OCPRF100 MP
Server System
®
Supporting Up To Eight Intel
®
™
Pentium III Xeon Processors
Technical Product Specification
Intel Order #753674-001
Revision 1.0
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OPRF100 MP Board Set Technical Product Specification
Revision 1.0
Only approved software drivers and accessories that are recommended for the revision number
of the boards and system being operated should be used with Intel products. Please note that, as
a result of warranty repairs or replacements, alternate software and firmware versions may be
required for proper operation of the equipment.
The hardware vendor remains solely responsible for the design, sale and functionality of its prod-
uct, including any liability arising from product infringement or product warranty.
The OPRF100 MP Board Set and the OCPRF100 MP Server System product may contain
design defects or errors known as errata that may cause the product to deviate from published
specifications. Current characterized errata are available on request.
2
I C is a two-wire communications bus/protocol developed by Philips. SMBus is a subset of the
2
2
I C bus/protocol and was developed by Intel. Implementations of the I C bus/protocol or the
SMBus bus/protocol may require licenses from various entities, including Philips Electronics N.V.
and North American Philips Corporation.
Copyright © 1999 Intel Corporation.
*Other brands and names are the property of their respective owners.
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OCPRF100 MP Server System Technical Product Specification
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Table of Contents
Introduction........................................................................................................................... 1
Server System Chassis and Assemblies............................................................................ 3
Front Panel Assembly....................................................................................................... 4
Front Panel Board............................................................................................................. 8
Processor Mezzanine Board............................................................................................. 9
Profusion® Carrier Tray .................................................................................................. 11
Midplane Assembly......................................................................................................... 13
I/O Carrier ....................................................................................................................... 14
Power Supply.................................................................................................................. 16
OCPRF100 MP Server System Chassis......................................................................... 16
External Chassis Features.............................................................................................. 20
Rear View of Chassis................................................................................................ 23
Riser Board External I/O Connectors........................................................................ 24
Power System........................................................................................................... 27
Cooling System......................................................................................................... 29
Front Panel Controller............................................................................................... 34
Specifications.................................................................................................................. 37
Cables and Connectors...................................................................................................... 39
Cables............................................................................................................................. 41
VGA Video Port......................................................................................................... 44
Universal Serial Bus Interface................................................................................... 45
ICMB Connectors...................................................................................................... 46
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OCPRF100 MP Server System Technical Product Specification
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Peripheral Bay Power Connector.............................................................................. 47
Peripheral Bay Backplane Header............................................................................ 48
LED Board Connector............................................................................................... 50
IDE Connectors......................................................................................................... 52
Floppy Connectors.................................................................................................... 53
AC Inlet Connector.................................................................................................... 55
Efficiency................................................................................................................... 58
DC Output Specification............................................................................................ 59
Power Supply On (Input)........................................................................................... 62
AC OK Signal (Output).............................................................................................. 62
Power Good (Output)................................................................................................ 63
Power Supply Failure Signal (Output)....................................................................... 64
Power Supply Kill (Input)........................................................................................... 65
Power Supply Field Replacement Unit Signals......................................................... 66
Fan Speed Control.......................................................................................................... 67
Thermal Protection.................................................................................................... 67
System Software................................................................................................................. 68
Profusion® Chip Set.................................................................................................. 70
Industry Standards.......................................................................................................... 71
ACPI.......................................................................................................................... 71
Boot Devices and Peripherals................................................................................... 72
Configuration............................................................................................................. 73
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OCPRF100 MP Server System Technical Product Specification
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Boot Menu................................................................................................................. 85
Regulatory Specifications.................................................................................................. 88
Safety Compliance.......................................................................................................... 88
SCSI Interface........................................................................................................... 92
Board Functions.............................................................................................................. 94
Reset......................................................................................................................... 94
LVDS Termination..................................................................................................... 97
Single Ended Termination......................................................................................... 98
Programmable Logic....................................................................................................... 98
I/O Ports.................................................................................................................. 101
CONN_SDO............................................................................................................ 103
CONN_MODE......................................................................................................... 104
Connectors.............................................................................................................. 104
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OCPRF100 MP Server System Technical Product Specification
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Mechanical Description................................................................................................. 111
Board Layout........................................................................................................... 111
Front Panel Indicator LEDs..................................................................................... 122
System Power......................................................................................................... 123
Reset....................................................................................................................... 124
Speaker................................................................................................................... 126
I2C Interfaces.......................................................................................................... 130
Appendix A: Glossary ........................................................................................................... 133
Appendix B: References ....................................................................................................... 137
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OCPRF100 MP Server System Technical Product Specification
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1. Introduction
This document provides an overview of the OCPRF100 MP server system and includes informa-
tion on cabling, connectors, power supply, and regulatory requirements.
Document Structure and Outline
This document is organized into ten chapters:
Chapter 1:
Chapter 2:
Chapter 3:
Chapter 4:
Introduction
Provides an overview of this document.
Server System Chassis and Assemblies
Provides an overview of the chassis hardware.
System Overview
Provides an overview of the system hardware.
Cables and Connectors
Describes the cables and connectors used to interconnect the OPRF100
board set and the server system components.
Chapter 5:
Chapter 6:
Chapter 7:
Chapter 8:
Power Supply
Describes the specifications for the 750-W power supply.
OCPRF100 MP Server Software
Provides an overview of the system software.
Regulatory Specifications
Describes system compliance to regulatory specifications.
Peripheral Bay Backplane Board
Describes the features and functionality of the peripheral bay backplane
board.
Chapter 9:
Peripheral Bay Board (Chassis Side)
Describes the design of the peripheral bay board (chassis side).
Chapter 10: Front Panel
Describes the design and external interface of the OCPRF100 MP server
system front panel.
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OCPRF100 MP Server System Technical Product Specification
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2. Server System Chassis and Assemblies
This chapter describes the chassis and assembly pieces that reside within the chassis. This
chapter is divided into the following areas:
•
•
•
•
•
•
•
Front panel assembly
Peripheral bay
Top cover assembly
Fan bay
Front panel board
Processor mezzanine board
Processor retention mechanism
®
•
•
•
•
•
Profusion carrier tray
Midplane assembly
I/O carrier assembly
Power supply
OCPRF100 MP server system chassis
Figure 2-1: OCPRF100 MP Server System Chassis
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OCPRF100 MP Server System Technical Product Specification
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2.1 Front Panel Assembly
The front panel assembly consists of an upper and lower bezel. The bezels serve as cosmetic
pieces only, and can be integrator specific. Finger grips are provided to make it easy to remove
the bezels. Removing the bezels exposes the front side of the fan bay, the front panel controller
(FPC) switches (power, reset, and nonmaskable interrupt (NMI)), as well as the indicator lights
(power indicator, predictive power supply failure, predictive fan failure, and hard drive failure).
From this location, the hot-swap hard drives and/or the peripheral bay may be removed from the
system.
Figure 2-2: Front Panel
2.2 Peripheral Bay
The peripheral bay is defined to be a customer specific, removable device capable of supporting
a floppy drive, dual hot-swap hard drives, and a low-voltage differential SCSI (LVDS) or single
ended SCSI device. The integrator has the option of defining the size and capacity of the hard
drives, as well as deciding whether the LVDS will support CD-ROM, tape, or other device. A sin-
gle ended SCSI channel is provided for support of a SCSI device, should the integrator so desire.
The peripheral bay is designed to be easily added and removed from the front of the server by
removing the front cover and four mounting screws. The peripheral bay connects to the
OPRF100 I/O carrier and the power supply via a blind mate board connector and cabling. The
blind mate board is located in front of the midplane board, on the left side of the server (when
viewing the server from the front). The blind mate connector connects to the peripheral bay’s
LVDS board upon insertion, thus connecting all peripheral devices to the I/O carrier.
The peripheral bay will contain a 1.4 MB floppy drive, space for a half-height 5 ¼ inch device
(typically a CD-ROM), and has two bays designed to accommodate either a 1-inch or a 1.6-inch
SCA hard drive.
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OCPRF100 MP Server System Technical Product Specification
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Figure 2-3: Peripheral Bay
2.3 Top Cover Assembly
The top cover assembly is released by removing the two retaining screws located on the top
the top cover assembly marked with the AC caution icon. The cover slides toward the rear of the
server and then lifts straight up off of the server chassis, exposing the upper portion of the server
for maintenance, upgrades, or adding components.
Tape and sheet metal work were done to the sides of the top cover assembly to provide a better
gripping surface for easier removal and replacement of the top cover assembly. Care should be
taken to avoid damage to the electromagnetic compatibility (EMC) gasket material on the inside
of the top cover.
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OCPRF100 MP Server System Technical Product Specification
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2.3.1
Hot-plug PCI Access Door
The hot-plug PCI access door is released by removing the two retaining screws (A in Figure 2-4:
Hot-plug PCI Access Door) located on the top, middle area of the server. The cover slides toward
the rear of the server and lifts straight up off of the server chassis, exposing the hot-plug PCI
cards.
The hot-plug PCI access door is designed to maintain a flush surface with the top cover assem-
bly, such that a vacuum-based hoist may be used during the assembly process.
A
B
Figure 2-4: Hot-plug PCI Access Door
2.4 Fan Bay
The fan bay is a mechanical structure designed to contain six separate 120-mm cooling fans.
These fans operate at a nominal voltage of 8.4 Vdc (2% tolerance) under normal conditions.
Each fan produces a tachometer-based output to indicate the revolutions per minute (RPM) read-
ing of the motor. Should a fan’s tachometer output drop below a predefined normal range of oper-
ation, the FPC notifies the server management software that a fan has entered into the predictive
fan failure condition. At this point, the fans will operate at an elevated voltage of approximately 12
Vdc.
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OCPRF100 MP Server System Technical Product Specification
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The fan bay will operate at high speed on the following conditions:
•
•
•
•
Internal temperature has reached an elevated, but noncritical set-point.
Ambient temperate exceeds 30°C.
A fan has entered into the predictive failure mode.
A fan has failed.
If the FPC detects a fan entering the predictive fan failure mode, the speed of all of the fans will
be increased to maintain thermal requirements. The individual fans within the fan bay are all hot-
swappable, meaning that they can be removed and inserted while the server is running. Server
management will identify that a fan has either failed or has entered into the predictive failure
mode. In both cases, the fan should be replaced immediately. Removal of a fan is accomplished
by opening the fan bay cover and pulling (A) to lift the malfunctioning fan (B) out through the top
with a new fan. The system will detect that the fan has been replaced, and as long as no other
thermal violations are currently occurring, the fan will resume operation at the reduced speed.
A
B
OM07304
Figure 2-5: Fan Bay
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OCPRF100 MP Server System Technical Product Specification
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Fans are installed with the connector on the left side facing down. The cavities in the fan bay are
keyed to prevent a fan from being installed backwards.
The fan bay is installed after the Profusion carrier assembly is installed and completely seated
into the midplane. The fan bay is lowered into the chassis until it is seated on the flanges of the
Profusion tray. Two screw holes, one on each side, should now be aligned on the sides of the
chassis. Insert screws into these holes to secure the fan bay into the chassis.
The fan bay cover is hinged at the rear and captivated by the system top cover assembly. Tabs in
the rear of the fan bay cover engage with slots on the rear of the fan bay to secure the cover in
normal operation. The fan bay cover is secured by one noncaptive screw located on the center of
the cover’s front flange. Remove the screw, slide the cover forward and lift. The cover remains
open while servicing the fans.
To remove the fan bay from the chassis, it is first necessary to remove all individual fans from the
fan bay. The fans plug directly into the front panel board and must be removed before the fan bay
can be lifted out.
The fan bay cover provides critical electromagnetic interference (EMI) containment. To avoid
electrical interference with adjacent equipment, close and secure the fan bay cover during nor-
mal system operation.
In systems with only one processor mezzanine board, an air baffle needs to be installed on the
vacant side of the CPU retention cage to ensure proper cooling for the installed processors.
2.5 Front Panel Board
The FPC board provides power and monitors the tachometer readings from each individual fan
within the fan bay. The FPC also serves as a platform for the server controller switches, and sup-
ports circuitry required for server management.
The FPC board is located on the same plane as, and connects to the Profusion carrier board via
a connector. Both the FPC and Profusion carrier board are mounted to the topside of the Profu-
sion carrier tray. On the left front edge of the FPC board are three push button switches—power,
reset, and NMI. Each switch plunger has a small black cap on its end, which is necessary for the
proper operation of the buttons on the front bezel.
tion, and insert the switches into the openings on the front flange of the Profusion carrier tray.
Lower the back of the board onto the standoffs on the tray. Align the board-to-board connectors
and slide the board back to engage the connectors. Secure with nine screws. Reverse this oper-
ation to remove the board.
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OCPRF100 MP Server System Technical Product Specification
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Figure 2-6: Front Panel Board Installation
2.6 Processor Mezzanine Board
The base configuration of an OCPRF100 MP server system consists of a single processor mez-
®
zanine board. The processor mezzanine board is designed to support one to four Pentium III
Xeon™ processors, providing power, ground and other connections to the processor(s) and to
the Profusion carrier. The processor mezzanine board incorporates integrated voltage regulator
modules (VRMs) to supply the internal voltage requirements to the processor cartridge.
2.7 Processor Retention Mechanism
The processors and termination cards are secured in their respective slots by means of the pro-
cessor retention mechanism. The processor retention mechanism holds up to eight processors
or termination cards. In the event the server is populated with only a single processor mezzanine
card, the processor retention mechanism will be populated with a total of four contiguous proces-
sors and/or terminators.
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OCPRF100 MP Server System Technical Product Specification
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A
B
C
Captive Screw
Hold-down
Air Baffle
Strap
Figure 2-7: Processor Retention Mechanism
A processor/termination card pair is secured with a hold-down strap (B) that hooks into the back
of the retention mechanism and is fastened at the front with two captive screws (A). (The reten-
tion strap is for a pair of processors or terminators). See Figure 2-7: Processor Retention Mecha-
The processor retention mechanism is secured to the mezzanine boards with the same four lock
bars that secure the mezzanine boards to the Profusion carrier board. In the event the server is
populated with only a single processor mezzanine card, an air baffle (C) must be installed on the
vacant side of the processor retention mechanism.
To remove or add a processor, first release the captive screws (A), then swing the retention strap
(B) upward. Remove the terminator card, and install the processor. Replace the retention strap
(B), and tighten the captive screw (A).
Due to space restrictions in the system, the Profusion carrier tray assembly must be removed
from the chassis to install and service the mezzanine boards. The fan bay assembly must be
removed prior to removing the Profusion carrier tray.
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OCPRF100 MP Server System Technical Product Specification
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®
2.8 Profusion Carrier Tray
The processor mezzanine boards plug into the Profusion carrier tray. The Profusion carrier tray
serves as a platform to provide power and signals to the processor mezzanine board, route sig-
nals through the 1008-pin grand connector, and carry components of the Profusion chip set.
Components of the Profusion chip set that reside on the Profusion carrier are the memory access
controller (MAC) and the data interface buffer (DIB).
The Profusion chip set allows a five-port system data bus, with concurrent switching taking place.
This is a requirement for an efficient eight-way server. The Profusion chip set will support two
processor buses (each bus containing between one and four processors), two memory buses,
and a single I/O bus. All of the buses operate at 100 MHz for maximum throughput. The data is
routed through the Profusion tray, into the midplane connector for distribution to the appropriate
source (memory carriers or the I/O carrier).
C
A
B
Lock Bar
Alignment Tabs
Lock Bars
Release Handle
Figure 2-8: Profusion® Carrier Tray
Assembly of the Profusion carrier board, and mezzanine boards to the Profusion carrier tray, is
performed outside the chassis. To start the assembly, install the Profusion carrier to the Profusion
tray by aligning the eight tabs on the tray with the slots on the board (See Figure 2-8 (A)). Next,
install the FPC board by passing the FPC switches through the switch openings in the tray and
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OCPRF100 MP Server System Technical Product Specification
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then moving back into place for connection to the Profusion carrier board. Place the four lock
bars over the protruding tabs and onto the Profusion carrier board (B). The release handles of
the lock bars (C) should be pointed to the outside of the board and they should be in the unlocked
position. Place the first mezzanine board on the left side of the Profusion carrier board, oriented
so the mezzanine board does not extend over the 1008-pin grand connector on the Profusion
carrier board. Press down in the center of the mezzanine board until it is seated down onto the
lock bars. If the configuration calls for a second mezzanine board, install it on the right side of the
Profusion carrier board by following the same steps as described for the first board.
2
2
1
1
3
3
Figure 2-9: Profusion® Carrier Tray
Lower the processor retention mechanism onto the mezzanine board(s), aligning the hooks on its
bottom with the slots in the mezzanine board(s). The processor retention mechanism should be
oriented such that the center notch for the coherency filters is facing forward. Engage the four
lock bars by pushing in on their ends until they click. The Profusion carrier tray assembly is now
ready for installation in the chassis.
To install the Profusion carrier tray assembly into the chassis, set the tray on the tray supports on
the inside walls of the chassis and slide it towared the midplane. The tray and chassis have self-
aligning features to help guide the tray as it approaches the grand connector on the midplane.
When the connectors are within approximateily 1” from connecting, check under the Profusion
carrier tray for proper engagement of the center supports. The insertion/extraction levers (3) on
the side of the tray should be tilted forward as the connectors approach each other. As the con-
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OCPRF100 MP Server System Technical Product Specification
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nectors begin to engage, rotate the levers back until the connectors are fully engaged. Levers
should be in an upright or near upright position. Secure the tray and the processor retention
mechanism to the sides of the chassis with screws (1) and (2) as indicated in Figure 2-9.
2.9 Midplane Assembly
The midplane assembly serves as an interconnect between the power supplies, memory boards,
Profusion carrier, and the I/O carrier. With the exception of limited server management and field
replaceable unit (FRU) components, the midplane assembly serves merely as an interconnection
device, routing the signals between the boards, while maintaining the signal integrity required for
the 100-MHz buses.
Figure 2-10: Midplane Assembly
The midplane assembly is installed into the OCPRF100 MP server system chassis by rotating the
assembly about two alignment structures. The assembly is secured by a total of four screws, two
screws are located on each side of the system. All four screws must be removed to extract the
midplane assembly. The tab on the midplane assembly is used to manage the cables between
the I/O baseboard and the peripheral blind-mate board.
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OCPRF100 MP Server System Technical Product Specification
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Figure 2-11: Midplane Assembly Installed in System
2.10 I/O Carrier
The I/O carrier is the interface that connects the I/O port of the Profusion chip set to the following:
•
•
Ten hot-swappable PCI slots (four of which support 66-MHz transactions).
Legacy connector (video, keyboard, serial, parallel, USB, and Intelligent Chassis Man-
agement Bus (ICMB) ports).
•
•
Dual LVDS.
Internal IDE buses, floppy disk, disk drives, and SCSI connectors for peripheral support.
The PCI hot-plug (PHP) I/O carrier, legacy connector, LVDS connectors, ICMB board, and
enhanced PCI hot-plug board are assembled onto the I/O carrier tray. The PCI hot-plug base
shield is assembled and mounted over the PHP I/O board, and secured by six screws. The PHP
slot dividers snap onto the PHP base shield.
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OCPRF100 MP Server System Technical Product Specification
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Figure 2-12: I/O Carrier Tray
The I/O carrier tray features tabs on the base of the tray that engage into slots on the horizontal
members in the chassis. Lower the tray from the top of the system and slide the tray toward the
center of the chassis using the two insert/extract handles located on the back of the tray. Secure
the I/O carrier tray to the chassis with the four screws located on the sides and back of the chas-
sis.
Figure 2-13: Installing the I/O Carrier Tray
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OCPRF100 MP Server System Technical Product Specification
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The PHP mechanism is a rotating part that actuates a switch located on the PHP board. There
are four light emitting diodes (LEDs) per slot--two can be viewed from the rear of the system and
two from inside the system. Once the LED shows which slot is powered down, the PHP mecha-
nism can be depressed on the PHP actuator and the mechanism can be rotated out of place to
remove the PCI card. Once the new PCI card is installed, rotate the PHP mechanism back into
place to activate the switch and secure the PCI card.
Figure 2-14: PHP Mechanism
2.11 Power Supply
The OCPRF100 MP server system power supply operates at 208 - 220 Vac, or 100 - 115 Vac is
rated at 750 watts, and is designed to be hot-swappable, with a 2+1 redundancy factor. Each
power supply has indicators showing correct operation, failure, and predictive failure. A power
supply displaying the predictive failure LED still will operate corectly, but needs to be sent out for
repair as quickly as possible. The predictive failure feature is designed to warn the operator of an
impending power supply failure.
2.12 OCPRF100 MP Server System Chassis
The system chassis is the rack-mount chassis used in the system. The system chassis is
designed to house all of the components listed above within a 7Ux 32” (+/-) deep space, and
mount in a 19-inch rack. The chassis itself is 28” deep with the extra 4” to account for cable man-
agement. The chassis was engineered to provide easy access to perform maintenance,
upgrades, add memory, and add or remove PCI cards.
The functional server weighs between 120 and 140 pounds, depending on internal configura-
tions. The chassis is designed to provide adequate thermal cooling of all devices within an ambi-
ent temperature of 10° to 40°C, while maintaining noise levels below 57 dB. If the ambient
temperature exceeds 30°C, the fans in the fan bay will switch to high speed, cooling the system
to operational values. Server management will log that a thermal excursion has occurred. Sev-
eral internal heat sensors will monitor the temperature at key points inside the server. Should any
of these sensors indicate that the temperature has exceeded a critical thermal set-point, server
management will log the event, and the server will be shut down gracefully, according to user
setup.
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OCPRF100 MP Server System Technical Product Specification
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3. System Overview
This chapter describes the features of the OCPRF100 MP server system chassis.
System Features
Table 3-1 provides a list and brief description of the features of the OCPRF100 MP server sys-
tem, which utilizes the OPRF100 board set.
Table 3-1: OCPRF100 MP Server System Feature List
Feature
Description
®
Upgradeability
The system can be upgraded to future processors within the Pentium III
Xeon™ processor family.
PCI hot plug
The chassis with the OPRF100 board set supports 10 64-bit PCI hot-plug
slots (four at 66 MHz, six at 33 MHz).
Compact, high-density system
Redundant power
The system size is a 7U (12.25-inch) rack-mount server.
The system supports three 750-W power supplies in a redundant (2 + 1)
configuration.
Redundant cooling
Six system fans in a redundant (5+1) configuration cool the upper system
(CPU and I/O). Three internal power supply fans cool the lower system
(memory, peripheral bay, and power supplies) in a redundant configuration
when the power supply configuration is redundant (2+1).
Modular peripheral bay
The peripheral bay supports one floppy disk drive, one 5.25-inch half-
height device, and two 3.5-inch by 1.0- or 1.6-inch hot-swappable LVDS
SCSI hard drives.
Front panel liquid crystal display
(LCD)
A two line LCD provides the system status.
Intelligent Management Platform Ini-
tiative (IPMI) compliant
Intelligent Platform Management Bus (IPMB) for intrachassis communica-
tion is provided. Emergency management port (EMP) is used for remote
management.
3.1 Introduction
The scalable architecture of the OCPRF100 MP server system supports symmetrical multipro-
cessing (SMP) and a variety of operating systems (OS). The server provides 10 PCI card slots.
The Profusion carrier contains connectors for installing up to eight Pentium III Xeon processors
packaged in single-edge contact cartridges (SECC). Each of the two memory carriers supports
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OCPRF100 MP Server System Technical Product Specification
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up to 16 GB of error correction code (ECC) PC-100 compatible registered DIMMs. The I/O carrier
contains four 66-MHz and six 33-MHz 64-bit hot-swap PCI slots, I/O ports, and various control-
lers.
Figure 3-1: OCPRF100 MP Server System Chassis with Peripheral Bay shows an isometric view
of the chassis with the peripheral bay installed.
Figure 3-1: OCPRF100 MP Server System Chassis with Peripheral Bay
out of the OPRF100 board set with respect to location within the chassis. The Profusion carrier
and I/O carrier are mounted horizontally, with the Profusion carrier toward the front of the chassis
and the I/O carrier immediately behind at the rear of the chassis. The midplane distributes power
and signal connections to all boards. The midplane resides between the Profusion carrier and the
I/O carrier, and interconnects these carriers with the memory carriers and system power sup-
plies. The front panel resides in front of the Profusion carrier in the same plane and provides the
user interface, system management, and cooling system power and control.
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OCPRF100 MP Server System Technical Product Specification
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I/O Riser Board
I/O Carrier
Profusion Carrier
Front Panel
Power Supplies
Midplane
Memory Carriers
Figure 3-2: OPRF100 Board Set/System Board Locations within Server Chassis
The peripheral bay mounted at the lower front of the chassis supports a 3.5-inch floppy drive, a
half-height 5.25-inch device (e.g., CD-ROM) and two 3.5-inch by 1.0- or 1.6-inch hot-swap hard
drives. SCSI drives in the hot-swap hard drive bays can be hot-swapped without shutting down
the server.
The chassis supports up to three hot-swap, redundant power supplies in a 2+1 configuration.
These supplies provide redundant and hot-swappable cooling to the memory carriers and periph-
erals when the power supplies are in a redundant configuration. A cover plate for the unoccupied
power supply location is supplied for systems without redundancy, and should be used to provide
adequate cooling and EMI shielding.
The system design provides a hot-swap, redundant (5+1) cooling system for the Profusion and I/
O carriers. Basic controls and indicators are located on the front panel.
The front bezel can be customized for integrators to meet their industrial design requirements.
The front bezel contains openings to provide adequate cooling for the chassis components and
access to the peripherals.
Figure 3-3: OCPRF100 MP Server System Chassis Block Diagram shows a block diagram of the
server system.
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OCPRF100 MP Server System Technical Product Specification
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FRU
LCD
FAN
FPC flash
LEDs
FPC RAM
FPC
Front Panel
Memory Carrier
(16 DIMMs)
Temp
IPMB, I2C
Pentium®III
Xeon™
Processor
Profusion*
Carrier
FRU
Temp
Temp
FRU
Temp
Temp
FRU
FRU
FRU
Pentium®III
Xeon™
Temp
Processor
FRU
Processor
Mezzanine
Board
Processor
Mezzanine
Board
Volt
FRU
Status
Hot Swap
Power
Supply
I2C,
PIIX4E SMBus
FRU
FRU
IPMB, I2C
FRU
FRU
Cache
Coherency
Board
Cache
Coherency
Board
Hot Swap
Power
Supply
Midplane
Power
Distribution
(optional)
(optional)
IPMB, I2C, PIIX4E SMBus
Volt
Volt
Temp
LVDS Disk Backplane
FRU
Temp
PB64
33MHz
PB64
PB64
PB64
Status
Hot Swap
Power
Supply
HSC flash
33MHz
PCI
66MHz
PCI
66MHz
PCI
Temp
HSC RAM
BMC flash
BMC
BMC RAM
BMC
PCI
FRU
All slots are
64-bit &
Hot- Plug
HSC
SEEPROM
Intelligent
Chassis
Management
Bus PBA
SDR
FRU
IPMB
kbd
mouse
serial
serial
parallel
video
icmb
IPMB,
I2C
SCSI I/F
SEL
FRU
I/O riser
card
SMIC
icmb
icmb
Drive Slots
ISA Bus
I/O Carrier
Intelligent
Chassis
Mgt. Bus
64b PCI
Add In Card
64b PCI
Add In Card
64b PCI
Add In Card
64b PCI
Add In Card
external
PCI Hot-Plug LED/Switch Board
Figure 3-3: OCPRF100 MP Server System Chassis Block Diagram
3.2 External Chassis Features
3.2.1
Front View of Chassis
The front bezel of the server has two main user-accessible areas:
Front panel liquid crystal display (LCD), switches and indicators.
Replaceable media bays—floppy drive and 5.25-inch half-height bay.
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A B C
D E F G
H
I J K L M N
O P Q
Figure 3-4: Front View of Chassis with No Bezel
Table 3-2: System Features – Front
Item
Feature
Description
Front Panel Controls and Indicators
A
B
Power switch
Reset switch
When pressed, turns the DC power inside the server on or off.
When pressed, resets the server and causes the power-on self-test
(POST) to run.
C
D
NMI switch
When pressed, causes a nonmaskable interrupt (NMI). This switch is
recessed behind the front panel to prevent inadvertent activation. (The
switch must be pressed with a narrow tool.)
Power (LED) (green)
When continuously lit, indicates the presence of DC power in the server.
The light emitting diode (LED) goes out when the power is turned off or
when the power source is disrupted. When flashing, indicates the system is
in advanced configuration and power interface (ACPI) sleep mode.
E
Power fault LED (yellow) When continuously lit, indicates a power supply failure. When flashing, indi-
cates a 240 VA overload shutdown and power control failure.
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Table 3-2: System Features – Front
F
Fan fault LED (yellow)
Drive fault LED (yellow)
When lit, indicates either a fan failure, or that a predictive fan failure has
been detected in the server.
G
When continuously lit, indicates an asserted fault status on one or more
hard disk drives in the hot-swap bay. When flashing, indicates drive rebuild
in progress.
H
Front panel LCD
Displays information about processor type and failure codes.
(Items I through L on are control buttons for the CD-ROM, and the location may vary from manufacturer to manu-
facturer.)
3.5-inch Floppy Diskette Drive Descriptions
M
N
Activity LED
When lit, indicates the drive is in use.
When pressed, ejects the diskette.
Ejector button
Status LEDs for SCSI Drives in Hot-swap Bays
O
Drive power LED
(green)
When continuously lit, indicates the presence of the drive and that drive is
powered on.
P
Drive activity LED
(green)
When flashing, indicates drive activity.
Q
Drive fault LED (yellow)
When continuously lit, indicates an asserted fault status on one or more
hard disk drives in the hot-swap bay. When flashing, indicates that drive
rebuild is in progress.
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3.2.2
Rear View of Chassis
A
B
C
D
E
G
H
I
F
Figure 3-5: Rear View of Chassis
Table 3-3: System Features – Rear
Item
A
Description
PCI add-in board slots.
B
External LVDS connector.
ICMB connectors in/out.
I/O riser board.
C
D
E
AC input power connector.
Three power supplies.
F
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Table 3-3: System Features – Rear
G
H
I
PWR LED (green) – power condition – refer to Chapter Power Supply for details.
FAIL LED (yellow) – failure condition – refer to Chapter Power Supply for details.
PR_FL LED (yellow) – power supply fan predictive failure – refer to Chapter Power Supply for details.
3.2.3
Riser Board External I/O Connectors
Figure 3-6: Riser Board External I/O Connectors
Table 3-4: Riser Board External I/O Connectors
Item
A.
Description
Serial port 1 (COM1), 9-pin RS-232 connector.
Parallel port, 25-pin bidirectional connector.
B.
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Table 3-4: Riser Board External I/O Connectors
USB ports 0 (upper) and 1 (lower).
C.
D.
E.
F.
Super VGA compatible, 15-pin video connector.
Serial port 2 (COM2), 9-pin RS-232 connector.
PS/2-compatible keyboard port.
G.
H.
I.
PS/2-compatible mouse port.
ICMB port, SEMCONN* 6-pin connector.
ICMB port, SEMCONN 6-pin connector.
3.2.4
Peripheral Bay
An optional peripheral bay provides the following:
•
•
•
One 3.5-inch floppy drive bay
One 5.25-inch user-accessible drive bay for removable media
Two 3.5-inch by 1.0- or 1.6-inch hot-swap bays for SCSI SCA hard disk drives
A
B
C
Figure 3-7: Chassis Drive Bays
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Table 3-5: I/O External Connectors
Item
A
Bay
Description
3.5-inch bay
3.5-inch floppy drive.
B
5.25-inch half-height bay
3.5-inch by 1.0- or 1.6-inch bays
5.25-inch half-height peripheral drive.
Two hot-swap capable hard drives.
C
3.2.5
3.5-inch User-accessible Drive Bay
The system ships from the factory without the peripheral bay installed.
3.2.6
5.25-inch User-accessible Drive Bay
The system ships from the factory without the peripheral bay installed.
Note: Installation of hard disk drives in the 5.25-inch user-accessible bay is not recommended
due to cooling and EMI constraints.
3.2.7
3.5-inch SCSI Hot-swap Drive Bays
Two 3.5-inch hot-swap capable bays support either 1.0- or 1.6-inch high SCA SCSI hard disk
drives. These bays are accessible following removal of the lower bezel section. The wide LVDS
SCSI hot-swap backplane provides industry standard 80-pin SCA-2 connectors for two drives.
Two wide/fast-20 SCSI III SCA type hard disk drives can be installed in these bays. The wide
LVDS SCSI hot-swap backplane is designed to accept drives that consume up to 28 watts of
power and run at a maximum ambient temperature of 50°C (112°F).
Extruded aluminum drive carriers with integral heat sinks that accommodate 3.5-inch wide by
either 1.0- or 1.6-inch high drives are required as part of the hot-swap implementation. The car-
rier is attached to the drive with four fasteners, and is retained in the chassis by a locking handle.
The LEDs below each drive display individual drive status. There are three LEDs for each drive:
a power on (green) LED; an activity (green) LED; and a fault (yellow) LED. A fault LED on the
front panel board also indicates a fault on these drives.
Note: Because all hard drives have different cooling, power and vibration characteristics, Intel
will not validate hard drive types in the system chassis. Refer to the OCPRF100 MP Server Sys-
tem Validation Summary document for a list of these drives.
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3.3 Internal Chassis Features
3.3.1
Power System
Three 750-W supplies in a standard configuration provide the modular power system for the sys-
tem. The power system may be configured with three power supplies (2+1) for power redun-
dancy, or with two supplies in a nonredundant configuration. The power supplies are mounted in
a row at the rear bottom of the chassis. A single AC power cord provides power to the daisy-
chained supplies.
When the server is configured with three power supplies, the user can hot swap a failed supply
without affecting system functionality.
The midplane provides power distribution of the internal power system with minimal active cir-
cuitry. The power distribution circuitry reports quantity and location of the installed power supplies
2
through I C* server management.
Two 750-W, 208-Vac supplies are capable of handling power requirements for the OPRF100
board set and peripherals. For the OPRF100 board set, this includes eight Pentium III Xeon pro-
cessors, 32 GB of memory and two 1.6-inch hard drives.
The Profusion carrier provides headers for two processor mezzanine boards, each providing four
slots for Pentium III Xeon processors. Each mezzanine board has six integrated VRM 8.3 com-
patible voltage converters. The converter input is +12 Vdc from the power supply. Each Pentium
III Xeon processor core has its own converter. One converter provides power for a pair of Pen-
tium III Xeon processor L2 caches.
The total power requirement for the OPRF100 board set exceeds the 240 VA energy hazard limit
that defines an operator accessible area. As a result, only qualified technical individuals should
access the processor, memory, and non-hot-plug I/O carrier areas while the system is energized.
Table 3-6: System Power Budget – Current (A) and Power (W)
Units
+3.3 V
+5 V
+12 V
-12 V
+5
Power
Power
OCPRF100 MP Server
System Power Budget
VSB
Board
Spec
Units
+3.3 V
+5 V
+12 V
-12 V
+5
VSB
I/O Carrier
Min. Load
Adc
Adc
Adc
0.20
7.99
2.00
0.70
45.20
12.17
0.00
5.00
4.50
0.20
1.20
0.25
0.65
0.75
0.10
9.81
Max. Load
Max. Step Load
330.52
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Table 3-6: System Power Budget – Current (A) and Power (W)
Profusion®
Carrier w/
Min. Load
Adc
Adc
Adc
4.60
12.00
2.00
0.75
1.50
0.75
0.25
46.00
18.00
0.000
0.000
0.00
0.00
21.93
Max. Load
599.10
Mezzanines
Max. Step Load
Front Panel
Min. Load
Adc
Adc
Adc
0.00
0.00
0.05
0.23
0.18
2.00
5.40
0.10
0.001
0.010
0.001
0.10
0.25
0.15
24.76
67.32
Max. Load
Plugs into
Max. Step Load
Profusion Carrier
Memory Carrier 1
Min. Load
Adc
Adc
Adc
1.20
23.00
8.00
0.00
0.00
0.00
0.00
0.000
0.000
0.00
0.00
3.96
Max. Load
75.90
Max. Step Load
Memory Carrier 2
Min. Load
Adc
Adc
Adc
0.00
23.00
8.00
0.00
0.00
0.00
0.00
0.000
0.000
0.00
0.00
0.00
(Note: 2)
Max. Load
75.90
Max. Step Load
Peripherals
Min. Load
Adc
Adc
Adc
0.00
0.00
0.70
4.50
0.90
0.25
5.99
5.40
0.000
0.000
0.00
0.00
6.50
(SCSI Backplane)
Max. Load
94.38
Max. Step Load
Midplane
Min. Load
Max. Load
Adc
Adc
0.01
0.01
0.01
0.20
Total min. load
Max. step di/dt
Adc
Adc
A/uS
Adc
6.00
20.00
0.50
2.20
14.00
1.00
2.50
28.00
0.60
0.20
0.25
0.10
1.21
0.75
0.25
0.10
1.00
66.96
Total max. step load
Total max.
load
66.00
51.44
62.40
Total load
power:
1243.32
W
217.8
257.2
748.80
14.52
5
1243.3
2
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Table 3-6: System Power Budget – Current (A) and Power (W)
Total power (includes 2% distribution loss)
1268.1
9
Notes:
1. There is no 240 VA protection circuit in the OCPRF100 MP server system.
2. Minimum load for second memory carrier is zero; assumes no carrier is installed.
3.3.2
Cooling System
Description
3.3.2.1
There are two independent cooling subsystems:
The upper system, encompassing the front panel, Profusion carrier, and I/O carrier.
The lower systems, encompassing the memory carriers, peripheral bay, and power supplies.
Air flows in through the bezel and exhausts out the rear of the chassis.
Cooling system redundancy to the upper system is provided by the 5+1 redundant fans at the
front top of the system. All systems come with redundant cooling for the upper area in standard
factory configuration with six upper system fans. Each fan provides tachometer signal output to
the front panel to indicate a fan failure. There may be time limit restrictions on the service time for
fan and PCI hot-plug card replacement.
Cooling system redundancy of the lower system is provided by the 2+1 system power supplies.
Each power supply fan provides tachometer signal output. A power supply fan failure is indicated
at the front panel as a predictive power supply failure. There may be time restrictions on the ser-
vice time for power supply hot swap replacement.
3.3.2.2
Redundancy and Ambient Temperature Control
3.3.2.2.1 System Fans
The front panel provides either of two fan input voltages to the system fans. Under normal ambi-
ent room conditions (less than 30°C), the front panel supplies 8.4 Vdc to the system fans. When
a system fan fails or when the room ambient temperature exceeds 30°C, the fan input voltage is
increased to 12 Vdc. Following a room temperature excursion above 30°C, the fan voltage does
not change back to 8.4 Vdc until the room temperature drops below 28°C and all system fans are
operational.
3.3.2.2.2 Power Supply Fans
The power supply fans are controlled independently by each supply. The ambient temperature
sensed at the inlet to each supply is used as the input to a control circuit, which continuously var-
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OCPRF100 MP Server System Technical Product Specification
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ies the fan input voltage. At 28°C ambient temperature, the fan input voltage is 8.0 ± 0.5 Vdc, and
at 35°C, the fan input voltage is 13.5 Vdc.
3.3.2.3
Cooling Summary
The system fans are sized to provide cooling for up to eight Pentium III Xeon processors. The
power supply fans are sized to cool both fully populated SDRAM board sets, two hot-swap hard
drives, and for maintaining power supply function under a full load condition. The cooling system
is designed using a worst case analysis with no margin under a single fan failure (system or
power supply fan) condition. The environmental conditions are summarized in Section Specifica-
system components when system and power supply fans are operating with 12 Vdc input. The
lower fan speed settings were chosen to meet acoustic and thermal requirements.
Profusion*
Carrier
I/O
Carrier
70 CFM (12 Vdc Input)
70 CFM (12 Vdc Input)
70 CFM (12 Vdc Input)
Pentium (R)
III Xeon (TM)
64b PCIAdd-inCard
PB64
PB64
210 CFM (12
Vdc)
Pentium III
Xeon
PB64
64b PCI Add-in Card
Processor
PB64
50 CFM (13.5 Vdc fan
input voltage)
750 W Power Supply
150 CFM
(Maximum w/ all
power supply
fans functioning)
50 CFM (13.5 Vdc fan
input voltage)
750 W Power Supply
750 W Power Supply
12
CFM/
HDA
Hot-Swap Hard Drive
Backplane
50 CFM (13.5 Vdc fan
input voltage)
Figure 3-8: OCPRF100 MP Server System Cooling
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3.3.3
PCI Hot-plug
Description
3.3.3.1
PCI hot plug (PHP) is the concept of removing or inserting a standard PCI adapter card from a
system without stopping the software or powering down the system as a whole.
“Hot Replace” means the user can replace a PCI card with an identical card. The replacement
card will use the same PCI resources assigned to the previous card. OS support is required for
this function.
“Hot Add” means the user can add a PCI card to a previously unoccupied slot. The system BIOS
needs to reserve PCI resource space for the added adapter card upon boot.
“Hot Upgrade” means to replace an existing adapter card with a new version of the card and/or
driver. A hot upgrade is not actually a unique operation. It is implemented as a hot removal fol-
lowed by a hot addition.
3.3.3.2
Hardware Components
Intel has licensed the hardware technology and methods for the implementation of PHP, which
conform to the PCI Hot-plug Specification. The basic components are:
•
•
•
Power cycling and reset generation hardware that complies with the PCI Local Bus Spec-
ification, Rev. 2.1.
Bus isolation switches to physically disconnect the PHP capable card from the PCI bus
(these switches are located on the I/O carrier between each PHP PCI card).
Indicators (LEDs), located on the PHP LED/switch board, provide service personnel with
positive slot identification (these LEDs are visible when viewed from above the I/O carrier,
and can be seen from the rear of the system through holes in the chassis).
•
•
Electromechanical hardware to prevent accidental insertion/removal from a live slot (a
PHP switch is provided for each slot; when disengaged this switch immediately removes
power from that slot. Normal slot power down should be through the control utility
Protection hardware to isolate the live components of the system from the card being
inserted/removed (a mechanical barrier prevents access to the I/O carrier and Profusion
carrier components, and is present between PCI cards; each PHP PCI connector is lim-
ited to 240 VA).
•
A controller element which controls the above hardware and provides an interface for sys-
tem software.
3.3.3.3
Software Components
The main software components for a PHP system are:
Hot-plug User Interface
•
Provides user with access to the hot-plug control panel
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•
•
•
Receives user input and sends requests to the service layer
Displays the status of the PCI slot
Provides user with access to PHP functions that may be available through multiple inter-
faces
Hot-plug Service
•
•
Provides communication between the user interface and the hot-plug controller driver and
is responsible for configuring, loading, and unloading the adapter driver component
Puts the system into a quiescent state through the hot-plug adapter card by making stan-
dard system calls
•
•
Provides communication to the hot-plug controller
Reports status to the hot-plug user interface
Hot-plug Driver
•
•
•
Communicates a hot-plug request from the system’s service layer
Provides a software bridge to the PCI hot-plug hardware
Drives the hot-plug controller
BIOS
•
•
•
Supplies initialization of the hot-plug hardware components
Provides DIMM ID monitoring and presence detection
Provides Advanced Configuration and Power Interface (ACPI) table generation
Adapter Drivers
•
•
•
For Windows NT* 4.0, changes need to be made to standard miniport drivers.
For SCO* UnixWare* Version 7.01, the driver must be DDI-8 compliant.
For Novell* NetWare* Version 5.0, the driver must comply with the NWPA 2.32 or ODI
3.31 specifications.
3.3.3.4
PCI Hot Plug Mechanical Implementation
. The mechanical retention solution includes the following items:
•
•
•
•
LED PC board
Cable between LED board and the I/O carrier baseboard
Rocker mechanism
Plastic card guide/retention mechanism to secure the rear of each installed PCI card
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•
A 240 VA protective shield on the I/O baseboard and the plastic dividers between PCI
slots
The LED PC board contains both the green and amber LEDs, as well as the switch that controls
the PCI slot power. These items will no longer reside on the I/O carrier baseboard. This LED
board is mounted in the I/O tray directly above where the PCI cards were previously screwed into
the tray ledge. The LEDs can be seen from both inside and outside of the chassis. Each switch
hangs down off of the LED board so that it can be activated by the rocker mechanism as it is
folded into the chassis. See Figure 3-9: Rocker Mechanism.
Figure 3-9: Rocker Mechanism
The rocker mechanism activates the slot power switch as it enters the I/O tray. The rocker can be
released only from within the chassis. This is to prevent unintentional power down of PCI slots
when the system is powered up and the chassis has not yet been pulled out of the rack. The
rocker also acts as a retention mechanism for the PCI card. An additional retention mechanism at
the back edge of the PCI card is currently being developed.
The opposite end of the PCI card is held in place by a plastic, snap-in, locking card guide. The
guide, installed on the center support bracket, has a built in retention mechanism that secures
the top-rear edge of the PCI card. (See Figure 3-10.)
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Figure 3-10: PCI Card Retention Mechanism
Revised non-hot plug, hot plug, and top covers are required to accommodate the additional hard-
ware used in this enhanced solution.
3.4 Server Management
The server system management architecture features several management controllers, which
autonomously monitor server status and provide the interface to server management control
2
functions. The controllers communicate via an I C-based serial bus referred to as the Intelligent
Platform Management Bus (IPMB).
The functions of each controller are summarized in the following sections. The firmware of all the
controllers is field upgradeable, using the Server Management Firmware Update Utility. Refer to
the OCPRF100 MP Server Management External Architecture Specification for more details.
3.4.1
Front Panel Controller
The FPC on the OCPRF100 MP server system chassis front panel board manages the front
panel operations. Since this controller is responsible for system power control, it is powered from
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the +5 V standby output of the power supply. The FPC takes part in implementing the following
system functions:
•
•
•
•
•
•
•
•
Power and reset switch interfaces
Fan failure detection
Chassis FRU inventory
System hard reset generation
System power fault indication
ICMB bridge device
Emergency management port (EMP)
LCD interface
3.4.2
Baseboard Management Controller
The baseboard management controller (BMC) on the OPRF100 board set I/O carrier provides
server management monitoring capabilities. Associated with the BMC is a flash memory that
holds the operation code and the BMC configuration defaults. The various server management
functions provided by the BMC are listed below.
•
•
•
•
•
•
•
•
•
Baseboard voltage monitoring
Processor voltage monitoring
Processor voltage ID (VID) monitoring
Processor presence detection
Processor internal error (IERR) and thermal trip monitoring
Fault resilient booting (FRB)
Processor disable control
Watchdog timer
Periodic system management interrupt (SMI) timer
2
•
•
•
•
•
•
•
•
•
•
I C master controller
Private management bus interface
System management software (SMS) and SMM IPMB message receiver
Event message receiver
System event log management and access
Sensor data record (SDR) repository management and access
Processor NMI monitoring
Processor SMI monitoring
Time-stamp clock
POST code log
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•
•
•
Secure mode, video blank, and floppy write protect
Front panel NMI monitoring
Software front panel NMI generation
3.4.3
Hot-swap Controller
The hot-swap controller (HSC) on the LVDS SCSI hot-swap backplane is connected to other sys-
tem boards via the IPMB. The HSC provides server management information through both the
IPMB and the SCSI Accessed Fault-Tolerant Enclosures (SAF-TE). SAF-TE is an industry stan-
dard for communicating drive and slot status.
The HSC:
•
•
implements the SAF-TE command set accessed through SCSI;
provides an IPMB path for drive presence, drive fault status, backplane temperature, and
fan failure;
•
controls the fault lights and drive power on the OCPRF100 MP server system chassis
hot-swap backplane;
•
•
monitors the power distribution backplane for power supply status; and
controls drive power on and off, facilitating hot-swapping of drives.
3.5 Expansion Support
port provided by the server system.
Table 3-7: OCPRF100 MP Server System Expansion Support
Quantity
Type
10
2
64-bit PCI hot-plug expansion bus slots
Single connector attachment (SCA-2) SCSI hard disk drive bays
5.25-inch half-height drive bays
1
1
External LVDS connector
32
72-bit SDRAM PC-100 registered DIMM module sockets (16 per memory module)
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3.6 Specifications
3.6.1
Environmental Specifications
The system will be tested to the environmental specifications as indicated in Table 3-8.
Table 3-8: Environmental Specifications Summary
Environmental Feature
Operating temperature
Nonoperating temperature
Altitude
Specification
10° to 35°C (50° to 95°F). See Altitude exception.
-40°C to 70°C (-40°F to 158°F).
0 to 3048 m (0 to 10000 ft.). Note: Maximum ambient temperature is
linearly derated between 1520 m (5000 ft.) and 3050 m (10000 ft.)
by 1°C per 305 m (1000 ft.).
Operating humidity
85%, noncondensing at 40°C (104°F).
<33°C (91.4°F) wet bulb at 40°C (104°F) without peripherals.
95%, noncondensing at +55°C (131°F).
Nonoperating humidity
Safety
UL 1950, CSA 950, IEC 950, TUV EN60 950, NEMKO.
Emissions
Certified to FCC Class B; tested to CISPR 22B,
EN 55022, and registered with VCCI.
Immunity
Verified to comply with EN 50082-2.
Electrostatic discharge (ESD)
Tested to ESD levels up to 20 kilovolts (kV) air discharge without
®
physical damage as per the Intel environmental test specification.
Acoustic
Sound pressure: < 57 dbA at ambient temperatures.
< 28°C measured at bystander positions in operating mode.
Sound power: < 6.5 BA at ambient temperatures.
< 28°C in operating mode.
3.6.2
Physical Specifications
Table 3-8 describes the physical specifications of the system.
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OCPRF100 MP Server System Technical Product Specification
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Table 3-8: Dimensions and Weight
Specification
Height
Value
31.12 cm (12.25 inches, 7u)
44.45 cm (17.5 inches)
71.12 cm (28.0 inches)
Width
Depth
Weight
51.4 kg (113 lbs.) minimum configuration
63 kg (140 lbs.) maximum configuration
Required front clearance 10 inches (inlet airflow <35 °C / 95 °F)
Required rear clearance 8 inches (no airflow restriction)
Notes:
1. The system weight listed above is only an approximation and can vary depending
on number of peripherals and add-in cards in the system.
2. The system dimensions exclude the power supply handles for depth.
38
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OCPRF100 MP Server System Technical Product Specification
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4. Cables and Connectors
This chapter describes cables and connectors that interconnect various components of the
OCPRF100 MP server system.
that connect the boards used in the OCPRF100 MP server system.
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OCPRF100 MP Server System Technical Product Specification
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FAN
FAN
FAN
FAN
FAN
FAN
4 pin Hot-Swap
Fan Connectors
LCD
LCD Power
Front panel
14 Pin & 2 Pin
CBL,LCD
CBL,PWR,AC
80 Pin SCA
(External Interface)
Style Connector
Memory
Memory
Carrier
(16
Mezzanine
Profusion*
Carrier
(16
Pentium(R) III
Carrier
Xeon(TM) or Term.
DIMMs)
DIMMs)
6x24x3
Pentium III
HDM Connector
Xeon or Term.
Pentium III
Xeon or Term.
AC
Inlet
Filter
Pentium III
Xeon or Term.
Mezzanine
Pentium III
Xeon or Term.
Hot-Swap
36 Pin Berg*
Connector
Pentium III
Power Supply
Xeon or Term.
6X24X3
HDM Connector
Pentium III
Xeon or Term.
System
Pentium III
Midplane
Interconnect
Xeon or Term.
Hot-Swap
36 Pin Berg
Connector
Power Supply
ICMB
Cable
ICMB Board
System
I/O Carrier
I/O Riser board with
Keyboard, Mouse,
(2)USB, (2)Serial &
Parallel Connectors
Interconnect
(External Interface)
Hot-Swap
36 Pin Berg
Connector
PHP
Connector
3 pin WOL
Header
LVDS Ch 1
Power Supply
Power Connector
IDE
40
Conductor
LVDS Ch 2
Floppy
68 Conductor
SCSI Cable
34 Conductor
Cable
Peripheral Bay
Backplane
External LVDS
SCSI Interface
68 Conductor
SCSI Cable
240 Pin Connector
5-1/4 CD-ROM Half
40 Conductor
IDE Cable
Height (Single Device
Option Only)
Hot-Swap
Hard Drive
Backplane
34 Conductor
Floppy Cable
Floppy
80-Pin SCA2
Connectors
1
2
Ultra2 SCSI Drives
Figure 4-1: OCPRF100 Server System Interconnect Diagram
40
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OCPRF100 MP Server System Technical Product Specification
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4.1 Cables
Table 4-1 through Table 4-3 list flat ribbon cables and wire bundles that are used in the assembly
of the OCPRF100 MP server system.
Table 4-1: Flat Ribbon Cables
Number
Quantity
of Pins
Type
Path
1
68
Wide SCSI cable w/VHDCI
interconnect module (solid
core)
Routes from the PHP I/O carrier to a panel cut in the
back of the system, where a VHDCI interconnect mod-
ule can link an external VHDCI cable with the internal
SCSI devices.
1
68
Wide SCSI cable (solid core)
From the PHP I/O carrier to the peripheral bay back-
plane.
1
1
1
1
1
40
40
34
34
40
IDE cable (long)
From the I/O carrier to the peripheral bay backplane.
From the LVDS backplane to the IDE CD-ROM.
From the I/O carrier to the peripheral bay backplane.
From the LVDS backplane to the floppy drive.
From the I/O board to the PHP LED board
IDE cable (short)
Floppy drive cable (long)
Floppy drive cable (short)
Flat ribbon cable (LED board)
Table 4-2: Wire Bundles
Number
of Pins
Quantity
Type
Path
1
4
Power cable
From the LVDS backplane
to the CD ROM and floppy
drive.
1
20
Power cable
From the midplane to the
peripheral bay backplane.
Table 4-3: Optional Cable
Number
of Pins
Quantity
Type
Narrow SCSI cable
Path
1
50
From the LVDS backplane to the 5-1/4" device bay, if an
IDE device is not present.
41
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OCPRF100 MP Server System Technical Product Specification
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4.2 Connectors
The following section describes the signals and pinouts for various connectors on the OPRF100
board set.
4.2.1
User-accessible I/O Connectors
Keyboard and Mouse Ports
4.2.1.1
These identical PS/2-compatible ports share a common housing. The top port is for the mouse
and the bottom port is for the keyboard.
Table 4-4: Keyboard and Mouse Ports
Mouse
Keyboard
Pin
1
Signal
Pin
1
Signal
MSEDAT (mouse data)
No connection
KEYDAT (keyboard data)
No connection
2
2
3
GND (ground)
3
GND (ground)
4
FUSED_VCC (+5 V)
MSECLK (mouse clock)
No connection
4
FUSED_VCC (+5 V)
KEYCLK (keyboard clock)
No connection
5
5
6
6
Figure 4-2: Keyboard or Mouse Connector
42
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OCPRF100 MP Server System Technical Product Specification
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4.2.2
Serial Ports
The I/O carrier provides two stacked RS-232C serial ports (the top one is COM1 and the bottom
one is COM2). They are D-subminiature 9-pin connectors. Each serial port can be enabled sepa-
rately with the configuration control provided on the I/O carrier.
The COM2 serial port can be used either as an emergency management port or as a normal
serial port. As an emergency management port, COM2 is used as a communication path by the
server management RS-232 connection to the FPC on the front panel board. This provides a
level of emergency management through an external modem. The RS-232 connection can be
monitored by the FPC when the system is in a powered down (standby) state. For additional
information, see the Emergency Management Port v1.0 Interface External Product Specification.
Table 4-5: Serial Port Connectors
Pin
1
Signal
DCD
RXD
TXD
DTR
GND
DSR
RTS
CTS
RIA
2
3
4
5
6
7
8
9
Figure 4-3: Serial Port Connector
43
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OCPRF100 MP Server System Technical Product Specification
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4.2.3
Parallel Port
The IEEE 1284-compatible parallel port—used primarily for a printer—sends data in parallel for-
mat. The parallel port is accessed through a D-subminiature 25-pin connector.
Table 4-6: Parallel Port Connector
Pin
1
Signal
Pin
14
15
16
17
18
19
20
21
22
23
24
25
Signal
STROBE_L
Data bit 0
AUFDXT_L (auto feed)
2
ERROR_L
3
Data bit 1
INIT_L (initialize printer)
4
Data bit 2
SLCTIN_L (select input)
5
Data bit 3
GND (ground)
GND
6
Data bit 4
7
Data bit 5
GND
8
Data bit 6
GND
9
Data bit 7
GND
10
11
12
13
ACK_L (acknowledge)
BUSY
GND
GND
PE (paper end)
SLCT (select)
GND
13
1
25
14
OM00933A
Figure 4-4: Parallel Port Connector
4.2.4
VGA Video Port
The video port interface is a standard VGA compatible 15-pin connector. Onboard video is sup-
plied by a Cirrus Logic* GD5446 PCI video controller with 2 MB of onboard video DRAM.
44
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OCPRF100 MP Server System Technical Product Specification
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Table 4-7: Video Connector
Pin
1
Signal
Red (analog color signal R)
Green (analog color signal G)
Blue (analog color signal B)
No connection
2
3
4
5
GND (video ground, shield)
GND (video ground, shield)
No connection
6–8
9
10
11–12
13
14
15
GND (video ground)
No connection
HSYNC (horizontal sync)
VSYNC (vertical sync)
No connection
5
1
10
6
15
11
OM00936A
Figure 4-5: Video Connector
4.2.5
Universal Serial Bus Interface
The built-in USB ports permit the direct connection of two USB peripherals without an external
hub. If more devices are required, an external hub can be connected to either of the built-in ports.
Table 4-8: Dual USB Connector
Pin
Signal
Description
A1
VCC
Overcurrent monitor line port 0.
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OCPRF100 MP Server System Technical Product Specification
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Table 4-8: Dual USB Connector
A2
A3
A4
B1
B2
B3
B4
DATAL0
DATAH0
GND
Differential data line paired with DATAH0.
Differential data line paired with DATAL0.
Ground potential.
VCC
Overcurrent monitor line port 1.
Differential data line paired with DATAH1.
Differential data line paired with DATAL1.
Ground potential.
DATAL1
DATAH1
GND
A1
B1
A4
B4
Figure 4-6: Dual USB Connector
4.2.6
ICMB Connectors
The ICMB connector provides external access to the ICMB. This makes it possible to externally
access chassis management functions, alert logs, post-mortem data, etc. It also provides a
mechanism for chassis power control. The server provides two SEMCONN* 6-pin connectors to
allow daisy chained cabling. Additional information about ICMB can be found in the External
Intelligent Management Bus Bridge External Program Specification.
Table 4-9: ICMB Connector
Pin
1
Signal
No connection
No connection
B (negative)
A (positive)
2
3
4
5
No connection
No connection
6
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OCPRF100 MP Server System Technical Product Specification
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1
6
Figure 4-7: ICMB Connector
4.2.7
Fan Connector
Table 4-10: Fan Connectors (J1A1,J9A1,J10A1)
Pin
1
Signal
Ground
2
VCCFAN
Ground
3
4
FAN_Tach
4.2.8
Peripheral Bay Power Connector
Table 4-11: Peripheral Bay Power Connector
Pin
1
Signal
+12V
GND
Color
Yellow
Black
Yellow
Red
2
3
+12V
+5V
4
5
GND
Black
Red
6
+5V
7
GND
Black
Green
Black
White
Yellow
8
SCL
9
GND
10
11
PWR_Good
+12V
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OCPRF100 MP Server System Technical Product Specification
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Table 4-11: Peripheral Bay Power Connector
12 GND Black
13 +12V Yellow
14
15
16
17
18
19
20
+5V
Red
GND
Black
Red
+5V
GND
Black
Light Blue
Black
Violet
SDA
GND
RST_I2C_L
4.2.9
Peripheral Bay Backplane Header
Table 4-12: Peripheral Bay Backplane Header (240 position)
Column
A
B
C
D
E
1
RESET(1)
DD7 (3)
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
DD8 (4)
GND
GND
GND
GND
GND
GND
GND
GND
DIOW (23)
GND
DIOR (25)
GND
GND
GND
GND
GND
2
DD9 (6)
FD_DENSEL
GND
3
DD6 (5)
DD10 (8)
DD11 (10)
DD12 (12)
DD13 (14)
DD14 (16)
DD15 (18)
GND
4
DD5 (7)
N/C
5
DD4 (9)
GND
6
DD3 (11)
DD2 (13)
DD1 (15)
DD0 (17)
DMARQ (21)
GND
FD_DRATE0
GND
7
8
FD_INDEX_L
GND
9
10
11
12
13
14
15
GND
FD_MTR0_L
GND
GND
GND
RESERVED (32)
PDIAG (34)
DA2 (36)
CS0 (37)
FD_DR1_L
GND
IORDY (27)
DMACK (29)
INTRQ (31)
FD_DR0_L
GND
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OCPRF100 MP Server System Technical Product Specification
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Table 4-12: Peripheral Bay Backplane Header (240 position)
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
DA1 (33)
DASP (39)
GND
GND
GND
GND
GND
GND
GND
GND
GND
DA0 (35)
GND
FD_MTR1_L
FD_MSEN1
FD_DIR_L
GND
CS1 (38)
GND
GND
GND
GND
FD_STEP_L
GND
GND
FD_WDATA_L
GND
GND
FD_WGATE_L
FD_MSEN0
FD_RDATA_L
GND
FD_TRK0_L
GND
GND
FD_WPROT_L
GND
GND
FD_HDSEL_L
S35 (-DB 12)
S1 (+DB 12)
S38 (-DB 15)
S4 (+DB 15)
S41 (-DB 0)
S7 (+DB 0)
S44 (-DB 3)
S10 (+DB 3)
S47 (-DB 6)
S13 (+DB 6)
GND
GND
FD_DSKCHG_L GND
S2 (+DB 13)
S36 (-DB 13)
S5 (+DB P1)
S39 (-DB P1)
S8 (+DB 1)
S42 (-DB 1)
S11 (+DB 4)
S45 (-DB 4)
S14 (+DB 7)
S48 (-DB 7)
S37 (-DB 14)
S3 (+DB 14)
GND
+12V
+12V
+12V
+12V
+12V
+12V
+12V
+12V
+12V
+12V
+12V
+12V
+12V
+12V
+12V
+12V
+12V
+12V
+12V
+12V
GND
S43 (-DB 2)
S9 (+DB 2)
S46 (-DB 5)
S12 (+DB5)
S49 (-DB P)
S15 (+DB P)
S52 (TERMPWR)
S17 (TERM-
PWR)
35
36
37
+12V
+12V
+5V
+12V
+12V
+5V
S16 (DIFFSENS) S51 (TERM-
PWR)
S18 (TERMPWR)
S53
S20 (+ATN)
GND
GND
(RESERVED)
S19
S54 (-ATN)
(RESERVED)
38
39
40
41
42
43
44
45
+5V
+5V
+5V
+5V
+5V
+5V
+5V
+5V
+5V
+5V
+5V
+5V
+5V
+5V
+5V
+5V
S56 (-BSY)
S22 (+BSY)
S59 (-MSG)
S25 (+MSG)
S62 (-REQ)
S28 (+REQ)
S65 (-DB8)
S31 (+DB 8)
S23 (+ACK)
S57 (-ACK)
S26 (+SEL)
S60 (-SEL)
S29 (+I/O)
S63 (-I/O)
S58 (-RST)
S24 (+RST)
S61 (-C/D)
S27 (+C/D)
GND
GND
S32 (+DB 9)
S66 (-DB 9)
S67 (-DB 10)
S33 (+DB 10)
49
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OCPRF100 MP Server System Technical Product Specification
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Table 4-12: Peripheral Bay Backplane Header (240 position)
46
47
48
+5V
+5V
+5V
+5V
+5V
+5V
S68 (-DB 11)
S34 (+DB 11)
+5V
GND
GND
SDA
RST_I2C_L
SCL
PWR_GOOD
4.2.10 LED Board Connector
Table 4-13: LED Board Connectors
Signal Name
S1_A_SWITCH
S1_A_GREEN
S1_A_AMBER
S1_B_SWITCH
S1_B_GREEN
S1_B_AMBER
S3_B_SWITCH
S3_B_GREEN
S3_B_AMBER
S1_C_SWITCH
S1_C_GREEN
S1_C_AMBER
S1_D_SWITCH
S1_D_GREEN
S1_D_AMBER
+3.3V
Pin #
1
Pin #
2
Signal Name
S2_A_SWITCH
S2_A_GREEN
S2_A_AMBER
S2_B_SWITCH
S2_B_GREEN
S2_B_AMBER
S4_B_SWITCH
S4_B_GREEN
S4_B_AMBER
S2_C_SWITCH
S2_C_GREEN
S2_C_AMBER
S2_D_SWITCH
S2_D_GREEN
S2_D_AMBER
GND
3
4
5
6
7
8
9
10
12
14
16
18
20
22
24
26
28
30
32
34
36
38
40
11
13
15
17
19
21
23
25
27
29
31
33
35
37
39
+3.3V
GND
+3.3V
GND
+3.3V
GND
+3.3V
GND
50
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OCPRF100 MP Server System Technical Product Specification
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4.2.11 SCSI Connector
Table 4-14: SCSI Connector
WIDE SCSI CONNECTOR
Signal
Pin
1
Signal
Pin
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
S1 (+DB 12)
S2 (-DB 13)
S3 (+DB 14)
S4 (+DB 15)
S5 (+DB P1)
S6 (+DB 0)
S7 (+DB 1)
S8 (+DB 2)
S9 (DB 3)
S35 (-DB 12)
S36 (-DB 13)
S37 (-DB 14)
S38 (-DB 15)
S39 (-DB P1)
S40 (-DB 0)
S41 (-DB 1)
S42 (-DB 2)
S43 (-DB 3)
S44 (-DB 4)
S45 (-DB 5)
S46 (-DB 6)
S47 (-DB 7)
S48 (-DB P)
S49
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
S10 (+DB 4)
S11 (+DB5)
S12 (+DB 6)
S13 (+DB 7)
S14 (+DB P)
S15
S16 (DIFFSENS)
S17 (TERMPWR)
S18 (TERMPWR)
S19 (RESERVED)
S20
S50
S51 (TERMPWR)
S52 (TERMPWR)
S53 (RESERVED)
S54
S21 (+ATN)
S22
S55 (-ATN)
S56
S23 (+BSY)
S24 (+ACK)
S25 (+RST)
S26 (+MSG)
S27 (+SEL)
S57 (-BSY)
S58 (-ACK)
S59 (-RST)
S60 (-MSG)
S61 (-SEL)
51
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OCPRF100 MP Server System Technical Product Specification
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Table 4-14: SCSI Connector
28
29
30
31
32
33
34
S28 (+C/D)
S29 (+REQ)
S30 (+I/O)
S62 (-C/D)
S63 (-REQ)
S64 (-I/O)
62
63
64
65
66
67
68
S31 (+DB 8)
S32 (+DB 9)
S33 (DB 10)
S34 (DB 11)
S65 (-DB8)
S66 (-DB 9)
S67 (-DB 10)
S68 (-DB 11)
4.2.12 IDE Connectors
Table 4-15: IDE Connectors
IDE 40 PIN Connector
Pin
1
Pin
2
RESET
DD7
GND
3
DD8
4
5
DD6
DD9
6
7
DD5
DD10
DD11
8
9
DD4
10
12
14
16
18
20
22
24
26
28
30
32
11
13
15
17
19
21
23
25
27
29
31
DD3
DD12
DD13
DD14
DD15
KEYPIN (NC)
GND
DD2
DD1
DD0
GND
DMARQ
DIOW
DIOR
IORDY
DMACK
INTRQ
GND
GND
CSEL
GND
RESERVED
52
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OCPRF100 MP Server System Technical Product Specification
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Table 4-15: IDE Connectors
33
35
37
39
DA1
DA0
PDIAG
DA2
34
36
38
40
CS0
CS1
DASP
GND
4.2.13 Floppy Connectors
Table 4-16: Floppy Connectors
FLOPPY CONNECTOR
Pin
1
Pin
GND
FD_DENSEL
N/C
2
3
GND
4
5
KEY
FD_DRATE0
FD_INDEX_L
FD_MTR0_L
FD_DR1_L
6
7
GND
8
9
GND
10
12
14
16
18
20
22
24
26
28
30
32
34
11
13
15
17
19
21
23
25
27
29
31
33
GND
GND
FD_DR0_L
GND
FD_MTR1_L
FD_DIR_L
FD_MSEN1
GND
FD_STEP_L
FD_WDATA_L
FD_WGATE_L
FD_TRK0_L
FD_WPROT_L
FD_RDATA_L
FD_HDSEL_L
FD_DSKCHG_L
GND
GND
GND
FD_MSEN0
GND
GND
GND
53
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OCPRF100 MP Server System Technical Product Specification
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5. Power Supply
This document defines the requirements for a universal input switching power supply, which pro-
vides 750 watts DC with power factor corrected AC input and with current and remote sense reg-
ulation. The power supply is used with its DC outputs paralleled with other identical supplies to
form a redundant power system with system operating replacement capability (hot-swap). All
power supply connectors, including AC and DC connectors, accommodate “blind mating.” The
supply has four externally enabled outputs, one +5 V standby output at 1.0 A, and one +15 Vdc
standby output at 200 mA. Both +5 Vdc and +15 Vdc standby outputs are present whenever AC
power is applied. The four externally enabled outputs have the following ratings:
•
•
•
•
+3.3 Vdc at 36 A
+5 Vdc at 36 A
+12 Vdc at 36 A with 42 A peak
-12 Vdc at 1 A
5.1 Mechanical Requirements
5.1.1
Mechanical Outline
The mechanical outline and dimensions are shown in Figure 5-1: Outline Drawing of Power Sup-
ply Enclosure. The unit of measurement is inches. The following mechanical sketches should be
used for preliminary reference only. Refer to the Power Supply, 750/650W, PFC, 5 Outputs docu-
ment for a detailed drawing.
Figure 5-1: Outline Drawing of Power Supply Enclosure
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The power supply dimensions are 5.0" H by 5.3" W by 11.5" D.
5.1.2
Fan Requirements
The power supply incorporates a 120 mm fan for self-cooling. The air comes in from the connec-
tor side, passes through the power supply, and exhausts on the fan side of the power supply.
5.2 Interface Requirements
5.2.1
AC Inlet Connector
The power supply has a standard IEC inlet connector.
5.2.2
DC Output Connector(s)
DC power and control signals are interfaced to the system distribution and control subsystem via
connectors which dock with mating connectors when the power supply is inserted into the system
backplane.
®
The DC connector is equivalent to the Berg* hybrid 36-pin connector with Intel P/N 703983-001
Table 5-1: Connector and Pin Assignments
Signal Pins
1
2
3
4
5
6
D
C
B
A
+ 12 V LS
A0
P_Good
SCL
SDA
AC_OK
FAULT
+3.3 V SENSE
Spare
+15 V Standby
PRED FAIL
+5 V SENSE
+5 V LS
Remote SEN RTN
+12 V SENSE
+5 V Stdby
PS_ON
- 12 V
KEY
A1
+5 V Stdby
PS_KILL
+ 3.3 V LS
Power
Present
Power Blades
P1
P2
P3
P4
GND
P5
P6
P7
P8
GND
P9
P10
P11
P12
+12 V
+12 V GND
GND
GND
GND
+5 V +5 V 3.3 V
3.3 V
Note:
PS_On and PS_Kill are 1.2 mm shorter in mating length compared to other pins in the connector.
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Notes:
1. Power blades (P1 – P12) are rated at 25 A each.
2. Signal pins (A1 – D6) are rated at 1 A each.
Figure 5-2: DC Connector Drawing
5.3 Marking and Identification
The power supply marking must support the following requirements: safety agency requirements,
government requirements (if required, e.g., point of manufacturing), power supply vendor
requirements, and Intel manufacturing and field support requirements.
5.3.1
LED Labeling
The power LED (green), the power supply failure LED (yellow), and the predictive failure LED
(yellow) are marked or labeled as follows.
•
•
•
The power LED is labeled PWR.
The predictive failure LED is labeled PRFL.
The power supply failure LED is labeled FAIL.
The LEDs should be viewable on the outside rear of the chassis when the power supply is
installed in the system chassis. LEDs are located to meet all electrostatic discharge (ESD)
requirements.
5.4 Internal System Marking
The power supply is marked to support the safety agency requirements, government require-
ments (if required, e.g., point of manufacturing), power supply vendor requirements, and Intel
manufacturing and field support requirements. This marking is applied on an external surface of
the power supply and is not be visible from the exterior of the server system.
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SAFETY AGENCY
MARKINGS
MANUFACTURER
LOGO
MANUFACTURER NAME
MANUFACTURER MODEL NO. AND REVISION
AUTORANGING INPUT: 50/60HZ
INPUT 100-120V ~ 12A, OUTPUT 650W
-12V
+5VSB
+15VSB
1.0.A MAX
1.0A MAX
0.2A MAX
+3.3V
+5V
+12V
31.0A MAX
31.0A MAX
31.0A MAX
INPUT 200-240V ~ 7A, OUTPUT 750W
+3.3V
+5V
+12V
33.0A MAX
33.0A MAX
33.0A MAX
-12V
+5VSB
+15VSB
1.0.A MAX
1.0A MAX
0.2A MAX
P/N:
S/N
CODE 3 OF 9 BAR CODE
HUMAN READABLE PART NUMBER
CODE 3 OF 9 BAR CODE
HUMAN READABLE SERIAL NUMBER
COUNTRY OFORIGIN
DATE CODE :XXXX
Figure 5-3: Internal Label
The power supply is marked with the international label to indicate that no user serviceable parts
printed on bright yellow vinyl label stock with black symbols.
Figure 5-4: Service Label
Note:The temperature of the power supply chassis cannot exceed 70°C under all circumstances; otherwise, a UL
international HOT SURFACE label must be added. This HOT SURFACE label, if required, will be placed in such a
way that when the power supply is extracted from the system, the label will be visible before the operator has a
chance to touch the hot surface of the power supply.
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5.5 Electrical Requirements
5.5.1
Efficiency
The power supply has a minimum efficiency of 65% to its DC output pins at maximum load cur-
rents and at rated nominal input voltages and frequencies. The power supply has a minimum effi-
ciency of 70% to its DC output pins at maximum load currents when the input voltage is higher
than 180 Vac.
5.5.2
5.5.3
AC Input Voltage Specification
AC Input Voltage Ranges
The nominal input voltage ranges specified in AC volts root-mean-square (rms)# are 100-120
and 200-240 Vac. The power supply incorporates a universal power input with active power fac-
tor correction, which reduces line harmonics in accordance with EN61000-3-2 and JEIDA MITI
Table 5-2: Input Voltage Requirements
Parameter
Min
90
Nom
Max
132
264
63
Units
Vrms
Vrms
Hz
Vin (115)
100-120
200-240
50/60
†
Vin (230)
180
47
Vin Frequency
Input Current 220 Vac range
Amps
† Proper values to be determined by the power supply manufacturer. Correct values are to be printed on the
internal system label shown in Figure 5-3: Internal Label.
5.5.3.1
AC Line Dropout
AC line dropout condition is a transient condition defined when the line voltage input to the power
supply drops to 0 volts. AC line dropout will not damage the power supply under any load condi-
tions. While operating at full load, an AC line dropout condition with a period equivalent to a com-
plete cycle of AC input power frequency (i.e., 20 milliseconds at 50 Hz) or less, will not cause any
out-of-regulation conditions, such as overshoot or undershoot, nor will it cause any nuisance trips
of any of the power supply protection circuits.
5.5.3.2
AC Line Fuse
Both the LINE and NEUTRAL AC inputs are fused. AC line fusing is compliant with all safety
agency requirements. AC inrush current will not cause the AC line fuses to blow under any condi-
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tions. Protection circuits in the power supply will not cause the AC fuse to blow unless a compo-
nent in the power supply has failed. This includes DC output load short conditions. The DC load
short circuit protection circuits will shut down or limit power supply without causing the AC line
fuse to blow.
5.5.3.3
Power Factor Correction
The power supply incorporates a power factor correction circuit.
The power supply is tested as described in EN 61000-3-2: Electromagnetic Compatibility (EMC)
Part 3: Limits- Section 2: Limits for Harmonic Current Emissions, and must meet the harmonic
current emissions limits specified for ITE equipment.
The power supply is tested as described in JEIDA MITI Guideline for Suppression of High Har-
monics in Appliances and General-Use Equipment and must meet the harmonic current emis-
sions limits specified for ITE equipment.
5.5.4
DC Output Specification
The power supply DC output specification is met by a single supply, by two supplies, or by three
supplies operating with their outputs directly paralleled. When operated in parallel, the supplies
share the total load currents equally within the limits specified, and meet all performance require-
ments of individual supplies. Failure of a supply in a paralleled group, or removal of an opera-
tional or failed supply from a paralleled group will not cause DC output transients in excess of the
limits specified. Adding an operational or failed supply to a paralleled group will not cause DC
output transients in excess of the limits specified.
Table 5-3: DC Output Voltage Limits
Parameter
+3.3 V
Min
Max
Units
Tolerance
± 50 mV
± 2%
+3.25
+4.90
+11.76
-10.80
+4.85
+ 13.5
+3.35
+5.10
+12.24
-13.20
+5.20
+ 16.5
V
V
V
V
V
V
+5 V
+12 V
± 2%
-12 V
± 10%
+5 V Standby
+ 15 V Standby
+ 4% & -3%
± 10%
5.5.4.1
DC Outputs Rating
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Table 5-4: Load Range
Single Power Supply Load Condition
Voltage
+3.3 V
Minimum Continuous
Maximum Continuous
Peak
1.1 A
0.7 A
0.7 A
0 A
36 A
+5 V
36 A
+12 V
36 A
42 A
-12 V
1.0 A
1.00 A
200 mA
+5 V Standby
+15 V Standby
0.05 A
0 A
5.5.4.2
Remote Sense
The power supply provides remote sense on the +3.3 Vdc, +5 Vdc, and +12 Vdc outputs and
their common DC return to provide regulation at those remote points.
5.5.4.3
Ripple and Noise
Ripple and noise are defined as periodic or random signals over the frequency band of 10 Hz to
Table 5-5: Ripple and Noise
VOLTAGE
+3.3 V
Ripple/Noise pk-pk
Ripple/Noise pk-pk
50 mV
1.5%
1%
1%
1%
2%
5%
+5 V
50 mV
+12 V
120 mV
-12 V
120 mV
+5 V Standby
+15 V Standby
100 mV
750 mV
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Over-voltage Protection
The power supply over-voltage protection is sensed locally. The power supply will shut down in a
latch off mode after an over-voltage condition. The latch is cleared by toggling the power supply
on signal, or by an AC power interruption of greater than 1 second but less than 10 seconds to
reset from the latch off condition. This limit applies over all specified AC input voltages and output
ues are measured at the output of the power supply connector.
Table 5-6: Over-voltage Protection
Output Voltage
+3.3 V
Protection Point [ V]
3.8 – 4.3
+5 V
6.0 – 6.5
+12 V
13 – 14
5.5.4.5
Over-current Protection
The power supply has current limits to prevent the +3.3 Vdc, +5 Vdc, and +12 Vdc outputs from
voltage fold-back type. The over-current limit level is maintained for a period of 1.6 seconds min-
imum and 2.0 seconds maximum. After this time, the power supply latches off. The latch will be
from repeated power cycling in this condition.
Table 5-7: Over-current Protection
Voltage
+3.3 V
+5 V
Over Current Limit
39.6 A minimum; 46.8 A maximum
39.6 A minimum; 46.8 A maximum
46 A minimum; 51 A maximum
+12 V
5.5.4.6
Short Circuit Protection
The power supply will not be damaged by application of a short circuit to any DC output. Short
circuits will not turn into the over-current protection process described in Section Over-current
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Protection. A hard short circuit should turn off the power supply immediately. A hard short circuit
is defined as when the load level is less than 10 milliohms.
5.5.4.7
Current Share Requirements
Equal power sharing of paralleled power supplies is required. The failure of a power supply does
not affect the current sharing or output voltages of other power supplies still in operation in a
redundant configuration.
The +3.3 V, +5 V, and +12 V output currents of paralleled supplies maintain a load deviation of ±
10% at rated current.
Signals to control current share may consist of one wire connecting all paralleled supplies for
each output voltage required to share current. One separate ground wire may be supplied for
these signals, if required.
5.6 Control Signals
5.6.1
Power Supply On (Input)
The power supply on circuit will be safety extra-low voltage (SELV). Upon receiving this signal,
the power supply is turned on and power outputs and other signals are provided at the corre-
Power Supply on Specification. The power supply on is an input signal to the power supply from
the system.
Table 5-8: Power Supply on Specification
DC Power Enable Signal
Voltage Level †
4 V min
Current
HIGH, PWR SUPPLY ENABLED
LOW, PWR SUPPLY DISABLED
0.5 mA max source current
1 V max or open circuit
† Measured relative to the power supply DC common output ground pins.
5.6.2
AC OK Signal (Output)
Each power supply provides an “AC OK” signal. A pin must be allocated for this signal on the DC
connector. This signal indicates that input line AC voltage has reached the minimum level to
power up the corresponding power supply. This signal is to be utilized by the system to synchro-
nize the power on timing of multiple power supplies within the system. The characteristics of the
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Table 5-9: AC Good Signal
AC OK Signal
Voltage Level †
0.4 V max
Current
LOW: AC is not yet up to the level.
HIGH: AC is up to the level.
4 mA min sink current
0.5 mA max source current
4 V min
† Measured relative to the power supply DC common output ground pins
5.6.3
Power Good (Output)
Each power supply provides a power good signal. A pin must be allocated for this signal. This
signal indicates that all outputs have reached acceptable operating voltage. The power good sig-
power good signal is an output signal from the power supply to the system.
Table 5-10: Power Good Signal
Power Good Signal
Voltage Level †
Current
LOW STATE DE-ASSERTED
(Power Not Good)
0.4 V max
4 mA min sink current
HIGH STATE ASSERTED
(Power Good)
4 V min
0.5 mA max source current
† Measured relative to the power supply DC common output ground pins.
The power good signal is held low until all outputs have reached at least 90% of their respective
operating voltages. The turn on delay for the power good signal is between 100 and 1500 milli-
seconds.
The power good signal is low for a minimum of 1 millisecond before any of the output voltages fall
below the regulation limits. Tests are conducted with a maximum load and minimum line voltage.
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TTL HIGH
POWER
GOOD
SIGNAL
TTL LOW
V
V
n
m
+5VDC
OUTPUT
VOLTAGE
t
t
2
1
(100-1500msec)
(1msec min.)
V
n
Nominal Output Voltage +5 VDC
Minimum Output Voltage +4.75 VDC
Vm
t1 Delay Turn-on (100-1500msec)
t2 Delay Turn-off(1msec min)
Figure 5-5: Power Good Signal Characteristics
5.6.4
Power Supply Present Indicator (Output)
This signal is used to sense the number of power supplies in the system (operational or not). A
pin on the output connector must be allocated to pull the power supply present signal on the
power supply backplane to DC output ground. Without this pull-down, the power supply present
signal will be pulled up through a pull-up resistor to +5 V standby on the backplane. The power
supply present is an output signal from the power supply to the system.
5.6.5
Predictive Failure Signal (Output)
This signal is available on the power supply connector. A “high” state in this signal indicates that
the power supply is likely to fail in the near future due to a poorly performing fan. The predictive
fan failure signal going “high” will not cause the power supply to shut down, but it must cause the
“PRED FAIL” LED to turn on. The predictive failure is an output signal from the power supply to
the system.
Table 5-11: Predictive Failure Signals
Predictive Failure Signal
Voltage Level †
0.4 V max
Current
LOW STATE (power supply OK)
HIGH STATE (poorly performing fan)
4 mA min sink current
0.5 mA max source current
4 V min
† Measured relative to the power supply DC common output ground pins
.
5.6.6
Power Supply Failure Signal (Output)
This signal is available on the power supply connector. Upon receiving this signal, the system
informs the operator that the appropriate power supply has failed, and therefore, a replacement
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of that power supply is necessary. A “low” state indicates the power supply failure. The power
supply failure signal is an output signal from the power supply to the system.
Table 5-12: Power Supply Failure
Power Supply Failure Signal
LOW STATE (power supply failure)
HIGH STATE (power supply OK)
Voltage Level †
0.4 V max
4 V min
† Measured relative to the power supply DC common output ground pins.
5.6.7
Power Supply Kill (Input)
The power supply kill signal is available on the power supply connector. The mating pin of this
signal on the backplane should be tied to ground potential on the backplane. Internal to the
power supply, the power supply kill pin should be connected to the +5 V standby through a pull-
up resistor.
Upon receiving a low state signal at the power supply kill pin, the power supply will be allowed to
turn on. A logic low on this pin by itself should not turn on the power outputs. With the power sup-
ply kill signal in a low state, a logic high signal on the power supply on signal will be able to turn
on the power supply.
When this pin is pulled up high (power supply is extracting from the backplane), the power supply
should be shut down immediately without any delay, regardless of the condition of the PS_On
signal.
Table 5-13: Logic Table for Power Supply Kill and Power Supply On
Power Supply Kill
Power Supply On
Power Supply Conditions
DC outputs are On
Low
X
High
Low
X
DC outputs are Off
High
DC outputs are Off
Specification. The power supply kill is an input signal to the power supply from the system.
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Table 5-14: Power Supply Kill Specification
Power Supply Kill Signal
Voltage Level †
4.5 V minimum
0.25 V maximum
HIGH, PWR SUPPLY IS DISABLED
LOW, PWR SUPPLY IS ENABLED
† Measured relative to the power supply DC common output ground pins.
5.6.8
Power Supply Field Replacement Unit Signals
Four pins are allocated for the FRU information on the power supply connector. One pin is the
Serial Clock (SCL). The second pin is used for Serial Data (SDA). Both pins are bidirectional and
are used to form a serial bus. The third pin is address line A0 of the EEPROM, and the last pin is
address line A1 of the EEPROM.
Inside the power supply, the highest address bit of the EEPROM A2 should be tied to +5 V
standby on the cathode side of the OR’ing diode.
The Vcc pin of the EEPROM should also be tied to the +5 V standby on the cathode side of the
OR’ing diode so that even during failure, the FRU information within the power supply can be
accessed.
The write control (or write protect) pin should be tied to ground inside the power supply so that
information can be written to the EEPROM.
5.6.9
LED Indicators
There is a green power LED (PWR) to indicate that AC is applied to the power supply and
standby voltages are available when blinking. This same LED goes solid to indicate that all the
power outputs are ready. There is a yellow power supply fail LED (FAIL) to indicate that the
power supply has failed and a replacement of the unit is necessary. There is a yellow predictive
failure LED (PRFL) to indicate that the power supply is about to fail in the near future due to a
poor performing fan. This LED should be blinking to indicate the predictive failure condition and
Power Supply LEDs and Output Signal State Logic for conditions of the LEDs. The LEDs are
The LEDs are visible on the power supply surface that is opposite the docking end. The LED
location meets ESD requirements. LEDs are securely mounted in such a way that incidental
pressure on the LED will not cause it to become displaced.
control signals.
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Table 5-15: Power Supply LEDs and Output Signal State Logic
Power Supply LEDs Power Supply Output Signal States
Input to
PS
P_Good
H = pwr
good
Pred. Failure
H = pred.
failure
PS Failure PS On
PWR
(green)
PRFL
(yellow)
FAIL
(yellow)
H = PS OK
H = PS
enable
Conditions
No AC Power
AC In/Standby On
DC Outputs OK
OFF
OFF
OFF
OFF
OFF
ON
L
L
H
L
L
L
L
L
L
L
Blinking OFF
H
H
L
L
ON
OFF
OFF
H
H
Power Supply
Failure
OFF
Current Limit
ON
ON
OFF
Blinking/
No Latch
L
L
H
H
H
H
Predictive Failure
Blinking/
Latched
OFF
H
H
5.7 Fan Speed Control
The fan circuitry implements variable speed fan control and fan failure detection.
5.8 Environmental Requirements
5.8.1
Physical Environment
®
The power supply is located inside an Intel system assembly. A system may contain two or
three power supplies.
5.8.2
Thermal Protection
The power supply incorporates thermal protection that causes a shutdown if air flow through the
power supply is insufficient. Thermal protection activates a shutdown if the temperature of any
power supply component is more than 85% (°C) of rated temperature. This shutdown takes place
prior to over-temperature induced damage to the power supply.
5.9 Regulatory Agency Requirements
The power supply must have UL recognition, CSA certification to level 3, Bauart and any NOR-
DIC CENELEC certified (such as SEMKO, NEMKO or SETI) markings demonstrating compli-
ance. The power supply must also meet FCC Class B, VDE 0871 Level B, and CISPR Class B
requirements.
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6. System Software
This chapter describes three software components of the OCPRF100 MP server system product:
•
•
•
System BIOS
BIOS Setup Utility
iFLASH
Detailed information about these components can be found in the OPRF100 MP Board Set Tech-
nical Product Specification
®
Drawing from previous Intel products, the system BIOS provides standard PC-compatible fea-
tures plus routines that support the extended hardware features of the OCPRF100 MP server
system’s OPRF100 board set and chassis. These extended features include:
•
•
•
•
Eight symmetric processors
32 GB of shared memory using PC-100 registered DIMMs
Four peer PCI buses
10 hot-plug PCI slots (with four 66-MHz/64-bit slots and six 33-MHz/64-bit slots)
The BIOS configures the Profusion PCIset including the memory controller and PCI host bridges.
It also supports the server management capabilities of the Intelligent Platform Management Bus
(IPMB).
Adherence to industry standards enables a wide range of “shrink wrapped” operating systems
and adapter choices. Intel has participated in industry initiatives to develop standards that
address highly scalable machines.
A system vendor can customize the OCPRF100 MP server system product through the user
binary facility. This facility provides for splash screens and other custom code that can differenti-
ate a product offering. In addition to the space reserved for user binaries, over 1 MB of the sys-
tem flash ROM is reserved for use by system vendors.
The system BIOS includes features that enhance the reliability, availability, and serviceability
(RAS) of the product. The BIOS Power-on Self-test (POST) contains routines that check the
integrity of processors, memory DIMMs, memory ports, and coherency filters. If these routines
detect a failure, BIOS deconfigures the failing device and attempts to boot using the healthy
®
hardware that remains. Like previous Intel platforms, BIOS provides a consistent way to handle,
display, and record system errors that occur during POST or during run-time. Errors are recorded
in a system event log (SEL) which is available in-band from a system processor and out-of-band
over the IPMB.
Because the BIOS automatically configures system resources, many users will never need to
execute a configuration utility. Nevertheless, the system provides a flash-resident setup utility
that allows users to set preferences about system operation. This utility, called BIOS Setup, is
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1
The iFLASH utility updates the system flash ROM. It provides security features that reduce the
risk of tampering.
A recovery boot block allows recovery from catastrophic problems. The recovery boot block is
electrically protected from erasure by a jumper on the OPRF100 I/O carrier.
6.1 System Hardware
The OCPRF100 MP server system supports eight Pentium III Xeon processors. The Profusion
PCIset connects these processors in a symmetric, cache-coherent configuration. The system
supports a wide range of memory configurations from a minimum of 128 MB to a maximum of 32
2
GB. Four peer PCI buses provide high-speed access to resources in 10 hot-plug, 64-bit PCI
slots.
For additional information about the chip set, see the Gemini External Design Specification and
the PB64 External Design Specification. For additional board set information, see the OPRF100
MP Board Set Technical Product Specification.
6.1.1
Processors
The BIOS supports eight-way symmetric multiprocessing (SMP) using the Pentium III Xeon pro-
cessor and the Profusion PCIset. It automatically detects and initializes each processor. The
BIOS permits mixed steppings of the processor. The flash ROM contains space for four
3
updates.
BIOS supports the following processor features:
•
•
•
•
•
•
Power-on Built-in Self-test (BIST)
Processor bus error checking and correcting (ECC)
Processor BIOS updates
System management mode (SMM)
Memory type range registers (MTRRs)
Model specific registers (MSRs)
1. BIOS Setup should not be confused with the System Setup Utility (SSU), a DOS-based pro-
gram that provides the means to specially configure adapter cards and various embedded
devices. See the System Setup Utility External Product Specification for more information.
2. Support for 32 GB depends upon the commercial availability of the required DIMMs.
3. Although BIOS supports mixed steppings, uncharacterized errata may exist. Intel recommends
using identical steppings because other configurations receive limited, if any, testing. The sys-
tem BIOS does not support combinations that have known incompatibilities. Refer to the pro-
cessor literature for further information about mixing processor steppings.
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If the boot strap processor (BSP) fails during POST, BIOS will attempt to boot the system using
another processor. This feature is called fault resilient booting (FRB). For additional information
on FRB, see the OPRF100 MP Board Set Technical Product Specification.
®
6.1.2
Profusion Chip Set
The Profusion PCIset connects the processors, memory, and four peer PCI buses. It consists of
the memory access controller (MAC), data interface buffer (DIB), and PCI host bridge (PB64).
The OCPRF100 MP server system BIOS supports the following features of the chip set:
•
•
•
•
•
•
•
•
Memory port interleaving
Coherency filters
Coherency rules SRAM
Routing of memory cycles for PCI, VGA, APICs, and ROM space
Routing of I/O cycles
System management RAM (SMRAM)
Bus ECC
Memory ECC
Memory gaps from 512KB to 640KB and from 15 MB to 16 MB are not supported. The memory in
these regions is treated as normal system memory; memory-mapped I/O resources cannot be
placed there.
BIOS automatically initializes system memory, the coherency filters, and the rules SRAM. It
examines the PC-100 serial presence detect (SPD) EEPROMs on the PC-100 DIMMs and
adjusts the memory timings accordingly. Three levels of memory tests accommodate different
preferences about test time versus thoroughness. For higher availability, BIOS can deconfigure a
failing memory DIMM, memory port, and coherency filter.
6.1.3
I/O Subsystem
The OPRF100 I/O carrier provides a PC-AT compatible I/O subsystem with PCI slots instead of
ISA/EISA slots. It provides 10 PCI slots, an embedded PCI VGA, and an embedded dual-channel
LVDS controller. It also supports the standard compatibility devices: two serial ports, one parallel
port, two USB ports, an IDE port, a floppy controller, and a PS/2 keyboard and mouse.
The PIIX4E provides the bridge to ISA-compatible resources on the I/O carrier. It also provides
an IDE controller and a USB controller. BIOS uses its SMBus to access the SPD EEPROMs on
the PC-100 DIMMs. BIOS uses the 256 bytes of CMOS configuration RAM for nonvolatile stor-
age of BIOS Setup options and other BIOS parameters.
The SMC* Ultra I/O chip (FDC37C937APM) provides a floppy controller, parallel port, two serial
ports, a keyboard port, and a mouse port. The BIOS supports four modes of the parallel port: out-
put-only, bidirectional, enhanced parallel port (EPP), and extended capabilities port (ECP). The
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Ultra I/O chip also provides a keyboard controller containing Phoenix* microcode. BIOS down-
loads commands to the keyboard controller to provide various security features.
The I/O carrier contains 10 hot-plug PCI slots plus a PCI SVGA controller (Cirrus Logic* CL-
GD5446) and a dual-channel low-voltage differential SCSI controller (Symbios* SYM53C896).
The flash ROM contains the option ROM (OPROM) for both of these components.
BIOS uses the programmable interrupt device (PID) to route PCI interrupts to the AT-compatible
PICs. The PID also contains an I/O APIC that can handle interrupts when enabled by the operat-
ing system (OS). BIOS provides the standard Plug and Play interfaces for PCI interrupt routing.
The system flash ROM contains 2 MB of field programmable memory. The upper 1 MB contains
BIOS and other regions reserved for Intel. The lower 1 MB is available for use by system ven-
dors. BIOS implements a security mechanism that reduces the risk of unauthorized modification
of the system flash ROM.
6.1.4
Intelligent Platform Management Bus
BIOS communicates with the IPMB to update the SEL through the baseboard management con-
troller (BMC), display messages on the LCD, and implement FRB. By passing messages over
the IPMB to the BMC, server management cards can access the log, even if the system proces-
sors are not running.
The server management interface controller (SMIC) provides the gateway to the IPMB. The BMC
accesses many of the system components.
The BIOS provides interface functions that allow real-mode software to send messages over the
IPMB.
6.2 Industry Standards
The OCPRF100 MP server system BIOS supports industry standards wherever possible. These
standards expand the range of operating systems, software, adapters, and peripheral devices
supported by the system.
System vendors that develop software to differentiate their server products also benefit because
standards provide a consistent programming interface, regardless of the underlying hardware.
The system BIOS is governed by the following industry standards.
6.2.1
ACPI
The system BIOS supports the Advanced Configuration and Power Interface (ACPI) Specifica-
tion, Revision 1.0. ACPI is the key element in operating system directed power management. It
supports an orderly transition from existing (legacy) hardware to ACPI-compliant hardware. With
ACPI, the operating system can take direct control over the power management and Plug and
Play functions of the system. ACPI makes the MPS table and the Plug and Play BIOS run-time
interfaces obsolete.
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The system supports the S1, S4 OS, and S5 sleep states. It also supports Wake-on-LAN* from
the S1 and S4 states.
After the operating system sends the command to switch to ACPI mode, the power button acts
as a sleep button and a power button. If the button is pressed for less than four seconds, the sys-
tem enters a sleep state determined by the operating system. If it is pressed for more than four
seconds, the system powers down to the S5 state.
S1 Sleep State. The system enters the S1 sleep state when the power button is pressed
momentarily or when the operating system directs it to enter S1. The S1 sleep state retains the
system context; all processors’ caches, memory, and chip set devices retain their state informa-
tion. Only the power button and power management events (Wake-on-LAN) can wake the sys-
tem from S1.
S4 Sleep State. The system enters the S4 state when the power button is pressed (if configured
for hibernation) or when the hibernate option is chosen in the shutdown menu. If the operating
system supports save-to-disk, it stores the system context to hard disk before powering down.
When the system powers on, the operating system restores all processes from the disk. When
the system awakens, BIOS performs a normal boot; BIOS does not participate in saving and
restoring the system context.
S5 Sleep State. The system powers down without saving context.
6.2.2
Boot Devices and Peripherals
The system BIOS supports a wide range of peripherals and boot devices. The system can boot
an operating system from a floppy, an IDE device, a SCSI device, a network card, or an I O
2
device. Bootable CD-ROMs are supported in emulation and nonemulation modes.
The system BIOS supports the following specifications:
•
•
•
BIOS Boot Specification, Version 1.01.
El Torito CD-ROM Boot Specification, Version 1.0.
Intelligent I/O (I O) Architecture Specification, Revision 1.0.
2
•
Universal Serial Bus (USB) Specification, Revision 1.0.
Legacy USB devices are not supported by BIOS, but nothing in BIOS precludes support by an
operating system. A USB-aware operating system can enable the USB functionality.
Ordinarily, the system BIOS boots from the first device detected in its scan order. If adapters con-
form to the BIOS Boot Specification, the boot device can be selected without changing the place-
ment of the adapter cards.
I O defines a standard architecture for intelligent I/O. This is an approach to I/O in which low-
2
level interrupts are handled by specially designed I/O processors which communicate by passing
messages. Although the OCPRF100 MP server system does not include any built-in I O devices,
2
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the system BIOS provides the run-time functions necessary to boot from an I O mass-storage
2
adapter card. I O devices are added to the interrupt 13h chain and booted using these calls.
2
6.2.3
Management
Management of clients and servers is a major issue for end users. The system BIOS supports
server management applications through the following specifications:
•
•
•
Desktop Management Interface (DMI) Specification, Version 2.00
System Management BIOS (SMBIOS) Reference Specification, Version 2.1
Wired for Management Baseline Specification, Version 1.1a
The BIOS provides the data and interfaces required by the DMI specification. In addition, the
BIOS provides a memory image of DMI data to allow operating systems to read DMI structures
from protected-mode.
6.2.4
Configuration
Plug and Play compatibility allows most devices to be added to the system with no manual con-
figuration at all. The BIOS supports the following industry standards for full Plug and Play com-
patibility:
•
•
•
•
•
•
•
•
•
•
Multiprocessor Specification (MPS), Versions 1.1 and 1.4
Extended System Configuration Data Specification, Version 1.02a
Plug and Play BIOS Specification, Version 1.0a
Plug and Play ISA Specification, Version 1.0a
PCI Specification, Revision 2.1
PCI BIOS Specification, Revision 2.1
PCI to PCI Bridge Specification, Revision 1.0
PCI Power Management Specification, Revision 1.0
PCI Hot-plug Specification, Revision 1.0
POST Memory Manager (PMM) Specification, Version 1.01
Although the system contains no ISA slots, the Plug and Play ISA Specification is supported
because of the embedded peripherals.
The system BIOS can support either version of the Multiprocessor Specification. If version 1.1 is
selected, BIOS simply includes entries for the processors, buses, APICs, and interrupts. If ver-
sion 1.4 is selected, BIOS also creates entries describing the bus, memory, and I/O topology of
the system. BIOS Setup allows the user to specify which version of tables should be generated.
The BIOS allows users to use the SSU to specify PIC-mode interrupt assignments. This configu-
ration step is completely optional unless required by higher level software.
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6.3 BIOS Setup Utility
The OCPRF100 MP server system BIOS automatically configures system resources. BIOS
Setup allows the user to set preferences about system operation. It stores these preferences in
CMOS configuration RAM. Because BIOS Setup resides in flash ROM, the user can invoke it
without booting an operating system.
During POST, BIOS prompts the user to enter BIOS Setup with the following message:
Press <F2> to enter Setup
After the user presses F2, a few seconds may pass while BIOS completes its test and initializa-
tion tasks.
BIOS Setup supports security passwords which reduce the risk of unauthorized modifications. If
enabled, BIOS Setup requests an administrator password before allowing modifications.
Screen Format. The BIOS Setup screen is divided into four functional areas.
Table 6-1. BIOS Setup Screen Format
Functional Areas
Description
Menu Selection Bar
Located at the top of the screen, the Menu Selection Bar allows the user to select
the top level menus. These are the Main Menu, Advanced Menu, Security Menu,
Server Menu, and Boot Menu.
Menu Area
Located at the center of the screen, the Menu Area displays options and informa-
tion. Some items have submenus.
Item Specific Help
Keyboard Command Bar
Located at the right side of the screen, this area supplies help messages for the
menu items.
Located at the bottom of the screen, the Keyboard Command Bar displays key-
board commands for modifying settings and for navigating through the menus
and submenus.
Keyboard Commands. BIOS Setup supports the following keystroke commands.
Table 6-2. BIOS Setup Keyboard Commands
Key
F1
Command
Help
Description
Pressing F1 on any menu invokes the general help window.
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Table 6-2. BIOS Setup Keyboard Commands
ESC
Exit
The Escape key allows the user to back out of any field. When the Escape
key is pressed while editing a field, the edit of that field is terminated. When
the Escape key is pressed in a submenu, the parent menu is re-entered.
When it is pressed in a top-level menu, the Exit Menu appears.
¦
Select Item
Select Item
Select Menu
Change Value
The up arrow selects the previous value in an option list.
Ø
´
The down arrow selects the next value in an option list.
The left and right arrow keys move between top level menus.
The minus key changes the value of an item to the previous value in the list.
-
+
Change Value
The plus key changes the value of an item to the next value in the list.
Pressing the space bar performs the same function.
Enter
F9
Execute Command
Setup Defaults
Save and Exit
The Enter key activates submenus, selects options, and changes an item’s
value.
The F9 key restores the default values for configuration options. A pop-up
menu confirms the choice before modifying the values.
F10
The F10 key saves the settings and reboots the system. A pop-up menu
confirms the choice before saving the values.
6.3.1
Main Menu
and its submenus.
Table 6-3: Main Menu
Feature
Option
Description
System Time
System Date
Legacy Diskette A:
HH:MM:SS
MM/DD/YYYY
Sets the system time.
Sets the system date.
Disabled
Selects the floppy diskette type for drive A.
360KB, 5 ¼”
1.2 MB, 5 ¼”
720KB, 3 ½”
1.44/1.25 MB, 3 ½”†
2.88 MB, 3 ½”
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Table 6-3: Main Menu
Legacy Diskette B:
Disabled†
Selects the floppy diskette type for drive B.
360KB, 5 ¼”
1.2 MB, 5 ¼”
720KB, 3 ½”
1.44/1.25 MB, 3 ½”
2.88 MB, 3 ½”
Primary Master
Primary Slave
Selects IDE submenu.
Selects IDE submenu.
Processor Information
Keyboard Features
Language
Selects Processor Information submenu.
Selects Keyboard Features submenu.
Selects language used by BIOS.
English (US)†
French
German
Italian
Spanish
NOTES:
Default values are marked with the "†" symbol.
Table 6-4. IDE Submenu
Feature
Option
Description
Autotype Fixed Disk
Pressing the Enter key instructs BIOS Setup to detect the type of
fixed disk. If successful, the remaining value fields on this menu
are automatically filled in.
Type
None
If “Auto” is selected, BIOS determines the parameters during
POST. If “User” is selected, BIOS Setup prompts the user to fill in
the drive parameters. Drive types 1 through 39 are predetermined
drive types.
CD-ROM
IDE Removable
ATAPI Removable
User
Auto†
Cylinders
Displays the number of cylinders.
Heads
Displays the number of read/write heads.
Displays the number of sectors per track.
Displays the capacity of the drive.
Sectors
Maximum Capacity
Multisector Transfers
Disabled
2 Sectors
4 Sectors
8 Sectors
16 Sectors
Displays status of multisector transfers. Autotyped by BIOS.
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Table 6-4. IDE Submenu
LBA Mode Control
32 Bit I/O
Disabled
Enabled
Displays status of Logical Block Access. Autotyped by BIOS.
Disabled†
Enables 32-bit IDE data transfers.
Enabled
Transfer Mode
Standard
Selects the method for transferring data to/from the drive. Auto-
typed by BIOS.
Fast PIO 1
Fast PIO 2
Fast PIO 3
Fast PIO 4
Ultra-DMA Mode
Disabled
Mode 0
Mode 1
Mode 2
Selects the Ultra-DMA mode used for transferring data to/from the
drive. Autotyped by BIOS.
NOTES:
Default values are marked with the "†" symbol.
Table 6-5: Processor Information Submenu
Feature
Option
Description
Left Processor 1 Stepping ID
Left Processor 1 L2 Cache Size
Left Processor 2 Stepping ID
Left Processor 2 L2 Cache Size
Left Processor 3 Stepping ID
Left Processor 3 L2 Cache Size
Left Processor 4 Stepping ID
Left Processor 4 L2 Cache Size
Right Processor 1 Stepping ID
Right Processor 1 L2 Cache Size
Right Processor 2 Stepping ID
Right Processor 2 L2 Cache Size
Right Processor 3 Stepping ID
Right Processor 3 L2 Cache Size
Right Processor 4 Stepping ID
Right Processor 4 L2 Cache Size
Displays the stepping of the processor.
Displays the size of the L2 cache.
Displays the stepping of the processor.
Displays the size of the L2 cache.
Displays the stepping of the processor.
Displays the size of the L2 cache.
Displays the stepping of the processor.
Displays the size of the L2 cache.
Displays the stepping of the processor.
Displays the size of the L2 cache.
Displays the stepping of the processor.
Displays the size of the L2 cache.
Displays the stepping of the processor.
Displays the size of the L2 cache.
Displays the stepping of the processor.
Displays the size of the L2 cache.
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Table 6-6: Keyboard Features Submenu
Feature
Option
Description
Numlock
Auto†
On
Selects the power-on state of the Num Lock key.
Off
Key click
Disabled†
Enables key click.
Enabled
Keyboard auto-repeat rate
30/sec†
26.7/sec
21.8/sec
18.5/sec
13.3/sec
10/sec
Selects key repeat rate.
6/sec
2/sec
Keyboard auto-repeat
delay
¼ sec
½ sec†
¾ sec
1 sec
Selects delay before key repeat.
NOTES: Default values are marked with the "†" symbol.
6.3.2
Advanced Menu
Table 6-7 through Table 6-11 describe the Advanced Menu and submenus.
Warning: Setting items on this menu to incorrect values may cause the system to malfunction.
Table 6-7: Advanced Menu
Feature
Option
Description
Reset Configuration
Data
No†
Yes
If “Yes” is selected, BIOS clears System Configuration Data during the
next boot. The field is automatically reset to “No” in next boot.
System Wakeup
Feature
Disabled†
Enabled
Enables Wake-on-LAN for operating systems that do not support ACPI. If
the operating system enables ACPI, this mode has no effect.
Use Multiprocessor
Specification
1.1
1.4†
Selects the version of MP spec to use. Some operating systems require
version 1.1 for compatibility reasons.
Large Disk Access
Mode
CHS
LBA†
Select the drive access method for IDE drives. Most operating systems
use LBA or "Logical Block Addressing." Some operating systems, how-
ever, may use the CHS or "Cylinder-Head-Sector" method.Consult your
operating system documentation for more information.
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Table 6-7: Advanced Menu
Pause Before Boot
PCI Configuration
Disabled
Enabled†
If enabled, BIOS pauses for five seconds before booting the operating
system.
Selects PCI Configuration submenu.
I/O Device Configu-
ration
Selects I/O Device Configuration submenu.
Advanced Chip Set
Control
Selects Advanced Chip Set Control submenu.
NOTES:
Default values are marked with the "†" symbol.
Table 6-8: PCI Configuration Submenu
Option Description
Feature
Processor bus
PCI Slots 1-2
PCI Slots 3-6
PCI Slots 7-8
100 MHz
33 MHz
33 MHz
Displays the clock speed of the processor bus.
Displays the clock speed of PCI Segment A.
Displays the clock speed of PCI Segment B.
Displays the clock speed of PCI Segment C.
33 MHz
66 MHz
PCI Slots 9-10
33 MHz
66 MHz
Displays the clock speed of PCI Segment D.
PCI Device, Embedded
SCSI
Selects PCI Mode Submenu for the embedded LVDS controller.
PCI Slot 1
PCI Slot 2
PCI Slot 3
PCI Slot 4
PCI Slot 5
PCI Slot 6
PCI Slot 7
PCI Slot 8
PCI Slot 9
PCI Slot 10
Selects PCI Mode Submenu for this PCI slot.
Selects PCI Mode Submenu for this PCI slot
Selects PCI Mode Submenu for this PCI slot
Selects PCI Mode Submenu for this PCI slot
Selects PCI Mode Submenu for this PCI slot
Selects PCI Mode Submenu for this PCI slot
Selects PCI Mode Submenu for this PCI slot
Selects PCI Mode Submenu for this PCI slot
Selects PCI Mode Submenu for this PCI slot
Selects PCI Mode Submenu for this PCI slot
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Table 6-9: PCI Mode Submenu
Feature
Option
Description
Option ROM Scan
Disabled
Enables option ROM scan.
Enabled†
Enable Master
Latency Timer
Disabled
Enabled†
Enables device(s) as a PCI bus master.
Default
0020h
0040h
0060h
0080h†
00A0h
00C0h
00E0h
Specifies the minimum guaranteed number of PCI bus clocks that a device
can master on a PCI bus during one transaction.
NOTES:
Default values are marked with the "†" symbol.
Table 6-10: I/O Device Configuration Submenu
Option Description
Feature
Serial Port A
Disabled
Enabled†
Auto
If set to “Auto,” BIOS configures the port.
Base I/O Address
3F8h†
2F8h
3E8h
2E8h
Selects the base I/O address for COM port A.
Interrupt
IRQ 3
Selects the IRQ for COM port A.
IRQ 4†
Serial Port B
Disabled
Enabled†
Auto
If set to “Auto,” BIOS configures the port.
Base I/O Address
3F8h
2F8h†
3E8h
2E8h
Selects the base I/O address for COM port B.
Interrupt
IRQ 3†
Selects the IRQ for COM port B.
IRQ 4
Parallel Port
Disabled
Enabled†
Auto
If set to “Auto,” BIOS configures the port.
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Table 6-10: I/O Device Configuration Submenu
Mode
Output only
Bidirectional†
EPP
Selects the mode of the LPT port.
ECP
Base I/O Address
378h†
278h
178h
3BCh
Selects the base I/O address for LPT port. 178h is only available
when the LPT port is in EPP mode. Otherwise, 3BCh is available.
Interrupt
IRQ 5
Selects the IRQ for LPT port.
IRQ 7†
DMA channel
Floppy disk controller
DMA 1
DMA 3†
Selects the DMA channel for LPT port when configured for ECP
mode.
Disabled
Enabled†
Auto
Enables embedded floppy disk controller.
NOTES:
Default values are marked with the "†" symbol.
Table 6-11: Advanced Chip Set Control Submenu
Option Description
Feature
Extended RAM Step
1 MB†
1KB
Every location
Selects the thoroughness of the extended memory. If “1 MB” is
selected, BIOS tests each 1 MB boundary. If “1KB” is selected, BIOS
tests each 1KB boundary. If “Every location” is selected, BIOS tests
every byte. BIOS defaults to the fastest test.
L2 Cache
Disabled
Enabled†
Enables the second level cache. The second level cache should be
disabled only for diagnostic purposes.
Multiboot Support
Disabled†
Enables Boot Device Selection.
Enabled
Override PHP Switches
Disabled†
Enabled
If enabled, all PCI slots power-up. If disabled, only PCI slots with
plug-in cards power-up.
NOTES:
Default values are marked with the "†" symbol.
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6.3.3
Security Menu
Table 6-12: Security Menu
Feature
Option
Description
User Password is
Set
Clear†
Status only. Administrator password must be enabled before
user password can be enabled. User password is enabled by
entering a user password and disabled by entering a null user
password.
Administrator Password is
Set User Password
Set
Clear†
Status only. Enabled by entering an administrator password and
disabled by entering a null administrator password.
Press Enter
Press Enter
When the Enter key is pressed, the user is prompted for a pass-
word; press ESC key to abort.
Set Administrator Password
Password on boot
When the Enter key is pressed, the user is prompted for a pass-
word; press ESC key to abort.
Disabled†
Enabled
Requires password entry on boot. System remains in Secure
Mode until password is entered. Password On Boot takes prece-
dence over Secure Mode Boot.
Diskette access
User
Controls access to diskette drives based on password.
Administrator†
Secure Mode Timer
Disabled†
1 min
2 min
5 min
10 min
20 min
1 hr
Sets the period of key/PS2 mouse inactivity specified before
Secure Mode activates. A password is required for Secure Mode
to function.
2 hr
Secure Mode Hot Key
(Ctrl-Alt-?)
Disabled†
[A, B, ..., Z]
Assigns a hot key that invokes Secure Mode.
Secure Mode Boot
Disabled†
Enabled
System will boot in Secure Mode. The user must enter a pass-
word to unlock the system.
Video Blanking
Disabled†
Enabled
Blank video when Secure Mode is activated. A password is
required to unlock the system.
Floppy Write Protect
Front Panel Lockout
Disabled†
Enabled
When Secure Mode is activated, the floppy drive is write pro-
tected. A password is required to re-enable floppy writes.
Disabled†
Enabled
When Secure Mode is activated, the Reset and Power switches
are locked. A password is required to unlock the system.
NOTES:Default values are marked with the "†" symbol.
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6.3.4
Server Menu
Menu and submenus.
Table 6-13: Server Menu
Feature
Option
Description
System Management
Console Redirection
Processor Retest
Selects System Management submenu.
Selects Console Redirection submenu.
No†
Select “Yes” to clear historical processor status and retest all
Yes
processors on the next boot.
EMP Password Switch
Disabled†
Enables the EMP password.
Enabled
EMP Password
Selects the EMP password.
EMP ESC Sequence
EMP Hangup Line String
Modem Initialization String
This field is updated from the front panel controller firmware.
This field is updated from the front panel controller firmware.
This field is updated from the front panel controller firmware.
This field is updated from the front panel controller firmware.
High Modem Initialization
String
EMP Access Mode
Pre-Boot Only
Always Active
Disabled†
Selected when the EMP is enabled. If “Always Active,” the
EMP is always enabled. If “Pre-Boot Only,” the EMP is
enabled during power down or POST only. If “Disabled,” the
EMP is disabled.
EMP Restricted Mode
Access
Disabled†
Enabled
Enables Restricted Mode. In Restricted Mode, Power
Down, Front Panel NMI, and Reset Control via EMP
are disabled.
EMP Direct Connect/
Modem Mode
Direct Connect†
Modem Mode
Allows the user to connect to a local machine without using a
modem.
NOTES:
Default values are marked with the "†" symbol.
Table 6-14: System Management Submenu
Option Description
Feature
Firmware SMIs
Disabled
Enabled†
Enables SMI generation by agents on the Intelligent Platform Man-
agement Bus. Because BIOS requires SMIs for various tasks, setting
this field to disabled does not disable all sources of SMIs.
System Event Logging
Disabled
Enables logging of critical events.
Enabled†
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Table 6-14: System Management Submenu
Clear Event Log
Disabled†
Enabled
Clears the system event log. This option is reset to disabled on each
boot.
®
Memory Scrubbing
AERR Enable
Disabled
Enabled†
Enables memory scrubbing by the Profusion chip set.
Disabled
Enables AERR to be asserted on the processor host buses.
Enabled†
Assert NMI on BERR
Assert NMI on PERR
Assert NMI on SERR
Enable Host Bus Error
FPC Error Check
Disabled
Enabled†
Enables BERR to be reported as a critical event via NMI. . Requires
SERR to be enabled as well.
Disabled†
Enabled
Enables PERR to be reported as a critical event via NMI. Requires
SERR to be enabled as well.
Disabled
Enabled†
Enables SERR to be reported as a critical event via NMI.
Disabled
Enabled†
Enables ECC checking on the processor buses.
Disabled†
Enabled
Enables front panel controller (FPC) checking. If enabled, BIOS veri-
fies that it can communicate with the FPC.
HSC Error Check
Disabled†
Enabled
Enables hot-swap controller (HSC) checking. If enabled, BIOS veri-
fies that it can communicate with the HSC.
Server Management Info
Selects Server Management Information submenu.
NOTES:
Default values are marked with the "†" symbol.
Table 6-15: Server Management Information Submenu
Feature
Description
Board Part Number
Board Serial Number
System Part Number
System Serial Number
Chassis Part Number
Chassis Serial Number
BMC Revision
Displays Board Part Number.
Displays Board Serial Number.
Displays System Part Number.
Displays System Serial Number.
Displays Chassis Part Number.
Displays Chassis Serial Number.
Displays Baseboard Management Controller Revision.
Displays Front Panel Controller Revision.
Displays Hot-swap Controller Revision.
FPC Revision
HSC Revision
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Table 6-16: Console Redirection Submenu
Feature
Option
?Description
COM Port Address
Disabled†
3F8
When enabled, use the I/O port specified.
2F8
3E8
IRQ #
3†
When enabled, use the IRQ specified.
4
COM Port Baud Rate
9600†
When enabled, use the baud rate specified.
The maximum baud rate supported by the Emergency Man-
agement Port is 19.2K.
19.2KB
38.4KB
115.2KB
Flow Control
No Flow Control
CTS/RTS
When enabled, use the flow control type specified.
XON/XOFF
CTS/RTS + CD†
NOTES: Default values are marked with the "†" symbol.
6.3.5
Boot Menu
Table 6-17 describes the Boot Menu options, which allow the user to select the boot device. This
table also shows an example list of devices ordered in priority of the boot invocation. Items can
be reprioritized by using the UP and DOWN arrow keys to select the device. Once the device is
selected, use the + (plus) key to move the device higher in the boot priority list. Use the - (minus)
key to move the device lower in the boot priority list.
Table 6-17: Boot Menu
Feature
Option
Description
Floppy Check
Disabled†
If Enabled, system will verify floppy type on boot. “Disabled” will
Enabled
result in a faster boot.
Boot Device Priority
Hard Drive
Selects the Boot Device Priority submenu.
Selects the Hard Drive submenu.
Removable Devices
Removable Format
Maximum Number of
Selects the Removable Devices submenu.
Selects the Removable Format submenu.
1†
Selects the maximum number of I O (Intelligent I/O) drives that will
2
I O Drives
4
be assigned a DOS drive.
2
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Table 6-17: Boot Menu
Message Timeout Mul-
tiplier
1†
2
All I O message timeout values are multiplied by this number.
2
4
8
10
50
100
1000
Pause During POST
Disabled†
Use this to start the IRTOS (I O Real Time Operating System) man-
2
Enabled
ually. When POST has stopped, it issues three beeps. Pressing any
key continues POST.
NOTES:
Default values are marked with the "†" symbol.
6.3.6
Exit Menu
Table 6-18 describes the Exit Menu.
Table 6-18: Exit Menu
Option
Description
Exit Saving Changes
Exit Discarding Changes
Load Setup Defaults
Load Custom Defaults
Save Custom Defaults
Exit Setup and save changes.
Exit Setup without saving changes.
Load default values for all Setup items.
Load settings from Custom Defaults.
Save changes as Custom Defaults. If CMOS fails, BIOS uses Custom
Defaults if available. If not, it uses the factory defaults.
Discard Changes
Save Changes
Load previous values of all Setup items.
Save all changes.
6.4 Flash Utility
The Flash Memory Update utility (iFLASH) updates the flash ROM with new system software.
The loaded code and data include the following:
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•
•
•
•
•
System BIOS
Embedded video BIOS and SCSI BIOS
BIOS Setup Utility
Integrator-supplied user binary area
Language file
iFLASH communicates with the existing BIOS to provide security mechanisms which reduce the
risk of tampering. It also communicates with BIOS to verify that the new BIOS image is compati-
ble with the existing image. This helps to prevent an incorrect BIOS from being placed into flash
memory.
iFLASH operates in three modes: Interactive Mode, Command Line Mode, and Recovery Mode.
Interactive Mode and Command Line Mode are used in normal situations. In these modes, the
user boots DOS and then executes the iFLASH utility. The keyboard and video monitor are avail-
able for issuing commands, locating files, and displaying progress. If iFLASH is interrupted by a
power failure or by user intervention, the flash ROM may contain an incomplete BIOS. Recovery
Mode provides a method to install the BIOS when the flash ROM has been corrupted.
For best results, iFLASH should run under DOS with no extended memory managers loaded.
The flash utility does not support DPMI environments such as Windows*, Windows 95, or Win-
dows NT*. Because the utility is written for DOS, it does not run under any other operating sys-
tem.
For more information on iFLASH, see the OPRF100 MP Board Set Technical Product Specifica-
tion.
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7. Regulatory Specifications
The OCPRF100 MP server system, utilizing the OPRF100 board set, meets the specifications
and regulations for safety and EMC as defined in this chapter.
7.1 Safety Compliance
USA/Canada:
UL 1950, 3rd Edition/CSA 22.2, No. 950-M93, 3rd Edition
Europe:
Low Voltage Directive, 73/23/EEC
TUV/GS to EN60950 2nd Edition with Amendments, A1 = A2 + A3 + A4
International:
CB Certificate and Report to IEC 950, 2nd Edition w/ A1 + A2 + A3 + A4 includ-
ing EMKO-TSE (74-SEC) 207/94
7.2 Electromagnetic Compatibility
USA
FCC 47 CFR Parts 2 and 15, Verified Class A Limit
Canada
Europe
IC ICES-003 Class A Limit
EMC Directive, 89/336/EEC
EN55022, Class A Limit, Radiated & Conducted Emissions
EN50082-1 Generic Immunity Standard
EN61000-4-2 ESD Immunity (level 2 contact discharge, level 3 air discharge)
EN61000-4-3 Radiated Immunity (level 2)
EN61000-4-4 Electrical Fast Transient (level 2)
EN61000-3-2 Harmonic Currents
Australia/New
Zealand
AS/NZS 3548, Class A Limit
Japan
VCCI Class A ITE (CISPR 22, Class A Limit).
IEC 1000-3-2; Harmonic Currents
International
CISPR 22, Class A Limit
7.3 CE Mark
The CE marking on this product indicates that the product is in compliance with the European
Community’s EMC Directive 89/336/EEC, and Low Voltage Directive, 73/23/EEC.
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7.4 Electromagnetic Compatibility Notice (USA)
This equipment has been tested and found to comply with the limits for a Class A digital device,
pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protec-
tion against harmful interference when the equipment is operated in a commercial environment.
This equipment generates, uses, and can radiate radio frequency energy and, if not installed and
used in accordance with the instruction manual, may cause harmful interference to radio commu-
nications. Operation of this equipment in a residential area is likely to cause harmful interfer-
ence, in which case the user will be required to correct the interference at his own expense.
7.5 Electromagnetic Compatibility Notices (International)
English translation of the notice above:
This is a Class A product based on the standard of the Voluntary Control Council for Interference
by Information Technology Equipment (VCCI). If this equipment is used in a domestic environ-
ment, radio disturbance may arise. When such trouble occurs, the user may be required to take
corrective actions.
Cet appareil numérique respecte les limites bruits radioélectriques applicables aux
appareils numériques de Classe A 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 A 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.
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8. Peripheral Bay Backplane Board
This chapter describes the features and functionality of the peripheral bay backplane board,
which is also referred to as the backplane. The backplane is designed in compliance with the
SCSI Command Set For Enclosure Services Document Specification, and SCSI Accessed Fault-
Tolerant Enclosures Interface Specification.
Features
The backplane supports the following features:
•
•
Single channel maximum of two 1-inch or 1.6-inch low-voltage differential signal (LVDS)
SCSI (16-bit) drives and one 8-bit SCSI device.
Single connector attachment (SCA-2) connectors to simplify insertion and removal of
hard disk drives.
•
•
•
•
•
Insertion and removal of hard drives during power on (hot swap).
LED indicators for each drive.
Field effect transistor (FET) power control for each hard drive.
FET short protection.
Microcontroller to monitor enclosure services.
2
•
•
•
•
•
•
•
•
•
I C bus for management information.
Flash memory for upgrading firmware.
Temperature sensing.
Programmable logic device (PLD) reprogrammability.
SCSI accessed fault-tolerant enclosures (SAF-TE).
Tolerant of baseboard management controller (BMC) failure.
Supports SCSI-3 (LVDS SCSI) and SCSI-2.
LVD/SE multimode support.
IDE/FD connections on board.
8.1 Peripheral Bay Backplane Overview
The backplane will be an LVDS SCSI design. The single backplane has one channel with SAF-
TE and microcontroller with a capacity of two drives maximum, either 1.0 or 1.6 inches tall and
3.5 inches wide.
The backplane incorporates indicator LEDs. These LEDs will indicate drive power (green), drive
activity (green), and drive fault (yellow). A light pipe will transmit the LED indicators from the
backplane to the front bezel.
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8.1.1
Architectural Overview
The backplane is an integral part of the OCPRF100 MP Server System. It is designed to provide
a cost effective ease of power-on (hot-swap) drive replacement, provide easy RAID integration
over a wide range of RAID controller products, and be vendor independent.
The single feature that simplifies RAID integration is the addition of an onboard SCSI target
whose command set allows vendor independent controller management and monitoring for
associated drive functions such as drive insertion and removal, light indicators, and drive power
control. Its use simplifies cable management and eliminates errors caused by the possibility of
incorrect correlation of several cables.
The backplane performs the tasks associated with hot-swappable SCSI drives, and enclosure
(chassis) monitoring and management, as specified in the SAF-TE Specification. The tasks sup-
ported by the backplane include, but are not limited to, the following:
²
Monitoring the SCSI bus for enclosure services messages, and acting on them appro-
priately. Examples of such messages include: activate a drive fault indicator, power down
a drive which has failed, and report backplane temperature.
2
²
SAF-TE intelligent agent, which acts as a proxy for “dumb” I C devices (that have no
bus mastering capability) during intrachassis communications.
8.1.2
Placement Diagram
Figure 8-1: Placement Diagram Primary Side
8.1.3
Deviations from SAF-TE Specification
The SAF-TE specification requires the use of a PAIR signal. The intended use of this signal is to
allow inter-backplane processor communication. Since this design is not intended to be con-
nected to other backplanes, this signal is deemed unnecessary and is not implemented here.
8.2 Functional Description
This section defines the architecture of the backplane, including descriptions of functional blocks
SCSI channel of the backplane. An overview of each block follows.
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Drive Fault
Indication
Support
LVD/SE Active
Terminators
Public
I2C BUS
Power
Control
SCA2 Connectors
SCSI Interface
with LVD/SE
switch
CPU Unit
Narrow SCSI Connector
Private I2C
Temperature
Sensor
Floppy
Connector
LVDS SCSI Connector to Host
Controller
Serial
EEPROM
IDE
Connector
Figure 8-2: Functional Block Diagram
8.2.1
Hot-swap Connectors
The backplane provides two hot-swap SCA-2 right angle connectors, which provide power and
SCSI signals using a single connector. Each SCSI drive attaches to the backplane using one of
these connectors.
8.2.2
SCSI Interface
There is one LVDS SCSI channel on the backplane. The SCSI interface on the backplane pro-
vides the required additional circuitry between the SCSI bus and the microcontroller (containing
the intelligence for the backplane), which allows the microcontroller to respond as a SCSI target.
This is implemented using a Symbios Logic* 53C80S SCSI interface chip (or equivalent).
8.2.3
LVD/SE Active Termination
The LVD/SE active terminators provide SCSI-3 compliant termination for the backplane end of
the SCSI bus. It is assumed that the other end of the SCSI segment is properly terminated as
required by the SCSI-3 specification.
8.2.4
Power Control
Power control on the backplane supports the following features.
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²
Spin-down of a drive when failure is detected and reported (using enclosure services
messages) via the SCSI bus. An application or RAID controller detects a drive-related
problem that indicates a data risk. In response, it takes the drive out of service and sends
a spin down SCSI command to the drive. This decreases the likelihood that the drive is
damaged during removal from the hot-swap drive bay. When a new drive is inserted, the
power control waits a small amount of time for the drive to be fully seated, and then
appiles power to the drive to prepare for operation.
²
If system power is on, the backplane immediately powers off a drive slot when it
detects a drive has been removed. This prevents possible damage to the drive when it is
partially removed and reinserted while full power is available. It also prevents disruption
of the entire SCSI array due to possible sags in supply voltage and resultant current
spikes.
8.2.5
FET Short Protection
The FET short protection circuit is useful to protect both 12 volt and 5 volt power control FETs
located on the backplane.
8.2.6
Microcontroller
The microcontroller provides all the intelligence for the LVDS SCSI backplane. It is an 80C652
2
microcontroller, with a built-in I C interface. The 80C652 microcontroller uses Flash for program
code storage, and static RAM for program variables and buffers.
8.2.7
LED Arrangement
The three LEDs per drive are arranged as follows (viewed from the drive bay):
Green
Power
LED
Green
Activity
LED
Yellow
Fault
LED
Figure 8-3: LED Arrangement
8.2.7.1
Power LEDs
Power LEDs are green and they indicate the drive is receiving power. Power LED control is
driven by the FET switched +5 volts applied to the drive.
8.2.7.2
Drive Activity LEDs
The activity LEDs are green and are driven by the drive, pin 77, and interfaces directly to the
LED.
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8.2.7.3
Fault LEDs
The hot-swap controller is responsible for turning the drive fault LEDs on or off according to the
states specified via commands received through SAF-TE and the IPMB. The drive fault LEDs are
yellow and serve to indicate failure status for each drive. The LEDs are physically located on the
LVDS SCSI backplane, and are driven from the backplane.
During initialization, the microcontroller flashes the LEDs for 2 seconds to signal POST comple-
tion successfully.
2
8.2.8
IPMB (I C bus)
2
The Intelligent Platform Management Bus(IPMB) is a system-wide I C server management bus.
It provides a way for various system components to communicate independent of the other sys-
2
tem interfaces (e.g., the PCI bus or the processor/memory bus). The I C bus controller is inte-
grated into the microcontroller.
8.2.9
Temperature Sensor
A Dallas* DS1621 temperature sensor device is connected to each microcontroller on a “private”
2
I C bus. This device is used to monitor the drive bay temperature. The temperature may be read
via SAF-TE and IPMB commands. In addition, settable temperature thresholds are provided via
IPMB commands. The hot-swap controller (HSC) can be configured to issue an event message
on the IPMB when the temperature threshold is crossed.
2
Microcontroller programming implements the private I C connection by explicitly setting and
2
clearing appropriate clock and data signals, to emulate an I C-like interface to the sensor.
8.2.10 Serial EEPROM
The AT24C02N* provides 256 bytes of nonvolatile storage. This is used to hold the serial num-
ber, part number, and other field replaceable unit (FRU) inventory information and miscellaneous
application code used by firmware about the backplane.
8.3 Board Functions
This section describes functioning parts as required by the SCSI Accessed Fault-Tolerant Enclo-
sures Interface Specification and SCSI Command Set For Enclosure Services Document Speci-
fication. In addition to these requirements, the board is capable of downloading code via IPMB to
update the Flash executable code. The backplane functions begin at power up.
8.3.1
Reset
8.3.1.1
Cold Reset
At power up, all logic on the backplane is held in reset until the power supplies are stable. Two
sources of power-good signaling are used. The first is the PWR_GOOD signal from the power
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supply. The second is the output from an onboard Dallas DS1233* reset controller, in which RST
is kept active for approximately 350 ms after the power supply has reached the selected toler-
ance. These two signals are ORed to keep the board in reset. When both signals indicate that
power is good, two things happen: 1) the reset signals are negated to the controllers, SCSI tar-
get, and other logic; and 2) power is applied sequentially to each SCA drive connector where a
drive is present. Onboard logic sequentially enables each drive’s FET drive power circuitry every
200 µsec.
8.3.2
Microcontroller
The microcontroller is a Philips* P80C652FBB operating at 12 MHz. The microprocessor boots
itself up via code residing in the Flash boot block. The following is a list of the microcontroller fea-
tures:
•
•
•
•
•
Operating frequency from 1.2 MHz to 16 MHz.
80C51 based architecture.
Four 8-bit I/O ports.
Two 16-bit timer/counters.
Full-duplex UART facilities.
2
•
•
•
I C serial interface.
Two power control modes: idle mode, power-down mode.
Operating temperature range: 0°C to +70°C.
8.3.2.1
Overview
The 80C652 is a derivative of the 80C51 8-bit CMOS microcontroller. The 80C652 contains all of
the features of the 80C51 (that is, the counter/timers T0 and T1, the serial I/O (UART), and four
8-bit I/O ports).
The 80C652 is pin-for-pin compatible and code compatible with the 80C51, except for additional
Vss pins at the QFP package.
8.3.2.2
Differences from the 80C51*
The organization of the data memory is similar to the 80C51, except that the 80C652 has an
additional 128 bytes of RAM overlapped with the special function register (SFR) space. This
additional RAM is addressed using indirect addressing only and is available as stack space.
8.3.2.3
Special Function Registers
The 80C652 special function register space is the same as that on the 80C51, except that it con-
tains four additional SFRs. The added registers are: S1CON, S1STA, S1DAT, and S1ADR. In
addition to these, the UART special function registers SCON and SBUF have been renamed
S0CON and S0BUF for clarity.
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Since the standard 80C51 onchip functions are the same on the 80C652, the SFR locations, bit
locations, and operation are unchanged. The only exception is in the interrupt enable and inter-
2
rupt priority SFRs. These have been changed to include the interrupt from the I C serial port.
2
8.3.2.4
I C Serial Communication-SI01
2
The I C pins are alternate functions to port pins P1.6 and P1.7. Because of this, P1.6 and P1.7
on these parts do not have a pull-up structure as found on the 80C51. Therefore P1.6 and P1.7
have open drain outputs on the 80C652.
2
8.3.2.5
I C Electrical Input/Output Specifications
2
The I C bus allows communication between devices made in different technologies, which might
also use different supply voltages.
For devices with fixed input levels, operating on a supply voltage of +5 V ±10%, the following lev-
els have been defined:
V
V
= 1.5 V (maximum input low voltage).
= 3 V (minimum input high voltage).
ILmax
IHmin
2
Devices operating on a fixed supply voltage different from +5 V (e.g., I L), must also have these
input levels of 1.5 V and 3 V for V and V respectively.
IL
IH
For devices operating over a wide range of supply voltages (e.g., CMOS), the following levels
have been defined:
V
V
= 0.3 V (maximum input low voltage).
DD
ILmax
IHmin
= 0.7 V (minimum input high voltage).
DD
For both groups of devices, the maximum output low value has been defined as follows:
= 0.4 V (maximum output voltage low) at 3 mA sink current.
V
OLmax
2
The maximum low-level input current at V
of both the SDA pin and the SCL pin of an I C
OLmax
device is -10µA, including the leakage current of a possible output stage.
2
The maximum high-level input current at 0.9V of both the SDA pin and SCL pin of an I C
DD
device is 10µA, including the leakage current of a possible output stage.
2
The maximum capacitance of both the SDA pin and the SCL pin of an I C device is 10 pf.
8.3.2.6
Noise Margin
Noise margin minimum on the low level is 0.1 V
.
DD
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Noise margin minimum on the high level is 0.2 V
.
DD
8.3.3
SCSI Controller
The SCSI controller selected for this backplane is an 8-bit SYM53C80S controller. Device selec-
tion is memory mapped at address FB00-FC00.
It is reset on power up and when reset is asserted to the backplane.
SYM53C80S access slows down the bus; it is recommended to pulse SAF-TE infrequently.
SAF_TE command processing is 2–10 ms. The following is a feature summary of the SCSI con-
troller:
•
•
•
•
•
•
•
•
•
•
Supports the ANSI X3.131-1994 standard.
Parity generation with optional checking.
No external clock required.
Onchip 48 mA single-ended drivers and receivers.
Functions in both the target and initiator roles.
Direct control of all SCSI signals.
Asynchronous data transfers of up to 5.0 MB/second.
Variety of packaging options.
SCSI protocol efficiency is directly proportional to the speed of the microprocessor.
CMOS parts provide additional grounding and controlled fall times that reduce noise gen-
erated by SCSI bus switching.
•
SCAM level 1 and 2 compatibility.
8.4 LVDS SCSI Termination
8.4.1
LVDS Termination
The following is a list of the features of the LVDS SCSI termination.
Auto selection multimode single ended or low-voltage differential termination
2.7 V to 5.25 V operation
Differential failsafe bias
Thermal packaging for low junction temperature and better MTBF
Master/slave inputs
Supports active negation
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Standby (Disable Mode) 5µA
3 pF channel capacitance
8.4.2
Single Ended Termination
The following is a list of the features of the single-ended SCSI termination.
•
•
•
•
•
•
•
•
Fully compliant with SCSI, SCSI-2, and SCSI-3 standards.
Backward compatible to the DS2107* and DS2107A*.
Provides active termination for nine signal lines.
Laser-trimmed 110 ohm termination resistors have 2% tolerance.
Low dropout voltage regulator.
Power-down mode isolates termination resistors from the bus.
Fully supports actively negated SCSI signals.
Onboard thermal shutdown circuitry.
8.5 Programmable Logic
PLDs are used in order to enhance board simplicity, board layout, and design maintainability. The
backplane uses one Lattice* programmable logic device. The device is used for: address
decode, drive power control, and miscellaneous registers. The following is a summary of the pro-
grammable logic features:
2
•
•
•
•
•
•
High-performance, E CMOS technology.
In-system programmability (ISP) via a simple 5-wire interface.
7.5 ns propagation delays with up a 125-MHz maximum operating frequency.
Complete programmable device can combine glue logic and structured designs.
Unused product term shutdown saves power.
Programmable output slew rate control to minimize switching noise.
8.6 Memory Map
This section describes the microcontroller memory map and individual regions of memory.
80C652 architecture allows up to 64KB of byte-addressable memory. No I/O space is provided,
since 80C652 architecture makes no distinction between memory and I/O addresses (all I/O
accesses are memory-mapped). However, four I/O ports available to the microcontroller are also
defined in this chapter.
8.6.1
Memory Map
Figure 8-4 shows the memory map viewed from the perspective of the microcontroller.
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A description of each memory block is provided, showing the purpose and function as deter-
mined by microcontroller programming. These functions may also be controlled by system soft-
ware using SCSI commands defined in the SAF-TE specification.
Figure 8-4: Microcontroller Memory Map
8.6.1.1
Flash Memory Region (0x0000 – 0x7FFF)
The Atmel* 27C257 or equivalent Flash EPROM is accessible as either a data or program mem-
ory read. Writes to Flash are also allowed in order to support field-upgradeable code. The lower
4KB (0x0000 – 0x0fff) are not writeable unless the boot block write protect bit in the fan mux reg-
ister is cleared.
8.6.1.2
Static RAM Region (0x8000 – 0xF7FF)
The static RAM is accessible as either data or program accesses. It is possible to load execut-
able code into the static RAM and execute directly from RAM.
8.6.1.3
Memory Mapped Registers (0xF800 – 0xFFFF)
The upper 2KB of the controller address space are mapped to eight regions of 256 bytes for
memory-mapped registers and miscellaneous functions. For each of the regions listed, the actual
function occupies less than the full 256 bytes of its address decode. Unless specifically stated,
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each region is a single address. Thus, aliases will occur on byte boundaries throughout the
remainder of the region decoded for that function. Note that the eighth region from 0xFF00 –
0xFFFF is not used.
In register bit descriptions listed below, five fields are shown: the data bit number(s), the name of
the field, how the bit(s) respond to a reset, whether the bits are readable and/or writeable, and a
description of the field. RO indicates read-only, WO indicates write-only, and RW indicates read-
able and writeable. Any fields that are marked as reserved should be ignored when read, and
should be set to zero when written.
8.6.1.3.1 Drive Fault Status Region (0xF800 – 0xF8FF)
The drive fault LEDs are controlled by this register. Writing a one to a bit turns the corresponding
LED on. Reading the register returns the current state of the LEDs. A warm or cold reset clears
all register bits to zero. The upper two bits are undefined.
Table 8-1: Drive Fault Status Byte Format
Bit(s) Name
Reset Action
N/A
R/W Description
7:2
1:0
Reserved
FLT[1:0]
Reserved bits.
Clear
RW
Drive fault LED enable. 0=LED off, 1=LED on. Bit 0 corre-
sponds to drive ID 0.
8.6.1.3.2 Drive Power Enable Region (0xF900 – 0xF9FF)
Power is applied to a drive when its corresponding power-enable bit is set to one in this register.
Following a cold reset, each drive that is present will have its power-enable bit turned on. A warm
reset has no effect on this register.
Table 8-2: Drive Power Enable Byte Format
Bit(s) Name
Reset Action
N/A
R/W Description
7:2
1:0
Reserved
DRVPWR[1:0]
Reserved bits.
(see text)
RW
Drive power enable. 0=power off, 1=power on. Bit 0 corre-
sponds to drive ID 0.
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8.6.1.3.3 Drive Present Status Region (0xFA00 – 0xFAFF)
The absence or presence of each drive is detected by the state of pin 44 on that drive’s SCA con-
nector. A drive that is present will have its corresponding bit set to one in this register. Bits 7:6 in
this register indicate the revision of the PLD code that is installed.
Table 8-3: Drive Present Status Byte Format
Bit(s) Name
Reset Action
R/W Description
1:0 DRVPRES[1:0] N/A
RO
Drive present sense. 0=drive absent, 1=drive present. Bit 0
corresponds to drive ID 0.
SCSI Target Access Region (0xFB00 – 0xFBFF)
The Symbios 53C80 SCSI target appears to the controller as a set of eight registers at sequential
addresses. For details, refer to the Symbios SYM53C80E/S Data Manual.
8.6.1.3.4 SCSI DACK Access Region (0xFC00 – 0xFCFF)
When the SCSI target is in DMA mode, data bytes may be read from or written to the 53C80S by
reading or writing the DACK access region. This asserts the DACK_L input of the 53C80S
instead of the CS_L input.
8.6.2
I/O Ports
80C652 architecture provides four memory-mapped I/O ports:
•
•
•
•
Port #0 (P0).
Port #1 (P1).
Port #2 (P2).
Port #3 (P3).
8.6.2.1
P0
Since the firmware for the microcontroller is located in a Flash memory device (for ease of
debugging and for possible field upgradeability), and all memory and memory-mapped I/O is
located outside the microcontroller, P0 is used as a time-multiplexed low-order address and data
bus. It is not used for general I/O purposes.
8.6.2.2
P1
P1 has two dedicated-function signals, and six implementation-specific control signals, as shown
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Table 8-4: P1 Functions
Bit
Name
I/O
Fixed†
Function
2
7
SDA
I/O
Y
I C serial data signal for the IPMB.
2
6
SCL
I/O
Y
I C serial clock signal for the IPMB.
5
4
Reserved
-
N
N
Reserved for future use.
SCSI _reset_L
O
Reset SCSI controller. If 0, places the 53C80S SCSI chip into
reset. If 1, the SCSI interface chip comes out of reset and oper-
ates normally.
3
SCSI_DRQ
I
N
SCSI DMA Request. Connected to the DRQ signal of the
53C80S SCSI chip. Allows the microcontroller to use the DMA
transfer capabilities of the SCSI interface chip, which results in
higher performance.
2
1
Reserved
-
N
N
Reserved for future use.
2
SDA_Local
I/O
Serial data for private I C connection to temperature sensor.
2
0
SCL_Local
O
N
Serial clock for private I C connection to temperature sensor.
Notes:† “Fixed” indicates whether the function/pin is defined by the microcontroller pinout (fixed)
or is implementation-specific (not fixed).
8.6.2.3
P2
P2 is the high-order address and data bus for external device access. It is not used for general I/
O purposes.
8.6.2.4
P3
P3 provides four dedicated-function signals, and four implementation-specific control signals, as
Table 8-5: P3 Functions
Bit
Name
I/O
Fixed†
Function
7
RD_L
O
Y
Read strobe. Indication from the microcontroller that the current
bus cycle is a read operation.
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Table 8-5: P3 Functions
6
WR_L
O
Y
Write strobe. Indication from the microcontroller that the current
bus cycle is a write operation.
5
4
3
2
1
0
Reserved
Reserved
INT1_L
-
-
I
N
N
Y
Y
N
N
Reserved for future use.
Reserved for future use.
Interrupt 1. Connected to the SCSI bus reset signal RST_L.
Interrupt 0. Connected to the 53C80S* SCSI chip interrupt.
Reserved for future use.
INT0_L
I
Reserved
Reserved
-
-
Reserved for future use.
Notes: † “Fixed” indicates whether the function/pin is defined by the microcontroller pinout (fixed) or is implementa-
tion-specific (not fixed).
8.7 Signal Descriptions
This section defines the function of signal pins on the backplane connector interfaces.
8.7.1
Power Good Signal
This is an input signal from the OCPRF100 midplane. When asserted high, this signal signifies
that the power supplies have their PWR_GOOD asserted meaning that power has been applied
and not faulted. The PWR_GOOD signal and signal from an onboard Dallas DS1233* reset con-
troller are ORed to keep the board in reset. When both signals indicate that power is good, two
things happen: 1) the reset signals are negated to the controllers, SCSI target, and other logic;
and 2) power is sequentially applied to each SCA drive connector where a drive is present.
8.7.2
CONN_EN_L
This signal enables the programming capability. When this signal is low, the two microcontrollers
are held in reset, and the JTAG mode pin is gated through to the TMS input on the PLDs. When
this signal is high, the microcontroller reset is controlled via normal means and the TMS input to
the PLDs is held high, which keeps the JTAG interface in an idle state.
8.7.3
CONN_SDI
This is the serial data input stream into the TDI input of the first device on the JTAG chain.
8.7.4
CONN_SDO
This is the serial data output stream from the TDO output of the last device on the JTAG chain.
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8.7.5
CONN_MODE
This becomes the TMS input on the JTAG ports of all the PLDs. TMS is a mode select pin which
controls the function of the JTAG port. If the enable signal is high (i.e., disabled), the mode signal
is degated from the TMS pin, and TMS is held high, which keeps the JTAG port in an idle state.
8.7.6
CONN_SCLK
This is connected to the TCK clock input on the JTAG port of all the PLDs.
8.8 Electrical, Mechanical Specifications
This section specifies the operational parameters and physical characteristics for the backplane.
8.8.1
Connectors
This section defines all the major connectors on the backplane. All the connectors on the back-
plane are keyed.
8.8.1.1
Connector Specifications
connectors on the backplane. Refer to manufacturers’ documentation for more information on
connector mechanical specifications.
Table 8-6: Connector Specifications
Item
Quantity
Manufacturers and Part Number
AMP* (787535-1)
Description
1
2
3
4
5
6
2
1
1
2
1
1
80 pin right angle SCA-2 connector.
240 pin recp right angle 5X48.
34 pin (2x17) BMC connector KY5.
4 pin power connector.
BERG* (73957-1002)
FOXCONN* (HL03177-P4)
Molex* (15-24-4342)
Molex (87256-4043)
40 pin IDE cable.
FOXCONN (HL07256-D6)
50 pin SE SCSI connector.
8.8.1.2
SCSI SCA-2 Drive Connector
An SCA-2 connector is used on the primary side of the board. The pinout is the same as SCA-1.
Connector pin assignment is for the current draft Small Form Factor-8046 Rev. 1.1 document.
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Pin 80
Pin 41
SCA CONNECTOR 80P
Pin 40
Pin 1
Figure 8-5: SCA-2 Connector 80P
Table 8-7: SCA-2 Connector
80-pin connector
contact and signal name
Cable conductor numbers
are not applicable
80-pin connector
contact and signal name
1
12V Charge
12V
(L)
(S)
(S)
(S)
(S)
(S)
(S)
(S)
(S)
(S)
(S)
(S)
(S)
(S)
(S)
(S)
(S)
(S)
(S)
(L)
(L)
(L)
12V Ground
12V Ground
12V Ground
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
2
3
12V
4
12V
(S) Mated 1
5
Reserved/ESI-1
Reserved/ESI-2
-DB(11)
-DB(10)
-DB(9)
-DB(8)
-I/O
(L)
(L)
-EFW
6
DIFFSNS
7
(S) +DB(11)
(S) +DB(10)
(S) +DB(9)
(S) +DB(8)
(S) +I/O
8
9
10
11
12
13
14
15
16
17
18
19
-REQ
(S) +REQ
(S) +C/D
(S) +SEL
(S) +MSG
(S) +RST
(S) +ACK
(S) +BSY
(S) +ATN
-C/D
-SEL
-MSG
-RST
-ACK
-BSY
-ATN
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Table 8-7: SCA-2 Connector
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
-DB(P)
(S)
(S)
(S)
(S)
(S)
(S)
(S)
(S)
(S)
(S)
(S)
(S)
(S)
(S)
(S)
(S)
(L)
(L)
(L)
(L)
(L)
(S) +DB(P)
(S) +DB(7)
(S) +DB(6)
(S) +DB(5)
(S) +DB(4)
(S) +DB(3)
(S) +DB(2)
(S) +DB(1)
(S) +DB(0)
(S) +DB(P1)
(S) +DB(15)
(S) +DB(14)
(S) +DB(13)
(S) +DB(12)
(S) Mated 2
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
-DB(7)
-DB(6)
-DB(5)
-DB(4)
-DB(3)
-DB(2)
-DB(1)
-DB(0)
-DB(P1)
-DB(15)
-DB(14)
-DB(13)
-DB(12)
5V
5V
(L)
(L)
(L)
(L)
(L)
(L)
5V Ground
5V Charge
Spindle Sync
MTRON
SCSI ID (0)
SCSI ID (2)
5V Ground
Active LED Out
DLYD_START
SCSI ID (1)
SCSI ID (3)
8.8.1.3
Floppy Disk Port Connection
Table 8-6: Floppy Disk Connector
Pin
1
Name
GND
GND
Key
Pin
2
Name
FD_DENSEL
n/c
3
4
5
6
FD_DRATE0
FD_INDEX_L
7
GND
8
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Table 8-6: Floppy Disk Connector
9
GND
10
12
14
16
18
20
22
24
26
28
30
32
34
FD_MTR0_L
FD_DR1_L
11
13
15
17
19
21
23
25
27
29
31
33
GND
GND
FD_DR0_L
GND
FD_MTR1_L
FD_DIR_L
FD_MSEN1
GND
FD_STEP_L
FD_WDATA_L
FD_WGATE_L
FD_TRK0_L
FD_WPROT_L
FD_RDATA_L
FD_HDSEL_L
FD_DSKCHG_L
GND
GND
GND
FD_MSEN0
GND
GND
GND
8.8.1.4
BERG* 240-pin Right Angle 5 X 48 Connector
Table 8-8: BERG* 240-Pin Right Angle 5 X 48 Connector Pinout
ROW
A
Col-
umn
B
C
D
E
1
2
3
4
5
6
7
8
RESET(1)
DD7 (3)
DD6 (5)
DD5 (7)
DD4 (9)
DD3 (11)
DD2 (13)
DD1 (15)
GND
GND
GND
GND
GND
GND
GND
GND
DD8 (4)
GND
GND
GND
GND
GND
GND
GND
GND
FD_DSKCHG_L
FD_HDSEL_L
FD_RDATA_L
FD_WPROT_L
FD_MSEN0
DD9 (6)
DD10 (8)
DD11 (10)
DD12 (12)
DD13 (14)
DD14 (16)
DD15 (18)
FD_TRK0_L
FD_WGATE_L
FD_WDATA_L
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Table 8-8: BERG* 240-Pin Right Angle 5 X 48 Connector Pinout
9
DD0 (17)
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
+12v
+12v
+12v
+12v
+12v
+12v
+12v
+12v
+12v
+12v
+12v
+12v
+5v
GND
GND
FD_STEP_L
FD_DIR_L
FD_MSEN1
FD_MTR1_L
FD_DR0_L
FD_DR1_L
FD_MTR0_L
FD_INDEX_L
FD_DRATE0
KEY
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
DIOW (23)
CSEL (28)
DIOR (25)
GND
GND
DMARQ (21)
GND
GND
GND
IORDY (27)
DMACK (29)
GND
GND
RESERVED (32)
PDIAG (34)
DA2 (36)
CS0 (37)
DA0 (35)
CS1 (38)
GND
GND
GND
INTRQ (31)
DA1 (33)
DASP (39)
GND
GND
GND
GND
GND
N/C
GND
GND
FD_DENSEL
Reserved
GND
GND
GND
GND
S68 (-DB 11)
S34 (+DB 11)
S65 (-DB8)
S31 (+DB 8)
S62 (-C/D)
S28 (+C/D)
S59 (-RST)
S25 (+RST)
S56
GND
Reserved
GND
GND
Reserved
GND
S32 (+DB 9)
S66 (-DB 9)
S29 (+REQ)
S63 (-REQ)
S26 (+MSG)
S60 (-MSG)
S23 (+BSY)
S57 (-BSY)
S67 (-DB 10)
S33 (+DB 10)
S64 (-I/O)
+12v
+12v
+12v
S30 (+I/O)
S61 (-SEL)
S27 (+SEL)
S58 (-ACK)
S24 (+ACK)
S55 (-ATN)
S21 (+ATN)
+12v
+12v
+12v
+12v
S22
+12v
S53 (RESERVED) S20
S19 (RESERVED) S54
+12v
+12v
S50
S17 (TERMPWR) S52 (TERMPWR)
S51 (TERMPWR) S18 (TERMPWR)
+12v
S16 (DIFFSENS)
S47 (-DB 7)
S13 (+DB 7)
S44 (-DB 4)
S10 (+DB 4)
S41 (-DB 1)
+12v
S14 (+DB P)
S48 (-DB P)
S11 (+DB5)
S45 (-DB 5)
S8 (+DB 2)
S49
+5v
S15
+5v
+5v
S46 (-DB 6)
S12 (+DB 6)
S43 (-DB 3)
+5v
+5v
+5v
+5v
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Table 8-8: BERG* 240-Pin Right Angle 5 X 48 Connector Pinout
41
42
43
44
45
46
47
48
+5v
+5v
+5v
+5v
+5v
+5v
+5v
+5v
+5v
+5v
+5v
+5v
+5v
+5v
+5v
+5v
S7 (+DB 1)
S38 (-DB 15)
S4 (+DB 15)
S35 (-DB 12)
S1 (+DB 12)
GND
S42 (-DB 2)
S5 (+DB P1)
S39 (-DB P1)
S2 (+DB 13)
S36 (-DB 13)
GND
S9 (+DB 3)
S40 (-DB 0)
S6 (+DB 0)
S37 (-DB 14)
S3 (+DB 14)
GND
GND
SDA
Reserved
SCL
GND
PWR_GOOD
8.8.1.5
IDE Connector
Table 8-9: IDE Connector
Pin
1
Signal
RSTDRV
DD7
Pin
2
Signal
GROUND
3
4
DD8
5
DD6
6
DD9
7
DD5
8
DD10
9
DD4
10
12
14
16
18
20
22
24
26
28
30
32
34
DD1
11
13
15
17
19
21
23
25
27
29
31
33
DD3
DD12
DD2
DD13
DD1
DD14
DD0
DD15
GROUND
DRQ
KEY PIN
GROUND
GROUND
GROUND
CSEL
DIOW
DIOR
IORDY
DACK
IRQ
GROUND
No Connection
No Connection
DA1
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Table 8-9: IDE Connector
35
37
39
DA0
36
38
40
DA2
CS1P_L
DHACT_L
DS3P_L
GROUND
8.8.1.6
Power Supply Connectors
Table 8-10: Power Supply Connectors
Pin #
Signal:
VCC12
GND
1
2
3
4
GND
VCC5
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9. Peripheral Bay Board (Chassis Side)
This chapter describes the design of the peripheral bay board (chassis side). This board, used in
the OCPRF100 MP server system, is attached to the OCPRF100 MP server system chassis and
provides power and signal distribution to the peripheral bay backplane and other system periph-
eral devices.
Features
The OCPRF100 MP server system peripheral bay board has the following features:
•
•
Provides an interface which allows plugging of the peripheral bay into the system.
Distributes power and signal connections from the midplane and I/O board to the floppy,
IDE CD-ROM, and the peripheral bay backplane.
•
Provides a common interface for an integrator's custom peripheral bay solutions.
9.1 Introduction
The peripheral bay board (chassis side) provides power and signal interconnection from the mid-
plane and I/O boards to the peripheral devices and the peripheral bay backplane. This board
allows the single point connection of all power and signals required by the peripheral bay back-
plane. The peripheral bay board (chassis side) contains no active components. Also, it does not
provide or contain any field replaceable unit (FRU) information.
9.2 Mechanical Description
The blind mate is the junction of the peripheral bay board (chassis side) with the peripheral bay
backplane. The peripheral bay backplane meets the peripheral bay board (chassis side) at a 90-
degree angle.
The blind mate consists of one 240-pin connector in between two long guide pins.
9.2.1
Board Layout
Figure 9-1: Peripheral Bay Board (Chassis Side) Layout illustrates the layout of the peripheral
bay board (chassis side) with the connectors.
Figure 9-2 shows the printed circuit board dimensions, mounting holes, and connector place-
ments.
111
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1.) 89009-149 (BERG*) Blind Mate Connector Header
2.) 73475-101 (BERG) Guide Pin Housing
3.) 70295-001 (BERG) Guide Pin and Screw
4.) 20-position power Connector
5.) 34-position Header (floppy)
6.) 40-position Header IDE
7.) Wide SCSI Connector
8.) 3-position Header
Figure 9-1: Peripheral Bay Board (Chassis Side) Layout
g
Figure 9-2: Peripheral Bay Board (Chassis Side) Connector Layoui
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10. Front Panel
This chapter describes the design and external interface of the OCPRF100 MP server system
front panel. The front panel provides a user interface to the OCPRF100 MP server system via
push buttons, indicator LEDs, an LCD panel, and a speaker. It also provides an interface to exter-
nal systems via the ICMB. All of the front panel functions are controlled by a Philips* 80C652
microcontroller. LEDs used to indicate individual fan failure and a dual speed fan converter that
controls the system fans are located on the front panel. System fan tachometer inputs are moni-
tored by the front panel.
Features
•
•
•
•
•
•
•
•
•
•
Philips 80C652* microcontroller
Power, reset, and NMI push buttons
Fan speed control, monitoring, and individual fan fail indication
Power-off and reset security
Power, power fail, hard drive fail, and fan fail indicator LEDs
LCD panel, which provides boot status and other information
Concurrent ICMB and COM2 EMP interface
Speaker
Operation from standby power
Full authority power management
10.1 Introduction
This section provides an overview of the OCPRF100 MP server system front panel. It also dis-
cusses the primary components and their relationships, and provides diagrams of the physical
board layout.
10.1.1 Board Overview
The OCPRF100 MP server system front panel provides a simple user interface to the
OCPRF100 MP server system. Push buttons on the front panel allow for power-up and reset as
well as NMI assertion. LEDs indicate when the system is powered on and when there has been a
power supply failure, hard drive failure, fan or other system cooling failure. The LCD panel pro-
vides information about the system, including boot status, available number of processors, and
other server management information.
The front panel also allows other systems to communicate with the server, even while power is
down, via an ICMB. The ICMB is an extension of the internal IPMB. Although the control circuitry
for ICMB is present on the front panel, the ICMB user interface connectors are located at the rear
of the chassis.
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All of the front panel’s functions are controlled by a Philips 80C652 microcontroller and are avail-
able at all times when AC power is available. The connection from the front panel to the rest of
the OCPRF100 MP server system is via the 80-pin connector to the OCPRF100 Profusion car-
rier. All six system fans plug into the OCPRF100 MP server system front panel. Circuitry located
on the front panel controls the fan speed, monitors individual fan tachometer signals, and indi-
cates (via LEDs) the failure of an individual fan in the system.
Figure 10-1: OCPRF100 MP Server System Front Panel Layout
10.2 Functional Description
This section provides a functional description of the front panel including the microcontroller,
push buttons, indicator LEDs, LCD panel, ICMB, and RS-232 extension.
10.2.1 Microcontroller
All of the “intelligent” functions on the front panel are implemented with a Philips 80C652 micro-
controller (also referred to in this document as the FPC). The FPC has 32KB of RAM, 7.5KB of
which is accessible; and, 64KB of flash, 56KB of which is accessible. The flash contains all of the
firmware the front panel needs, while the RAM is used to store the stack and local variables.
The microcontroller is always active as long as AC power is present. This power is also known as
5 V standby power, standby power, or always-alive power. The microcontroller records the cur-
rent power state (on or off) in its nonvolatile memory (NVM); in the event of an AC power failure,
the FPC can return the system’s power status to the state it was in prior to the power failure.
The microcontroller constantly monitors the switches, the state of the power supplies (via its pri-
2
vate I C bus, I2C_FPC_Sxx), and the ICMB, which is described below in further detail. While the
system is powered on, the front panel also monitors the IPMB and responds to IPMB messages.
10.2.2 Memory Maps
This section contains a device maps subsection and an I/O memory maps subsection.
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10.2.2.1 Device Maps
Table 10-1: Device Maps
Function
Address Range
Access
Width
Output Latch #1
FFF0 - FFFF
Write
Byte
(Read RAM Shadow)
Output Latch #0
FFE0 - FFEF
FF00 - FFFF
Write
Byte
Byte
(Read RAM Shadow)
RAM, Output Latch Shadow
Execute, Read, Write
(Shadows Output Latches)
Input Latch #1
Input Latch #0
PLD
FFD0 - FFDF
FFC0 - FFCF
FE00 - FFFF
E000 - FDFF
1000 - DFFF
0000 - 0FFF
Read
Byte
Byte
Byte
Byte
Byte
Byte
Read
Read, Write
RAM # 0
Execute, Read, Write
Execute, Read, Write
Execute, Read
FLASH, OPS
FLASH, BOOT
10.2.2.2 I/O Memory Maps
individual devices. These can be referenced against the device map section to resolve the abso-
lute address.
Table 10-2: I/O Signals and Devices
Topic
Signal
Device
Addres
s
Acces
s
Offset Bit
Not Applicable
Not Applicable
Micro Port 0
-
-
-
0 to 7
(Muxed Address/Data BUS)
LCD
LCD_RW
Micro Port 1
Micro Port 1
Micro Port 1
Micro Port 1
-
-
-
-
RW
RW
RW
RW
-
-
-
-
0
1
2
3
LCD
LCD_EN
LCD
LCD_RS
Miscellaneous
RESET_OUTPUTS_L
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Table 10-2: I/O Signals and Devices
ICMB/COM2
ICMB/COM2
COM2_TO_SIO_EN
COM2_TO_FP_EN_L
I2C_BACKUP_SCL
Micro Port 1
Micro Port 1
Micro Port 1
-
-
-
RW
RW
RW
-
-
-
4
5
6
2
I C Interfaces
2
I2C_BACKUP_SDA
Micro Port 1
Micro Port 2
-
-
RW
-
-
-
7
I C Interfaces
Not Applicable
Not Applicable
0 to 7
(Upper Address Bus)
ICMB/COM2
ICMB/COM2
System Power
ICMB/COM2
MICRO_RXD
Micro Port 3
Micro Port 3
Micro Port 3
Micro Port 3
Micro Port 3
-
-
-
-
-
-
-
-
-
-
-
0
1
2
3
4
MICRO_TXD
-
PWR_INTR_L
R
R
RW
MICRO_RXD_INTR_L
I2C_FPC_SCL
2
I C Interfaces
2
I2C_FPC_SDA
Micro Port 3
-
RW
-
5
I C Interfaces
Processor
MICRO_WR_L
MICRO_RD_L
Reserved
Micro Port 3
-
W
W
R
R
R
R
R
R
R
R
R
R
R
R
R
R
R
R
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
6
7
0
1
2
3
4
5
6
7
0
1
2
3
4
5
6
7
Processor
Micro Port 3
-
Reserved
Input Latch #0
Input Latch #0
Input Latch #0
Input Latch #0
Input Latch #0
Input Latch #0
Input Latch #0
Input Latch #0
Input Latch #1
Input Latch #1
Input Latch #1
Input Latch #1
Input Latch #1
Input Latch #1
Input Latch #1
Input Latch #1
FFC0
FFC0
FFC0
FFC0
FFC0
FFC0
FFC0
FFC0
FFD0
FFD0
FFD0
FFD0
FFD0
FFD0
FFD0
FFD0
Miscellaneous
ICMB/COM2
Reserved
SECURE_MODE_BMC
RI_TTL_FP
Reserved
Reserved
Reserved
System Power
ICMB/COM2
Reserved
PS_PWR_ON (input)
DCD_TTL_FP
Reserved
Reserved
Reserved
Fan Control
Fan Control
Fan Control
Fan Control
Fan Control
Fan Control
Reserved
FAN_TACH1
FAN_TACH2
FAN_TACH3
FAN_TACH4
FAN_TACH5
FAN_TACH6
Reserved
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Table 10-2: I/O Signals and Devices
LCD
DB4
Output Latch # 0
Output Latch # 0
Output Latch # 0
Output Latch # 0
Output Latch # 0
Output Latch # 0
Output Latch # 0
Output Latch # 0
Output Latch #1
Output Latch #1
Output Latch #1
Output Latch #1
Output Latch #1
Output Latch #1
Output Latch #1
Output Latch #1
PLD
FFE0
FFE0
FFE0
FFE0
FFE0
FFE0
FFE0
FFE0
FFF0
FFF0
FFF0
FFF0
FFF0
FFF0
FFF0
FFF0
FFB0
FFA0
FF90
FF80
FF70
RW
RW
RW
RW
RW
RW
RW
RW
RW
RW
RW
RW
RW
RW
RW
RW
R
-
0
1
2
3
4
5
6
7
0
1
2
3
4
5
6
7
0
0
0
0
0
LCD
DB5
-
LCD
DB6
-
LCD
DB7
-
LED
POWER_FAIL_LED_CMD
DRIVE_FAIL_LED_CMD
POWER_GOOD_LED_CMD
HARD_RESET
FAN_LED_CMD_1
FAN_LED_CMD_2
FAN_LED_CMD_3
FAN_LED_CMD_4
FAN_LED_CMD_5
FAN_LED_CMD_6
Reserved
-
LED
-
System Power
Reset
-
-
Fan Control
Fan Control
Fan Control
Fan Control
Fan Control
Fan Control
Reserved
Reserved
COM2
-
-
-
-
-
-
-
Reserved
-
UART_ADDR
27
26
25
24
23
Memory
Reset
FW_BOOT_PGM_EN
RST_SWT_LATCH
PWR_CNTRL_RTC_L
PLD
R
PLD
R
System Power
Memory
PLD
R
FRC_UPDATE_L
PLD
R
(was SPARE_JUMPER)
Power
Power
COM2
Memory
Reset
POWER_CNTRL_SFC_L
POWER_GOOD
PLD
PLD
PLD
PLD
PLD
PLD
PLD
FF60
FF50
FF30
FF20
FF10
FF00
FEF0
R
22
21
19
18
17
16
15
0
0
0
0
0
0
0
R
UART_RESET
R
BOOT_PGM_EN_LATCH
SYS_RESET_STATE_LATCH
PS_PWR_ON (output)
ACPI
RW
RW
RW
RW
Power
FP_TO_PIIX4_
PWRBTN
COM2/ICMB
ICMB_ACTIVITY_LATCH
PLD
FEE0
RW
14
0
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Table 10-2: I/O Signals and Devices
COM2/ICMB
Memory
COM2_ACTIVITY_LATCH
I2C_CEL_CONNECT_FPC
I2C_CEL_CONNECT_BMC
PWR_GOOD_LATCH
ICMB_EN_LATCH
PLD
PLD
PLD
PLD
PLD
PLD
PLD
PLD
PLD
PLD
PLD
PLD
PLD
PLD
FED0
FEC0
FEB0
FEA0
FE90
FE80
FE70
FE60
FE50
FE40
FE30
FE20
FE10
FE00
RW
RW
RW
RW
RW
RW
RW
RW
RW
RW
RW
RW
RW
RW
13
12
11
10
9
0
0
0
0
0
0
0
0
0
0
0
0
0
0
Memory
System Power
COM2/ICMB
COM2/ICMB
COM2/ICMB
Reserved
FORCE_RXD_ICMB_LATCH
FORCE_RXD_COM2_LATCH
Reserved
8
7
6
SPEAKER
SPEAKER_LATCH
5
System Power
System Power
System Power
System Power
Memory Map
PWR_RTC_TRANS_LATCH
PWR_SFC_LATCH
4
3
PWR_SWT_LATCH
2
PWR_INTR_LATCH_L
UART_INT
1
0
NOTE: The programmable logic device (PLD) addresses are calculated using offset term and the following equation:
ADDRESS = PLD_BASE + OFFSET * 80H
10.2.3 Memory
10.2.3.1 Program Memory, Flash
The front panel contains an ATMEL 29C512* for storing program memory and initialized vari-
ables. This device is nominally 64KB by 8 but is expandable to 128KB by 8. In order to use the
128KB by 8 devices, the memory model would need to be changed to provide enough address
space, or a paging scheme would need to be incorporated.
FRU information is not stored in this device, but, rather, is stored in the serial EEPROM.
10.2.3.2 RAM
There is 32KB by 8 of RAM on the FPC. Note that only approximately 7.5KB of the RAM is
accessible according to the memory map.
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10.2.3.3 UART
A universal asynchronous receiver/transmitter (UART) is memory mapped to the microcontrol-
ler’s bus to allow concurrent operation of the ICMB and EMP ports. The UART is used for the
EMP interface.
10.2.3.4 Serial EEPROM/Temperature Sensor
2
The serial EEPROM is accessible on the FPC’s private I C bus. A DS1621* temperature sensor
2
is also on the private I C bus, which is used to sense the ambient temperature outside of the sys-
tem.
Table 10-3: FRU Device Address
2
Device
Function
I C Address
24C02*
Front panel FRU information
A0h, A1h
DS1621*
Temperature sensor to detect ambient temperature
90h, 91h
2
The 24C02*, when accessed via the I C bus, provides the following FRU information. The FRU
®
®
information is read by the Intel LANDesk Server Manager or similar management software
and is available via the LANDesk Server Manager console.
The 24C02 SEEPROM has 256 bytes of programmable space, which is broken into four areas.
pose, and the space allocated to each area.
Table 10-4: SEEPROM Programming Areas
Area
Size
Description
Common header
Internal use
8 Bytes
80 Bytes
Programming offsets to the other areas below.
®
This area is reserved for general purpose use by Intel server
management firmware/controllers.
Chassis information
Board information
Product information
32 Bytes
56 Bytes
80 Bytes
Contains chassis information.
Contains the board FRU information listed in .
Available for integrator use.†
†
A utility provided by Intel, called the FRU & SDR Load Utility, allows the integrator to program any of the FRU
SEEPROM in the chassis.
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board information area.
Table 10-5: FRU Information
Board Information
Information
Description
Example
Notes
Manufacturing date/
time
Time and date of board man-
ufacture (value programmed
[in hex] is the number of
minutes after 0:00 hrs 1/1/
96).
000f593h
2
(Date/time translation shown below.)
f593h = 62867 min.
= 43 Days & 947 min.
= Feb 12, 1997, 3:47p.m.
Manufacturer
Board manufacturer.
Intel
1
1
Board product name
Board name/description.
OCPRF100 server system front
panel
Board serial number
Board part number
Intel board serial number.
Intel board part number.
N42385906
703106-002
2
2
Notes: 1. Actual value programmed into the board.
2. Example value. Actual value varies with each board and/or fab revision.
bytes are allocated within the 24C02 SEEPROM. This information is useful for those who will be
accessing the hardware directly (i.e., BIOS and server management software developers).
Table 10-6: I/O Signals and Devices SEEPROM Byte Map
Address
0x00
Length
Description
Default Value
0x01
1
1
1
1
1
2
Common header format version
Internal use area offset (8-byte multiples)
Chassis information area offset (8-byte multiples)
Board information area offset (8-byte multiples)
Product information area offset (8-byte multiples)
Zero padding
0x01
0x01
0x02
0x0B
0x03
0x0F
0x04
0x16
0x05
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Table 10-6: I/O Signals and Devices SEEPROM Byte Map
0x07
0x08
0x58
0x59
0x5A
0x5B
0x5C
0x66
0x67
0x70
0x71
0x77
0x78
0x79
0x7A
0x7B
0x7E
0x7F
0x84
0x85
0x96
0x97
0xA0
0xA1
0xAB
0xAC
0xAF
0xB0
1
Common header checksum
Internal use area
0xCE
80
1
Chassis information area format version
Chassis information area length (8-byte multiples)
Chassis type
0x01
0x04
0x11
0xCA
1
1
1
Chassis part number type/length byte
Chassis part number
10
1
Chassis serial number type/length byte
Chassis serial number
0xC9
0xC1
9
1
No more fields flag
6
Zero padding
1
Chassis information area checksum
Board information area format version
Board Information area length (8-byte multiples)
Unicode country base
0X2C
0x01
0x0A
0x00
1
1
1
3
Manufacturer date/time
1
Board manufacturer type/length byte
Board manufacturer (ASCII)
Product name type/length byte
Product name
0xC5
5
Intel
1
0xDC
17
1
OCPRF100 front panel
0xC9
Board serial number type/length byte
Board serial number
9
1
Board part number type/length byte
Board part number
0xCA
0xC1
0x7A
10
1
No more fields flag
3
Zero padding
1
Board information area checksum
Product information area
80
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10.2.3.5 System Event Log (SEL)
The system event log (SEL) serial EEPROM (which resides on the OCPROF100 I/O carrier on
2
the BMC’s private I C bus) can be accessed by the front panel’s private bus under certain condi-
tions. This feature has been added to allow access when main power is down.
When the I2C_CEL_CONNECT_FPC signal is asserted, the serial EEPROM is connected elec-
2
trically to the FPC’s private I C bus and is powered off of the 5 V standby supply.
When the I2C_CEL_CONNECT_BMC signal is asserted, the serial EEPROM is connected elec-
2
trically to the I/O’s private I C bus and is powered off of the +3.3 V supply.
When both the I2C_CEL_CONNECT_FPC and the I2C_CEL_CONNECT_BMC signals are
asserted, the 5 V standby, +5 V, and the +3.3 V supplies are connected together. Firmware provi-
sions prevent this scenario from happening.
An additional consideration is the BMC on power-up. A firmware mechanism is required to tell
the BMC when this device is available.
2
It is required that the BMC’s I C bus be static between 0 and 20 ms after the rising edge of the
I2C_CEL_CONNECT_BMC signal.
Upon power-up, the I2C_CEL_CONNECT_BMC signal is asserted and the
I2C_CEL_CONNECT_FPC is deasserted.
10.2.4 Front Panel Indicator LEDs
The POWER_FAIL LED is under the control of the FPC. When the FPC asserts (high) the
POWER_FAIL_LED_CMD signal, the LED becomes illuminated. This LED is off when deas-
serted and during an FPC reset. This LED is powered off of 5 V standby so it can be illuminated
even when +5 V is invalid.
The DRIVE_FAIL_LED is an indication of hard drive failure. It is illuminated when the
DRIVE_FAIL_LED_CMD signal is asserted (high). It is off when this signal is deasserted (low)
and during an FPC reset.
The POWER_GOOD_LED is an indication of good DC power in the system. It is illuminated
when the POWER_GOOD_LED_CMD signal is asserted (high). It is off when this signal is deas-
serted (low) and during an FPC reset.
The FAN_FAIL_LED is under the control of the BMC. The FPC queries the BMC for system fan
fail status. It illuminates when the FAN_FAILED_L signal is asserted (low) from the BMC. It is an
indication of system cooling failure. Additionally, there is an LED associated with each fan. These
LEDs are located adjacent to each individual fan to provide an indication of which of the six sys-
tem fans has failed. These LEDs are driven by the FPC.
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10.2.5 Front Panel LCD
The front panel LCD is a Stanley GMD1620A*. The LCD and the LCD’s LED backlighting unit are
powered off of the main +5 V. Therefore, this capability is only available when the +5 V power is
available.
In order to avoid loss of 5 V standby power and LCD latch-up, the firmware must comply with the
following. When main power is OFF, all signals driving the LCD should be disabled or driven low.
These include the D0 through D3, RW, EN, and RS signals. Also, when main power is removed
the LCD signals should be brought to this safe state within 200 µs.
10.2.6 System Power
10.2.6.1 Power Supply Monitoring
Each of the three supplies has three signals that can be monitored. These are the PS_PRES,
2
PS_FAULT and the PRED_FAIL signals. These are available via the private I C bus.
10.2.6.2 Power Interrupt Routing
There are three hardware signals that can initiate power cycling. They are the real time clock
®
(RTC) (PWR_CNTRL_RTC_L), the Intel SMM card (PWR_CNTRL_SFC_L), and main power
going out (PWR_GOOD). These are accessed via the PWR_RTC_TRANS_LATCH, the
PWR_SFC_LATCH, and the PWR_GOOD_LATCH signals per the memory map. Upon asser-
tion, each of these signals is individually latched in the programmable logic device (PLD). The
asserted state remains latched even if the signal becomes deasserted. The asserted state
remains latched until the latch is read by the microcontroller. When read by the microcontroller,
the latch becomes cleared.
The PWR_CNTRL_RTC_L transition latch (PWR_RTC_TRANS_LATCH) becomes set
(asserted) on either transition of the PWR_CNTRL_RTC_L signal. When set, the latch remains
set until read by the FPC. Note that by reading the PWR_RTC_TRANS_LATCH latch, it is not
possible to obtain the absolute state of the PWR_CNTRL_RTC_L signal. Therefore, the
PWR_CNTRL_RTC_L signal can also be read by the FPC.
The PWR_CNTRL_SFC_L latch (PWR_SFC_LATCH) becomes set (asserted) on a high to low
transition of the PWR_CNTRL_SFC_L signal. When set, the latch remains set until read by the
FPC. When the latch is read, it becomes cleared and remains cleared until the next high to low
transition of the PWR_CNTRL_SFC_L signal. The state of the PWR_CNTRL_SFC_L signal can
also be read directly.
The PWR_GOOD_LATCH becomes set (asserted) when the PWR_GOOD signal has a high to
low transition. This occurs when main power goes bad. Once read, the latch is cleared and will
not be set until the next high to low transition. The state of the POWER_GOOD signal can also
be read directly. Each of these three latches is fed into a fourth latch (PWR_INTR_LATCH_L),
which drives the PWR_INTR_L signal. The PWR_INTR_L signal drives the FPC’s INT0 input.
This latch is asserted (low) if any of the power cycle signals become asserted (high). This latch
signal is deasserted (high) whenever it is read, as long as all three inputs are also deasserted.
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All four latches may be read by the microcontroller. Reading by the microcontroller causes the
latch to be deasserted (assuming that the asserting signal is also deasserted).
With this interrupting scheme, it is suggested that the FPC use the power interrupt in level mode,
not edge mode. This is because a reassertion of an interrupting source at the wrong time could
prevent the interrupt pin from being toggled.
10.2.6.3 Front Panel Power Switch
The paramount design concern is the capture of an asserted switch with a microcontroller/firm-
ware design that experiences starved threads, specifically the thread that polls the power switch.
(In normal real time control, a starved thread is an indication of abnormal operation that would
cause a fatal error and abortion of microcontroller operation.) This is addressed by latching the
asserted state in hardware via the PWR_SWT_LATCH. This latch is set whenever the switch is
asserted. Whenever the switch is read, the latch is cleared. Therefore, when the starved thread
regains the FPC, it can read the latch. If the switch was asserted after the last polling, the latch
reads a one.
10.2.6.4 Hardware Control of Power Supply ON Command
The following describes the hardware control over the PS_PWR_ON (output) signal. The FPC
has only marginal control over this signal. The system-power-on command (PS_PWR_ON) is
asserted by the FPC via the PS_PWR_ON (output) signal, as long as there is not a 240 volt-
amp incident.
10.2.6.5 Default Power State
The default power state is OFF. This is the state that the front panel commands for the main
power via the PS_PWR_ON (output) signal. During normal operation the firmware must assert
the PS_PWR_ON (output) signal to turn on the supplies. This is controlled from the PLD. During
a firmware-driven PLD download, the PLD’s outputs become tristated. When tristated, the power
supplies are commanded on via an external pull-up resistor.
10.2.6.6 Dual Speed Fan Power
The system cooling fans typically operate at low voltage to minimize acoustic noise. Under nor-
mal conditions, the fans run at this slower, quieter speed. When a fan failure is sensed, the fan
speed is set to high. Also, if the ambient temperature sensor reads 31 degrees or higher, the fan
speed will be set to high (there are 2 degrees of hysteresis built into this algorithm, so the ambi-
ent temperature must drop to 29 degrees before the fan speed is reduced to low again). The
high/low decision is made by the FPC, via the FULL_FAN_SEL_L signal.
The fan voltage is derived via a buck converter from 12 V, and is current limited at 9 A. Maximum
current during high speed operation is 5.04 A.
10.2.7 Reset
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10.2.7.1 Resetting the System
The FPC has the capability to reset the entire system (processors, chip sets, etc.) by asserting
the HARD_RESET signal. It must be asserted for a minimum of 500 ms. There is no maximum.
10.2.7.2 Reset Inputs
The state of the reset switch can be determined by reading the RST_SWT_LATCH signal within
the PLD. If the reset switch has been asserted since the previous reading of this latch, then the
latch will be asserted (high). Reading of this latch clears the latch. Therefore, there are no mini-
mum polling requirements to detect an asserted switch. The latch is asynchronously set when-
ever the switch is pressed and remains set as long as the switch is pressed, whether or not the
latch is read by the FPC.
10.2.7.3 Reset Switch During +5 V Power Cycle
While +5 V power is inactive, the RST_SWT_LATCH remains asserted. This is because the reset
switch circuitry incorporates a pull-up to main +5 V, and when main power is off, the main +5 V
power is at 0 V, making the switch appear asserted. This pull-up is tied to main +5 V to save
power on +5 V standby.
The RST_SWT_LATCH might remain asserted up to and including the first read after the
PWR_GOOD indicates that main +5 V power is valid. The first valid RST_SWT_LATCH read
occurs on the SECOND READ after PWR_GOOD becomes asserted (high).
10.2.7.4 Resetting the FPC
The FPC is reset whenever the VCC_STDBY is invalid and 500 ms (typically) after VCC_STDBY
becomes valid. The front panel has development support for a push button reset input. Removing
the default RP1A1 and connecting a switch between J1A1 pins 3 and 4 activates this by control-
ling the PUSH_BTN_RST_L signal.
10.2.7.5 Determining the System Reset State
Signal PROC_RESET _LATCH provides firmware with an indication of the processor reset state.
A latch is used because a processor reset assertion may last as short a period of time as 40 ns,
and as long as many seconds. Therefore, an assertion of the PROC_RESET_L signal causes
the PROC_RESET _LATCH to become set. When the signal is read by the FPC, the latch is
cleared (assuming the PROC_RESET_L signal is no longer asserted).
To determine whether an assertion of the PROC_RESET_L signal has occured since the last
reset and the current state, read the PROC_RESET_LATCH twice. If PROC_RESET_LATCH
returns sequential ones, then the processors are currently in reset. If PROC_RESET_LATCH
returns one, then zero, the processors have gone through reset since the last time the latch was
read, but are not currently in reset. If PROC_RESET_L returns two zeroes, the processors have
not gone through reset since the last time the latch was read.
Whenever the front panel goes through a hardware reset this latch is cleared.
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10.2.7.6 Development and Test Reset
In development and board testing the PLD and microcontroller can be put into a reset state by
asserting the PB_RST_L signal.
10.2.8 Speaker
The front panel contains a speaker that is controlled by either the FPC or the I/O board. The
speaker is energized if either source commands the speaker on. The speaker impedance is
approximately 8 ohms.
The FPC commands the speaker on by setting the PLD’s SPEAKER_LATCH. This latch also can
be read. The state of the I/O board’s speaker command cannot be read by the FPC.
During reset the SPEAKER_LATCH is set to deasserted (off, low).
10.2.9 Fan Control
There are six fans which plug into the front panel board. Each fan is powered from the VCCFAN
tachometer out signal, which is fed into Input Latch #1, to be monitored by the FPC. If a fan is
determined to have failed, the FAN_FAILED_L signal turns on the yellow fan failed LED on the
front panel. Also, an LED near the fan that has failed is illuminated by the FPC (via Output Latch
#1).
10.2.10 ICMB and COM2 Redirection
The ICMB/COM2 redirection circuitry provides a number of capabilities. These capabilities are
dealt with individually in the following subsections.
10.2.10.1 Receive Auto Switching
Both the COM2 RXD (received) and the ICMB RXD signals are routed to the front panel and are
continuously available, regardless of the state of any other control signals. In certain conditions it
is desirable to monitor both signals and to switch to whichever signal goes active first into the
FPC’s RXD input. This section covers such an auto-switch capability, implemented in the PLD.
The FP PLD supports auto-switching of the first-active incoming RXD signal into the incoming
RXD signals. The auto-switch is enabled by deasserting both the FORCE_RXD_ICMB_LATCH
and the FORCE_RXD_COM2_LATCH. When these are both deasserted by firmware, the PLD
goes into auto-switch mode.
Upon RXD activity, the microcontroller can determine which RXD signal is routed to the micro-
controller by reading the states of both FORCE bits within the PLD. Only the FORCE bit corre-
sponding to the switched RXD (ICMB or COM2) signal becomes asserted. In no case will both
FORCE bits become asserted.
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10.2.10.2 Receive Forced Switching
In certain cases it is desirable to force a specific RXD (COM2 or ICMB) into the FPC’s RXD input.
This section covers this forced switch capability.
To force the ICMB’s RXD signal into the FPC’s RXD input, assert the
FORCE_RXD_ICMB_LATCH and deassert the FORCE_RXD_COM2_LATCH.
To force the COM2’s RXD signal into the FPC’s RXD input, assert the
FORCE_RXD_COM2_LATCH and deassert the FORCE_RXD_ICMB_LATCH.
The following (or equivalent) sequence occurs in firmware. The deassertion must occur
whether or not it had previously been asserted.
Disable interrupts.
Assert desired FORCE bit.
Deassert undesired FORCE bit.
Enable interrupts.
There is no guarantee that incoming RXD streams will be coherently switched in the hardware. It
is probably a good idea to discard any immediate UART receptions after a switch.
10.2.10.3 Receive Interrupt
The microcontroller interrupt number one is programmed in the PLD to be logically the same as
the microcontroller’s RXD input.
10.2.10.4 Receive Activity Detection
A completely independent circuit monitors activity on the ICMB and COM2 receive inputs. This
allows bus activity monitoring regardless of the state of the auto-detect switch. Note that the
receive (RXD) inputs from both COM2 and ICMB are always available to the front panel, regard-
less of the states of the COM2_TO_FP_EN_L and the COM2_TO_SIO_EN signals.
The ICMB_ACTIVITY_LATCH becomes set when the SIN_TTL_ICMB signal becomes asserted
(low). This assertion corresponds to receive activity. The latch remains asserted (set) until read
by the FPC at which time the latch is cleared. The latch remains cleared until the next activity on
this line is detected.
The COM2_ACTIVITY_LATCH becomes set when the SIN_TTL_COM2 signal becomes
asserted (low). This assertion corresponds to receive activity. The latch remains asserted (set)
until read by the FPC at which time the latch is cleared. The latch remains cleared until the next
activity on this line is detected.
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10.2.10.5 ICMB Transmit Control
The FPC’s TXD (transmitted) pin drives both the COM2’s SOUT_TTL_COM2 signal and the
ICMB’s SOUT_TTL_ICMB signal. There is no interlock for preventing the FPC from simulta-
neously transmitting on both ICMB and COM2; in fact, this capability could be desirable.
The FPC drives the ICMB bus with the FPC’s TXD output whenever the ICMB_EN_LATCH is
asserted (high).
10.2.10.6 COM2 Transmit Control
The COM2 transmit signals are connected to either the FPC or the SMC Super I/O* (SIO) chip
depending on the states of the COM2 signals. Note that this discussion is limited solely to the
TXD signals since this is the only signal that the FPC can control.
The routing of COM2 to the SMC I/O chip or FPC and the routing of the ICMB to the FPC is con-
trolled by two signals, COM2_TO_FP_EN_L and COM2_TO_SIO_EN. Note that if these two sig-
nals are not carefully controlled by firmware, the VCC_BACKUP can be shorted to ground. The
VCC_BACKUP is shorted to ground via the SIO’s power pins. In this case, the power supplies
will cycle the entire system and component damage may occur. When switching between
enabling of these routings, it is important never to enable both these signals at the same
time.
Table 10-7: Allowed Combination of States
Main Power
COM2_TO_FP_EN_L
COM2_TO_SIO_EN
Result
OFF
Deasserted (1)
Deasserted (0)
COM2 disconnected
ICMB available†
ON
Deasserted (1)
Asserted (0)
Deasserted (0)
Deasserted (0)
Deasserted (0)
Asserted (1)
COM2 disconnected
ICMB available†
OFF
COM2 routed to front panel
ICMB available†
ON
Asserted (0)
COM2 routed to front panel
ICMB available†
ON
Deasserted (1)
COM2 connected with SMC*
ICMB available†
Possible main power cycle
Possible component damage
All Other States
†
ICMB available means that if the ICMB_SOUT_EN signal is asserted then the FPC will transmit to the ICMB bus.
The data that is transmitted comes from the microcontroller’s TXD output pin. Note that this capability is independent of
the states of the COM2_TO_SIO_EN and COM2_TO_FPC_EN signals; it depends only on the state of the
ICMB_SOUT_EN signal.
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To switch between the SMC and FPC connection of COM2, both signals should be deasserted
before either signal is asserted.
When main power is off, the COM2_TO_SIO_EN signal should never be asserted.
10.2.10.7 Transmit and SMC/Front Panel Connection Control
The FPC’s interrupt 2 input is logically the same signal as the signal connected to the FPC’s RXD
pin. The description in this section, therefore, applies to both signals.
The FPC’s TXD pin drives both the COM2’s SOUT_TTL_COM2 signal and the ICMB’s
SOUT_TTL_ICMB signal.
10.2.10.8 COM2 Data Carrier Detect (DCD) Input Signal
COM2's data carrier detect (DCD) input is availabe as signal name DCD_TTL_FP. This input is
available to the firmware at all times, regardless of the states of any ICMB and COM2 control sig-
nals. This signal is a direct pass through from the COM2 port. The memory map location is
10.2.11 Front Panel Push Buttons
The OCPRF100 front panel has three momentary-contact push button switches: power, reset,
and NMI. The power and reset switches are easily accessible by the user, whereas the NMI but-
ton is accessible only via a “pinhole” protective cover. The power switch controls main system
power. If the system is powered off, pressing this button will always turn system power on. How-
ever, if the system is on, the microcontroller qualifies this button press with the current security
state of the system, and decides whether the system is actually to be powered off.
The power switch is available to the FPC and is described in Section Front Panel Power Switch.
The reset switch is available to the FPC and is described in Section Resetting the FPC.
10.2.11.1 Switch Debounce
and requirements for all push button switches.
Table 10-8: Debounce Characteristics and Requirements
Mininum (milli-
seconds)
Maximum
(milliseconds)
Event
Typical
20
Switch Press Ramp (High-Low)
Switch Release Ramp (Low-High)
Required switch cycle duration detection by firmware
0
200
0
12
150
50†
20
Infinity
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OCPRF100 MP Server System Technical Product Specification
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Table 10-8: Debounce Characteristics and Requirements
Potential Switch Cycle characteristics (Press to Release)
[no firmware requirements derived from this row]
0
200
Infinity
† Note that although the keypad press-release cycle may be as short as zero, worst case, the firmware is only
required to detect a cycle as short as 50 ms.
10.2.11.2 NMI Switch
The NMI push button is hidden behind the main front panel bezel, except for a small “pinhole”
access hole. This is done to prevent inadvertent activation of the NMI switch. The NMI switch is
routed directly to the BMC. There is no interface to the FPC.
2
10.2.12 I C Interfaces
2
2
2
The FPC interfaces to two I C buses; the FPC’s I C bus and the global I C bus. These are
described in the following subsections.
2
10.2.12.1 The FPC Private I C Bus
2
2
The FPC’s private I C bus is used for the FPC to communicate with dumb I C devices that do not
support multimaster mode. These are shown in Figure 10-2: Devices Not Supporting Multimaster
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OCPRF100
FPC Private I2C Bus Diagram
FPC MPU
80651
Temp Monitor DS1621*
I2C Address: 90h / 91h
I2C
EEPROM (FRU) AT24C02*
I2C Address: A0h / A1h
Front Panel Board
I/O Expender PCF8574*
I2C Address: 40h /41h
EEPROM (FRU) AT24C02
I2C Address: A2h / A3h
I2C
I/O Expender PCF8574
I2C Address: 42h / 43h
Midplane Board
I2C
EEPROM (FRU) AT24C02
I2C Address: AAh / ABh
Inside
Power Supply 1
I2C
EEPROM (FRU) AT24C02
I2C Address: ACh / ADh
Inside
Power Supply 2
I2C
EEPROM (FRU) AT24C02
I2C Address: AEh / AFh
Inside
Power Supply 3
Figure 10-2: Devices Not Supporting Multimaster Mode
2
10.2.12.2 Global I C Bus
2
The global I C bus is connected automatically to the IPMB whenever power is valid. This bus is
2
used to allow communication between smart I C devices that operate in multimaster mode. Spe-
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OCPRF100 MP Server System Technical Product Specification
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cifically, this bus connects the FPC and BMC. Also, there may be an SMM based device on the
bus and a cluster card connector based device.
On the FPC, this bus consists of the I2C_BACKUP_SCL and the I2C_BACKUP_SDA signals.
2
10.2.12.3 I C Development Support Jumpers
2
2
Development support jumpers on the I C buses are provided to isolate I C devices. These jump-
ers must first be enabled by removing Resistor Pack RP3A4 and RP3A5 and adding all J3 jump-
2
ers. Once enabled, specific I C devices/sections can be isolated by removing the jumpers.
In production, the jumper blocks are not stuffed.
10.2.13 Miscellaneous
10.2.13.1 Signal RESET_OUTPUTS_L
The RESET_OUTPUTS_L signal is used to enable the output latch. Immediately after the micro-
controller comes out of a hard reset, this signal goes to the deasserted (high) state. In this state,
the output latch is output disabled, but retains any states written to it. The microcontroller initial-
izes the latch with proper values before the RESET_OUTPUTS_L signal is asserted (low).
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OCPRF100 MP Server System Technical Product Specification
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Appendix A: Glossary
This appendix contains important terms used in the preceding chapters.
Term
ACPI
AP
Definition
Advanced Configuration and Power Interface
Application processor
APIC
ASR
Advanced Programmable Interrupt Controller
Asynchronous system reset
BIOS data area
BDA
BIOS
BIST
BMC
BSP
Basic Input-Output System
Built-In Self-test
Baseboard management controller
Bootstrap processor
Byte
An 8-bit quantity
dB
Decibels
DIB
Data Interface Buffer
DIMM
DMI
Dual inline memory module
Desktop management interface
Disk operating system
DOS
DWORD
ECC
Double Word. A 32-bit quantity.
Error checking and correcting
Extended capabilities port
Electrically erasable programmable read-only memory
Electromagnetic interference
Emergency management port
Enhanced parallel port
ECP
EEPROM
EMI
EMP
EPP
ESCD
ESD
Extended system configuration data
Electrostatic discharge
Flash ROM
FPC
EEPROM
Front panel controller
FRB
Fault resilient booting
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OCPRF100 MP Server System Technical Product Specification
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FRU
Field replaceable unit
GB
Gigabyte. 1024 MB
GPNV
GPO
HSC
I/O
General purpose nonvolatile [storage]
General purpose output
Hot-swap controller
Input/Output
I/O APIC
APIC that delivers interrupts from devices to the processors
Inter Integrated Circuit bus
2
I C*
ICMB
IDE
Intelligent Chassis Management Bus
Integrated drive electronics
A utility to update Flash EEPROM
Interprocessor interrupt
iFLASH
IPI
IPMB
IPMI
IRQ
Intelligent Platform Management Bus
Intelligent Platform Management Initiative
Interrupt request line
KB
Kilobyte. 1024 bytes
L2
Second-level cache
LCD
LVDS
MAC
MB
Liquid crystal display
Low-voltage differential SCSI
Memory Access Controller
Megabyte. 1024 KB
MIF
Management information format
Multiprocessor specification
Model specific register
MPS
MSR
MTRR
NMI
Memory type range register
Nonmaskable interrupt
OEM
OPROM
OS
Original equipment manufacturer
Option ROM
Operating system
PB64
PC-100
PCI
PCI host bridge with hot-plug controller
Collection of specifications for 100-MHz memory modules
Peripheral component interconnect
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PHP
PIC
PCI hot-plug
Programmable interrupt controller
Programmable interrupt device
PID
PIIX4e
PIRQ
PMM
PnP
PCI ISA IDE (and USB) accelerator chip from 82440LX chip set
PCI interrupt request line
POST memory manager
Plug and Play
POST
Power-On Self Test
®
Eight processor chip set used in OCPRF100 MP Server System
Profusion
RAS
Reliability, availability, and serviceability
Revolutions per minute
RPM
SAF-TE
SCL
SCSI Accessed Fault-Tolerance Enclosures
Serial clock
SCSI
Small computer systems interface
Single edge contact cartridge
System event log
SECC
SEL
SELV
Safety extra-low voltage
SMBIOS
SMBus
System management BIOS
2
Subset of I C bus/protocol
SMI
System management interrupt
Server management interface controller
System management mode
Symmetric multiprocessing
System management RAM
System management software
Serial presence detect
SMIC
SMM
SMP
SMRAM
SMS
SPD
SSU
UC
System Setup Utility
Uncacheable
USB
Vac
Universal Serial Bus
Volts of alternating current
Volts of direct current
Vdc
VGA
Video graphics array
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VID
Voltage ID
VRM
WB
Voltage regulator module
Write-back cacheable
A 16-bit quantity
Write protected
Word
WP
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OCPRF100 MP Server System Technical Product Specification
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Appendix B: References
The following documents further describe the OCPRF100 MP Server System:
•
•
Saber System External Architecture Specification, Intel Corporation, OR-1300.
OCPRF100 MP Server System BIOS External Architecture Specification, Revision 2.0,
Intel Corporation, OR-1522.
•
•
System Setup Utility External Product Specification, Intel Corporation, OR-1510.
OCPRF100 MP Server Management External Architecture Specification, Intel Corpora-
tion, OR-1409.
•
OPRF100 Board Set External Product Specification, Revision 2.0, OR-1542.
Refer to the following documents for additional information:
ACPI
•
•
•
Advanced Configuration And Power Interface Specification, Revision 1.0, 22 December
1996, http://www.teleport.com/~acpi.
Errata to the Advanced Configuration and Power Interface Specification, Revision 1.0,
http://www.teleport.com/~acpi.
ACPI Implementor’s Guide, v. 0.50, http://www.teleport.com/~acpi.
Boot
•
BIOS Boot Specification, Version 1.01, http://www.ptltd.com/techs/specs.html.
El Torito CD-ROM Boot Specification, v. 1.0, http://www.ptltd.com/techs/specs.html.
•
DMI
•
Desktop Management Interface Specification, Version 2.00, 27 March 1996, Desktop
Management Task Force, Inc., http://www.dmtf.org/tech/specs.html.
•
DMI 2.0, ERRATA #1, 6 August 1997, Desktop Management Task Force, Inc., http://
www.dmtf.org/tech/specs.html.
ESCD
•
Extended System Configuration Data Specification, v. 1.02a, 31 May 1994, http://
www.microsoft.com/hwdev/respec/PNPSPECS.HTM.
Flash
•
28F016SA FlashFile™ Memory Datasheet, December 1997, Intel Corporation, Number
290489-005, ftp://download.intel.com/design/flcomp/datashts/29048905.PDF.
•
28F016SA/DD28F032SA Specification Update, July 1996, Intel Corporation, Number
297408-006, ftp://download.intel.com/design/flcomp/SPECUPDT/29740806.pdf.
Hot-plug PCI
PCI Hot-plug Specification, Revision 1.0, PCI Special Interest Group.
•
137
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OCPRF100 MP Server System Technical Product Specification
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•
•
PCI Hot-plug (PHP) Usage Model Whitepaper, version 0.55.
I O
2
Intelligent I/O (I O) Architecture Specification, Revision 1.0, I O Special Interest Group.
2
2
MPS
•
MultiProcessor Specification, Versions 1.1 and 1.4, Intel Corporation.
PC-100
•
PC SDRAM Registered DIMM Specification, Revision 1.0, February 1998, Intel Corpora-
tion,
http://developer.intel.com/design/pcisets/memory/index.htm
•
•
•
PC SDRAM Reistered DIMM Design Support Document, Rev 1.0, February 1998, Intel
Corporation
PC SDRAM Specification, Revision 1.63, October 1998, Intel Corporation,
http://developer.intel.com/design/pcisets/memory/index.htm
PC SDRAM Serial Presence Detect (SPD) Specification, Revision 1.2A, December 1997,
Intel Corporation,
http://developer.intel.com/design/pcisets/memory/index.htm
PCI
•
PCI Local Bus Specification, Revision 2.1S, PCI Special Interest Group.
PCI BIOS Specification, Revision 2.1, PCI Special Interest Group.
•
•
•
PCI to PCI Bridge Specification, Revision 1.0, PCI Special Interest Group.
PCI Power Management Specification, Revision 1.0, PCI Special Interest Group.
®
Pentium II Xeon™ Processor
®
•
•
•
•
•
Pentium Pro Family Developer’s Manual: Specifications, 1996, Intel Corporation, Num-
ber 242690.
®
Pentium Pro Family Developer’s Manual: Programmer’s Reference Manual, 1996, Intel
Corporation, Number 242691.
®
Pentium Pro Family Developer’s Manual: Operating System Writer’s Guide, 1996, Intel
Corporation, Number 242692.
®
Pentium Pro Processor BIOS Writer’s Guide, Version 2.0, January 1996, Intel Corpora-
tion, ftp://ftp.intel.com/pub/IAL/p6/pppbios.pdf.
®
RS - Extension to Pentium Pro Processor BIOS Writer’s Guide, Revision 2.0, Intel Cor-
poration, Number OR-1031.
Phoenix BIOS*
Phoenix BIOS* 6.0 Users Manual, Phoenix Technologies Ltd.
•
138
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OCPRF100 MP Server System Technical Product Specification
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PID
•
Programmable Interrupt Device External Product Specification, Revision 1.1, Intel Corpo-
ration, Number OR4-680777.
PIIX4
•
82371AB PCI-TO-ISA/IDE Xcelerator (PIIX4) Datasheet, April 1997, Intel Corporation,
Number 290562-001, ftp://download.intel.com/design/pcisets/datashts/29056201.pdf.
•
Intel 82371AB (PIIX4) Specification Update, December 1997, Intel Corporation, Number
297738-002, ftp://download.intel.com/design/pcisets/SPECUPDT/29773802.PDF.
Plug and Play
•
•
•
•
Plug and Play BIOS Specification, v. 1.0a, 5 May 1994, http://www.microsoft.com/hwdev/
respec/PNPSPECS.HTM.
Clarification to Plug and Play BIOS Specification, v. 1.0a, 6 October 1994, http://
www.microsoft.com/hwdev/respec/PNPSPECS.HTM.
Plug and Play ISA Specification, v. 1.0a, 5 May 1994, http://www.microsoft.com/hwdev/
respec/PNPSPECS.HTM.
Clarification to Plug and Play ISA Specification, v. 1.0a, 10 December 1994, http://
www.microsoft.com/hwdev/respec/PNPSPECS.HTM.
PMM
•
POST Memory Manager Specification, Version 1.01, http://www.ptltd.com/techs/
specs.html.
Profusion®
•
Gemini External Design Specification, June, 1998, Corollary, Inc., Number 99-00322-000-
12.
•
PB64 External Design Specification, 25 June 1998, Corollary, Inc., Number 99-00570-
000-02.
SCSI
•
SYM53C896 Data Manual, version 0.6, Symbios Logic Inc.*
Server Management
•
•
•
Emergency Management Port v1.0 Interface External Product Specification, Revision
0.83, 18 December 1997, Intel Corporation.
Intelligent Platform Management Interface Specification, Version 0.9, Revision 0.17, 28
March 1998, Intel Corporation.
Platform Sensor and Event Interface External Product Specification, Version 1.0, Revi-
sion 0.89, 19 December 1997, Intel Corporation.
SMBIOS
System Management BIOS Reference Specification, Version 2.1, 16 June 1997, http://
www.ptltd.com/techs/specs.html.
•
Ultra I/O
139
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OCPRF100 MP Server System Technical Product Specification
Revision 1.0
•
FDC37C93xAPM Advance Information, 15 July 1996, Standard Microsystems Corpora-
tion.*
USB
•
Universal Serial Bus Specification, Revision 1.0, 15 January 1996, http://www.usb.org/
developers.
VGA
•
CL-GD5446 Advance Product Bulletin, Cirrus Logic.*
•
Alpine VGA Family - CL-GD543x/4x Technical Reference Manual, February 1995, Cirrus
Logic.
Wired for Management
•
Wired for Management Baseline Specification, Version 1.1a, 28 August 1997, Intel Cor-
poration, ftp://download.intel.com/ial/wfm/baseline.pdf.
Windows*
•
Hardware Design Guide for Microsoft Windows NT Server, Version 1.0.
Miscellaneous
•
Power Supply, 750/650W, PFC, 5 Outputs, Intel document 676912.
•
EN 61000-3-2: Electromagnetic Compatibility (EMC) Part 3: Limits - Section 2: Limits for
Harmonic Current Emissions.
•
JEIDA MITI Guideline for Suppression of High Harmonics in Appliances and General-Use
Equipment.
140
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OCPRF100 MP Server System Technical Product Specification
Revision 1.0
Index
C
G
I/O Carrier 14
Midplane Assembly 13
OCPRF100 MP Server System Chassis 16
I
Power Supply 16
P
Connectors
F
i
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R
Electromagnetic Compatibility Notices
(International) 89
S
ii
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|