setup screens. ƒ Information in the screen shots enclosed in brackets (< >) indicates text that varies, depending on the option(s) installed. For example, is replaced by the actual current date. ƒ Information enclosed in square brackets ([ ]) in the tables indicates areas where the user must type in text instead of selecting from a list of provided options. 4.3.2.1 Main Screen Unless an error occurred, the Main screen is the first screen that displays during the BIOS Setup. If an error occurred, the Error Manager screen displays instead. Revision 1.8 47 Intel Order Number: E14960-009 Intel® Server Boards S3200SH/S3210SH TPS System BIOS Advance Main Security Server Management Boot Options Boot Manager d Logged in as Platform ID BIOS Version S3200X38.86B.xx.yy.zzzz Build Date Processor ® ® Intel Xeon CPU Core Frequency Memory Size Quiet Boot Enabled/Disabled POST Error Pause Enabled/Disabled System Date System Time Figure 13. Setup Utility — Main Screen Display 48 Revision 1.8 Intel Order Number: E14960-009 System BIOS Intel® Server Boards S3200SH/S3210SH TPS Table 20. Setup Utility — Main Screen Fields Setup Item Options Help Text Comments Logged in as Information only. Displays password level that setup is running in, which is either Administrator or User. If a password is not set, the default mode is Administrator. Platform ID Information only. Displays the Platform ID. System BIOS Version Information only. Displays the current BIOS version. xx = major version yy = minor version zzzz = build number Build Date Information only. Displays the current BIOS build date. Processor Intel processor name and the CPU speed. This information is retrieved from the processor. Core Frequency Information only. Displays the current speed of the boot processor in GHz or MHz. Count Information only. Number of physical processors detected. Memory Size Information only. Displays the total physical memory installed in the system in MB or GB. The term physical memory indicates the total memory discovered in the form of installed DIMMs. Quiet Boot Enabled [Enabled] – Display the logo screen during POST. Disabled [Disabled] – Display the diagnostic screen during POST. POST Error Pause Enabled [Enabled] – Go to the Error The POST error pause takes the Manager for critical POST errors. system to the error manager to Disabled review the errors when Major errors occur. Minor and Fatal error [Disabled] – Attempt to boot and do displays are not affected by this not go to the Error Manager for setting. See Section 7.3.3 for more critical POST errors. information. Revision 1.8 49 Intel Order Number: E14960-009 Intel® Server Boards S3200SH/S3210SH TPS System BIOS Setup Item Options Help Text Comments System Date [Day of week System Date has configurable MM/DD/YYYY] fields for Month, Day, and Year. Use [Enter] or [Tab] key to select the next field. Use [+] or [-] key to modify the selected field. System Time [HH:MM:SS] System Time has configurable fields for Hours, Minutes, and Seconds. Hours are in 24-hour format. Use [Enter] or [Tab] key to select the next field. Use [+] or [-] key to modify the selected field. 4.3.2.2 Advanced Screen The Advanced screen provides an access point to configure several options such as processor, memory, SATA controller, and so forth. On this screen, the user selects the option they want to configure. Configurations are performed on a separate screen associated with the selected option—not directly on the Advanced screen. To access this screen from the Main screen, press the right arrow until the Advanced screen is selected. Advance Main Security Server Management Boot Options Boot Manager d ► Processor Configuration ► Memory Configuration ► SATA Controller Configuration ► Serial Port Configuration ► USB Configuration ► PCI Configuration Figure 14. Setup Utility — Advanced Screen Display 50 Revision 1.8 Intel Order Number: E14960-009 System BIOS Intel® Server Boards S3200SH/S3210SH TPS Table 21. Setup Utility — Advanced Screen Display Fields Setup Item Options Help Text Processor Configuration View/Configure processor information and settings. Memory Configuration View/Configure memory information and settings. SATA Controller Configuration View/Configure SATA Controller information and settings. Serial Port Configuration View/Configure serial port information and settings. USB Configuration View/Configure USB information and settings. PCI Configuration View/Configure PCI information and settings. 4.3.2.2.1 Processor Screen The Processor screen provides a place for the user to view the processor core frequency, system bus frequency, and enable or disable several processor options. The user can also select an option to view information about a specific processor. To access this screen from the Main screen, select Advanced | Processor. Advanced Processor Configuration Processor Family Core Frequency Maximum Frequency System Bus Frequency L2 Cache Size Processor Stepping CPUID Register ® Enhanced Intel SpeedStep Tech Enabled / Disabled Core Multi-processing Enabled / Disabled ® Intel Virtualization Technology Enabled/ Disabled Execute Disable Bit Enabled / Disabled Figure 15. Setup Utility — Processor Configuration Screen Display Revision 1.8 51 Intel Order Number: E14960-009 Intel® Server Boards S3200SH/S3210SH TPS System BIOS Table 22. Setup Utility — Processor Configuration Screen Fields Setup Item Options Help Text Comments Processor Family Information only. Identifies the processor family or generation. Core Frequency Information only. Frequency at which processors currently run. Maximum Frequency Information only. Maximum frequency the processor core supports. System Bus Frequency Information only. Current frequency of the processor FSB. L2 Cache RAM Information only. Size of the processor L2 cache. Processor Stepping Information only. Stepping number of the processor. CPUID Register Information only. CPUID register value identifies details about the processor family, model, and stepping. ® Enhanced Intel Enabled Enhanced Intel SpeedStep Technology ® SpeedStep Technology allows the system to dynamically adjust Disabled processor voltage and core frequency, which can result in decreased average power consumption and decreased average heat production. Contact your OS vendor regarding OS support of this feature. Core Multi-processing Enabled Core Multi-processing sets the state of logical processor cores in a Disabled package. [Disabled] sets only logical processor core 0 as enabled in each processor package. Note: If disabled, Hyper-Threading Technology is automatically disabled." ® ® Intel Virtualization Enabled Intel Virtualization Technology allows a Technology platform to run multiple operating systems Disabled and applications in independent partitions. Note: For a change to this option to take effect, you must power off and then power back on the system. Execute Disable Bit Enabled Execute Disable Bit can help prevent certain classes of malicious buffer overflow attacks. Disabled Contact your OS vendor regarding OS support of this feature. 4.3.2.2.2 Memory Screen The Memory screen provides a place for the user to view details about installed system memory DIMMs. On this screen, the user can select an option to open the Configure Memory RAS and Performance screen. 52 Revision 1.8 Intel Order Number: E14960-009 System BIOS Intel® Server Boards S3200SH/S3210SH TPS To access this screen from the Main screen, select Advanced | Memory. Advanced Memory Configuration Total Memory Effective Memory Current Configuration < Single Channel/Dual Channel > Current Memory Speed DIMM Information DIMM_A1 Installed/Not Installed/Failed DIMM_A2 Installed/Not Installed/Failed DIMM_B1 Installed/Not Installed/Failed DIMM_B2 Installed/Not Installed/Failed Memory Correction ECC/Non-ECC Figure 16. Setup Utility — Memory Configuration Screen Display Table 23. Setup Utility — Memory Configuration Screen Fields Setup Item Options Comments Total Memory Information only. The amount of memory (in MB or GB) available in the system in the form of installed DIMMs Effective Memory Information only. The amount of memory available to the operating system in MB or GB. The Effective Memory is the difference between Total Physical Memory and the sum of all memory reserved for internal usage. This difference includes the sum of all DIMMs that failed Memory Test during POST. Revision 1.8 53 Intel Order Number: E14960-009 Intel® Server Boards S3200SH/S3210SH TPS System BIOS Setup Item Options Comments Current Configuration Information only. Displays one of the following:  Dual Channel: System memory is configured for optimal performance and efficiency.  Single Channel: System memory is functioning in a special, reduced efficiency mode. Current Memory Information only. Displays the speed the Speed memory is running at. DIMM_# Displays the state of each DIMM socket present on the board. Each DIMM socket field reflects one of the following possible states: Installed: There is a DIMM installed in this slot. Not Installed: There is no DIMM installed in this slot. Failed: The DIMM installed in this slot is faulty / malfunctioning. Memory Correction ECC Non-ECC 4.3.2.2.3 SATA Controller Screen The ATA Controller screen provides fields to configure SATA hard disk drives. It also provides information on installed hard disk drives. To access this screen from the Main screen, select Advanced | SATA Controller. 54 Revision 1.8 Intel Order Number: E14960-009 System BIOS Intel® Server Boards S3200SH/S3210SH TPS Advanced SATA Controller Configuration Onboard SATA Controller Enabled / Disabled Configure SATA as IDE / AHCI/ RAID ► SATA Port 0 Not Installed/ ► SATA Port 1 Not Installed/ ► SATA Port 2 Not Installed/ ► SATA Port 3 Not Installed/ ► SATA Port 4 Not Installed/ ► SATA Port 5 Not Installed/ Figure 17. Setup Utility — ATA Controller Configuration Screen Display Revision 1.8 55 Intel Order Number: E14960-009 Intel® Server Boards S3200SH/S3210SH TPS System BIOS Table 24. Setup Utility — ATA Controller Configuration Screen Fields Setup Item Options Help Text Comments Onboard SATA Enabled Onboard Serial ATA (SATA) When enabled, the SATA Controller controller. controller can be configured in Disabled RAID Mode. Configure SATA as SATA [AHCI] – The SATA drives will be set to work as independent RAID SATA drives IDE When RAID is selected, no SATA [RAID] - SATA controller will be drive information is displayed. ® in RAID mode and the Intel RAID for Serial ATA option ROM will execute. [IDE] – The SATA drives will be set to work as independent SATA drives SATA Port 0 < Not Installed / Drive Information only: Unavailable information> when RAID Mode is enabled. SATA Port 1 < Not Installed / Drive Information only: This field is information> unavailable when RAID Mode is enabled. SATA Port 2 < Not Installed / Drive Information only: This field is information> unavailable when RAID Mode is enabled. SATA Port 3 < Not Installed / Drive Information only: This field is information> unavailable when RAID Mode is enabled. SATA Port 4 < Not Installed / Drive Information only: This field is information> only available when AHCI Mode is enabled. SATA Port 5 < Not Installed / Drive Information only: This field is information> only available when AHCI Mode is enabled. 4.3.2.2.4 Serial Ports Screen The Serial Ports screen provides fields to configure the Serial A [COM 1] and Serial B [COM2]. To access this screen from the Main screen, select Advanced | Serial Port. 56 Revision 1.8 Intel Order Number: E14960-009 System BIOS Intel® Server Boards S3200SH/S3210SH TPS Advanced Serial Port Configuration Serial A Enable Enabled/Disabled Address 3F8h / 2F8h / 3E8h / 2E8h IRQ 3 or 4 Serial B Enable Enabled/Disabled Address 3F8h / 2F8h / 3E8h / 2E8h IRQ 3 or 4 Figure 18. Setup Utility — Serial Port Configuration Screen Display Table 25. Setup Utility — Serial Ports Configuration Screen Fields Setup Item Options Help Text Serial A Enabled Enable or Disable Serial port A. Enable Disabled Address 3F8h Select Serial port A base I/O address. 2F8h 3E8h 2E8h IRQ 3 Select Serial port A base interrupt request (IRQ) line. 4 Serial B Enabled Enable or Disable Serial port B. Enable Disabled Address 3F8h Select Serial port B base I/O address. 2F8h 3E8h 2E8h IRQ 3 Select Serial port B base interrupt request (IRQ) line. 4 4.3.2.2.5 USB Configuration Screen The USB Configuration screen provides fields to configure the USB controller options. To access this screen from the Main screen, select Advanced | USB Configuration. Revision 1.8 57 Intel Order Number: E14960-009 Intel® Server Boards S3200SH/S3210SH TPS System BIOS Advanced USB Configuration Detected USB Devices USB Controller Enabled / Disabled Legacy USB Support Enabled / Disabled / Auto USB Mass Storage Device Configuration Device Reset timeout 10 sec / 20 sec / 30 sec / 40 sec Storage Emulation Auto / Floppy/Forced FDD/Hard Disk/CD-ROM USB 2.0 controller Enabled / Disabled Figure 19. Setup Utility — USB Controller Configuration Screen Display 58 Revision 1.8 Intel Order Number: E14960-009 System BIOS Intel® Server Boards S3200SH/S3210SH TPS Table 26. Setup Utility — USB Controller Configuration Screen Fields Setup Item Options Help Text Comments Detected USB Information only: Shows number of Devices connected USB devices USB Controller Enabled [Enabled] - All onboard USB controllers will be turned on and accessible by the OS. Disabled [Disabled] - All onboard USB controllers will be turned off and inaccessible by the OS. Legacy USB Enabled PS/2 emulation for USB keyboard and USB mouse Support devices. Disabled Auto [Auto] - Legacy USB support will be enabled if a USB device is attached. Device Reset 10 sec USB Mass storage device Start Unit command timeout. timeout 20 sec 30 sec 40 sec Storage Emulation Header for next line. One line for each Auto [Auto] - USB devices less than 530MB will be emulated as This setup screen can show a mass storage floppy. maximum of eight devices on this Floppy device in system screen. If more than eight devices Forced FDD are installed in the system, the “USB [Forced FDD] - HDD formatted drive will be emulated as Hard Disk Devices Enabled” displays the FDD (e.g., ZIP drive). CD-ROM correct count, but only the first eight devices can display here. USB 2.0 Onboard USB ports will be enabled to support USB 2.0 Enabled controller mode. Disabled Contact your OS vendor regarding OS support of this feature. 4.3.2.2.6 PCI Screen The PCI Screen provides fields to configure PCI add-in cards, the onboard NIC controllers, and video options. To access this screen from the Main screen, select Advanced | PCI. Revision 1.8 59 Intel Order Number: E14960-009 Intel® Server Boards S3200SH/S3210SH TPS System BIOS Advanced PCI Configuration Dual Monitor Video Enabled / Disabled Onboard NIC ROM Enabled / Disabled NIC 1 MAC Address NIC 2 MAC Address Figure 20. Setup Utility — PCI Configuration Screen Display Table 27. Setup Utility — PCI Configuration Screen Fields Setup Item Options Help Text Comments Dual Monitor Video Enabled Both the onboard video controller and an add-in video adapter will be enabled for system video. Disabled The onboard video controller will be the primary video device. Onboard NIC ROM Load the embedded option ROM for the onboard Enabled network controllers. Disabled Warning: If [Disabled] is selected, NIC1 and NIC2 cannot be used to boot or wake the system. NIC 1 MAC Address No entry Information only. 12 hex allowed digits of the MAC address. NIC 2 MAC Address No entry Information only. 12 hex allowed digits of the MAC address. 4.3.2.3 Security Screen The Security screen provides fields to enable and set the user and administrative password and to lock out the front panel buttons so they cannot be used. To access this screen from the Main screen, select the Security option. 60 Revision 1.8 Intel Order Number: E14960-009 System BIOS Intel® Server Boards S3200SH/S3210SH TPS Main Advanced Security Server Management Boot Options Boot Manager Administrator Password Status User Password Status Set Administrator Password [1234abcd] Set User Password [1234abcd] Front Panel Lockout Enabled/Disabled Figure 21. Setup Utility — Security Configuration Screen Display Table 28. Setup Utility — Security Configuration Screen Fields Setup Item Options Help Text Comments Administrator Password administrator password. User Password Status password. Set Administrator [123abcd] Administrator password is used to This option only controls Password control change access in BIOS Setup access to setup. Utility. Administrator has full Only alphanumeric characters can be access to all setup items. used. Maximum length is 7 characters. It Clearing the Admin is not case sensitive. password also clears the user password. Note: Administrator password must be set in order to use the user account. Set User Password [123abcd] User password is used to control entry Available only if the access to BIOS Setup Utility. Administrator Password is installed. This option only Only alphanumeric characters can be protects setup. User used. Maximum length is 7 characters. It password only has limited is not case sensitive. access to setup items. Note: Removing the administrator password will also automatically remove the user password. Front Panel Lockout Enabled Locks the power button and reset button on the system's front panel. If [Enabled] Disabled is selected, power and reset must be controlled via a system management interface. Revision 1.8 61 Intel Order Number: E14960-009 Intel® Server Boards S3200SH/S3210SH TPS System BIOS 4.3.2.4 Server Management Screen The Server Management screen provides fields to configure several server management features such as enabling FRB-2, clearing the system event log, and so forth. It also provides an access point to the screens for configuring console redirection and displaying system information. To access this screen from the Main screen, select the Server Management option. Advance Main Security Server Management Boot Options Boot Manager d Assert NMI on SERR Enabled / Disabled Assert NMI on PERR Enabled / Disabled Resume on AC Power Loss Stay Off /Last state/ Reset Clear System Event Log Enabled / Disabled FRB-2 Enable Enabled / Disabled O/S Boot Watchdog Timer Enabled / Disabled O/S Boot Watchdog Timer Policy Power off / Reset O/S Boot Watchdog Timer Timeout 5 minutes / 10 minutes / 15 minutes / 20 minutes ► Console Redirection ► System Information Figure 22. Setup Utility — Server Management Configuration Screen Display Table 29. Setup Utility — Server Management Configuration Screen Fields Setup Item Options Help Text Assert NMI on SERR Enabled On SERR, generate an NMI and log an error. Note: [Enabled] must be selected for the Assert NMI Disabled on PERR setup option to be visible. Assert NMI on PERR Enabled On PERR, generate an NMI and log an error. Note: This option is only active if the Assert NMI on Disabled SERR option is [Enabled] selected." Resume on AC Power Stay Off System action to take on AC power loss recovery. Loss [Stay Off] - System stays off. Last state Reset [Last State] - System returns to the same state before the AC power loss. [Reset] - System powers on. 62 Revision 1.8 Intel Order Number: E14960-009 System BIOS Intel® Server Boards S3200SH/S3210SH TPS Setup Item Options Help Text Clear System Event Enabled Clears the System Event Log. All current entries will Log be lost. Disabled Note: This option will be reset to [Disabled] after a reboot. FRB-2 Enable Enabled Fault Resilient Boot (FRB). Disabled BIOS programs the BMC watchdog timer for approximately 6 minutes. If BIOS does not complete POST before the timer expires, the BMC will reset the system. O/S Boot Watchdog Enabled BIOS programs the watchdog timer with the timeout Timer value selected. If the OS does not complete booting Disabled before the timer expires, the BMC will reset the system and an error will be logged. Requires OS support or Intel Management Software. O/S Boot Watchdog Power Off If the OS watchdog timer is enabled, this is the system Timer Policy action taken if the watchdog timer expires. Reset [Reset] - System performs a reset. [Power Off] - System powers off. O/S Boot Watchdog 5 minutes If the OS watchdog timer is enabled, this is the Timer Timeout timeout value BIOS will use to configure the watchdog 10 minutes timer. 15 minutes 20 minutes Console Redirection View/Configure console redirection information and settings. System Information View system information 4.3.2.4.1 Console Redirection Screen The Console Redirection screen provides a way to enable or disable console redirection and to configure the connection options for this feature. To access this screen from the Main screen, select Server Management. Select the Console Redirection option from the Server Management screen. Revision 1.8 63 Intel Order Number: E14960-009 Intel® Server Boards S3200SH/S3210SH TPS System BIOS Server Management Console Redirection Console Redirection Disabled / Serial A / Serial B Flow Control None / RTS/CTS Baud Rate 9.6k / 19.2k / 38.4k / 57.6k / 115.2k Terminal Type PC-ANSI / VT100 / VT100+ / VT-UTF8 Legacy OS Redirection Disabled / Enabled Figure 23. Setup Utility — Console Redirection Screen Display Table 30. Setup Utility — Console Redirection Configuration Fields Setup Item Options Help Text Console Redirection Disabled Console redirection allows a serial port to be used for server management tasks. Serial A [Disabled] - No console redirection. Serial B [Serial Port A] - Configure serial port A for console redirection. [Serial Port B] - Configure serial port B for console redirection. Enabling this option will disable display of the Quiet Boot logo screen during POST. Flow Control Flow control is the handshake protocol. None RTS/CTS Setting must match the remote terminal application. [None] - Configure for no flow control. [RTS/CTS] - Configure for hardware flow control. Baud Rate 9600 Serial port transmission speed. Setting must match the remote terminal application. 19.2K 38.4K 57.6K 115.2K Terminal Type PC-ANSI Character formatting used for console redirection. Setting must match the remote terminal application. VT100 VT100+ VT-UTF8 Legacy OS This option will enable legacy OS redirection (i.e., Disabled Redirection DOS) on serial port. If it is enabled the associated Enabled serial port will be hidden from the legacy OS. 64 Revision 1.8 Intel Order Number: E14960-009 System BIOS Intel® Server Boards S3200SH/S3210SH TPS 4.3.2.5 Server Management System Information Screen The Server Management System Information screen provides a place to see part numbers, serial numbers, and firmware revisions. To access this screen from the Main screen, select Server Management. Select the System Information option from the Server Management screen. Server Management System Information Board Part Number Board Serial Number System Part Number System Serial Number Chassis Part Number Chassis Serial Number BMC Firmware Revision HSC Firmware Revision SDR Revision UUID Figure 24. Setup Utility — Server Management System Information Screen Display Table 31. Setup Utility — Server Management System Information Fields Setup Item Comments Board Part Number Information Only Board Serial Number Information Only System Part Number Information Only System Serial Number Information Only Chassis Part Number Information Only Chassis Serial Number Information Only BMC Firmware Revision Information Only HSC Firmware Revision Information Only SDR Revision Information Only UUID Information Only Revision 1.8 65 Intel Order Number: E14960-009 Intel® Server Boards S3200SH/S3210SH TPS System BIOS 4.3.2.6 Boot Options Screen The Boot Options screen displays any bootable media encountered during POST and allows the user to configure the boot device. To access this screen from the Main screen, select Boot Options. Advance Main Security Server Management Boot Options Boot Manager d Boot Timeout <0 - 65535> Boot Option #1 Boot Option #2 Boot Option #x Boot Option Retry Enabled / Disabled Hard Disk Order CDROM Order Floppy Order Network Device Order BEV Device Order Figure 25. Setup Utility — Boot Options Screen Display 66 Revision 1.8 Intel Order Number: E14960-009 System BIOS Intel® Server Boards S3200SH/S3210SH TPS Table 32. Setup Utility — Boot Options Screen Fields Setup Item Help Text Comments Boot Timeout The number of seconds BIOS will After entering the preferred pause at the end of POST to allow the timeout, press Enter to user to press the [F2] key for entering register that timeout value to the BIOS Setup Utility. the system. These settings are in seconds. Valid values are 0-65535. Zero is the default. A value of 65535 will cause the system to go to the Boot Manager menu and wait for user input for every system boot. Boot Option #x Set system boot order by selecting the boot option for this position. Boot Option Retry Hard Disk Order Set hard disk boot order by selecting Displays when more than the boot option for this position. one hard disk drive is in the system. CDROM Order Set CDROM boot order by selecting Displays when more than the boot option for this position. one CD-ROM drive is in the system. Floppy Order Set floppy disk boot order by selecting Displays when more than the boot option for this position. one floppy drive is in the system. Network Device Order Set network device boot order by Displays when more than selecting the boot option for this one of these devices is position. Add-in or onboard network available in the system. devices with a PXE option ROM are two examples of network boot devices. BEV Device Order Set the Bootstrap Entry Vector (BEV) Displays when more than device boot order by selecting the boot one of these devices is option for this position. available in the system. BEV devices require their own proprietary method to load an OS using a bootable option ROM. BEV devices are typically found on remote program load devices. 4.3.2.6.1 Hard Disk Order Screen The Hard Disk Order screen provides a way to control the hard disks. To access this screen from the Main screen, select Boot Options | Hard Disk Order. Boot Options Hard Disk #1 < Available Hard Disks > Hard Disk #2 < Available Hard Disks > Figure 26. Setup Utility — Hard Disk Order Screen Display Revision 1.8 67 Intel Order Number: E14960-009 Intel® Server Boards S3200SH/S3210SH TPS System BIOS Table 33. Setup Utility — Hard Disk Order Fields Setup Item Options Help Text Hard Disk #1 Available hard Set hard disk boot order by selecting the boot disks option for this position. Hard Disk #2 Available hard Set hard disk boot order by selecting the boot disks option for this position. 68 Revision 1.8 Intel Order Number: E14960-009 System BIOS Intel® Server Boards S3200SH/S3210SH TPS 4.3.2.6.2 CDROM Order Screen The CDROM Order screen provides a way to control CD-ROM devices. To access this screen from the Main screen, select Boot Options | CDROM Order. Boot Options CDROM #1 CDROM #2 Figure 27. Setup Utility — CDROM Order Screen Display Table 34. Setup Utility — CDROM Order Fields Setup Item Options Help Text CDROM #1 Available Set CDROM boot order by selecting the boot CDROM devices option for this position. CDROM #2 Available Set CDROM boot order by selecting the boot CDROM devices option for this position. 4.3.2.6.3 Floppy Order Screen The Floppy Order screen provides a way to control the floppy disk drives. To access this screen from the Main screen, select Boot Options | Floppy Order. Boot Options Floppy Disk #1 Floppy Disk #2 Figure 28. Setup Utility — Floppy Order Screen Display Revision 1.8 69 Intel Order Number: E14960-009 Intel® Server Boards S3200SH/S3210SH TPS System BIOS Table 35. Setup Utility — Floppy Order Fields Setup Item Options Help Text Floppy Disk #1 Available floppy Set floppy disk boot order by selecting the disk boot option for this position. Floppy Disk #2 Available floppy Set floppy disk boot order by selecting the disk boot option for this position. 4.3.2.6.4 Network Device Order Screen The Network Device Order screen provides a way to control Network bootable devices. To access this screen from the Main screen, select Boot Options | Network Device Order. Boot Options Network Device #1 Network Device #2 Figure 29. Setup Utility — Network Device Order Screen Display Table 36. Setup Utility — Network Device Order Fields Setup Item Options Help Text Network Device #1 Available Set network device boot order by selecting the network devices boot option for this position. Add-in or onboard network devices with a PXE option ROM are two examples of network boot devices. Network Device #2 Available Set network device boot order by selecting the network devices boot option for this position. Add-in or onboard network devices with a PXE option ROM are two examples of network boot devices. 70 Revision 1.8 Intel Order Number: E14960-009 System BIOS Intel® Server Boards S3200SH/S3210SH TPS 4.3.2.6.5 BEV Device Order Screen The BEV Device Order screen provides a way to control the BEV (Bootstrap Entry Vector) bootable devices. To access this screen from the Main screen, select Boot Options | BEV Device Order. Boot Options BEV Device #1 BEV Device #2 Figure 30. Setup Utility — BEV Device Order Screen Display Table 37. Setup Utility — BEV Device Order Fields Setup Item Options Help Text BEV Device #1 Available BEV Set the Bootstrap Entry Vector (BEV) device devices boot order by selecting the boot option for this position. BEV devices require their own proprietary method to load an OS using a bootable option ROM. BEV devices are typically found on remote program load devices. BEV Device #2 Available BEV Set the Bootstrap Entry Vector (BEV) device devices boot order by selecting the boot option for this position. BEV devices require their own proprietary method to load an OS using a bootable option ROM. BEV devices are typically found on remote program load devices. Revision 1.8 71 Intel Order Number: E14960-009 Intel® Server Boards S3200SH/S3210SH TPS System BIOS 4.3.2.7 Boot Manager Screen The Boot Manager screen displays a list of devices available to boot from and allows the user to select a boot device for this boot. To access this screen from the Main screen, select Boot Manager. Advance Main Security Server Management Boot Options Boot Manager d [EFI Shell] Figure 31. Setup Utility — Boot Manager Screen Display Table 38. Setup Utility — Boot Manager Screen Fields Setup Item Options Help Text Launch EFI Shell Select this option to boot now. Note: This list is not the system boot option order. Use the Boot Options menu to view and configure the system boot option order. Boot Device #x Select this option to boot now. Note: This list is not the system boot option order. Use the Boot Options menu to view and configure the system boot option order. 4.3.2.8 Error Manager Screen The Error Manager screen displays any errors encountered during POST. Error Manager Exit ERROR CODE SEVERITY INSTANCE Figure 32. Setup Utility — Error Manager Screen Display 72 Revision 1.8 Intel Order Number: E14960-009 System BIOS Intel® Server Boards S3200SH/S3210SH TPS Table 39. Setup Utility — Error Manager Screen Fields Setup Item Options Help Text Comments Displays System Errors Information only. Displays errors that occurred during this POST. 4.3.2.9 Exit Screen The Exit screen allows the user to choose to save or discard the configuration changes made on the other screens. It also provides a method to restore the server to the factory defaults or to save or restore a set of user-defined default values. If Restore Defaults is selected, the default settings, noted in bold in the tables in this chapter, are applied. If Restore User Default Values is selected, the system is restored to the default values the user saved earlier, instead of being restored to the factory defaults. Error Manager Exit Save Changes and Exit Discard Changes and Exit Save Changes Discard Changes Load Default Values Save as User Default Values Load User Default Values Figure 33. Setup Utility — Exit Screen Display Table 40. Setup Utility — Exit Screen Fields Setup Item Help Text Comments Save Changes and Exit Exit BIOS Setup Utility after saving changes. Prompts user for confirmation only if The system will reboot if required. any of the setup fields were modified. The [F10] key can also be used. Discard Changes and Exit BIOS Setup Utility without saving changes. Prompts user for confirmation only if Exit any of the setup fields were modified. The [Esc] key can also be used. Save Changes Save changes without exiting BIOS Setup Prompts user for confirmation only if Utility. any of the setup fields were modified. Note: Saved changes may require a system reboot before taking effect. Discard Changes Discard changes made since the last save Prompts user for confirmation only if changes operation was performed. any of the setup fields were modified. Revision 1.8 73 Intel Order Number: E14960-009 Intel® Server Boards S3200SH/S3210SH TPS System BIOS Setup Item Help Text Comments Load Default Values Load factory default values for all BIOS Setup Prompts user for confirmation. Utility options. The [F9] key can also be used. Save as User Default Save current BIOS Setup Utility values as Prompts user for confirmation. Values custom user default values. If needed, the user default values can be restored via the Load User Default Values option below. Note: Clearing CMOS or NVRAM will cause the user default values to be reset to the factory default values. Load User Default Load user default values. Prompts user for confirmation. Values 4.3.2.9.1 Fan Speed Control Methodology ® Intel Server Boards S3200SH and S3210SH have an integrated BMC (Baseboard Management Controller), which provides advanced fan speed control features compared to previous platforms. The integrated BMC FW and FRUSDR provide HW monitoring, fan speed control, and system management features. ® Intel released FRUSDRs will contain the fan speed control support for Intel server chassis by default. The supported chassis are: ® ƒ Intel Server Chassis SR1530 ® ƒ Intel Entry Server Chassis SC5299-UP For any third party non-Intel chassis, if a customer wants to implement similar fan speed control to the system fans attached inside the third party chassis, they must edit the master.cfg file included in the FRUSDR update package. The FRUSDR manages the system fans to work at the speed the customer inputs. Intel will publish a third party chassis fan speed control white paper to guide customers on how to edit the master.cfg file to have fan speed control functions for the third party chassis. Without doing so, the third party chassis fan speed cannot be controlled as the FRUSDR does not recognize the fans, and does not know what speed the fans should operate at under which environment temperatures. 74 Revision 1.8 Intel Order Number: E14960-009 System BIOS Intel® Server Boards S3200SH/S3210SH TPS 4.4 Loading BIOS Defaults Different mechanisms exist for resetting the system configuration to the default values. When a request to reset the system configuration is detected, the BIOS loads the default system configuration values during the next POST. The request to reset the system to the defaults can be sent in the following ways: ƒ A request to reset the system configuration can be generated using the BIOS System Configuration Utility (Setup). ƒ A reset system configuration request can be generated by moving the clear system configuration jumper. 4.5 Multiple Boot Blocks Two boot blocks are available on this server board. Multiple Boot Blocks fault tolerant realization requires the BIOS to: 1) recognize the second boot block and dispatch modules within it; 2) provide a flash update interface (for utility) that has an embedded fault-tolerant flash update algorithm so at any time, a set of boot blocks always exists that could recover the system if the flash update failed. 4.6 Recovery Mode The recovery process can be initiated by setting the recovery jumper, which is called force recovery). A BIOS recovery can be accomplished from SATA CD and USB Mass Storage device. Please note this platform does not support a recovery from a USB floppy. SATA CD image for recovery is created using El-Torito format image (which is bootable). The recovery media must contain both the image file FV_MAIN.FV in the root directory and the following files: 1. IFLASH32.EFI 2. *.CAP 3. Startup.nsh The BIOS starts the recovery process by first loading and booting to the recovery image file (FV_MAIN.FV) on the root directory of the recovery media (SATA CD or USB disk). This process takes place before any video or console is available. Once the system boots to this recovery image file (FV_MAIN.FV), it automatically boots into EFI Shell and invokes the Startup.nsh. and the flash update application (IFLASH32.EFI). IFLASH32.EFI requires the supporting BIOS Capsule image file (*.CAP). At last, there would be two short beeps indicating the completion of the recovery. User should switch the recovery jumper back to normal operation and restart the system by doing a power cycle. Revision 1.8 75 Intel Order Number: E14960-009 Intel® Server Boards S3200SH/S3210SH TPS System BIOS The following steps illustrate the recovery process: 1. Power off the system and insert recovery media. 2. Switch the recovery jumper. 3. Power on the system. 4. The BIOS POST screen appears and displays the progress, and the system automatically boots to the EFI SHELL. 5. The Startup.NSH file is automatically invoked. It initiates the flash update (IFLASH32.EFI) with a new capsule file (*.CAP). If the flash update succeeds, a message displays. 6. Once the flash update is complete, you will hear two beeps. Power off the system, and revert the recovery jumper back to normal operation. 7. Power on the system. DO NOT INTERRUPT THE POST PROCESS AT THE FIRST BOOT. ® 4.7 Intel Matrix Storage Manager ® Intel Matrix Storage Manager provides software support for high-performance Serial ATA RAID 0 arrays, fault-tolerant Serial ATA RAID 1 arrays, high capacity and fault-tolerant Serial ATA RAID 5 arrays and high performance and fault-tolerant Serial ATA RAID 10 arrays on select ® supported chipsets using select operating systems. Intel Matrix Storage Manager is the ® software that enables Intel Matrix Storage Technology. For detailed information and supported operating systems, refer to the following website: http://support.intel.com/support/chipsets/imsm/ ® 4.8 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 three standard software RAID levels: data striping (RAID Level 0), data mirroring (RAID Level 1), and data striping with mirroring (RAID Level 10). For higher performance, you can use data striping 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. If a disk fails, a mirrored copy of the failed disk is brought online. There is no loss of either PCI resources (request/grant pair), or add-in card slots. For detailed information and supported operating systems, refer to the following website: http://support.intel.com/support/chipsets/imsm/ 76 Revision 1.8 Intel Order Number: E14960-009 Intel® Server Boards S3200SH/S3210SH TPS Error Reporting and Handling 5. Error Reporting and Handling This chapter defines the following error handling features: ƒ Error Handling and Logging ƒ Error Messages and Beep Codes 5.1 Error Handling and Logging This section defines how errors are handled by the system BIOS. In addition, this section describes error-logging techniques and defines error beep codes. 5.1.1 Error Sources and Types One of the major requirements of server management is to correctly and consistently handle system errors. System errors you can enable and disable individually or as a group are categorized as follows: ƒ PCI bus ƒ Memory single- and multi-bit errors ƒ Errors detected during POST, logged as POST errors The event list follows: Table 41. Event List Event Name Description When Error Is Caught Processor thermal trip of last boot Processor thermal trip happened on POST last boot. Memory channel A Multi-bit ECC Multi-bit ECC error happened on POST / Runtime error DIMM channel A. Memory channel A Single-bit ECC Single-bit ECC error happened on POST / Runtime error DIMM channel A. Memory channel B Multi-bit ECC Multi-bit ECC error happened on POST / Runtime error DIMM channel B. Memory channel B Single-bit ECC Single-bit ECC error happened on POST / Runtime error DIMM channel B. CMOS battery failure CMOS battery failure or CMOS clear POST jumper is set to clear CMOS. CMOS checksum error CMOS data crushed POST CMOS time not set CMOS time is not set POST Keyboard not found PS/2 KB is not found during POST POST Memory size decrease Memory size is decreased compared POST with last boot Chassis intrusion detected Chassis is open POST Bad SPD tolerance Some fields of the DIMM SPD may POST not be supported, but could be tolerant by the Memory Reference Code. PCI PERR error PERR error happens on PCI bus POST / Runtime PCI SERR error SERR error happens on PCI bus POST / Runtime Revision 1.8 77 Intel Order Number: E14960-009 Error Reporting and Handling Intel® Server Boards S3200SH/S3210SH TPS 5.1.2 Error Logging via SMI Handler The SMI (System Management Interrupt) handler manages and logs system level events. The SMI handler pre-processes all system errors, even those that are normally considered to generate an NMI (Non-maskable interrupt). The SMI handler logs the event to NVRAM (Non-volatile Random Access Memory). For example, the BIOS programs the hardware to generate SMI on a single-bit memory error and logs the error in the NVRAM in the terms of SMBIOS Type 15. After the BIOS finishes logging the error, it asserts the NMI if needed. 5.1.2.1 PCI Bus Error The PCI bus defines two error pins, PERR# and SERR#. These are used for reporting PCI parity errors and system errors, respectively. In the case of PERR#, the PCI bus master has the option to retry the offending transaction, or to report it using SERR#. All other PCI-related errors are reported by SERR#. All PCI-to-PCI bridges are configured so they generate SERR# on the primary interface whenever there is SERR# on the secondary side. Section 5.1.4 describes the format of the data bytes. 5.1.2.2 PCI Express* Errors All uncorrectable PCI Express* errors are logged as PCI system errors and promoted to an NMI. All correctable PCI Express* errors are logged as PCI parity errors. 5.1.2.3 Memory Errors The hardware is programmed to generate an SMI on correctable data errors in the memory array. The SMI handler records the error to the NVRAM. The uncorrectable errors may have corrupted the contents of SMRAM. If the SMRAM contents are still valid, the SMI handler logs the error to the NVRAM if the SMRAM contents are still valid. Section 5.1.4 describes the format of the data bytes. 5.1.3 SMBIOS Type 15 Errors are logged to NVRAM in the terms of SMBIOS Type 15 (System Event Log). Refer to the SMBIOS Specification, version 2.4 for more detailed information. The following section also defines the format of the records. 5.1.4 Logging Format Conventions The BIOS logs an error into the NVRAM area with the following record format, which is defined in the SMBIOS Specification, version 2.4. 78 Revision 1.8 Intel Order Number: E14960-009 Intel® Server Boards S3200SH/S3210SH TPS Error Reporting and Handling Table 42. SMBIOS Type 15 Event Log record format Offset Name Length Description 00h EventType Byte Specifies the “Type” of event noted in an event-log entry as defined in the table. 01h Length Byte Specifies the byte length of the event record including the record’s Type and Length fields. 02h Year Byte Indicates the time when the error is logged. 03h Month Byte 04h Day Byte 05h Hour Byte 06h Minute Byte 07h Second Byte 08h EventData1 DWORD EFI_STATUS_CODE_TYPE 0Ch EventData2 DWORD EFI_STATUS_CODE_VALUE Table 43. Event Type Definition Table Value Description Used by this platform (Y/N) 00h Reserved N 01h Single-bit ECC memory error Y 02h Multi-bit ECC memory error Y 03h Parity memory error N 04h Bus time-out N 05h I/O Channel Check N 06h Software NMI N 07h POST Memory Resize N 08h POST Error Y 09h PCI Parity Error Y 0Ah PCI System Error Y 0Bh CPU Failure N 0Ch EISA FailSafe Timer time-out N 0Dh Correctable memory log disabled N 0Eh Logging disabled for a specific Event Type – N too many errors of the same type received in a short amount of time 0Fh Reserved N 10h System Limit Exceeded (for example, Y voltage or temperature threshold exceeded) 11h Asynchronous hardware timer expired and N issued a system reset 12h System configuration information N 13h Hard-disk information N 14h System reconfigured N 15h Uncorrectable CPU-complex error N Revision 1.8 79 Intel Order Number: E14960-009 Error Reporting and Handling Intel® Server Boards S3200SH/S3210SH TPS Value Description Used by this platform (Y/N) 16h Log Area Reset/Cleared Y 17h System boot. If implemented, this log entry is N guaranteed to be the first one written on any system boot. 18h-7Fh Unused, available for assignment by N SMBIOS Specification Version 2.3.4. 80h-FEh Available for system- and OEM-specific Y assignments FFh End-of-log. When an application searches Y through the event-log records, the end of the log is identified when a log record with this type is found. For information on the EFI_STATUS_CODE_TYPE and EFI_STATUS_CODE_VALUE definitions, refer to the “Intel Platform Innovation Framework for EFI Status Codes Specification”, version 0.92. The errors also display on the BIOS Setup screen in the Server Management / View EventLog menu in the following format: EventName (times) Time of Occurrence EventName is the same as shown in the Table 41 followed by the occurrence time of the same event. The “Time of Occurrence” is the last time the event occurs. 5.2 Error Messages and Error Codes The system BIOS displays error messages on the video screen. Before video initialization, beep codes inform the user of errors. The event log logs POST error codes. The BIOS displays POST error codes on the video monitor. 5.2.1 Diagnostic LEDs During the system boot process, the BIOS executes several 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 on the POST code diagnostic LEDs found on the back edge of the server board. To assist in troubleshooting a system hang during the POST process, you can use the diagnostic LEDs to identify the last POST process 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 an upper nibble and a lower nibble. A red LED represents each bit in the upper nibble and a green LED represents each bit in the lower nibble. 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. In the following example, the BIOS sends a value of ACh to the diagnostic LED decoder. The LEDs are decoded as follows: ƒ Red bits = 1010b = Ah 80 Revision 1.8 Intel Order Number: E14960-009 Intel® Server Boards S3200SH/S3210SH TPS Error Reporting and Handling ƒ 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 to be ACh. Table 44. 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 LSB Figure 34. Example of Diagnostic LEDs on Server Board 5.2.2 POST Code Checkpoints Table 45. POST Code Checkpoints Diagnostic LED Decoder Description Checkpoint G=Green, R=Red, A=Amber MSB LSB 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 Revision 1.8 81 Intel Order Number: E14960-009 Error Reporting and Handling Intel® Server Boards S3200SH/S3210SH TPS Diagnostic LED Decoder Description Checkpoint G=Green, R=Red, A=Amber MSB LSB 0x26h OFF G A OFF Optimizing memory 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 buses 0x51h OFF R OFF A Allocating resources to PCI buses 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 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 Begin SATA bus initialization 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 (PS/2 or USB) 0x90h R OFF OFF R Resetting the keyboard 0x91h R OFF OFF A Disabling the keyboard 0x92h R OFF G R Resetting 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 (PS/2 only) Mouse (PS/2 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 82 Revision 1.8 Intel Order Number: E14960-009 Intel® Server Boards S3200SH/S3210SH TPS Error Reporting and Handling Diagnostic LED Decoder Description Checkpoint G=Green, R=Red, A=Amber MSB LSB 0xB2h Detecting presence of a fixed media device (IDE hard drive detection, R OFF A R and so forth) 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 Detecting presence of a removable media device (IDE CDROM A OFF A R detection, and so forth) 0xBCh A G R R Enabling / configuring a removable media device Boot Device Selection 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 an PEIM 0xE1h R R R G Completed dispatching an PEIM 0xE2h R R A OFF Initial memory found, configured, and installed correctly 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 Reserved for DXE core use 0xE6h R A A OFF Started connecting drivers 0xEBh A R A G Started dispatching a driver 0xECh R A A OFF Completed dispatching a driver 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 Reserved for DXE Drivers use Runtime Phase / EFI Operating System Boot 0xF4h R A R R Entering Sleep state Revision 1.8 83 Intel Order Number: E14960-009 Error Reporting and Handling Intel® Server Boards S3200SH/S3210SH TPS Diagnostic LED Decoder Description Checkpoint G=Green, R=Red, A=Amber MSB LSB 0xF5h R A R A Exiting Sleep state 0xF8h Operating system has requested EFI to close boot services A R R R (ExitBootServices ( ) has been called) 0xF9h Operating system has switched to virtual address mode A R R A (SetVirtualAddressMap ( ) has been called) 0xFAh Operating system has requested the system to reset (ResetSystem () A R A R 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) 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 complete crisis recovery. 5.2.3 POST Error Messages and Handling Whenever possible, the BIOS outputs 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 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 section in the following table is divided into two types: ƒ Pause: The message is displayed in the Error Manager screen, an error may be logged to the NVRAM, and user input is required to continue. The user can take immediate corrective action or choose to continue booting. ƒ Halt: The message is displayed in the Error Manager screen, an error is logged to the NVRAM, and the system cannot boot unless the error is resolved. The user needs to replace the faulty part and restart the system. Table 46. POST Error Messages and Handling Error Code Error Message Response Log Error CMOS date / time not set Pause Y Configuration cleared by jumper Pause Y Configuration default loaded Pause N Password check failed Halt N PCI resource conflict Pause N Insufficient memory to shadow PCI ROM Pause N Processor thermal trip error on last boot Pause Y 84 Revision 1.8 Intel Order Number: E14960-009 Intel® Server Boards S3200SH/S3210SH TPS Error Reporting and Handling 5.2.4 POST Error Beep Codes The following table lists POST error beep codes. Prior to system video initialization, the BIOS uses these beep codes to inform users of error conditions. The beep code is followed by a user- visible code on the POST progress LEDs. Table 47. 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. 5.2.5 POST Error Pause Option In case of POST error(s) that are listed as "Pause", the BIOS will enter the error manager and wait for the user to press an appropriate key before booting the operating system or entering the BIOS Setup. The user can override this option by setting "POST Error Pause" to "disabled" in the BIOS setup Main menu page. If the "POST Error Pause" option is set to "disabled", the system boots the operating system without user-intervention. The default value is set to "enabled". Revision 1.8 85 Intel Order Number: E14960-009 Intel® Server Boards S3200SH/S3210SH TPS Connectors and Jumper Blocks 6. Connectors and Jumper Blocks 6.1 Power Connectors 6.1.1 Main Power Connector The following table defines the pin-out of the main power connector. Table 48. Power Connector Pin-out (J4G1) Pin Signal 18 AWG Color Pin Signal 18 AWG Color 1* +3.3VDC Orange 13 +3.3VDC Orange 3.3V RS Orange (24AWG) 2 +3.3VDC Orange 14 -12VDC Blue 3* COM Black 15 COM Black COM RS Black (24AWG) 4* +5VDC Red 16 PSON# Green 5V RS Red (24AWG) 5 COM Black 17 COM Black 6 +5VDC Red 18 COM Black 7 COM Black 19 COM Black 8 PWR OK Gray 20 Reserved N.C. 9 5 VSB Purple 21 +5VDC Red 10 +12V3 Yellow 22 +5VDC Red 11 +12V3 Yellow 23 +5VDC Red 12 +3.3VDC Orange 24 COM Black Table 49. Auxiliary CPU Power Connector Pin-out (J9B2) Pin Signal 18 AWG color Pin Signal 18 AWG Color 1 COM Black 5* +12V1 White 12V1 RS Yellow (24AWG) 2 COM Black 6 +12V1 White 3 COM Black 7 +12V2 Brown 4 COM Black 8* +12V2 Brown 12V2 RS Yellow (24AWG) 86 Revision 1.8 Intel Order Number: E14960-009 Connectors and Jumper Blocks Intel® Server Boards S3200SH/S3210SH TPS ® 6.2 Intel Riser Card for L SKU ® The Intel Server Board S3200SH-L has a PCI Express* x16 to PCI Express* x16 riser card. ® This riser card is designed to be populated with PCI Express* x16 slot on the Intel Server Board S3200SH-L. The physical layout to the PCI Express* x16 slot on the riser card is PCI Express* x8. ® ® This riser card is designed for populating the Intel Server Board S3200SH-L into the Intel Server Chassis SR1530. 6.3 SMBus Connector Table 50. SMBus Connector Pin-out (J1E1) Pin Signal Name Description 1 SMB_DAT_5V_BP Data Line 2 GND GROUND 3 SMB_CLK_5V_BP Clock Line 4 TP_BP_I2C_HRD_4 Test Point 6.4 Front Panel Connector A standard SSI 24-pin header is provided to support a system front panel. The header contains reset, NMI, power control buttons, and LED indicators. The following table details the pin-out of this header. Table 51. Front Panel 24-Pin Header Pin-out (J1K2) Signal Name Pin Signal Name Pin FP_PWR_LED_P1 1 P3V3_STBY 2 KEY 3 P5V_STBY 4 FP_GPIO_GRN_BLNK_HDR 5 FP_ID_LED_N 6 P3V3 7 TP_SSI_PIN8 8 LED_HD_N 9 TP_SSI_PIN10 10 FP_SW_ON_HDR_N 11 FP_NIC1_ACT_LED_R_N 12 GND 13 NIC1_LINK_1_N 14 FP_RST_FPHDR_N 15 TP_SSI_PIN16 16 GND 17 TP_SSI_PIN18 18 FP_ID_BTN_N 19 FP_Intruder_HDR_N 20 TP_FM_ONE_WIRE_TEMP_SENSOR 21 FP_NIC2_ACT_LED_R_N 22 TP_SSI_PIN23 23 NIC2_LINK_UP_N 24 Revision 1.8 87 Intel Order Number: E14960-009 Intel® Server Boards S3200SH/S3210SH TPS Connectors and Jumper Blocks 6.5 I/O Connectors 6.5.1 VGA Connector The following table details the pin-out of the VGA connector. This connector is stacked with the COM1 connector. Table 52. VGA Connector Pin-out (J8B1) Signal Name Pin Signal Name Pin RED B1 Fused VCC (+5V) B9 GREEN B2 GND B10 BLUE B3 NC B11 NC B4 DDCDAT B12 GND B5 HSY B13 GND B6 VSY B14 GND B7 DDCCLK B15 GND B8 Note: NC (No Connect) 6.5.2 NIC Connectors The server board supports two NIC RJ-45 connectors. The following tables detail the pin-out of the connectors. ® Table 53. NIC2-Intel 82541PI (10/100/1000) Connector Pin-out (J5B1) Signal Name Pin Signal Name Pin P1V8_NIC_RC 1 NIC1_DMI0_DN 10 NIC2_DMI2_DN 2 NIC1_DMI0_DNP 11 NIC2_DMI2_DP 3 P1V8_NIC_RC 12 NIC1_DMI2_DP 4 NIC2_LINK1000_N 13 NIC1_DMI2_DN 5 NIC2_LINK100_N 14 P1V8_NIC_RC 6 NIC2_ACT_LED_N 15 P1V8_NIC_RC 7 NIC2_LINK_UP_N 16 NIC1_DMI3_DP 8 GND MP1 NIC1_DMI3_DN 9 GND MP2 88 Revision 1.8 Intel Order Number: E14960-009 Connectors and Jumper Blocks Intel® Server Boards S3200SH/S3210SH TPS ® Table 54. NIC1- Intel 82566E (10/100/1000) Connector Pin-out (J6B1) Signal Name Pin Signal Name Pin P2V5_NIC1 9 P3V3_AUX 20 NIC1_MDI0_DP 10 NIC1_LINK_0_N 21 NIC1_MDI0_DN 11 NIC1_LINK_2_N 22 NIC1_MDI1_DP 12 GND MP1 NIC1_MDI1_DN 13 GND MP2 NIC1_MDI2_DP 14 GND MP3 NIC1_MDI2_DN 15 GND MP4 NIC1_MDI3_DP 16 GND MP5 NIC1_MDI3_DN 17 GND MP6 GND 18 GND MP7 NIC1_LINK_1_N 19 GND MP8 6.5.3 SATA Connectors Table 55 lists the pin-out for the four SATA connectors. Table 55. SATA Connector Pin-out (J2K1, J1K1, J1J3, J1H3, J1H2, J1H1) Pin Signal Name 1 GND 2 SATA0_TX_P 3 SATA0_TX_N 4 GND 5 SATA0_RX_N 6 SATA0_RX_P 7 GND 6.5.4 Floppy Controller Connector The board provides a standard 34-pin interface to the floppy disk drive controller. The following table details the pin-out of the 34-pin floppy connector. Table 56. Legacy 34-pin Floppy Connector Pin-out (J3K1) Signal Name Pin Signal Name Pin GND 1 FDDENSEL 2 GND 3 Unused 4 KEY 5 FDDRATE0 6 GND 7 FDINDEX# 8 GND 9 FDMTR0# 10 GND 11 FDR1# 12 Revision 1.8 89 Intel Order Number: E14960-009 Intel® Server Boards S3200SH/S3210SH TPS Connectors and Jumper Blocks Signal Name Pin Signal Name Pin GND 13 FDR0# 14 GND 15 FDMTR1# 16 Unused 17 FDDIR 18 GND 19 FDSTEP# 20 GND 21 FDWDATA# 22 GND 23 FDWGATE# 24 GND 25 FDTRK0# 26 Unused 27 FLWP# 28 GND 29 FRDATA# 30 GND 31 FHDSEL# 32 GND 33 FDSKCHG# 34 6.5.5 Serial Port Connectors The server board provides one serial port. A standard, external DB9 serial connector is located on the back edge of the server board to supply a serial interface. This connector is stacked with VGA connector (J8A1). Table 57. External DB9 Serial A Port Pin-out (J8B1) Signal Name Pin Signal Name Pin DCD-P T1 DSR-P T6 RXD-P T2 RTS-P T7 TXD-P T3 CTS-P T8 DTR-P T4 RI-P T9 GND T5 90 Revision 1.8 Intel Order Number: E14960-009 Connectors and Jumper Blocks Intel® Server Boards S3200SH/S3210SH TPS 6.5.6 Keyboard and Mouse Connector Two PS/2 ports are provided for a keyboard and a mouse. The following table details the pin-out of the PS/2 connectors. Table 58. Keyboard and Mouse PS/2 Connectors Pin-out (J9A1) PS/2 Connectors Pin Signal Name Keyboard K1 RKBDATA K2 NC K3 GND K4 P5V_KB_MS K5 RKBCLK K6 NC Mouse M1 MSEDATA M2 NC M3 GND M4 P5V_KB_MS M5 RMSCLK M6 NC 6.5.7 USB Connector The following table provides the pin-out for the dual external USB connectors. This connector is stacked with an RJ-45 (connected to NIC1 LAN signals). Table 59. USB Connectors Pin-out (J5B1) Pin Signal Name U1 P5V_USB_BP_MJ U2 USB_BACK5_R_DN U3 USB_BACK5_R_DP U4 GND U5 P5V_USB_BP_MJ U6 USB_BACK4_R_DN U7 USB_BACK4_R_DP U8 GND Revision 1.8 91 Intel Order Number: E14960-009 Intel® Server Boards S3200SH/S3210SH TPS Connectors and Jumper Blocks A header on the server board provides an option to support two additional USB connectors. The following table details the pin-out of the header. Table 60. Optional USB Connection Header Pin-out (J1G1) Signal Name Pin Signal Name Pin NC 1 Key 2 GND 3 GND 4 USB_FRONT1_INDUCTOR_DP 5 USB_FRONT2_INDUCTOR_DP 6 USB_FRONT1_INDUCTOR_DN 7 USB_FRONT2_INDUCTOR_DN 8 USB_FNT_PWR 9 USB_FNT_PWR 10 6.6 Fan Headers The server board supports five general-purpose fan headers. All fan headers are 4-pin fan headers (J7J1, J8D1, J4J1, J6B1, and J6J1) and have the same pin-out. Table 61. Four-pin Fan Headers Pin-out (J4D1, J1K2, J7K1, and J4K1J6B2) Pin Signal Name Type Description 1 Ground Power GROUND is the power supply ground 2 Fan Power Power Fan Power 3 Fan Tach Out FAN_TACH signal is connected to the Heceta* to monitor the FAN speed. 4 PWM Control Pulse Width Modulation – Fan Speed Control signal 6.7 Miscellaneous Headers and Connectors 6.7.1 Back Panel I/O Connectors ® Figure 35. Intel Server Board S3210SHLX / S3210SHLC / S3200SHL Back Panel I/O Connectors 92 Revision 1.8 Intel Order Number: E14960-009 Connectors and Jumper Blocks Intel® Server Boards S3200SH/S3210SH TPS Serial A Keyboard LAN Mouse VGA USB POST Code LED ® Figure 36. Intel Server Board S3200SHV Back Panel I/O Connectors 6.7.2 Chassis Intrusion Header ® A 1x2 pin header (J1B2) is used in chassis that support a chassis intrusion switch. The Intel ICH9R monitors this header. Table 62 shows the pin-out definition for this header. Table 62. Chassis Intrusion Header (J1B2) Pin-out Pin Signal Name 1 FP_INTRUDER_HDR_P1 2 FP_INTRUDER_HDR_N 6.7.3 HDD Active LED Header There is a 1x2 pin header for HDD LED connection. This jumper is reserved for PCI add-in cards that support the SCSI or SATA interface with an external HDD LED activity cable. Table 63. HDD LED Header (J1J1) Pin-out Pin Signal Name 1 FM_SIO_SCSI_ACT_N 2 TP_SCSI_ACT_PIN2 6.7.4 IPMB There is a 4-pin IPMB connector jumper. This jumper is reserved for connecting an add-in server management module. 6.7.5 HSBP ® There is a 4-pin HSBP connector jumper. This jumper is reserved for connecting to the Intel Entry Server Chassis SC5299-E hot-swap backplane. Revision 1.8 93 Intel Order Number: E14960-009 Intel® Server Boards S3200SH/S3210SH TPS Connectors and Jumper Blocks 6.7.6 SATA SGPIO There is a 4-pin SATA SGPIO connector jumper. This jumper is reserved for connecting to the ® Intel Entry Server Chassis SC5299-E SATA hot-swap backplane. 6.8 Jumper Blocks This section describes the configuration jumper options on the server board. Location on Location Name Function Definition LC/L/V on LX 1-2: Normal CMOS Clear J1E3 J1E2 Clear CMOS content 2-3: Clear CMOS 1-2: Protect Password Password Clear J1E2 J1J2 Clear CMOS Password 2-3: Clear Password 1-2: Normal boot Recovery Mode J1E1 J1D2 BIOS recovery 2-3: Recovery mode 1-2: BMC in normal mode BMC Force J1B1 J3A1 BMC Force Update Mode Update Mode 2-3: BMC in force update mode 1-2: Write Protection controlled by BMC Boot Block BMC Firmware Flash boot firmware J1C2 J1D1 Write Protection block protection 2-3: Force Write Protection 6.8.1 CMOS Clear and Password Reset Usage Procedure The CMOS Clear and Password Reset recovery features are designed so 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. 1. Power down server. Do not unplug the power cord. 2. Open the server chassis. For instructions, see your server chassis documentation. 3. Move the jumper from the default operating position, covering pins 1 and 2, to the reset / clear position, covering pins 2 and 3. 4. Wait five seconds. 5. Move the jumper back to default position, covering pins 1 and 2. 6. Close the server chassis. 7. Power up the server. The password and/or CMOS are now cleared and can be reset by going into BIOS setup. Note: Removing AC Power before performing the CMOS Clear operation causes the system to automatically power up and immediately power down, after the procedure is followed and AC power is re-applied. If this happens, complete the following steps: 1. Remove the AC power cord again and wait 30 seconds. 2. Reinstall the AC power cord and power up the system. 3. Proceed to the BIOS Setup Utility to reset the settings. 94 Revision 1.8 Intel Order Number: E14960-009 Connectors and Jumper Blocks Intel® Server Boards S3200SH/S3210SH TPS 6.8.2 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 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 that forces the BMC into the proper update state. If the standard BMC firmware update process fails, complete the following procedure. 1. Power down and remove the AC power cord. 2. Open the server chassis. See your server chassis documentation for instructions. 3. Move the 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 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 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 if 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 is only used when the standard firmware update process fails. This jumper should remain in the default / disabled position when the server is running normally. Revision 1.8 95 Intel Order Number: E14960-009 Intel® Server Boards S3200SH/S3210SH TPS Absolute Maximum Rating 7. Absolute Maximum Ratings Operating the server board at conditions beyond those shown in the following table may cause permanent damage to the system. The table is provided for stress testing purposes only. Exposure to absolute maximum rating conditions for extended periods may affect system reliability. Table 64. Absolute Maximum Ratings Operating Temperature 5 C to 50 C 1 Storage Temperature -55 C to +150 C Voltage on any signal with respect to ground -0.3 V to Vdd + 0.3V 2 3.3 V Supply Voltage with Respect to ground -0.3 V to 3.63 V 5 V Supply Voltage with Respect to ground -0.3 V to 5.5 V Notes: 1. Chassis design must provide proper airflow to avoid exceeding the processor maximum case temperature. 2. VDD is the supply voltage for the device. 7.1 Mean Time Between Failures (MTBF) Test Results This section provides results of MTBF (Mean Time Between Failures) testing done by a third- party testing facility. MTBF is a standard measure for the reliability and performance of the board under extreme working conditions. The MTBF was measured at 20000 hours at 35 degrees Celsius. 7.2 Calculated Mean Time Between Failures (MTBF) The following table shows the MTBF for the server boards as configured from the factory. Table 65. MTBF Data Product Code Calculated MTBF Operating Temperature ® Intel Server Board S3200SH-L 282569 Hours 35 degrees C ® Intel Server Board S3200SH-V 111326 Hours 55 degrees C ® Intel Server Board S3210SH-LX 265866 Hours 35 degrees C ® Intel Server Board S3210SH-LC 104745 Hours 55 degrees C 96 Revision 1.8 Intel Order Number: E14960-009 Design and Environmental Specifications Intel® Server Boards S3200SH/S3210SH TPS 8. Design and Environmental Specifications 8.1 Power Budget The following table shows the power consumed on each supply line for the server board that is configured with one processor (128W max). This configuration includes four 1 GB DDR2 DIMMs stacked burst at 70% max. The numbers provided in Table 66 are for reference purposes only. Different hardware configurations will produce different numbers. The numbers in the table reflect a common usage model operating at higher than average stress levels. Table 66. Power Budget Watts Power Supply Rail Voltages Units AMPS Functional Unit Utilization Power 3.3V 5.V 12.V 12V -12v 5VSB VRM Baseboard Input Totals 290.73W 6.26W 8.47W 6.38W 9.28W 0.05W 1.67 Baseboard Discrete 50% 32.02W 1.51 1.17 0.00 0.00 0.00 0.00 Totals Baseboard Converters Efficiency 41.90W 3.24 7.29 0.00 9.28 0.00 1.67 Baseboard Config Totals 246.80W 1.52 0.00 6.38 0.00 0.05 0.00 System Components 49W 0.00 3A 2.8A 0.00 0.00 0.00 System Components – 87W 0.00 2.1A 6.4A 0.00 0.00 0.00 SR1530 System Totals 335.85W 6.26 10.87 9.14 9.28 0.05 1.67 Amps System Totals – SR1530 3.3v/5v Combined Power Power Supply 350W 22A 21A 10A + 16A=26A 0.8A 2A Requirements – SC5299-E Power supply 350W Requirements – 350W peak EPS1U 3.3V/5V Combined 130W 1Amin 1Amin 2Amin 2Amin 0Amin 1Amin Power Revision 1.8 97 Intel Order Number: E14960-009 Intel® Server Boards S3200SH/S3210SH TPS Design and Environmental Specifications 8.2 Power Supply Specifications This section provides power supply design guidelines for the server board, including voltage and current specifications, and power supply on/off sequencing characteristics. Table 67. Server Board Power Supply Voltage Specification Parameter Tolerance Min Nom Max Units + 3.3V - 5% / +5% +3.14 +3.30 +3.46 Vrms + 5V - 5% / +5% +4.75 +5.00 +5.25 Vrms + 12V - 5% / +5% +11.40 +12.00 +12.60 Vrms - 12V - 10% / +10% -11.40 -12.00 -13.08 Vrms + 5VSB - 5% / +5% +4.75 +5.00 +5.25 Vrms 8.2.1 Power Timing Requirements These are the timing requirements for the power supply operation. The output voltages must rise from 10% to within regulation limits (Tvout_rise) within 5 to 70ms, except for 5VSB - it is allowed to rise from 1.0 to 70ms. The +3.3V, +5V and +12V output voltages should start to rise approximately at the same time. All outputs must rise monotonically. The +5V output must be greater than the +3.3V output during any point of the voltage rise. The +5V output must never be greater than the +3.3V output by more than 2.25V. Each output voltage shall reach regulation within 50ms (Tvout_on) of each other during turn on of the power supply. Each output voltage shall fall out of regulation within 400msec (Tvout_off) of each other during turn off. Refer to the following table for the timing requirements for the power supply being turned on and off using the AC input with PSON held low and the PSON signal, with the AC input applied. Table 68. Output Voltage Timing Item Description MIN MAX UNITS Tvout_rise Output voltage rise time from each main output. 5.0 * 70 * msec Tvout_on All main outputs must be within regulation of each 50 msec other within this time. Tvout_off All main outputs must leave regulation within this 400 msec time. 98 Revision 1.8 Intel Order Number: E14960-009 Design and Environmental Specifications Intel® Server Boards S3200SH/S3210SH TPS The 5VSB output voltage rise time will be from 1.0ms to 25.0ms. Vout 10% Vout V1 V2 V3 V4 Tvout_rise Tvout_off Tvout_on Figure 37. Output Voltage Timing Revision 1.8 99 Intel Order Number: E14960-009 Intel® Server Boards S3200SH/S3210SH TPS Design and Environmental Specifications Table 69. Turn On/Off Timing Item Description Min Max Units Tsb_on_delay Delay from AC being applied to 5VSB being within msec 1500 regulation. T ac_on_delay Delay from AC being applied to all output voltages being msec 2500 within regulation. Tvout_holdup Time all output voltages stay within regulation after loss msec 21 of AC. Tpwok_holdup Delay from loss of AC to de-assertion of PWOK. 20 msec Tpson_on_delay Delay from PSON# active to output voltages within msec 5 400 regulation limits. T pson_pwok Delay from PSON# deactive to PWOK being de-asserted. 50 msec Tpwok_on Delay from output voltages within regulation limits to msec 100 1000 PWOK asserted at turn on. T pwok_off Delay from PWOK de-asserted to output voltages (3.3V, msec 1 200 5V, 12V, -12V) dropping out of regulation limits. Tpwok_low Duration of PWOK being in the de-asserted state during msec 100 an off/on cycle using AC or the PSON signal. Tsb_vout Delay from 5VSB being in regulation to O/Ps being in msec 50 1000 regulation at AC turn on. T5VSB_holdup Time the 5VSB output voltage stays within regulation msec 70 after loss of AC. AC Input T vout_holdup Vout T pwok_low TAC _on_delay Tpwok_off Tsb_on_delay T T T sb_on_delay T pwok_on pwok_off pwok_on T pson_pwok PWOK Tp wok_holdup 5VSB T sb_vout T 5VSB_holdup T pson_on_delay PSON AC turn on/off cycle PSON turn on/off cycle Figure 38. Turn On/Off Timing (Power Supply Signals) 100 Revision 1.8 Intel Order Number: E14960-009 Design and Environmental Specifications Intel® Server Boards S3200SH/S3210SH TPS 8.2.2 Dynamic Loading The output voltages should remain within limits specified for the step loading and capacitive loading specified in Table 70. The load transient repetition rate should be tested between 50Hz 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 MIN load to the MAX load conditions. Table 70. Transient Load Requirements Output Step Load Size Load Slew Rate Test capacitive Load (See note 2) +3.3V 5.0A 0.25 A/sec 250 F +5V 6.0A 0.25 A/sec 400 F 12V 9.0A 0.25 A/sec 500 F +5VSB 0.5A 0.25 A/sec 20 F Notes: 1. Step loads on each 12V output may happen simultaneously. 2. For Load Range 2 (light system loading), the tested step load size should be 60% of those listed. 8.2.3 AC Line Transient Specification AC line transient conditions are defined as “sag” and “surge” conditions. “Sag” conditions are also commonly referred to as a “brownout”; these conditions are defined as the AC line voltage dropping below nominal voltage conditions. “Surge” is defined to refer to conditions when the AC line voltage rises above nominal voltage. The power supply should meet the requirements under the following AC line sag and surge conditions. Table 71. AC Line Sag Transient Performance AC Line Sag Duration Sag Operating AC Voltage Line Frequency Performance Criteria Continuous 10% Nominal AC Voltage ranges 50/60Hz No loss of function or performance. 0 to 1 AC 95% Nominal AC Voltage ranges 50/60Hz No loss of function or performance. cycle > 1 AC cycle >30% Nominal AC Voltage ranges 50/60Hz Loss of function acceptable, self- recoverable. Revision 1.8 101 Intel Order Number: E14960-009 Intel® Server Boards S3200SH/S3210SH TPS Design and Environmental Specifications Table 72. AC Line Surge Transient Performance AC Line Surge Duration Surge Operating AC Voltage Line Frequency Performance Criteria Continuous 10% Nominal AC Voltages 50/60Hz No loss of function or performance. 0 to ½ AC 30% Mid-point of nominal AC 50/60Hz No loss of function or performance. cycle Voltages 8.2.4 AC Line Fast Transient (EFT) Specification The power supply should meet the EN61000-4-5 directive and any additional requirements in IEC1000-4-5:1995 and the Level 3 requirements for surge-withstand capability, with the following conditions and exceptions: ƒ These input transients must not cause any out-of-regulation conditions, such as overshoot and undershoot, nor must it cause any nuisance trips for any of the power supply protection circuits. ƒ The surge-withstand test must not produce damage to the power supply. ƒ The supply must meet surge-withstand test conditions under maximum and minimum DC-output load conditions. 8.3 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 (Network Equipment Building Systems), residential, alarm systems, test equipment, and so forth), other than an ITE application, may require further evaluation. This is an FCC Class A device. Integration of it into a Class B chassis does not result in a Class B device. 8.3.1 Product Safety Compliance The server board complies with the following safety requirements: ƒ UL60950 – CSA 60950(USA / Canada) ƒ EN60950 (Europe) ƒ IEC60950 (International) ƒ CB Certificate and Report, IEC60950 (report to include all country national deviations) ƒ CE - Low Voltage Directive 73/23/EEE (Europe) 102 Revision 1.8 Intel Order Number: E14960-009 Design and Environmental Specifications Intel® Server Boards S3200SH/S3210SH TPS 8.3.2 Product EMC Compliance – Class A Compliance Note: Legally, the product is required to comply with Class A emission requirements as it is intended for a commercial type market place. ƒ FCC /ICES-003 - Emissions (USA/Canada) Verification ƒ CISPR 22 – Class A Emissions (International) ƒ EN55022 – Class A Emissions (Europe) ƒ EN55024 - Immunity (Europe) ƒ CE – EMC Directive 89/336/EEC (Europe) ƒ VCCI, Class A Emissions (Japan) ƒ AS/NZS 3548 Class A Emissions (Australia / New Zealand) ƒ BSMI CNS13438 Emissions (Taiwan) ƒ RRL MIC Notice No. 1997-41 (EMC) and 1997-42 (EMI) (Korea) 8.3.3 Certifications / Registrations / Declarations ƒ UL Certification (US/Canada) ƒ CB Certification (International) ƒ CE Declaration of Conformity (CENELEC Europe) ƒ FCC/ICES-003 Class A Attestation (USA/Canada) ƒ C-Tick Declaration of Conformity (Australia) ƒ MED Declaration of Conformity (New Zealand) ƒ BSMI Declaration (Taiwan) ƒ RRL Certification (Korea) Revision 1.8 103 Intel Order Number: E14960-009 Intel® Server Boards S3200SH/S3210SH TPS Design and Environmental Specifications ƒ RoHS (Restriction of Hazardous Substances Directive) 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: ƒ Quantity limit of 0.1% by mass (1000 PPM) for: o Lead o Mercury o Hexavalent Chromium o Polybrominated Biphenyls Diphenyl Ethers (PBDE) ƒ Quantity limit of 0.01% by mass (100 PPM) for: o Cadmium 104 Revision 1.8 Intel Order Number: E14960-009 Design and Environmental Specifications Intel® Server Boards S3200SH/S3210SH TPS 8.3.4 Product Regulatory Compliance Markings This product is marked with the following Product Certification Markings: Table 73. Product Certification Markings Regulatory Compliance Region Marking UL Mark USA/Canada E139761 CE Mark Europe EMC Marking (Class A) Canada CANADA ICES-003 CLASS A CANADA NMB-003 CLASSE A BSMI Marking (Class A) Taiwan D33025 Ctick Marking Australia / New Zealand RRL MIC Mark Korea 인증번호: CPU-S3200SH (A) Country of Origin Exporting MADE IN xxxxx Requirements PB Free Marking Environmental Requirements Revision 1.8 105 Intel Order Number: E14960-009 Intel® Server Boards S3200SH/S3210SH TPS Design and Environmental Specifications 8.4 Electromagnetic Compatibility Notices 8.4.1 FCC (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. For questions related to the EMC performance of this product, contact: Intel Corporation 5200 N.E. Elam Young Parkway Hillsboro, OR 97124-6497 1-800-628-8686 This equipment has been tested and found to comply with the limits for a Class A 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: ƒ Reposition or relocate the receiving antenna. ƒ Increase the separation between the equipment and the receiver. ƒ Connect the equipment to an outlet on a circuit other than the one to which the receiver is connected. ƒ Consult the dealer or an experienced radio/TV technician for help. Any changes or modifications not expressly approved 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. Only peripherals (computer input/output devices, terminals, printers, etc.) that comply with FCC Class A or B limits may be attached to this computer product. Operation with noncompliant peripherals is likely to result in interference to radio and TV reception. 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. 106 Revision 1.8 Intel Order Number: E14960-009 Design and Environmental Specifications Intel® Server Boards S3200SH/S3210SH TPS 8.4.2 ICES-003 (Canada) Cet appareil numérique respecte les limites bruits radioélectriques applicables aux appareils numériques de Classe B prescrites dans la norme sur le matériel brouilleur: “Appareils Numériques”, NMB-003 édictée 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. 8.4.3 Europe (CE Declaration of Conformity) This product has been tested in accordance to, 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. 8.4.4 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. 8.4.5 Taiwan Declaration of Conformity (BSMI) The BSMI Certification Marking and EMC warning is located on the outside rear area of the product. Revision 1.8 107 Intel Order Number: E14960-009 Intel® Server Boards S3200SH/S3210SH TPS Design and Environmental Specifications 8.4.6 Korean Compliance (RRL) English translation of the notice above: Type of Equipment (Model Name): On License and Product Certification No.: On RRL certificate. Obtain certificate from local Intel representative Name of Certification Recipient: Intel Corporation Date of Manufacturer: Refer to date code on product Manufacturer/Nation: Intel Corporation/Refer to country of origin marked on product 108 Revision 1.8 Intel Order Number: E14960-009 Design and Environmental Specifications Intel® Server Boards S3200SH/S3210SH TPS 8.5 Mechanical Specifications ® The following figure shows the Intel Server Board S3200SH mechanical drawing. An updated version of this drawing will appear in a future revision of this document. ® Figure 39. Intel Server Board S3200SH Mechanical Drawing Revision 1.8 109 Intel Order Number: E14960-009 Intel® Server Boards S3200SH/S3210SH TPS Design and Environmental Specifications The following figures show the I/O shield mechanical drawings for use in pedestal mount ® applications, such as the Intel Entry Server Chassis SC5299-E, for the three board SKUs. The ® ® Intel Server Board S3200SH-L and the Intel Server Board S3200SH-LX/LC share the same ® I/O shield, and Intel Server Board S3200SH-V employs a separate I/O shield. ® Figure 40. Pedestal Mount I/O Shield Mechanical Drawing for the Intel Server Board S3200SH-V 110 Revision 1.8 Intel Order Number: E14960-009 Design and Environmental Specifications Intel® Server Boards S3200SH/S3210SH TPS ® Figure 41. Pedestal Mount I/O Shield Mechanical Drawing for Intel Server Boards S3200SH- L/S3210SH-LX Revision 1.8 111 Intel Order Number: E14960-009 Intel® Server Boards S3200SH/S3210SH TPS Hardware Monitoring 9. Hardware Monitoring 9.1 Chassis Intrusion The server board supports a chassis security feature that detects removal of the chassis cover. For the chassis intrusion circuit to function, the chassis’ power supply must be connected to AC power. The security feature uses a mechanical switch on the chassis that attaches to the chassis intrusion connector. When the chassis cover is removed, the mechanical switch is in the open position. 112 Revision 1.8 Intel Order Number: E14960-009 Intel® Server Boards S3200SH/S3210SH TPS Glossary Glossary This appendix contains important terms used in the preceding chapters. For ease of use, numeric entries are listed first (for example, “82460GX”) with alpha entries following (for example, “AGP 4x”). Acronyms are then entered in their respective place, with non-acronyms following. Term Definition ACPI Advanced Configuration and Power Interface ANSI American National Standards Institute AP Application Processor ASIC Application Specific Integrated Circuit ASR Asynchronous Reset BEV Bootstrap Entry Vector BGA Ball-grid Array BIOS Basic input/output system BMC Baseboard Management Controller Byte 8-bit quantity. 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. DCD Data Carrier Detect DIMM Dual In-Line Memory Module DMA Direct Memory Access DMTF Distributed Management Task Force ECC Error Correcting Code EMC Electromagnetic Compatibility EPS External Product Specification ESCD Extended System Configuration Data FDC Floppy Disk Controller FIFO First-In, First-Out FRB Fault Resilient Booting FRU Field replaceable unit FSB Front Side Bus GB 1024 MB Gbit 1 Gbit GPIO General purpose I/O GUID Globally Unique ID Hz Hertz (1 cycle/second) HDG Hardware Design Guide I2C Inter-integrated circuit bus ® IA Intel architecture ICMB Intelligent Chassis Management Bus IERR Internal error IMB Inter Module Bus IP Internet Protocol IPMI Intelligent Platform Management Interface Revision 1.8 113 Intel Order Number: E14960-009 Intel® Server Boards S3200SH/S3210SH TPS Glossary Term Definition IRQ Interrupt Request ITP In-target probe KB 1024 bytes KCS Keyboard Controller Style KHz 32.768 KHz LAN Local area network LBA Logical Block Address LCD Liquid crystal display LPC Low pin count LSB Least Significant Bit MB 1024 KB MBE Multi-Bit Error Ms milliseconds MSB Most Significant Bit MTBF Mean Time Between Failures Mux multiplexor NEBS Network Equipment Building Systems NIC Network Interface Card NMI Non-maskable Interrupt NVRAM Non-volatile Random Access Memory OEM Original equipment manufacturer Ohm Unit of electrical resistance PBGA Pin Ball Grid Array PCB Printed Circuit Board PECI Platform Environment Control Interface PERR Parity Error PIO Programmable I/O PMB Private Management Bus PMC Platform Management Controller PME Power Management Event PnP Plug and Play POST Power-on Self Test PWM Pulse-Width Modulator RAIDIOS RAID I/O Steering RAM Random Access Memory RI Ring Indicate RISC Reduced instruction set computing RMCP Remote Management Control Protocol ROM Read Only Memory RTC Real Time Clock SBE Single-Bit Error SCI System Configuration Interrupt SDR Sensor Data Record SDRAM Synchronous Dynamic RAM 114 Revision 1.8 Intel Order Number: E14960-009 Intel® Server Boards S3200SH/S3210SH TPS Glossary Term Definition SEL System event log SERIRQ Serialized Interrupt Requests SERR System Error SM Server Management SMI Server management interrupt. SMI is the highest priority non-maskable interrupt SMM System Management Mode SMS System Management Software SNMP Simple Network Management Protocol SPD Serial Presence Detect SSI Server Standards Infrastructure SSI EEB Server System Infrastructure Electronic Bay TPS Technical Product Specification UART Universal asynchronous receiver and transmitter USB Universal Serial Bus VGA Video Graphic Adapter VID Voltage Identification VRM Voltage Regulator Module Word 16-bit quantity ZCR Zero Channel RAID Revision 1.8 115 Intel Order Number: E14960-009 Intel® Server Boards S3200SH/S3210SH TPS Reference Documents Reference Documents Refer to the following documents for additional information: ® ƒ Intel S3200 Server Board Family Datasheet ® ƒ Intel 3200 Series Chipset Memory Controller Hub Datasheet. ® ƒ Intel ICH9 I/O Controller Hub Datasheet. 116 Revision 1.8 Intel Order Number: E14960-009