INTEL D64569-007

Intel® Server Board S5000VCL
Technical Product Specification
Intel order number: D64569-007
Revision 2.3
January 2008
Enterprise Platforms and Services Division Marketing
Intel® Server Board S5000VCL TPS
Table of Contents
Revision History
Date
Sept. 2006
Revision
Number
1.0
Modifications
Initial release.
Nov. 2006
2.0
Added technical updates and SAS board information.
Jan. 2007
2.1
Removed processor that is not supported by board; added Post-Code Diagnostic
LED information.
Sept. 2007
2.2
Updated product codes and processor information.
Jan. 2008
2.3
Updated processor information.
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.
The Intel® Server Board S5000VCL 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.
Intel Corporation server baseboards support peripheral components and contain a number of
high-density VLSI and power delivery components that need adequate airflow to cool. Intel’s
own chassis are designed and tested to meet the intended thermal requirements of these
components when the fully integrated system is used together. It is the responsibility of the
system integrator that chooses not to use Intel developed server building blocks to consult
vendor datasheets and operating parameters to determine the amount of air flow required for
their specific application and environmental conditions. Intel Corporation can not be held
responsible if components fail or the server board does not operate correctly when used outside
any of their published operating or non-operating limits.
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 2008.
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Intel® Server Board S5000VCL TPS
Table of Contents
Table of Contents
1.
Introduction .......................................................................................................................... 1
1.1
2.
3.
Server Board Use Disclaimer .................................................................................. 1
Product Overview................................................................................................................. 2
2.1
Feature Set .............................................................................................................. 2
2.2
Server Board Layout................................................................................................ 3
2.2.1
Intel® Light-Guided Diagnostics LED Locations....................................................... 4
2.2.2
External I/O Connector Locations............................................................................ 5
Functional Architecture ....................................................................................................... 6
3.1
Intel® 5000V Memory Controller Hub (MCH) ........................................................... 8
3.1.1
System Bus Interface............................................................................................... 8
3.1.2
Processor Support ................................................................................................... 8
3.1.3
Memory Sub-system .............................................................................................. 10
3.2
Intel® 6321ESB I/O Controller Hub ........................................................................ 12
3.2.1
PCI Sub-system..................................................................................................... 13
3.2.2
Serial ATA Support ................................................................................................ 13
3.2.3
Parallel ATA (PATA) Support ................................................................................ 14
3.2.4
USB 2.0 Support.................................................................................................... 14
3.3
Video Support ........................................................................................................ 14
3.4
Network Interface Controller (NIC) ........................................................................ 15
3.4.1
3.5
Intel® I/O Acceleration Technolgy .......................................................................... 16
Super I/O ............................................................................................................... 16
4.
Platform Management........................................................................................................ 19
5.
Connector / Header Locations and Pin-outs.................................................................... 20
iv
5.1
Board Connectors.................................................................................................. 20
5.2
Power Connectors ................................................................................................. 21
5.3
Riser Card Slots..................................................................................................... 22
5.4
SSI Control Panel Connector................................................................................. 22
5.5
I/O Connector Pinout Definition ............................................................................. 23
5.5.1
VGA Connector...................................................................................................... 23
5.5.2
NIC Connectors ..................................................................................................... 23
5.5.3
IDE Connector ....................................................................................................... 24
5.5.4
SATA Connectors .................................................................................................. 25
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5.5.5
Serial Port Connectors........................................................................................... 26
5.5.6
Keyboard and Mouse Connector ........................................................................... 26
5.5.7
USB Connector...................................................................................................... 27
5.6
6.
8.
9.
Fan Headers .......................................................................................................... 28
Jumper Block Settings ...................................................................................................... 29
6.1
7.
Table of Contents
Recovery Jumper Blocks ....................................................................................... 29
6.1.1
CMOS Clear and Password Reset Usage Procedure ........................................... 30
6.1.2
BMC Force Update Procedure .............................................................................. 31
6.2
BIOS Select Jumper .............................................................................................. 31
6.3
PCIe Select Jumper............................................................................................... 32
Intel® Light Guided Diagnostics........................................................................................ 33
7.1
5-Volt Standby System Status / Fault LED ............................................................ 33
7.2
DIMM LEDs ........................................................................................................... 35
7.3
Post Code Diagnostic LEDs .................................................................................. 36
Power and Environmental Specifications ........................................................................ 37
8.1
Intel® Server Board S5000VCL Design Specifications .......................................... 37
8.2
Baseboard Power Requirements ........................................................................... 38
8.2.1
Processor Power Support...................................................................................... 38
8.2.2
Power Supply Output Requirements ..................................................................... 38
8.2.3
Turn On No Load Operation .................................................................................. 39
8.2.4
Grounding .............................................................................................................. 40
8.2.5
Standby Outputs .................................................................................................... 40
8.2.6
Remote Sense ....................................................................................................... 40
8.2.7
Voltage Regulation ................................................................................................ 40
8.2.8
Dynamic Loading ................................................................................................... 41
8.2.9
Capacitive Loading ................................................................................................ 41
8.2.10
Closed-Loop Stability............................................................................................. 41
8.2.11
Common Mode Noise ............................................................................................ 41
8.2.12
Ripple / Noise ........................................................................................................ 42
8.2.13
Soft Starting ........................................................................................................... 42
8.2.14
Timing Requirements............................................................................................. 42
8.2.15
Residual Voltage Immunity in Standby Mode ........................................................ 44
Regulatory and Certification Information......................................................................... 45
9.1
9.1.1
Revision 2.3
Product Regulatory Compliance ............................................................................ 45
Product Safety Compliance ................................................................................... 45
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9.1.2
Product EMC Compliance – Class A Compliance ................................................. 46
9.1.3
Certifications / Registrations / Declarations ........................................................... 46
9.2
Product Regulatory Compliance Markings ............................................................ 47
9.3
Electromagnetic Compatibility Notices .................................................................. 48
9.3.1
FCC Verification Statement (USA) ........................................................................ 48
9.3.2
ICES-003 (Canada) ............................................................................................... 49
9.3.3
Europe (CE Declaration of Conformity) ................................................................. 49
9.3.4
VCCI (Japan) ......................................................................................................... 49
9.3.5
BSMI (Taiwan) ....................................................................................................... 50
9.3.6
RRL (Korea)........................................................................................................... 50
9.3.7
CNCA (CCC-China) ............................................................................................... 50
9.4
Restriction of Hazardous Substances (RoHS) Compliance................................... 51
Appendix A: Integration and Usage Tips................................................................................ 52
Appendix B: Sensor Tables ..................................................................................................... 53
Appendix C: POST Error Messages and Handling ................................................................ 55
Appendix D: POST Code Diagnostic LED Decoder ............................................................... 58
Appendix E: Supported Intel® Server Chassis ....................................................................... 62
Glossary..................................................................................................................................... 64
Reference Documents .............................................................................................................. 67
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List of Figures
List of Figures
Figure 1. Components and Connector Location Diagram............................................................. 3
Figure 2. Intel® Light-Guided Diagnostics LED Locations............................................................. 4
Figure 3. ATX I/O Layout .............................................................................................................. 5
Figure 4. Functional Block Diagram.............................................................................................. 7
Figure 5. CEK Processor Mounting .............................................................................................. 9
Figure 6. Memory Layout ............................................................................................................ 10
Figure 7. SMBUS Block Diagram................................................................................................ 19
Figure 8. Recovery Jumper Blocks (J3A1, J1C2, J1C4)............................................................. 30
Figure 9. System Status / Fault LED Location ............................................................................ 33
Figure 10. DIMM LED Locations................................................................................................. 35
Figure 11. POST Code Diagnostic LED Location ....................................................................... 36
Figure 12. Output Voltage Timing ............................................................................................... 43
Figure 13. Turn On/Off Timing (Power Supply Signals).............................................................. 44
Figure 14. Diagnostic LED Placement Diagram ......................................................................... 58
Figure 15. Intel® Server System SR1530CL/SR1530CLR .......................................................... 62
Figure 16. Intel® Server System SR1530HCL/SR1530HCLR..................................................... 63
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List of Tables
Intel® Server Board S5000VCL TPS
List of Tables
Table 2. I2C Addresses for Memory Module SMB ...................................................................... 10
Table 3. Maximum Six-DIMM System Memory Configuration – x4 Single Rank ........................ 10
Table 4. Maximum Six-DIMM System Memory Configuration – x8 Dual Rank ........................... 11
Table 5. PCI Bus Segment Characteristics................................................................................. 13
Table 6. Video Modes ................................................................................................................. 15
Table 7. NIC2 Status LED........................................................................................................... 16
Table 8. Serial A Port Header Pin-out (External DB9) ................................................................ 17
Table 9. Internal Serial B Port Header Pin-out............................................................................ 17
Table 10. Board Connector Matrix .............................................................................................. 20
Table 11. Power Connector Pin-out (J3K3) ................................................................................ 21
Table 12. 12V Power Connector Pin-out (J9E1)......................................................................... 21
Table 13. Power Supply Signal Connector Pin-out (J9C1) ......................................................... 22
Table 14. Front Panel SSI Standard 24-pin Connector Pin-out (J2K2) ...................................... 22
Table 15. VGA Connector Pin-out (J7A1)................................................................................... 23
Table 16. RJ-45 10/100/1000 NIC Connector Pin-out (JA6A1, JA5A1)...................................... 23
Table 17. 44-pin IDE Connector Pin-out (J2K5) ......................................................................... 24
Table 18. SATA Connector Pin-out (J1J2, J1J1) ........................................................................ 25
Table 19. SATA / SAS Connector Pin-out (J1G2, J1G1, J1F1, J1E4)........................................ 25
Table 20. 9-pin Serial Header Pin-out (J8A1, J1A1)................................................................... 26
Table 21. Stacked PS/2 Keyboard and Mouse Port Pin-out (J9A2) ........................................... 26
Table 22. External USB Connector Pin-out (J9A2)..................................................................... 27
Table 23. Internal USB Connector Pin-out (J3K1) ...................................................................... 27
Table 24. CPU Fan Connector Pin-out (J2K3, J2K4) ................................................................. 28
Table 25. PCI Fan Connector Pin-out (J1K1) ............................................................................. 28
Table 26. Recovery Jumpers (J3A1, J1C1, J1C2)...................................................................... 29
Table 27. BIOS Select Jumper (J3A2) ....................................................................................... 32
Table 28. PCI Express* x4/x8 Select Jumper (J1E1) ................................................................. 32
Table 29. Server Board Design Specifications ........................................................................... 37
Table 30. Dual-Core Intel® Xeon® processor 5100 series and Quad-Core Intel® Xeon®
processor 5300 series TDP Guidelines................................................................................ 38
Table 31. 400W Load Ratings .................................................................................................... 39
Table 32. No-load Operating Range ........................................................................................... 39
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List of Tables
Table 33. Voltage Regulation Limits ........................................................................................... 40
Table 34. Transient Load Requirements..................................................................................... 41
Table 35. Capacitive Loading Conditions ................................................................................... 41
Table 36. Ripple and Noise......................................................................................................... 42
Table 37. Output Voltage Timing ................................................................................................ 42
Table 38. Turn On/Off Timing ..................................................................................................... 43
Table 39. POST Error Messages and Handling.......................................................................... 55
Table 40. POST Error Beep Codes ............................................................................................ 57
Table 41. BMC Beep Codes ....................................................................................................... 57
Table 42. Example POST Progress Code LED .......................................................................... 58
Table 43. Diagnostic LED POST Code Decoder ........................................................................ 59
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List of Tables
Intel® Server Board S5000VCL/S5000VCLSASBB TPS
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1.
Overview
Introduction
This Technical Product Specification (TPS) provides board-specific information about the
features, functionality, and high-level architecture of the Intel® Server Board S5000VCL. See the
Intel® 5000 Series Chipsets Server Board Family Datasheet more information about board subsystems, including chipset, BIOS, system management, and system management software.
There are four product codes of the Intel Server Board S5000VCL:
•
SS5000VCL
•
S5000VCLSASBB
•
BBS5000VCLR
•
BBS5000VCLSASR
All references to the Intel® Server Board S5000VCL refer to all product codes listed above,
unless noted otherwise.
1.1
Server Board Use Disclaimer
Intel Corporation server boards support add-in peripherals and contain high-density VLSI and
power delivery components that need adequate airflow to cool. Intel ensures through its own
chassis development and testing that when Intel server building blocks are used together, the
fully integrated system will meet the intended thermal requirements of these components. It is
the responsibility of the system integrator who chooses not to use Intel developed server
building blocks to consult vendor datasheets and operating parameters to determine the amount
of air flow required for their specific application and environmental conditions. Intel Corporation
cannot be held responsible if components fail or the server board does not operate correctly
when used outside any of their published operating or non-operating limits.
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Intel® Server Board S5000VCL TPS
Product Overview
2.
Product Overview
The Intel® Server Board S5000VCL is a monolithic printed circuit boards that support the highdensity 1U server market.
2.1
Feature Set
Feature
Processors
Description
®
®
771-pin LGA sockets supporting one or two Dual-Core Intel Xeon processors 5100
®
®
series, low-voltage Quad-Core Xeon processors 5300 series, and low-voltage Quad®
®
Core Xeon processors 5400 series with system bus speeds of 1066 MHz or 1333
MHz.
For a complete list of supported processors, see the following link:
Memory
Six keyed DIMM slots support fully buffered DIMM technology (FBDIMM) memory. 240pin DDR2-677 FBDIMMs must be used.
Chipset
Intel® 5000V Chipset family, which includes the following components:
®
Intel 5000V Memory Controller Hub
®
Intel 6321ESB I/O Controller Hub
On-board Connectors /
Headers
External connections:
Stacked PS/2* ports for keyboard and mouse
Two RJ45 NIC connectors for 10/100/1000 Mb connections
Two USB 2.0 ports
Video connector
Com 1 or Serial A (DB9)
Internal connectors/headers:
One USB port header, capable of providing two USB 2.0 ports
One DH10 Serial B header
Six SATA ports or four SAS ports via the Intel® 6321ESB I/O Controller Hub.
These ports support 3Gb/s and integrated SW RAID 0 or 1
One 40-pin (power + I/O) ATA/100 connector for optical drive support
SSI-compliant 24-pin control panel header
SSI-compliant 24-pin main power connector support the ATX-12 V standard on
the first 20 pins
8-pin +12 V processor power connector
Add-in PCI, PCI-X*, PCI
Express* Cards
One PCI super-slot that will support one 1U riser card with one PCI-X* and one PCI
Express* connectors
On-board Video
ATI* ES1000 video controller with 16 MB DDR SDRAM
On-board Hard Drive
Controller
Six 3 Gb/s SATA ports, or four SAS ports
LAN
Two 10/100/1000 NICs supporting Intel I/O Acceleration Technology
System Fans
Two CPU 4-pin fan headers supporting two system blowers and one 3-pin fan header
supporting a system fan
System Management
Support for Intel System Management Software
http://support.intel.com/support/motherboards/server/S5000VCL
2
Intel® Embedded Server RAID Technology II with RAID levels 0, 1, 10
®
®
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2.2
Product Overview
Server Board Layout
A
CD
B
E
Z
Y
F
G
X
H
W
V
U
T
S
R
Q
I
P
O
N
M
L
K
J
AF002052
Figure 1. Components and Connector Location Diagram
A
Description
Post code Diagnostic LEDs
O
Description
System Fan Header
B
System Fault/Status LED
P
SATA 0
C
Speaker
Q
SATA 1
D
Super Slot (Slot 6)
R
SSI 24-pin Control Panel Header
E
External IO Connectors
S
CPU 1 Fan Header
F
Main Power Connector
T
SATA 2 / SAS 0
G
Power Supply Auxiliary Connector
U
SATA 3 / SAS 1
H
CPU Power Connector
V
SATA 4 / SAS 2
I
FBDIMM Slots
W
SATA 5 / SAS 3
J
CPU Socket 1
X
Battery
K
CPU Socket 2
Y
SATA SGPIO
L
CPU 2 Fan Header
Z
Serial B Port Header
M
Dual Port USB 2.0 Header
Not shown
SAS GPIO (SAS version of the server board only)
N
Primary IDE Connector
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Product Overview
2.2.1
Intel® Light-Guided Diagnostics LED Locations
A
B
D
H
G
F
E
C
AF002053
A
Description
Post-Code Diagonstic LEDs
E
Description
CPU 2 Fan Fault LED
B
System Fault / Status LED
F
CPU 1 Fan Fault LED
C
CPU 1 Fault LED
G
System Fan Fault LED
D
DIMM Fault LEDs
H
5 VSB LED
E
CPU 2 Fault LED
Figure 2. Intel® Light-Guided Diagnostics LED Locations
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2.2.2
Product Overview
External I/O Connector Locations
A
C
D
B
Serial A
USB
0-1
E
F
G
NIC1
NIC2
10/100/ 10/100/
1000 Mb 1000 Mb
Network
AF001640
Figure 3. ATX I/O Layout
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Functional Architecture
3.
Functional Architecture
The architecture and design of the Intel® Server Board S5000VCL is based on the Intel® 5000V
Chipset. The chipset is for systems based on the Dual-Core Intel® Xeon® processor 5100 series,
low-voltage Quad-Core Intel® Xeon® processor 5300 series and low-voltage Quad-Core Intel®
Xeon® processor 5400 series with system bus speeds of 1067 MHz and 1333 MHz.
The chipset has two main components: the Intel® 5000V Memory Controller Hub (MCH) for the
host bridge and the Intel® 6321ESB I/O Controller Hub for the I/O subsystem.
This chapter provides a high-level description of the functionality associated with each chipset
component and the architectural blocks that make up this server board. For in depth information
on each of the chipset components and each of the functional architecture blocks, see the Intel®
5000 Series Chipsets Server Board Family Datasheet.
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Functional Architecture
1333 MT/s
Super Slot
Serial Port B (Internal)
PCI-X* 64-bit/133 MHz
PCI-Express x4 (ESB2, Port 1)
PCI-Express x4 (ESB2, Port 2)
Serial Port A (Back Panel)
PATA
ATI*
ES1000
Video
GBE
PCI-X x4
LSI* 1064E
SATA0
SATA1
SATA2 / SAS0
SATA3 / SAS1
SATA4 / SAS2
SATA5 / SAS3
Figure 4. Functional Block Diagram
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Functional Architecture
3.1
Intel® 5000V Memory Controller Hub (MCH)
The memory controller hub (MCH) is a single 1432 pin FCBGA package that includes these
core platform functions:
•
System bus interface for the processor sub-system
•
Memory controller
•
PCI Express* ports including the enterprise south bridge interface (ESI)
•
FBD thermal management
•
SMBUS interface
3.1.1
System Bus Interface
The MCH is configured for symmetric multi-processing across two independent front side bus
interfaces that connect to the processors. Each front side bus on the MCH uses a 64-bit wide
1066- or 1333-MHz data bus. The 1333-MHz data bus can transfer data at up to 10.66 GB/s.
The MCH supports a 36-bit wide address bus, capable of addressing up to 64 GB of memory.
The MCH is the priority agent for both front side bus interfaces, and is optimized for one
processor on each bus.
3.1.2
Processor Support
The server board supports one or two Dual-Core Intel® Xeon® processors 5100 series or low
voltage Quad-Core Intel® Xeon® processor 5300 series, or low voltage Quad-Core Intel® Xeon®
processor 5400 series with system bus speeds of 1066 MHz, and 1333 MHz, and core
frequencies starting at 1.6 GHz. Previous generations of the Intel® Xeon® processor are not
supported.
For a complete list of supported processors, see the following link:
http://support.intel.com/support/motherboards/server/S5000VCL
Note: Only Dual-Core Intel® Xeon® processors 5100 series or low-voltage Quad-Core Intel®
Xeon® processor 5300 and 5400 series, that support system bus speeds of 1066 MHz, and
1333 MHz are supported.
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3.1.2.1
Functional Architecture
Processor Population Rules
When two processors are installed, both must be of identical revision, core voltage, and
bus/core speed. When only one processor is installed, it must be in the socket labeled CPU1.
The other socket must be empty.
The board provides up to 90A max, 70A TDC per processor. Processors with higher current
requirements are not supported.
3.1.2.2
Common Enabling Kit (CEK) Design Support
The server board complies with Intel’s common enabling kit (CEK) processor mounting and heat
sink retention solution. The server board ships with a CEK spring snapped onto the underside of
the server board, beneath each processor socket. The heat sink attaches to the CEK, over the
top of the processor and the thermal interface material (TIM). See the figure below for the
stacking order of the chassis, CEK spring, server board, TIM, and heat sink.
The CEK spring is removable, allowing for the use of non-Intel heat sink retention solutions.
Heatsink assembly
Thermal Interface
Material (TIM)
Server Board
TP02091
CEK Spring
Chassis
AF001010
Figure 5. CEK Processor Mounting
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Functional Architecture
3.1.3
Memory Sub-system
The MCH masters two fully buffered DIMM (FBDIMM) memory channels. FBDIMM memory
utilizes a narrow high-speed frame-oriented interface referred to as a channel. The two
channels are routed to six DIMM slots and support registered DDR2-667 FBDIMM memory
(stacked or unstacked). Peak FBDIMM memory data bandwidth in dual channel mode is
8.0GB/s (2x4.0 GB/s) with DDR2-667/PC2-5300 (3.0 ns at CL5).
1
MA
DIM M A2 3
DIM M A 1
DIM M B 2
DIM M B 3
DIM M B
DIM
Channel A
Channel B
AF001011
Figure 6. Memory Layout
To boot the system, the system BIOS uses a dedicated I2C bus to retrieve DIMM information
needed to program the MCH memory registers.
Table 1. I2C Addresses for Memory Module SMB
3.1.3.1
Device
DIMM A1
Address
0xA0
DIMM A2
0xA2
DIMM A3
A4
DIMM B1
A0
DIMM B2
A2
DIMM B3
A4
Supported Memory
Up to six DDR2-667 fully-buffered DIMMs (FBD memory) can be installed.
Table 2. Maximum Six-DIMM System Memory Configuration – x4 Single Rank
DRAM Technology x4 Single Rank
10
256 Mb
Maximum Capacity Non-Mirrored
Mode
1.5 GB
512 Mb
3 GB
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Functional Architecture
1024 Mb
6 GB
2048 Mb
12 GB
Table 3. Maximum Six-DIMM System Memory Configuration – x8 Dual Rank
DRAM Technology x8 Dual Rank
256 Mb
Maximum Capacity Non-Mirrored
Mode
1.5 GB
512 Mb
3 GB
1024 Mb
6 GB
2048 Mb
12 GB
Note: DDR2 DIMMs that are not fully buffered are NOT supported. See the Intel® Server Board
S5000VCL Tested Memory List for a list of supported memory.
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Functional Architecture
3.1.3.2
DIMM Population Rules and Supported DIMM Configurations
DIMM population rules depend on the operating mode of the memory controller. The operating
mode is determined by the number of DIMMs installed. DIMMs must be populated in pairs in
DIMM slot order: A1 & B1, A2 & B2. DIMMs within a pair must be identical with respect to size,
speed, and organization, but DIMM capacities can be different across different DIMM pairs.
Note: The server board supports single DIMM mode operation. Intel will only validate and
support this configuration with a single 512 MB x8 FBDIMM installed in DIMM slot A1.
3.2
Intel® 6321ESB I/O Controller Hub
The Intel® 6321ESB I/O Controller Hub is a multi-function device that provides four distinct
functions: an IO Controller, a PCI-X* Bridge, a GB Ethernet Controller, and a baseboard
management controller (BMC). Each function within the controller hub has its own set of
configuration registers. Once configured, each appears to the system as a distinct hardware
controller.
The controller hub provides the gateway to all PC-compatible I/O devices and features. The
server board uses these Intel® 6321ESB I/O Controller Hub features:
1. PCI-X* bus interface
2. Six channel SATA interface w/SATA busy and fault LED control
3. Dual GbE MAC
4. Baseboard management controller (BMC)
5. Single ATA interface, with Ultra DMA 100 capability
6. Universal Serial Bus 2.0 (USB) interface
7. Removable media drives
8. LPC bus interface
9. PC-compatible timer/counter and DMA controllers
10. APIC and 8259 interrupt controller
11. Power management
12. System RTC
13. VT technology
14. General purpose I/O
For additional information, see the Intel® 5000 Series Chipsets Server Board Family Datasheet.
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3.2.1
Functional Architecture
PCI Sub-system
The primary I/O buses support one Super Slot connector, which supports one PCI riser
assembly that supports two PCI slots: one low-profile PCI Express* x8, and either a mid-height
PCI-X* 133, or one low-profile PCI Express*x4 and one mid-height PCI Express x4. The PCI
bus complies with the PCI Local Bus Specification, Revision 2.3. The PCI-X bus complies with
PCI-X Local BUS Specification, Revision 2.0, the PCI Express ports comply with the PCI
Express Base Specification, Revision 1.0a. PCI 32 supports the VGA ATI* ES1000 video
controller.
Table 4. PCI Bus Segment Characteristics
PCI Bus Segment
Voltage
Width
Speed
Type
On-board Device
Support
Full-height riser slot
PXA
6321ESB
3.3V/5.0V
64 bit
133 MHz
PCI-X*
PE1, PE2
BNB PCI Express*
Ports 4, 5
3.3V
x8
20 Gb/S
PCI
Low-profile riser slot
Express*
3.2.1.1
PXA: 64-bit, 133MHz PCI Subsystem
One 64-bit PCI-X* bus segment is directed through the 6321ESB ICH6. This PCI-X segment,
PXA, supports up to three PCI add-in cards on the full-height riser card.
3.2.1.2
PE2: One x4 PCI Express* Bus Segment
One x4 PCI Express* bus segment is directed through the 6321ESB. This PCI Express segment,
PE2, supports one x8 PCI Express segment to the proprietary I/O module mezzanine connector.
3.2.1.3
PCI Riser Slot
The primary I/O buses for this server board supports one Super Slot connector which supports
one PCI riser assembly supporting two PCI slots:
•
One low-profile PCI Express* x8 and one mid-height PCI-X* 133
•
Or one low-profile PCI Express*x4 and one mid-height PCI Express* x4.
3.2.2
Serial ATA Support
®
The Intel 6321ESB I/O Controller Hub has an integrated Serial ATA (SATA) controller that
supports independent DMA operation on six ports and supports data transfer rates of up to
3.0 Gb/s. The six SATA ports on the server board are numbered SATA-0 thru SATA-5. The
SATA ports can be enabled/disabled and/or configured through the BIOS Setup Utility.
Revision 2.3
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Intel® Server Board S5000VCL TPS
Functional Architecture
3.2.2.1
Intel® Embedded Server RAID Technology Support
The embedded Intel® Embedded Server RAID Technology solution offers data stripping (RAID
Level 0) and data mirroring (RAID Level 1). For higher performance, data stripping alleviates
disk bottlenecks by taking advantage of the dual independent DMA engines that each SATA
port offers.
Data mirroring is for data security. If a disk fails, a mirrored copied of the failed disk is brought
on-line. There is no loss of either PCI resources (request/grant pair) or add-in card slots.
Intel® Embedded Server RAID Technology functionality requires these items:
•
15. Intel® 6321ESB I/O Controller Hub
16. Intel® Embedded Server RAID Technology Option ROM
17. Intel® Application Accelerator RAID edition drivers, most recent revision
At least two SATA hard disk drives
Intel® Embedded Server RAID Technology is not available in these configurations:
•
3.2.3
18. The SATA controller in compatible mode
Intel® Embedded Server RAID Technology has been disabled
Parallel ATA (PATA) Support
The integrated IDE controller of the 6321ESB ICH6 provides one IDE channel. It redefines
signals on the IDE cable to allow both host and target throttling of data and transfer rates of up
to 100 MB/s. The IDE channel provides optical drive support. The BIOS initializes and supports
ATAPI devices such as LS-120/240, CD-ROM, CD-RW and DVD-ROM. The IDE channel is
accessed through a high-density 40-pin connector ((J2K5) that provides I/O signals. The ATA
channel can be configured and enabled or disabled through the BIOS Setup Utility.
3.2.4
USB 2.0 Support
The USB controller functionality integrated into the 6321ESB provides the interface for up to
four USB 2.0 ports. Two external connectors are located on the back edge of the server board
and one internal 2x5 header supports two optional USB 2.0 ports.
3.3
Video Support
An ATI* ES1000 PCI graphics accelerator with 16 MB of video DDR SDRAM and support
circuitry for an embedded SVGA video sub-system is provided. The ATI ES1000 chip contains
an SVGA video controller, clock generator, 2D engine, and RAMDAC in a 359-pin BGA. One
4M x 16 x 4 bank DDR SDRAM chip provides 16 MB of video memory.
The SVGA sub-system supports modes up to 1024 x 768 resolution in 8 / 16 / 32 bpp modes
under 2D. It also supports both CRT and LCD monitors up to a 100 Hz vertical refresh rate.
Video is accessed using a standard 15-pin VGA connector found on the back edge of the server
board. Video signals are also made available through the 120-pin bridge-board connector that
provides signals for an optional video connector on the control panel. Video is routed to both the
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Revision 2.3
Intel® Server Board S5000VCL TPS
Functional Architecture
rear video connector and a control panel video connector. Video is present at both connectors
simultaneously and cannot be disabled at either connector individually. Video monitors can be
hot-plugged.
3.3.1.1
Video Modes
The ATI* ES1000 chip supports all standard IBM* VGA modes. The table shows the 2D modes
supported for both CRT and LCD.
Table 5. Video Modes
2D Mode
Refresh Rate (Hz)
8 bpp
Supported
2D Video Mode Support
16 bpp
32 bpp
Supported
Supported
640x480
60, 72, 75, 85, 90, 100,
120, 160, 200
800x600
60, 70, 72, 75, 85, 90,
100, 120, 160
Supported
Supported
Supported
1024x768
60, 70, 72, 75, 85, 90,
100
Supported
Supported
Supported
1152x864
43, 47, 60, 70, 75, 80,
85
Supported
Supported
Supported
1280x1024
60, 70, 74, 75
Supported
Supported
Supported
1600x1200
52
Supported
Supported
Supported
3.3.1.2
Video Memory Interface
The memory controller sub-system of the ES1000 arbitrates requests from the direct memory
interface, the VGA graphics controller, the drawing co-processor, the display controller, the
video scalar, and the hardware cursor. Requests are serviced in a manner that ensures display
integrity and maximum CPU/co-processor drawing performance.
The server board supports a 16 MB (4 Meg x 16-bit x four banks) DDR SDRAM device for video
memory.
3.4
Network Interface Controller (NIC)
Network interface support is provided from the built in Dual GbE MAC features of the 6321ESB
in conjunction with the Intel® 82563EB compact Physical Layer Transceiver (PHY). Together,
they provide support for dual LAN ports designed for 10/100/1000 Mbps operation.
The 82563EB device is based upon proven PHY technology integrated into Intel’s gigabit
Ethernet controllers. The physical layer circuitry provides a standard IEEE 802.3 Ethernet
interface for 1000BASE-T, 100BASE-TX, and 10BASE-T applications (802.3, 802.3u, and
802.3ab). The 82563EB device can transmit and receive data at rates of 1000 Mbps, 100 Mbps,
or 10 Mbps.
Revision 2.3
Intel order number: D64569-007
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Intel® Server Board S5000VCL TPS
Functional Architecture
Each network interface controller (NIC) drives two LEDs located on each network interface
connector. The link/activity LED at the right of the connector indicates network connection when
on, and Transmit/Receive activity when blinking. The speed LED at the left indicates 1000-Mbps
operation when amber, 100-Mbps operation when green, and 10-Mbps when off.
Table 6. NIC2 Status LED
LED Color
Green/Amber (Left)
Green (Right)
LED State
NIC State
Off
10 Mbps
Green
100 Mbps
Amber
1000 Mbps
On
Active Connection
Blinking
Transmit / Receive activity
Intel® I/O Acceleration Technolgy
3.4.1
Intel® I/O Acceleration Technology moves network data efficiently through Intel® Xeon®
processor-based servers for improved application responsiveness across diverse operating
systems and virtualized environments.
Intel® I/OAT improves network application responsiveness by unleashing the power of Intel®
Xeon® processors through efficient network data movement and reduced system overhead. Intel
multi-port network adapters with Intel I/OAT provide high-performance I/O for server
consolidation and virtualization via stateless network acceleration that seamlessly scales across
multiple ports and virtual machines. Intel I/OAT provides safe and flexible network acceleration
through tight integration into popular operating systems and virtual machine monitors, avoiding
the support risks of third-party network stacks and preserving existing network requirements
such as teaming and failover.
3.5
Super I/O
Legacy I/O support is provided by a National Semiconductor* PC87427 Super I/O device. This
chip contains the necessary circuitry to support these functions:
16
•
GPIOs
•
Serial ports
•
Keyboard and mouse support
•
Wake up control
•
System health support
Intel order number: D64569-007
Revision 2.3
Intel® Server Board S5000VCL TPS
3.5.1.1
Functional Architecture
Serial Ports
The server board provides an external DB9 serial port and an internal serial header.
Table 7. Serial A Port Header Pin-out (External DB9)
RJ45
1
Signal
Request to Send
Abbreviation
RTS
7
DB9
2
Data Terminal Ready
DTR
4
3
Transmitted Data
TD
3
4
Signal Ground
SGND
5
5
Ring Indicator
RI
9
6
Received Data
RD
2
7
DCD or DSR
DCD/DSR
1 or 6 (see note)
8
Clear To Send
CTS
8
Table 8. Internal Serial B Port Header Pin-out
1
Pin
Signal Name
DCD
2
DSR
3
RX
4
RTS
5
TX
6
CTS
7
DTR
8
RI
9
GND
Serial Port A Header Pin-out
Note: The RJ45-to-DB9 adapter should match the configuration of the serial device used. One
of two pin-out configurations is used, depending on whether the serial device requires a DSR or
DCD signal. The final adapter configuration should also match the desired pin-out of the RJ45
connector, as it can also be configured to support either DSR or DCD.
3.5.1.2
Floppy Disk Controller
The server board does not support a floppy disk controller (FDC) interface, but the system BIOS
recognizes USB floppy devices.
Revision 2.3
Intel order number: D64569-007
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Intel® Server Board S5000VCL TPS
Functional Architecture
3.5.1.3
Keyboard and Mouse Support
Dual stacked PS/2 ports on the back edge of the server board support a keyboard and mouse.
Either port can support a mouse or keyboard. Neither port supports hot plugging.
3.5.1.4
Wake-up Control
The super I/O contains functionality allows events to power-on and power-off the system.
3.5.1.5
System Health Support
The super I/O provides an interface via GPIOs for BIOS and system management firmware to
activate the diagnostic LEDs, the FRU fault indicator LEDs for processors, FBDIMMS, fans, and
the system status LED. See section 7 to locate the LEDs.
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Revision 2.3
Intel® Server Board S5000VCL TPS
4.
Platform Management
Platform Management
The platform management sub-system is based on the integrated baseboard management
controller (BMC) features of the Intel® 6321ESB I/O Controller Hub. The onboard platform
management subsystem consists of communication buses, sensors, system BIOS, and system
management firmware.
See Appendix B for onboard sensor data. For additional platform management information see
the Intel® 5000 Series Chipsets Server Board Family Datasheet.
LM4
Figure 7. SMBUS Block Diagram
Revision 2.3
Intel order number: D64569-007
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Connector / Header Locations and Pin-outs
Intel® Server Board S5000VCL TPS
5.
Connector / Header Locations and Pin-outs
5.1
Board Connectors
Table 9. Board Connector Matrix
Connector
Quantity
Server Board Reference Designators
Connector Type
Pin
Count
Power supply
3
J9E1
J9B1
J9C1
CPU Power
Main Power
P/S Aux
8
24
5
CPU
2
J8H1, J5H1
CPU Sockets
771
Main Memory
8
J7A2, J7A3, J7A4, J7A5, J8A2, J8A3
DIMM Sockets
240
Super Slot
1
J4B2
Card Edge
98
IDE
1
J2K5
Shrouded Header
40
CPU Blowers #1
and #2
2
J2K3, J2K4
Header
4
System Fan
2
J1K1
Header
3
Battery
1
XBT3E1
Battery Holder
3
Keyboard/Mouse
1
J9A2
PS2, stacked
12
Rear USB
2
J9A2
External
4
Serial Port A
1
J8A1
External
9
Serial Port B
1
J1A1
Header
9
Video connector
1
J7A1
External, D-Sub
15
LAN connector
10/100/1000
2
JA6A1, JA5A1
External LAN connector
with built-in magnetic
14
SSI Control Panel
1
J2K2
Header
24
Internal USB
1
J3K1
Header
10
Serial ATA (SATA)
2
J1J1, J1J2
Header
7
SATA/SAS
4
J1G2, J1G1, J1F1, J1E4
Header
7
System Recovery
Setting Jumpers
4
J1C2, J1C4
Jumper
3
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Revision 2.3
Intel® Server Board S5000VCL TPS
5.2
Connector / Header Locations and Pin-outs
Power Connectors
The main power supply connection is obtained using an SSI compliant 2x12 pin connector
(J9B1). Two additional power related connectors; one SSI compliant 2x4 pin power connector
(J9E1) supports additional 12V. One SSI compliant 1x5 pin connector (J9C1) provides I2C
monitors the power supply.
Table 10. Power Connector Pin-out (J3K3)
1
Pin
Signal
+3.3Vdc
Color
Orange
Pin
13
2
3
Signal
+3.3Vdc
Color
Orange
+3.3Vdc
Orange
14
-12Vdc
Blue
GND
Black
15
GND
Black
4
+5Vdc
Red
16
PS_On#
Green
5
GND
Black
17
GND
Black
6
+5Vdc
Red
18
GND
Black
7
GND
Black
19
GND
Black
8
PWR_OK
Gray
20
RSVD_(-5V)
White
9
5VSB
Purple
21
+5Vdc
Red
10
+12Vdc
Yellow
22
+5Vdc
Red
11
+12Vdc
Yellow
23
+5Vdc
Red
12
+3.3Vdc
Orange
24
GND
Black
Table 11. 12V Power Connector Pin-out (J9E1)
Pin
Revision 2.3
1
GND
Signal
Color
Black
2
GND
Black
3
GND
Black
4
GND
Black
5
+12Vdc
Yellow/Black
6
+12Vdc
Yellow/Black
7
+12Vdc
Yellow/Black
8
+12Vdc
Yellow/Black
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Intel® Server Board S5000VCL TPS
Connector / Header Locations and Pin-outs
Table 12. Power Supply Signal Connector Pin-out (J9C1)
5.3
Pin
Signal
1
SMB_CLK_ESB_FP_PWR_R
Color
Orange
2
SMB_DAT_ESB_FP_PWR_R
Black
3
SMB_ALRT_3_ESB_R
Red
4
3.3V SENSE-
Yellow
5
3.3V SENSE+
Green
Riser Card Slots
The server board has one riser card slot. The riser card slot is capable of supporting one riser
card that supports one PCI-X* 133 full-height / mid-length add-in card and one low-profile PCI
Express* x8 add-in-card.
5.4
SSI Control Panel Connector
The server board provides a 24-pin SSI control panel connector (J2K2) for use with non-Intel
chassis. The following table provides the pin-out for this connector.
Table 13. Front Panel SSI Standard 24-pin Connector Pin-out (J2K2)
1
Pin
Signal Name
P3V3_STBY
3
Key
5
FP_PWR_LED_L
7
P3V3
9
HDD_LED_ACT_R
11
FP_PWR_BTN_L
13
GND
15
Reset Button
17
GND
19
FP_ID_BTN_L
21
TEMP_SENSOR
23
FP_NMI_BTN_L
Control Panel Pin-out
Power
LED
O O
O
Cool Fault
O O
HDD
LED
O O
O O
System
Fault
Power
Button
O O
O O
LAN A
Link / Act
Reset
Button
O O
SMBus
Sleep
Button
O O
Intruder
O O
LAN B
Link / Act
O O
NMI
O O
ID LED
O O
2
Pin
Signal Name
P3V3_STBY
4
P5V_STBY
6
FP_ID_LED_L
8
FP_STATUS_LED1_R
10
FP_STATUS_LED2_R
12
LAN_ACT_A_L
14
LAN_LINKA_L
16
PS_I2C_3VSB_SDA
18
PS_I2C_3VSB_SCL
20
FP_CHASSIS_INTRU
22
LAN_ACT_B_L
24
LAN_LINKB_L
O O
ID Button
O O
O O
22
Intel order number: D64569-007
Revision 2.3
Intel® Server Board S5000VCL TPS
5.5
Connector / Header Locations and Pin-outs
I/O Connector Pinout Definition
5.5.1
VGA Connector
The following table details the pin-out of the VGA connector (J7A1).
Table 14. VGA Connector Pin-out (J7A1)
Pin
5.5.2
1
Signal Name
V_IO_R_COnN
Description
Red (analog color signal R)
2
V_IO_G_COnN
Green (analog color signal G)
3
V_IO_B_COnN
Blue (analog color signal B)
4
TP_VID_COnN_B4
No connection
5
GND
Ground
6
GND
Ground
7
GND
Ground
8
GND
Ground
9
TP_VID_COnN_B9
No Connection
10
GND
Ground
11
TP_VID_COnN_B11
No connection
12
V_IO_DDCDAT
DDCDAT
13
V_IO_HSYNC_COnN
HSYNC (horizontal sync)
14
V_IO_VSYNC_COnN
VSYNC (vertical sync)
15
V_IO_DDCCLK
DDCCLK
NIC Connectors
The server board provides two RJ45 NIC connectors oriented side-by-side on the back edge of
the board (JA6A1, JA5A1). The pin-out for each connector is identical.
Table 15. RJ-45 10/100/1000 NIC Connector Pin-out (JA6A1, JA5A1)
Pin
Revision 2.3
1
Signal Name
GND
Pin
2
P1V8_NIC
10
NIC_A_MDI0N
3
NIC_A_MDI3P
11 (D1)
NIC_LINKA_1000_N (LED
4
NIC_A_MDI3N
12 (D2)
NIC_LINKA_100_N (LED)
5
NIC_A_MDI2P
13 (D3)
NIC_ACT_LED_N
9
Signal Name
NIC_A_MDI0P
6
NIC_A_MDI2N
14
NIC_LINK_LED_N
7
NIC_A_MDI1P
15
GND
8
NIC_A_MDI1N
16
GND
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Intel® Server Board S5000VCL TPS
Connector / Header Locations and Pin-outs
5.5.3
IDE Connector
The server board includes an IDE connector that supports a single slimline optical drive such as
a CD-ROM or DVD-ROM drive. The connector has 44 pins providing support for both power and
I/O singles.
Table 16. 44-pin IDE Connector Pin-out (J2K5)
Pin
24
1
Signal Name
ESB_PLT_RST_IDE_N
2
Pin
GND
Signal Name
3
RIDE_DD_7
4
RIDE_DD_8
5
RIDE_DD_6
6
RIDE_DD_9
7
RIDE_DD_5
8
RIDE_DD_10
9
RIDE_DD_4
10
RIDE_DD_11
11
RIDE_DD_3
12
RIDE_DD_12
13
RIDE_DD_2
14
RIDE_DD_13
15
RIDE_DD_1
16
RIDE_DD_14
17
RIDE_DD_0
18
RIDE_DD_15
19
GND
20
KEY
21
RIDE_DDREQ
22
GND
23
RIDE_DIOW_N
24
GND
25
RIDE_DIOR_N
26
GND
27
RIDE_PIORDY
28
GND
29
RIDE_DDACK_N
30
GND
31
IRQ_IDE
32
TP_PIDE_32
33
RIDE_DA1
34
IDE_PRI_CBLSNS
35
RIDE_DA0
36
RIDE_DA2
37
RIDE_DCS1_N
38
RIDE_DCS3_N
39
LED_IDE_N
40
GND
Intel order number: D64569-007
Revision 2.3
Intel® Server Board S5000VCL TPS
5.5.4
Connector / Header Locations and Pin-outs
SATA Connectors
The server board provides two SATA (Serial ATA) connectors: SATA-0 (J1J2), SATA-1 (J1J1),
and four SATA (Serial ATA) / SAS (serial-attached SCSI) connectors: SATA-2 / SAS-0 (J1G2),
SATA-3 / SAS-1 (J1G1), SATA-4 / SAS-2 (J1F1), and SATA-5 / SAS-3 (J1E4).
Table 17. SATA Connector Pin-out (J1J2, J1J1)
1
Pin
Signal Name
GND
GND1
Description
2
SATA#_TX_P_C
Positive side of transmit differential pair
3
SATA#_TX_N_C
Negative side of transmit differential pair
4
GND
GND2
5
SATA#_RX_N_C
Negative side of Receive differential pair
6
SATA#_RX_P_C
Positive side of Receive differential pair
7
GND
GND3
Table 18. SATA / SAS Connector Pin-out (J1G2, J1G1, J1F1, J1E4)
Pin
1
Revision 2.3
Signal Name
GND
Description
GND1
2
SATA#_TX_P_C
Positive side of transmit differential pair
3
SATA#_TX_N_C
Negative side of transmit differential pair
4
GND
GND2
5
SATA#_RX_N_C
Negative side of Receive differential pair
6
SATA#_RX_P_C
Positive side of Receive differential pair
7
GND
GND3
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Intel® Server Board S5000VCL TPS
Connector / Header Locations and Pin-outs
5.5.5
Serial Port Connectors
The server board provides one external 9-pin Serial ‘A’ port (J8A1) and one internal 9-pin Serial
B port header (J1A1). The following tables define the pin-outs for each.
Table 19. 9-pin Serial Header Pin-out (J8A1, J1A1)
Pin
5.5.6
1
Signal Name
SPA_DCD
Description
DCD (carrier detect)
2
SPA_DSR
DSR (data set ready)
3
SPA_SIN
RXD (receive data)
4
SPA_CTS
CTS (clear to send)
5
TP_SPA_RI
RI (Ring Indicate)
6
SPA_RTS
RTS (request to send)
7
SPA_SOUT
SOUT (serial out)
8
SPA_DTR
DTR (Data terminal ready)
9
GND
Ground
Keyboard and Mouse Connector
Two stacked PS/2 ports (J9A2) are support both a keyboard and a mouse. Either PS/2 port can
support a mouse or a keyboard. The following table details the pin-out of the PS/2 connector.
Table 20. Stacked PS/2 Keyboard and Mouse Port Pin-out (J9A2)
Pin
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
26
Signal Name
KB_DATA_F
NC
GND
P5V_KB_F
KB_CLK_F
NC
MS_DATA_F
NC
GND
P5V_KB_F
MS_CLK_F
NC
GND
GND
GND
GND
GND
Description
Keyboard Data
No Connect
Ground
Keyboard / mouse power
Keyboard Clock
No Connect
Mouse Data
No Connect
Ground
Keyboard / mouse power
Mouse Clock
No Connect
Ground
Ground
Ground
Ground
Ground
Intel order number: D64569-007
Revision 2.3
Intel® Server Board S5000VCL TPS
5.5.7
Connector / Header Locations and Pin-outs
USB Connector
The following table details the pin-out of the external USB connectors (J9A2) found on the back
edge of the server board.
Table 21. External USB Connector Pin-out (J9A2)
Pin
Signal Name
1
USB_OC1_LAN
USB_Power
Description
2
USB_P1N_LAN
DATAL1 (Differential data line paired with DATAH1)
3
USB_P1P_LAN
DATAH1 (Differential data line paired with DATAL1)
4
GND
Ground
5
USB_OC0_LAN
USB_Power
6
USB_P0N_LAN
DATAH0 (Differential data line paired with DATAL0)
7
USB_P0P_LAN
DATAH0 (Differential data line paired with DATAL0)
8
GND
Ground
One 2x5 connector on the server board (J3K1) provides an option to support an additional USB
2.0 port.
Table 22. Internal USB Connector Pin-out (J3K1)
Pin
Signal Name
P5V
Description
USB Power
2
P5V
USB Power
3
USB_ESB_P5N
USB Port 5 Negative Signal
1
4
USB_ESB_P4N
USB Port 4 Negative Signal
5
USB_ESB_P5P
USB Port 5 Positive Signal
6
USB_ESB_P4P
USB Port 4 Positive Signal
7
Ground
Ground
8
Ground
9
10
Revision 2.3
Ground
--
NC
No Pin
No Conncet
Intel order number: D64569-007
27
Connector / Header Locations and Pin-outs
5.6
Intel® Server Board S5000VCL TPS
Fan Headers
The server board incorporates a system fan circuit that supports two SSI compliant 4-pin fan
connectors and one 3-pin connector. The 3-pin connector (J1K1) is for system cooling fans. The
two 4-pin fan connectors are for processor cooling fans: CPU1 fan (J2K3) and CPU2 fan (J2K4).
The 4-pin connectors can support CPU fans that draw a maximum of 1.2 amps each. The
system fan connectors can be found towards the front edge of the server board, CPU1 fan
(J2K3), CPU2 fan (J2K4) and system fan (J1K1). These connectors support a maximum fan
load of 3.5 Amps each. With the proper sensor data record (SDR) installed, Intel® System
Management Software can monitor all system fans in use.
The pin configuration for each fan connector is identical.
Table 23. CPU Fan Connector Pin-out (J2K3, J2K4)
1
Pin
Signal Name
Ground
Type
GND
Description
GROUND is the power supply ground
2
12V
Power
Power supply 12V
3
Fan Tach
Out
FAN_TACH signal is connected to the BMC to monitor the fan speed
4
Fan PWM
In
FAN_PWM signal to control fan speed
Table 24. PCI Fan Connector Pin-out (J1K1)
1
Pin
Signal Name
Ground
Type
GND
Description
GROUND is the power supply ground
2
12V
Power
Power supply 12V
3
Fan Tach
Out
FAN_TACH signal is connected to the BMC to monitor the fan speed
Note: Intel Corporation server baseboards support peripheral components and contain a
number of high-density VLSI and power delivery components that need adequate airflow to cool.
Intel’s own chassis are designed and tested to meet the intended thermal requirements of these
components when the fully integrated system is used together. It is the responsibility of the
system integrator that chooses not to use Intel developed server building blocks to consult
vendor datasheets and operating parameters to determine the amount of air flow required for
their specific application and environmental conditions. Intel Corporation can not be held
responsible if components fail or the server board does not operate correctly when used outside
any of their published operating or non-operating limits.
28
Intel order number: D64569-007
Revision 2.3
Intel® Server Board S5000VCL TPS
6.
Jumper Block Settings
Jumper Block Settings
The server board has several 3-pin jumper blocks that can be used to configure, protect, or
recover specific features of the server board. Pin 1 on each jumper block is denoted by “▼”.
6.1
Recovery Jumper Blocks
Table 25. Recovery Jumpers (J3A1, J1C1, J1C2)
Jumper Name
J3A1: BMC Force
Update
J1C4: Password
Clear
J1C2: CMOS
Clear
Revision 2.3
1-2
Pins
What happens at system reset…
BMC Firmware Force Update Mode – Disabled (Default)
2-3
BMC Firmware Force Update Mode – Enabled
1-2
These pins should have a jumper in place for normal system operation. (Default)
2-3
If these pins are jumpered, administrator and user passwords will be cleared on the next
reset. These pins should not be jumpered for normal operation.
1-2
These pins should have a jumper in place for normal system operation. (Default)
2-3
If these pins are jumpered, the CMOS settings will be cleared on the next reset. These
pins should not be jumpered for normal operation
Intel order number: D64569-007
29
Intel® Server Board S5000VCL TPS
Jumper Block Settings
Force Update
J3A1
3
3
1-2: Disabled
2-3: Enabled
CMOS CLR
J1C2
1-2: Normal
Operation (Default)
3
2-3: CLEAR CMOS
3
PASSWORD CLR
J1C4
1-2: Normal
Operation (Default)
3
2-3: CLEAR
PASSWORD
3
AF001016
Figure 8. Recovery Jumper Blocks (J3A1, J1C2, J1C4)
6.1.1
CMOS Clear and Password Reset Usage Procedure
The CMOS Clear and Password Reset recovery features are designed for 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 and remove AC power.
2. Open server.
3. Move jumper from the Default operating position (Pins1-2) to the Reset/Clear position
(Pins 2-3).
4. Wait 5 seconds.
5. Move jumper back to default position (Pins 1-2).
6. Close the server chassis.
7. Reconnect AC and power up the server.
The password and/or CMOS is cleared and can be reset in BIOS setup.
30
Intel order number: D64569-007
Revision 2.3
Intel® Server Board S5000VCL TPS
6.1.2
Jumper Block Settings
BMC Force Update Procedure
When performing a standard BMC firmware update procedure, the update utility places the
BMC into an update mode, allowing the firmware to load safely onto the flash device. In the
unlikely event that the BMC firmware update process fails due to the BMC not being in the
proper update state, the server board provides a BMC Force Update jumper which will force the
BMC into the proper update state. The following procedure should be following in the event the
standard BMC firmware update process fails.
1. Power down and remove AC power.
2. Open the server.
3. Move jumper from the Default operating position (pins1-2) to the Enabled position (pins
2-3).
4. Close the server chassis.
5. Reconnect AC and power up the server.
6. Perform the BMC firmware update procedure that is documented in README.TXT file
that is included in the given BMC Firmware Update package.
7. After successful completion of the firmware update process, the firmware update utility
may generate an error stating that the BMC is still in update mode.
8. Power down and remove the AC power.
9. Open the server.
10. Move the jumper from the Enabled position (pins 2-3) to the Disabled position (pins 1-2).
11. Close the server chassis.
12. Reconnect AC and power up the server.
Note: Normal BMC functionality is disabled with the Force BMC Update jumper set to the
“Enabled” position. The server should never be run with the BMC Force Update jumper set in
this position and should only be used when the standard firmware update process fails. This
jumper should remain in the Default – Disabled position when the server is running normally.
6.2
BIOS Select Jumper
The jumper block located at J3A2, is used to select which BIOS image the system will boot to.
Pin 1 on the jumper is identified by ‘▼’. This jumper should only be moved to force the BIOS to
boot to the secondary bank, which may hold a different version of BIOS.
The rolling BIOS feature of the server board will automatically alternate the Boot BIOS to the
secondary bank if the BIOS image in the primary bank is corrupted and cannot boot.
Revision 2.3
Intel order number: D64569-007
31
Intel® Server Board S5000VCL TPS
Jumper Block Settings
Table 26. BIOS Select Jumper (J3A2)
6.3
Pins
1-2
Force BIOS to bank 2
What happens at system reset…
2-3
System is configured for normal operation (bank 1) (Default)
PCIe Select Jumper
The jumper block located at J1E1 is used to select which PCI Express* speed to use. Pin 1 on
the jumper is identified by ‘▼’. This jumper will need to be moved to support the PCI Express
speed.
Table 27. PCI Express* x4/x8 Select Jumper (J1E1)
32
Pins
1-2
Description
PCI Express* two x4
2-3
PCI Express one x8 (Default)
Intel order number: D64569-007
Revision 2.3
Intel® Server Board S5000VCL TPS
7.
Intel® Light Guided Diagnostics
Intel® Light Guided Diagnostics
The server board has several on-board diagnostic LEDs to assist in troubleshooting board-level
issues. This section shows the location of each LED and provides a high level-usage
description. For a more detailed description of what drives the diagnostic LED operation, see
the Intel® 5000 Series Chipsets Server Board Family Datasheet.
7.1
5-Volt Standby System Status / Fault LED
Several system management features of this server board require that 5-volt standby voltage be
supplied from the power supply. The BMC within the 6321ESB, and onboard NICs require this
voltage be present when the system is off. The 5-volt Standby System Status LED is illuminated
when AC power is applied to the platform and 5-volt standby voltage is supplied to the server
board by the power supply. See the figure below to locate this LED.
System Status /
Fault LED
AF001642
Figure 9. System Status / Fault LED Location
Revision 2.3
Intel order number: D64569-007
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Intel® Server Board S5000VCL TPS
Intel® Light Guided Diagnostics
When the AC power is first applied to the system and 5-volt standby is present, the BMC on the
server board requires 15-20 seconds to initialize. During this time, the system status LED blinks
amber and green, and the power button functionality is disabled, preventing the server from
powering up. Once BMC initialization has completed, the status LED will stop blinking and the
power button functionality is restored and can be used to turn on the server.
The bi-color 5V Standby System Status LED operates as follows:
Color
Off
N/A
State
Green /
Amber
Alternating
Blink
Criticality
Not ready
Description
AC power off
Not ready
Pre-DC power on – 15-20 second BMC initialization when AC is
applied to the server. Control Panel buttons are disabled until the
BMC initialization is complete.
Green
Solid on
System OK
System booted and ready.
Green
Blink
Degraded
System degraded
Unable to use all of the installed memory (more than one DIMM
installed).
Correctable errors over a threshold of 10 and migrating to a
spare DIMM (memory sparing). This indicates that the user no
longer has spared DIMMs indicating a redundancy lost
condition. Corresponding DIMM LED should light up.
In mirrored configuration, when memory mirroring takes place
and system loses memory redundancy. This is not covered by
the bullet above.
Redundancy loss such as power-supply or fan. This does not
apply to non-redundant sub-systems.
PCI-e link errors
CPU failure / disabled – if there are two processors and one of
them fails
Fan alarm – Fan failure. Number of operational fans should be
more than minimum number needed to cool the system
Non-critical threshold crossed – Temperature and voltage
Amber
Blink
Non-critical
Non-fatal alarm – system is likely to fail
Critical voltage threshold crossed
VRD hot asserted
Minimum number of fans to cool the system not present or failed
In non-sparing and non-mirroring mode if the threshold of ten
correctable errors is crossed within the window
Amber
Solid on
Critical, nonrecoverable
Fatal alarm – system has failed or shutdown
DIMM failure when there is one DIMM present, no good memory
present
Run-time memory uncorrectable error in non-redundant mode
IERR signal asserted
Processor 1 missing
Temperature (CPU ThermTrip, memory TempHi, critical
threshold crossed)
No power good – power fault
Processor configuration error (for instance, processor stepping
mismatch)
34
Intel order number: D64569-007
Revision 2.3
Intel® Server Board S5000VCL TPS
7.2
Intel® Light Guided Diagnostics
DIMM LEDs
The server board provides a memory fault LED for each DIMM slot. The DIMM fault LED is
illuminated when the system BIOS disables the specified DIMM after it reaches a specified
number of given failures or if specific critical DIMM failures are detected. See the Intel® 5000
Series Chipsets Server Board Family Datasheet.
A
AF001525
Figure 10. DIMM LED Locations
Revision 2.3
Intel order number: D64569-007
35
Intel® Server Board S5000VCL TPS
Intel® Light Guided Diagnostics
7.3
Post Code Diagnostic LEDs
During the system boot process, BIOS executes a number of platform configuration processes,
each of which is assigned a specific hex POST code number. As each configuration routine is
started, BIOS will display the given POST code to 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, the Diagnostic LEDs can be used to identify the last POST process to be executed.
See Appendix C for a complete description of how these LEDs are read, and for a list of all
supported POST codes.
TP02312
Figure 11. POST Code Diagnostic LED Location
36
Intel order number: D64569-007
Revision 2.3
Intel® Server Board S5000VCL TPS
Power and Environmental Specifications
8.
Power and Environmental Specifications
8.1
Intel® Server Board S5000VCL Design Specifications
Operating the server board at conditions beyond those shown in the table may cause
permanent damage to the system. Exposure to absolute maximum rating conditions for
extended periods may affect system reliability.
Table 28. Server Board Design Specifications
1
Operating Temperature
0º C to 55º C (32º F to 131º F)
Non-Operating Temperature
-40º C to 70º C (-40º F to 158º F)
DC Voltage
± 5% of all nominal voltages
Shock (Unpackaged)
Trapezoidal, 50 g, 170 inches/sec
Shock (Packaged)
< 20 lbs
≥ 20 to < 40
≥ 40 to < 80
≥ 80 to < 100
≥100 to < 120
≥120
36 inches
30 inches
24 inches
18 inches
12 inches
9 inches
Vibration (Unpackaged)
5 Hz to 500 Hz 3.13 g RMS random
Operating Temperature
5º C to 50º C (32º F to 131º F)
Non-Operating Temperature
-40º C to 70º C (-40º F to 158º F)
DC Voltage
± 5% of all nominal voltages
Shock (Unpackaged)
Trapezoidal, 50 g, 170 inches/sec
Shock (Packaged) (≥ 40 lbs to < 80 lbs)
24 inches
Vibration (Unpackaged)
5 Hz to 500 Hz 3.13 g RMS random
1
Note:
1
®
®
The chassis design must provide proper airflow to avoid exceeding the Dual-Core Intel Xeon processor
5100 series or Quad-Core Intel® Xeon® processor 5300 series maximum case temperature.
Disclaimer Note: 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 air flow required for their specific application and
environmental conditions. Intel Corporation cannot be held responsible, if components fail or the
server board does not operate correctly when used outside any of their published operating or
non-operating limits.
Revision 2.3
Intel order number: D64569-007
37
Intel® Server Board S5000VCL TPS
Power and Environmental Specifications
8.2
Baseboard Power Requirements
This section provides power supply design guidelines for a system using the Intel® Server Board
S5000VCL, including voltage and current specifications and power supply on/off sequencing
characteristics.
8.2.1
Processor Power Support
The server board supports the Thermal Design Point (TDP) guideline for Dual-Core Intel® Xeon®
processors 5100 series and Quad-Core Intel® Xeon® processor 5300 series. The Flexible
Motherboard Guidelines (FMB) has also been followed to help determine the suggested thermal
and current design values for anticipating future processor needs. The following table provides
maximum values for Icc, TDP power and TCASE for the Dual-Core Intel® Xeon® processor 5100
series family and Quad-Core Intel® Xeon® processor 5300 series family.
Table 29. Dual-Core Intel® Xeon® processor 5100 series and Quad-Core Intel® Xeon® processor
5300 series TDP Guidelines
TDP Power
108 W
Max TCASE
70º C
Icc MAX
90 A
Note: These values are for reference only. The Dual-Core Intel® Xeon® processor 5100 series
and Quad-Core Intel® Xeon® processor 5300 series Datasheet contains the actual specifications
for the processor. If the values found in the Dual-Core Intel® Xeon® processor 5100 series
Datasheet are different than those published here, the Dual-Core Intel® Xeon® processor 5100
series Datasheet values will supersede these, and should be used.
8.2.2
Power Supply Output Requirements
This section is for reference purposes only. Its intent is to provide guidance to system designers
for determining a proper power supply for use with this server board. The contents of this
section specify the power supply requirements Intel used to develop a power supply for its 1U
server system.
The following table defines power and current ratings for this 400 W power supplies. The
combined output power of all outputs shall not exceed the rated output power. The power
supply must meet both static and dynamic voltage regulation requirements for the minimum
loading conditions.
38
Intel order number: D64569-007
Revision 2.3
Intel® Server Board S5000VCL TPS
Power and Environmental Specifications
Table 30. 400W Load Ratings
Voltage
1
+3.3 V
+5 V
Notes:
1.
2.
3.
4.
5.
6.
1
Minimum Continuous
1.5 A
Maximum Continuous
10 A
Peak
1.0 A
20 A
+12 V
2
0.5 A
16 A
18 A
+12 V
3
0.5 A
16 A
18 A
+12 V
4
0.5 A
16 A
+12 V
5
0.5 A
16 A
-12 V
0A
0.5 A
+5 VSB
0.1 A
3.0 A
3.5 A
Combined 3.3 V and 5 V power shall not exceed 100 W.
Maximum continuous total DC output power should not exceed 400 W.
Peak load on the combined 12 V output shall not exceed 49 A.
Maximum continuous load on the combined 12 V output shall not exceed 44 A.
Peak total DC output power should not exceed 650 W.
Peak power and current loading shall be supported for a minimum of 12 seconds.
8.2.3 Turn On No Load Operation
At power on the system shall present a no load condition to the power supply. In this no load
state the voltage regulation limits for the 3.3V and 5V are relaxed to +/-10% and the +12V rails
relaxed to +10/-8%. When operating loads are applied the voltages must regulated to there
normal limits.
Table 31. No-load Operating Range
Voltage
+3.3 V
+5 V
Notes:
1.
2.
3.
4.
Minimum Continuous
0A
Maximum Continuous
7A
Peak
0A
5A
+12 V
1
0A
5A
7A
+12 V
2
0A
5A
7A
+12 V
3
0A
6A
+12 V
4
0A
5A
-12 V
0A
0.5 A
+5 VSB
0.1 A
3.0 A
3.5 A
Maximum continuous total DC output power should not exceed 400 W.
Peak load on the combined 12 V output shall not exceed 49 A.
Maximum continuous load on the combined 12 V output shall not exceed 44 A.
Peak total DC output power should not exceed 650 W.
Revision 2.3
Intel order number: D64569-007
39
Intel® Server Board S5000VCL TPS
Power and Environmental Specifications
8.2.4
Grounding
The grounds of the pins of the power supply output connector provide the power return path.
The output connector ground pins shall be connected to safety ground (power supply enclosure).
This grounding should be well designed to ensure passing the maximum allowed
common mode noise levels.
The power supply shall be provided with a reliable protective earth ground. All secondary
circuits shall be connected to protective earth ground. Resistance of the ground returns to
chassis shall not exceed 1.0 mΩ. This path may be used to carry DC current.
8.2.5
Standby Outputs
The 5 VSB output shall be present when an AC input greater than the power supply turn on
voltage is applied.
8.2.6
Remote Sense
The power supply has remote sense return (ReturnS) to regulate out ground drops for all output
voltages: +3.3 V, +5 V, +12 V1, +12 V2, +12 V3, -12 V, and 5 VSB. The power supply uses
remote sense (3.3 VS) to regulate out drops in the system for the +3.3 V output. The +5 V, +12
V1, +12 V2, +12 V3, –12 V and 5 VSB outputs only use remote sense referenced to the
ReturnS signal.
The remote sense input impedance to the power supply must be greater than 200 Ω on 3.3 VS
and 5 VS; this is the value of the resistor connecting the remote sense to the output voltage
internal to the power supply. Remote sense must be able to regulate out a minimum of a
200 mV drop on the +3.3 V output.
The remote sense return (ReturnS) must be able to regulate out a minimum of a 200 mV drop in
the power ground return. The current in any remote sense line shall be less than 5 mA to
prevent voltage sensing errors. The power supply must operate within specification over the full
range of voltage drops from the power supply’s output connector to the remote sense points.
8.2.7
Voltage Regulation
The power supply output voltages must stay within the following voltage limits when operating at
steady state and dynamic loading conditions. These limits include the peak-peak ripple/noise.
Table 32. Voltage Regulation Limits
40
Parameter
+ 3.3V
Tolerance
- 5% / +5%
Minimum
+3.14
Nominal
+3.30
Maximum
+3.46
Units
Vrms
+ 5V
- 5% / +5%
+4.75
+5.00
+5.25
Vrms
+ 12V
- 5% / +5%
+11.40
+12.00
+12.60
Vrms
- 12V
- 5% / +9%
-11.40
-12.00
-13.08
Vrms
+ 5VSB
- 5% / +5%
+4.75
+5.00
+5.25
Vrms
Intel order number: D64569-007
Revision 2.3
Intel® Server Board S5000VCL TPS
8.2.8
Power and Environmental Specifications
Dynamic Loading
The output voltages shall remain within limits for the step loading and capacitive loading
specified in the table below. The load transient repetition rate shall be tested between 50 Hz
and 5 kHz at duty cycles ranging from 10%-90%. The load transient repetition rate is only a test
specification. The Δ step load may occur anywhere within the MIN load to the MAX load
conditions.
Table 33. Transient Load Requirements
Load Slew Rate
Test Capacitive Load
+3.3 V
Δ Step Load Size
(See note 2)
6.0 A
0.25 A/μsec
250 μF
+5 V
4.0 A
0.25 A/μsec
400 μF
12 V
18.0 A
0.25 A/μsec
2200 μF
+5 VSB
0.5 A
0.25 A/μsec
20 μF
Output
1, 2
Notes:
1. Step loads on each 12 V output may happen simultaneously.
2.
The +12 V should be tested with 2200 μF evenly split between the four +12 V rails.
8.2.9
Capacitive Loading
The power supply shall be stable and meet all requirements with the following capacitive
loading ranges.
Table 34. Capacitive Loading Conditions
Output
+3.3 V
8.2.10
Minimum
250
Maximum
6,800
Units
μF
+5 V
400
4,700
μF
+12 V
500 each
11,000
μF
-12 V
1
350
μF
+5 VSB
20
350
μF
Closed-Loop Stability
The power supply shall be unconditionally stable under all line/load/transient load conditions
including capacitive load ranges. A minimum of: 45 degrees phase margin and -10 dB gain
margin is required. The power supply manufacturer shall provide proof of the unit’s closed-loop
stability with local sensing through the submission of bode plots. Closed-loop stability must be
ensured at the maximum and minimum loads as applicable.
8.2.11
Common Mode Noise
The common mode noise on any output shall not exceed 350 mV pk-pk over the frequency
band of 10 Hz to 30 MHz.
Revision 2.3
Intel order number: D64569-007
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Intel® Server Board S5000VCL TPS
Power and Environmental Specifications
•
The measurement shall be made across a 100 Ω resistor between each of the DC
outputs, including ground, at the DC power connector and chassis ground (power
subsystem enclosure).
•
The test set-up shall use an FET probe such as Tektronix* model P6046 or equivalent.
8.2.12
Ripple / Noise
The maximum allowed ripple/noise output of the power supply is defined in the following table.
This is measured over a bandwidth of 0 Hz to 20 MHz at the power supply output connectors. A
10 μF tantalum capacitor in parallel with a 0.1 μF ceramic capacitor are placed at the point of
measurement.
Table 35. Ripple and Noise
+3.3 V
50mVp-p
8.2.13
+5 V
50mVp-p
+12 V
120mVp-p
-12 V
120mVp-p
+5 VSB
50mVp-p
Soft Starting
The power supply shall contain a control circuit which provides a monotonic soft start for its
outputs without overstress of the AC line or any power supply components at any specified AC
line or load conditions. There is no requirement for rise time on the 5 V standby, but the turn
on/off shall be monotonic.
8.2.14
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 70 ms, except for 5VSB; it is
allowed to rise from 1.0 to 25 ms. All outputs must rise monotonically. Each output voltage
shall reach regulation within 50 ms (Tvout_on) of each other during turn on of the power supply.
Each output voltage shall fall out of regulation within 400 msec (Tvout_off) of each other during
turn off. The following diagrams show the timing requirements for the power supply being turned
on and off via the AC input with PSOn held low, and the PSOn signal with the AC input applied.
Table 36. Output Voltage Timing
Item
Tvout_rise
Tvout_on
Description
Output voltage rise time from each main output.
All main outputs must be within regulation of each other
within this time.
T vout_off
All main outputs must leave regulation within this time.
*The 5 VSB output voltage rise time shall be from 1.0 ms to 25.0 ms
42
Minimum
5.0 *
Intel order number: D64569-007
Maximum
70 *
50
Units
msec
msec
400
msec
Revision 2.3
Intel® Server Board S5000VCL TPS
Power and Environmental Specifications
V out
10% V out
V1
V2
V3
V4
Tvout_rise
Tvout_off
Tvout_on
AF001023
Figure 12. Output Voltage Timing
Table 37. Turn On/Off Timing
Item
Tsb_on_delay
Description
Delay from AC being applied to 5VSB being within regulation.
T ac_on_delay
Delay from AC being applied to all output voltages being
within regulation.
Tvout_holdup
Time all output voltages stay within regulation after loss of
AC. Measured at 75% of maximum load.
21
Tpwok_holdup
Delay from loss of AC to de-assertion of PWOK. Measured at
75% of maximum load.
20
Tpson_on_delay
Delay from PSOn active to output voltages within regulation
limits.
T pson_pwok
Delay from PSOn deactive to PWOK being de-asserted.
Tpwok_on
Delay from output voltages within regulation limits to PWOK
asserted at turn on.
100
T pwok_off
Delay from PWOK de-asserted to output voltages (3.3V, 5V,
12V, -12V) dropping out of regulation limits.
1
Tpwok_low
Duration of PWOK being in the de-asserted state during an
off/on cycle using AC or the PSOn signal.
100
Tsb_vout
Delay from 5VSB being in regulation to O/Ps being in
regulation at AC turn on.
50
T5VSB_holdup
Time the 5VSB output voltage stays within regulation after
loss of AC.
70
Revision 2.3
Minimum
Maximum
1500
2500
#
Intel order number: D64569-007
msec
msec
msec
#
5
Units
msec
400
50
500
msec
msec
msec
msec
msec
1000
msec
msec
43
Intel® Server Board S5000VCL TPS
Power and Environmental Specifications
AC Input
Tvout_holdup
V out
Tpwok_low
TAC_on_delay
Tsb_on_delay
PWOK
5 VSB
Tpwok_off
Tpwok_on
Tsb_on_delay
Tpwok_on
Tpwok_holdup
Tsb_vout
Tpwok_off
Tpson_pwok
T5VSB_holdup
Tpson_on_delay
PSON
AC turn on/off cycle
PSON turn on/off cycle
AF001024
Figure 13. Turn On/Off Timing (Power Supply Signals)
8.2.15
Residual Voltage Immunity in Standby Mode
The power supply shall be immune to any residual voltage placed on its outputs (typically a
leakage voltage through the system from standby output) up to 500 mV. There shall be no
additional heat generated, nor stress of any internal components with this voltage applied to any
individual output, and all outputs simultaneously. It also should not trip the power supply
protection circuits during turn on.
Residual voltage at the power supply outputs for a no load condition shall not exceed 100 mV
when AC voltage is applied and the PSOn# signal is de-asserted.
44
Intel order number: D64569-007
Revision 2.3
Intel® Server Board S5000VCL TPS
9.
Regulatory and Certification Information
Regulatory and Certification Information
WARNING
To ensure regulatory compliance, you must adhere to the assembly instructions in this guide to
ensure and maintain compliance with existing product certifications and approvals. Use only the
described, regulated components specified in this guide. Use of other products / components
will void the UL listing and other regulatory approvals of the product and will most likely result in
noncompliance with product regulations in the region(s) in which the product is sold.
To help ensure EMC compliance with your local regional rules and regulations, before computer
integration, make sure that the chassis, power supply, and other modules have passed EMC
testing using a server board with a microprocessor from the same family (or higher) and
operating at the same (or higher) speed as the microprocessor used on this server board. The
final configuration of your end system product may require additional EMC compliance testing.
For more information please contact your local Intel Representative.
This is an FCC Class A device. Integration of it into a Class B chassis does not result in a Class
B device.
9.1
Product Regulatory Compliance
Intended Application – This product was evaluated as Information Technology Equipment
(ITE), which may be installed in offices, schools, computer rooms, and similar commercial type
locations. The suitability of this product for other product categories and environments (such as:
medical, industrial, telecommunications, NEBS, residential, alarm systems, test equipment, etc.),
other than an ITE application, may require further evaluation. This is an FCC Class A device.
Integration of it into a Class B chassis does not result in a Class B device.
9.1.1
Product Safety Compliance
•
UL60950 – CSA 60950 (USA / Canada)
•
EN60950 (Europe)
•
IEC60950 (International)
•
CB Certificate & Report, IEC60950 (report to include all country national deviations)
•
GOST R 50377-92 – Listed on one System License (Russia)
•
Belarus License – Listed on System License (Belarus)
•
CE - Low Voltage Directive 73/23/EEE (Europe)
•
IRAM Certification (Argentina)
Revision 2.3
Intel order number: D64569-007
45
Regulatory and Certification Information
9.1.2
Product EMC Compliance – Class A Compliance
•
FCC /ICES-003 - Emissions (USA/Canada) Verification
•
CISPR 22 – Emissions (International)
•
EN55022 - Emissions (Europe)
•
EN55024 - Immunity (Europe)
•
CE – EMC Directive 89/336/EEC (Europe)
•
VCCI Emissions (Japan)
•
AS/NZS 3548 Emissions (Australia / New Zealand)
•
BSMI CNS13438 Emissions (Taiwan)
•
GOST R 29216-91 Emissions - Listed on one System License (Russia)
•
GOST R 50628-95 Immunity –Listed on one System License (Russia)
•
Belarus License – Listed on one System License (Belarus)
•
RRL MIC Notice No. 1997-41 (EMC) & 1997-42 (EMI) (Korea)
9.1.3
46
Intel® Server Board S5000VCL TPS
Certifications / Registrations / Declarations
•
UL Certification or NRTL (US/Canada)
•
CE Declaration of Conformity (CENELEC Europe)
•
FCC/ICES-003 Class A Attestation (USA/Canada)
•
C-Tick Declaration of Conformity (Australia)
•
MED Declaration of Conformity (New Zealand)
•
BSMI Certification (Taiwan)
•
GOST – Listed on one System License (Russia)
•
Belarus – Listed on one System License (Belarus)
•
RRL Certification (Korea)
•
Ecology Declaration (International)
Intel order number: D64569-007
Revision 2.3
Intel® Server Board S5000VCL TPS
9.2
Regulatory and Certification Information
Product Regulatory Compliance Markings
The server board is provided with the following regulatory marks.
Regulatory Compliance
UL Mark
Region
USA/Canada
CE Mark
Europe
EMC Marking (Class A)
Canada
BSMI Marking (Class A)
Taiwan
C-tick Marking
Australia / New Zealand
RRL MIC Mark
Korea
Country of Origin
Exporting Requirements
MADE IN xxxxx (Provided by label, not silk
screen)
Model Designation
Regulatory Identification
Examples (Intel Server Board S5000VCL) for
boxed type boards; or Board PB number for nonboxed boards (typically high-end boards)
Revision 2.3
Marking
CANADA ICES-003 CLASS A
CANADA NMB-003 CLASSE A
®
Intel order number: D64569-007
47
Regulatory and Certification Information
Intel® Server Board S5000VCL TPS
9.3 Electromagnetic Compatibility Notices
9.3.1
FCC Verification Statement (USA)
This device complies with Part 15 of the FCC Rules. Operation is subject to two conditions: (1)
This device may not cause harmful interference, and (2) this device must accept any
interference received, including interference that may cause undesired operation.
Intel Corporation
5200 N.E. Elam Young Parkway
Hillsboro, OR 97124-6497
Phone: 1-800-628-8686
This equipment has been tested and found to comply with the limits for a Class B digital device,
pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable
protection against harmful interference in a residential installation. This equipment generates,
uses, and can radiate radio frequency energy and, if not installed and used in accordance with
the instructions, may cause harmful interference to radio communications. However, there is no
guarantee that interference will not occur in a particular installation. If this equipment does
cause harmful interference to radio or television reception, which can be determined by turning
the equipment off and on, the user is encouraged to try to correct the interference by one or
more of these measures:
•
Reorient or relocate the receiving antenna.
•
Increase the separation between the equipment and the receiver.
•
Connect the equipment into an outlet on a circuit different from that to which the receiver
is connected.
•
Consult the dealer or an experienced radio/TV technician for help.
Any changes or modifications not expressly 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.
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.
48
Intel order number: D64569-007
Revision 2.3
Intel® Server Board S5000VCL TPS
9.3.2
Regulatory and Certification Information
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.
9.3.3
Europe (CE Declaration of Conformity)
This product has been tested in accordance too, and complies with the Low Voltage Directive
(73/23/EEC) and EMC Directive (89/336/EEC). The product has been marked with the CE Mark
to illustrate its compliance.
9.3.4
VCCI (Japan)
English translation of the notice above:
This is a Class B product based on the standard of the Voluntary Control Council for
Interference (VCCI) from Information Technology Equipment. If this is used near a radio or
television receiver in a domestic environment, it may cause radio interference. Install and use
the equipment according to the instruction manual.
Revision 2.3
Intel order number: D64569-007
49
Regulatory and Certification Information
9.3.5
Intel® Server Board S5000VCL TPS
BSMI (Taiwan)
The BSMI Certification Marking and EMC warning is located on the outside rear area of the
product.
9.3.6
RRL (Korea)
Following is the RRL certification information for Korea.
English translation of the notice above:
1.
2.
3.
4.
5.
9.3.7
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
CNCA (CCC-China)
The CCC Certification Marking and EMC warning is located on the outside rear area of
the product.
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Intel order number: D64569-007
Revision 2.3
Intel® Server Board S5000VCL TPS
Regulatory and Certification Information
9.4 Restriction of Hazardous Substances (RoHS)
Compliance
Intel has a system in place to restrict the use of banned substances in accordance with the
European Directive 2002/95/EC. Compliance is based on declaration that materials banned in
the RoHS Directive are either (1) below all applicable substance threshold limits or (2) an
approved/pending RoHS exemption applies.
Note: RoHS implementing details are not fully defined and may change.
Threshold limits and banned substances are noted below.
•
Quantity limit of 0.1% by mass (1000 PPM) for:
•
- Lead
- Mercury
- Hexavalent Chromium
- Polybrominated Biphenyls Diphenyl Ethers (PBDE)
Quantity limit of 0.01% by mass (100 PPM) for:
-
Cadmium
Revision 2.3
Intel order number: D64569-007
51
Appendix A: Integration and Usage Tips
Intel® Server Board S5000VCL TPS
Appendix A: Integration and Usage Tips
•
When adding or removing components or peripherals from the server board, AC power
must be removed. With AC power plugged into the server board, 5-volt standby is still
present even though the server board is powered off.
•
When two processors are installed, both must be of identical revision, core voltage,
and bus/core speed. Mixed processor steppings is supported. However, the stepping
of one processor can not be greater then one stepping back of the other.
•
Processors must be installed in order. CPU 1 is located near the edge of the server
board and must be populated to operate the board.
Only fully buffered DIMMs (FBD) are supported on this server board. For a list of
supported memory for this server board, see the Intel® Server Board S5000VCL
Tested Memory List.
For a list of Intel supported operating systems, add-in cards, and peripherals for this
server board, see the Intel® Server Board S5000VCL Tested Hardware and OS List.
Only Dual-Core Intel® Xeon® processors 5100 series or low- voltage Quad-Core Intel®
Xeon® processor 5300 series, with system bus speeds of 1066, or 1333 MHz are
supported on this server board. Previous generation Intel® Xeon® processors are not
supported.
− For a complete list of supported processors, see the following link:
http://support.intel.com/support/motherboards/server/S5000VCL
•
•
•
•
•
•
52
Removing AC power before performing the CMOS clear operation will cause the
system to automatically power up and immediately power down after the procedure is
followed and AC power is re-applied. If this happens remove the AC power cord again,
wait 30 seconds, and then reconnect the AC power cord. Power up the system and
proceed to the <F2> BIOS setup utility to reset desired settings.
Normal BMC functionality is disabled with the force BMC update jumper set to the
“enabled” position (pins 2-3). The server should never be run with the BMC force
update jumper set in this position and should only be used when the standard firmware
update process fails. This jumper should remain in the default (disabled) position (pins
1-2) when the server is running normally.
When performing a BIOS update, the BIOS select jumper must be set to its default
position (pins 2-3).
Intel order number: D64569-007
Revision 2.3
Intel® Server Board S5000VCL TPS
Appendix B: Sensor Tables
Appendix B: Sensor Tables
This appendix lists the sensor identification numbers and information regarding the sensor type,
name, supported thresholds, assertion and de-assertion information, and a brief description of
the sensor purpose. See the Intelligent Platform Management Interface Specification, Version
1.5, for sensor and event/reading-type table information.
•
Sensor Type
The Sensor Type references the values enumerated in the Sensor Type Codes table in
the IPMI specification. It provides the context in which to interpret the sensor, e.g., the
physical entity or characteristic that is represented by this sensor.
•
Event / Reading Type
The Event/Reading Type references values from the Event/Reading Type Code Ranges
and Generic Event/Reading Type Codes tables in the IPMI specification. Note that digital
sensors are a specific type of discrete sensors, which have only two states.
•
Event Offset/Triggers
Event Thresholds are ‘supported event generating thresholds’ for threshold types of
sensors.
-
[u,l][nr,c,nc] upper nonrecoverable, upper critical, upper noncritical, lower
nonrecoverable, lower critical, lower noncritical
uc, lc upper critical, lower critical
Event Triggers are ‘supported event generating offsets’ for discrete type sensors.
The offsets can be found in the Generic Event/Reading Type Codes or Sensor Type
Codes tables in the IPMI specification, depending on whether the sensor
event/reading type is generic or a sensor specific response.
•
Assertion / De-assertion Enables
Assertion and de-assertion indicators reveal the type of events the sensor can generate:
-
•
As: Assertions
De: De-assertion
Readable Value / Offsets
-
Readable Value indicates the type of value returned for threshold and other nondiscrete type sensors.
Readable Offsets indicate the offsets for discrete sensors that are readable via the
Get Sensor Reading command. Unless otherwise indicated, all event triggers are
readable, i.e., Readable Offsets consists of the reading type offsets that do not
generate events.
Revision 2.3
Intel order number: D64569-007
53
Appendix B: Sensor Tables
•
Intel® Server Board S5000VCL TPS
Event Data
This is the data that is included in an event message generated by the associated
sensor. For threshold-based sensors, these abbreviations are used:
•
-
R: Reading value
T: Threshold value
Rearm Sensors
The rearm is a request for the event status for a sensor to be rechecked and
updated upon a transition between good and bad states. Rearming the sensors can
be done manually or automatically. This column indicates the type supported by the
sensor. The following abbreviations are used in the comment column to describe a
sensor:
A: Auto-rearm
M: Manual rearm
•
-
Default Hysteresis
Hysteresis setting applies to all thresholds of the sensor. This column provides the
count of hysterisis for the sensor, which can be 1 or 2 (positive or negative
hysteresis).
-
Criticality
Criticality is a classification of the severity and nature of the condition. It also controls
the behavior of the Control Panel Status LED.
-
Standby
Some sensors operate on standby power. These sensors may be accessed and / or
generate events when the main (system) power is off, but AC power is present.
•
•
54
Intel order number: D64569-007
Revision 2.3
Intel® Server Board S5000VCL TPS
Appendix C: POST Error Messages and Handling
Appendix C: POST Error Messages and Handling
Whenever possible, the BIOS will output the current boot progress codes on the video screen.
Progress codes are 32-bit quantities plus optional data. The 32-bit numbers include class,
subclass, and operation information. The class and subclass fields point to the type of hardware
that is being initialized. The operation field represents the specific initialization activity. Based on
the data bit availability to display progress codes, a progress code can be customized to fit the
data width. The higher the data bit, the higher the granularity of information that can be sent on
the progress port. The progress codes may be reported by the system BIOS or option ROMs.
The Response section in the table is divided into two types:
•
Pause: The message is displayed in the Error Manager screen, an error is logged to the
SEL, and user input is required to continue. The user can take immediate corrective
action or choose to continue booting.
•
Halt: The message is displayed in the Error Manager screen, an error is logged to the
SEL, and the system cannot boot unless the error is resolved. The user needs to replace
the faulty part and restart the system.
Table 38. POST Error Messages and Handling
Error Code
004C
Keyboard / interface error
Error Message
Response
Pause
0012
CMOS date / time not set
Pause
5220
Configuration cleared by jumper
Pause
5221
Passwords cleared by jumper
Pause
5223
Configuration default loaded
Pause
0048
Password check failed
Halt
0141
PCI resource conflict
Pause
0146
Insufficient memory to shadow PCI ROM
Pause
8110
Processor 01 internal error (IERR) on last boot
Pause
8111
Processor 02 internal error (IERR) on last boot
Pause
8120
Processor 01 thermal trip error on last boot
Pause
8121
Processor 02 thermal trip error on last boot
Pause
8130
Processor 01 disabled
Pause
8131
Processor 02 disabled
Pause
8160
Processor 01 unable to apply BIOS update
Pause
8161
Processor 02 unable to apply BIOS update
Pause
8190
Watchdog timer failed on last boot
Pause
8198
Operating system boot watchdog timer expired on last boot
Pause
0192
L3 cache size mismatch
Halt
0194
CPUID, processor family are different
Halt
0195
Front side bus mismatch
Pause
0197
Processor speeds mismatched
Pause
8300
Baseboard management controller failed self-test
Pause
8306
Front panel controller locked
Pause
Revision 2.3
Intel order number: D64569-007
55
Appendix C: POST Error Messages and Handling
Intel® Server Board S5000VCL TPS
Error Code
8305
Hotswap controller failed
Error Message
Response
Pause
84F2
Baseboard management controller failed to respond
Pause
84F3
Baseboard management controller in update mode
Pause
84F4
Sensor data record empty
Pause
84FF
System event log full
Pause
8500
Memory Component could not be configured in the selected RAS mode.
Pause
8520
DIMM_A1 failed Self Test (BIST).
Pause
8521
DIMM_A2 failed Self Test (BIST).
Pause
8522
DIMM_A3 failed Self Test (BIST).
Pause
8523
DIMM_A4 failed Self Test (BIST).
Pause
8524
DIMM_B1 failed Self Test (BIST).
Pause
8525
DIMM_B2 failed Self Test (BIST).
Pause
8526
DIMM_B3 failed Self Test (BIST).
Pause
8527
DIMM_B4 failed Self Test (BIST).
Pause
8528
DIMM_C1 failed Self Test (BIST).
Pause
8529
DIMM_C2 failed Self Test (BIST).
Pause
852A
DIMM_C3 failed Self Test (BIST).
Pause
852B
DIMM_C4 failed Self Test (BIST).
Pause
852C
DIMM_D1 failed Self Test (BIST).
Pause
852D
DIMM_D2 failed Self Test (BIST).
Pause
852E
DIMM_D3 failed Self Test (BIST).
Pause
852F
DIMM_D4 failed Self Test (BIST).
Pause
8540
Memory Component lost redundancy during the last boot.
Pause
8580
DIMM_A1 Correctable ECC error encountered.
Pause
8581
DIMM_A2 Correctable ECC error encountered.
Pause
8582
DIMM_A3 Correctable ECC error encountered.
Pause
8583
DIMM_A4 Correctable ECC error encountered.
Pause
8584
DIMM_B1 Correctable ECC error encountered.
Pause
8585
DIMM_B2 Correctable ECC error encountered.
Pause
8586
DIMM_B3 Correctable ECC error encountered.
Pause
8587
DIMM_B4 Correctable ECC error encountered.
Pause
8588
DIMM_C1 Correctable ECC error encountered.
Pause
8589
DIMM_C2 Correctable ECC error encountered.
Pause
858A
DIMM_C3 Correctable ECC error encountered.
Pause
858B
DIMM_C4 Correctable ECC error encountered.
Pause
858C
DIMM_D1 Correctable ECC error encountered.
Pause
858D
DIMM_D2 Correctable ECC error encountered.
Pause
858E
DIMM_D3 Correctable ECC error encountered.
Pause
858F
DIMM_D4 Correctable ECC error encountered.
Pause
8600
Primary and secondary BIOS IDs do not match.
Pause
8601
Override jumper is set to force boot from lower alternate BIOS bank of flash
ROM
Pause
8602
WatchDog timer expired (secondary BIOS may be bad!)
Pause
8603
Secondary BIOS checksum fail
Pause
56
Intel order number: D64569-007
Revision 2.3
Intel® Server Board S5000VCL TPS
Appendix C: POST Error Messages and Handling
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 on error conditions. The beep code is followed by a user
visible code on POST Progress LEDs.
Table 39. POST Error Beep Codes
Beeps
3
Error Message
Memory error
6
BIOS rolling back
error
POST Progress Code
Description
System halted because a fatal error related to the memory
was detected.
The system has detected a corrupted BIOS in the flash
part, and is rolling back to the last good BIOS.
The BMC may generate beep codes upon detection of failure conditions. Beep codes are
sounded each time the problem is discovered, such as on each power-up attempt, but are not
sounded continuously. Codes that are common across all Intel® server boards and systems that
use the Intel® 5000 Series Chipsets are listed in Table 40. Each digit in the code is represented
by a sequence of beeps whose count is equal to the digit.
Table 40. BMC Beep Codes
Code
1-5-2-1
Reason for Beep
CPU: Empty slot / population error – Processor
slot 1 is not populated.
Associated Sensors
CPU Population Error
Supported?
Yes
1-5-2-2
CPU: No processors (terminators only)
N/A
No
1-5-2-3
CPU: Configuration error (e.g., VID mismatch)
N/A
No
1-5-2-4
CPU: Configuration error (e.g., BSEL mismatch)
N/A
No
1-5-4-2
Power fault: DC power unexpectedly lost (power
good dropout)
Power Unit – power unit
failure offset
Yes
1-5-4-3
Chipset control failure
N/A
No
1-5-4-4
Power control fault
Power Unit – soft power
control failure offset
Yes
Revision 2.3
Intel order number: D64569-007
57
Intel® Server Board S5000VCL TPS
Appendix D: POST Code Diagnostic LED Decoder
Appendix D: POST Code Diagnostic LED Decoder
During the system boot, the BIOS executes 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 on the back edge of the server
board. The Diagnostic LEDs identify the last POST process to be 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. Each bit in the upper nibble is represented by a red LED and
each bit in the lower nibble is represented by a green LED. If both bits are set in the upper and
lower nibbles then both the red and green LEDs are lit, resulting in an amber color. If both bits
are clear, then the LED is off.
Example: The BIOS sends a value of ACh to the diagnostic LED decoder. The LEDs are
decoded as:
•
red bits = 1010b = Ah
•
green bits = 1100b = Ch
Since the red bits correspond to the upper nibble and the green bits correspond to the lower
nibble, the two are concatenated as ACh.
Table 41. Example POST Progress Code LED
8h
LEDs
ACh
1
Result
Amber
4h
Red
Green
1
2h
Red
0
Green
1
Green
1h
Red
1
Green
0
Red
MSB
USB Port
Red
0
Green
0
Off
LSB
USB Port
Diagnostic LEDs
Back edge of baseboard
MSB
LSB
Figure 14. Diagnostic LED Placement Diagram
58
Intel order number: D64569-007
Revision 2.3
Intel® Server Board S5000VCL TPS
Appendix D: POST Code Diagnostic LED Decoder
Table 42. Diagnostic LED POST Code Decoder
Diagnostic LED Decoder
G=Green, R=Red, A=Amber
MSB
LSB
Host Processor
Description
Checkpoint
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
Off
Off
R
G
Initializing a chipset component
Off
Off
A
Off
Reading configuration data from memory (SPD on DIMM)
0x23h
Off
Off
A
G
Detecting presence of memory
0x24h
Off
G
R
Off
Programming timing parameters in the memory controller
0x25h
Off
G
R
G
Configuring memory parameters in the memory controller
0x26h
Off
G
A
Off
Optimizing memory controller settings
0x27h
Off
G
A
G
Initializing memory, such as ECC init
0x28h
G
Off
R
Off
Testing memory
0x50h
Off
R
Off
R
Enumerating PCI busses
0x51h
Off
R
Off
A
Allocating resources to PCI busses
0x52h
Off
R
G
R
Hot Plug PCI controller initialization
0x53h
Off
R
G
A
Reserved for PCI bus
0x54h
Off
A
Off
R
Reserved for PCI bus
0x55h
Off
A
Off
A
Reserved for PCI bus
Chipset
0x21h
Memory
0x22h
PCI Bus
0x56h
Off
A
G
R
Reserved for PCI bus
0x57h
Off
A
G
A
Reserved for PCI bus
0x58h
G
R
Off
R
Resetting USB bus
0x59h
G
R
Off
A
Reserved for USB devices
USB
ATA / ATAPI / SATA
0x5Ah
G
R
G
R
Resetting PATA / SATA bus and all devices
0x5Bh
G
R
G
A
Reserved for ATA
0x5Ch
G
A
Off
R
Resetting SMBUS
0x5Dh
G
A
Off
A
Reserved for SMBUS
Off
R
R
R
Resetting the video controller (VGA)
SMBUS
Local Console
0x70h
0x71h
Off
R
R
A
Disabling the video controller (VGA)
0x72h
Off
R
A
R
Enabling the video controller (VGA)
R
Resetting the console controller
Remote Console
0x78h
G
R
R
0x79h
G
R
R
A
Disabling the console controller
0x7Ah
G
R
A
R
Enabling the console controller
Revision 2.3
Intel order number: D64569-007
59
Appendix D: POST Code Diagnostic LED Decoder
Intel® Server Board S5000VCL TPS
Diagnostic LED Decoder
G=Green, R=Red, A=Amber
MSB
LSB
Keyboard (PS2 or USB)
Description
Checkpoint
0x90h
R
Off
Off
R
Resetting the keyboard
0x91h
R
Off
0x92h
R
Off
Off
A
Disabling the keyboard
G
R
0x93h
R
Detecting the presence of the keyboard
Off
G
A
Enabling the keyboard
0x94h
0x95h
R
G
Off
R
Clearing keyboard input buffer
R
G
Off
A
Instructing keyboard controller to run Self Test (PS2 only)
R
Resetting the mouse
Mouse (PS2 or USB)
0x98h
A
Off
Off
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
R
Off
A
R
Detecting presence of a fixed media device (IDE hard drive detection,
etc.)
R
Off
A
A
Enabling / configuring a fixed media device
0xB2h
0xB3h
Removable Media
0xB8h
A
Off
R
R
Resetting removable media device
0xB9h
A
Off
R
A
Disabling removable media device
A
Off
A
R
Detecting presence of a removable media device (IDE CDROM
detection, etc.)
A
G
R
R
Enabling / configuring a removable media device
R
Trying boot device selection
0xBAh
0xBCh
Boot Device Selection
0xD0
R
R
Off
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
Trying boot device selection
0xDB
A
R
G
A
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
60
0xE0h
R
R
R
Off
Started dispatching early initialization modules (PEIM)
0xE2h
R
R
A
Off
Initial memory found, configured, and installed correctly
Intel order number: D64569-007
Revision 2.3
Intel® Server Board S5000VCL TPS
Checkpoint
0xE1h
0xE3h
Appendix D: POST Code Diagnostic LED Decoder
Diagnostic LED Decoder
G=Green, R=Red, A=Amber
MSB
LSB
R
R
R
G
R
R
A
G
Description
Reserved for initialization module use (PEIM)
Reserved for initialization module use (PEIM)
Driver Execution Environment (DXE) Core
0xE4h
R
A
R
Off
Entered EFI driver execution phase (DXE)
0xE5h
R
A
R
G
Started dispatching drivers
0xE6h
R
A
A
Off
Started connecting drivers
DXE Drivers
0xE7h
R
A
A
G
Waiting for user input
0xE8h
A
R
R
Off
Checking password
0xE9h
A
R
R
G
Entering BIOS setup
0xEAh
A
R
A
Off
Flash Update
0xEEh
A
A
A
Off
Calling Int 19. One beep unless silent boot is enabled.
0xEFh
A
A
A
G
Unrecoverable boot failure / S3 resume failure
Runtime Phase / EFI Operating System Boot
0xF4h
R
A
R
R
0xF5h
R
A
R
A
Exiting Sleep state
0xF8h
0xF9h
0xFAh
Entering Sleep state
A
R
R
R
Operating system has requested EFI to close boot services
(ExitBootServices ( ) has been called)
A
R
R
A
Operating system has switched to virtual address mode
(SetVirtualAddressMap ( ) has been called)
A
R
A
R
Operating system has requested the system to reset (ResetSystem ()
has been called)
Pre-EFI Initialization Module (PEIM) / Recovery
0x30h
Off
Off
R
R
Crisis recovery has been initiated because of a user request
0x31h
Off
Off
R
A
Crisis recovery has been initiated by software (corrupt flash)
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.
Revision 2.3
Intel order number: D64569-007
61
Intel® Server Board S5000VCL TPS
Appendix E: Supported Intel® Server Chassis
Appendix E: Supported Intel® Server Chassis
The Intel® Server Board S5000VCL/S5000VCLR (SATA) is supported in these Intel 1U high
density rack mount server systems: Intel® Server System SR1530CL/SR1530CLR and Intel®
Server System SR1530HCL/SR1530HCLR.
The Intel® Server Board S5000VCLSASBB/BBS5000VCLSASR (SAS) is supported in the Intel®
Server System SR1530HCLS/SR1530HCLSR.
See the Intel® Server Systems SR1535CL/SR1530HCL/SR1530HCLS and
SR1535CLR/SR1530HCLR/SR1530HCLSR Technical Product Specification for more
information.
E
D
C
B
A
F
G
H
I
A
AF001026
A
Rack handles
F
400 watt power supply
B
Slimline drive bay (drive not included)
G
Processor air duct
C
Power supply fans
H
Fan modules
I
Hard drive bays (drives not included)
®
D
Intel Server Board S5000VCL
E
PCI add-in riser assembly
Figure 15. Intel® Server System SR1530CL/SR1530CLR
62
Intel order number: D64569-007
Revision 2.3
Intel® Server Board S5000VCL TPS
Appendix E: Supported Intel® Server Chassis
F
E
D
B
C
A
G
H
M
L
K
J
I
A
H
AF001612
A
Rack handles
400 W power supply
B
Air baffle
I
Front panel board
C
Power supply fans
J
Control panel
D
Processor air duct
K
Hard drive bays (drives not included)
E
Full-height PCI riser card
L
Optical drive bay (drive not included)
F
Low-profile PCI riser card
M
Hard drive bay (drive not included)
G
Intel Server Board S5000VCL
®
Figure 16. Intel® Server System SR1530HCL/SR1530HCLR
Revision 2.3
Intel order number: D64569-007
63
Intel® Server Board S5000VCL TPS
Glossary
Glossary
Term
ACPI
Advanced Configuration and Power Interface
Definition
AP
Application Processor
APIC
Advanced Programmable Interrupt Control
ASIC
Application Specific Integrated Circuit
ASMI
Advanced Server Management Interface
BIOS
Basic Input/Output System
BIST
Built-In Self Test
BMC
Baseboard Management Controller
Bridge
Circuitry connecting one computer bus to another, allowing an agent on one to access the other
BSP
Bootstrap Processor
byte
8-bit quantity.
CBC
Chassis Bridge Controller (A microcontroller connected to one or more other CBCs, together they
bridge the IPMB buses of multiple chassis.
CEK
Common Enabling Kit
CHAP
Challenge Handshake Authentication Protocol
CMOS
In terms of this specification, this describes the PC-AT compatible region of battery-backed 128 bytes
of memory, which normally resides on the server board.
DPC
Direct Platform Control
EEPROM
Electrically Erasable Programmable Read-Only Memory
EHCI
Enhanced Host Controller Interface
EMP
Emergency Management Port
EPS
External Product Specification
ESB2
Enterprise South Bridge 2
FBD
Fully Buffered DIMM
FMB
Flexible Mother Board
FRB
Fault Resilient Booting
FRU
Field Replaceable Unit
FSB
Front Side Bus
GB
1024MB
GPIO
General Purpose I/O
GTL
Gunning Transceiver Logic
HSC
Hot-Swap Controller
Hz
Hertz (1 cycle/second)
I2C
Inter-Integrated Circuit Bus
IA
Intel® Architecture
IBF
Input Buffer
ICH
I/O Controller Hub
ICMB
Intelligent Chassis Management Bus
IERR
Internal Error
IFB
I/O and Firmware Bridge
INTR
Interrupt
IP
Internet Protocol
64
Intel order number: D64569-007
Revision 2.3
Intel® Server Board S5000VCL TPS
Term
IPMB
Intelligent Platform Management Bus
IPMI
Intelligent Platform Management Interface
Glossary
Definition
IR
Infrared
ITP
In-Target Probe
KB
1024 bytes
KCS
Keyboard Controller Style
LAN
Local Area Network
LCD
Liquid Crystal Display
LED
Light Emitting Diode
LPC
Low Pin Count
LUN
Logical Unit Number
MAC
Media Access Control
MB
1024KB
MCH
Memory Controller Hub
MD2
Message Digest 2 – Hashing Algorithm
MD5
Message Digest 5 – Hashing Algorithm – Higher Security
ms
milliseconds
MTTR
Memory Type Range Register
Mux
Multiplexor
NIC
Network Interface Controller
NMI
Nonmaskable Interrupt
OBF
Output Buffer
OEM
Original Equipment Manufacturer
Ohm
Unit of electrical resistance
PEF
Platform Event Filtering
PEP
Platform Event Paging
PIA
Platform Information Area (This feature configures the firmware for the platform hardware)
PLD
Programmable Logic Device
PMI
Platform Management Interrupt
POST
Power-On Self Test
PSMI
Power Supply Management Interface
PWM
Pulse-Width Modulation
RAM
Random Access Memory
RASUM
Reliability, Availability, Serviceability, Usability, and Manageability
RISC
Reduced Instruction Set Computing
ROM
Read Only Memory
RTC
Real-Time Clock (Component of ICH peripheral chip on the server board)
SDR
Sensor Data Record
SECC
Single Edge Connector Cartridge
SEEPROM
Serial Electrically Erasable Programmable Read-Only Memory
SEL
System Event Log
SIO
Server Input/Output
SMI
Server Management Interrupt (SMI is the highest priority nonmaskable interrupt)
SMM
Server Management Mode
Revision 2.3
Intel order number: D64569-007
65
Intel® Server Board S5000VCL TPS
Glossary
Term
SNMP
Simple Network Management Protocol
Definition
TBD
To Be Determined
TIM
Thermal Interface Material
UART
Universal Asynchronous Receiver/Transmitter
UDP
User Datagram Protocol
UHCI
Universal Host Controller Interface
UTC
Universal time coordinare
VID
Voltage Identification
VRD
Voltage Regulator Down
Word
16-bit quantity
ZIF
Zero Insertion Force
66
Intel order number: D64569-007
Revision 2.3
Intel® Server Board S5000VCL TPS
Reference Documents
Reference Documents
•
Intel® 5000 Series Chipsets Server Board Family Datasheet
Revision 2.3
Intel order number: D64569-007
67

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