HP Kayak XU800 PC Workstation
Technical Reference Manual
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HP Kayak XU800 PC Workstation Package. . . . . . . . . . . . . . . . . . . . 13
Front and Side Views . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
Rear View. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14
Internal Features. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14
Front Panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15
Specifications and Characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . . 16
Physical Characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16
Electrical Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16
Power Consumption and Cooling. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17
Power Saving and Ergonometry . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19
Power-On from Space-Bar . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21
Soft Power Down. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21
Documentation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22
Where to Find the Information. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23
3
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Architectural View. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 29
Accessory Card Slots. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 30
Universal AGP Pro Slot . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
30
Chipset . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 34
Memory Controller Hub (8240) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 35
AGP 4x Bus. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
38
PCI 64-bit Hub . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 44
The Input/Output Controller Hub (82801AA). . . . . . . . . . . . . . . . . . . 48
Devices on the Low Pin Count Bus . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
60
Host Bus . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 64
Optional Second Processor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
65
Assigned Device Interrupts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 68
PCI 64-bit Hub Interrupts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Interrupt Controllers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
68
68
4
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Graphics Cards . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 71
3Dlabs Oxygen GVX1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 77
Network Cards . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 81
Supported LAN Cards. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 83
3COM NIC (Network Interconnect) LAN Card . . . . . . . . . . . . . . . . . . . . 83
INTEL NIC (Network Interconnect) LAN Card . . . . . . . . . . . . . . . . . . . 85
4 Mass Storage Devices
Flexible Disk Drives . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 87
Hard Disk Drives . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 87
CD-ROM Drives. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 88
HP/NBA BIOS Summary. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 91
Clearing the CMOS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 96
Adaptec SCSISelect Configuration Utility . . . . . . . . . . . . . . . . . . . . . 99
Default Settings. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 99
BIOS Addresses. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 102
System Memory Map. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 102
HP I/O Port Map (I/O Addresses Used by the System). . . . . . . . . . . . . 103
5
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DMA Channel Controllers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
IRQs Used by the PC Workstation. . . . . . . . . . . . . . . . . . . . . . . . . . . . .
104
105
MaxiLife Test Sequence and Error Messages. . . . . . . . . . . . . . . . . . 107
Run-Time Errors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Main Menu . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
111
Error Message Summary. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 123
Beep Codes. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
127
Rear Panel Socket Pin Layouts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 137
6
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Preface
This manual is a technical reference and BIOS document for engineers
and technicians providing system level support. It is assumed that the
reader possesses a detailed understanding of AT-compatible
microprocessor functions and digital addressing techniques.
Technical information that is readily available from other sources, such
as manufacturers’ proprietary publications, has not been reproduced.
This manual contains summary information only. For additional
reference material, refer to the bibliography on the following page.
For all warning and safety instructions, refer to the user guide
delivered with the PC Workstation.
Conventions
The following conventions are used throughout this manual to identify
specific numeric elements:
Hexadecimal numbers are identified by a lower case h.
For example, 0FFFFFFFh or 32F5h
Binary numbers and bit patterns are identified by a lower case b.
For example, 1101b or 10011011b
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7
Bibliography
Online documentation can be obtained from the HP World Wide Web
1
❒ HP Kayak XU800 PC Workstation User’s Guide D8369-90001 — as
well as English, this guide is also available in various languages.
❒ HP Kayak XU800 PC Workstation Troubleshooting Guide —
available in English, French, Italian, German, Spanish, Swedish and
Japanese.
❒ HP Kayak XU800 PC Workstation Technical Notes — English only.
❒ HP Kayak XU800 PC Workstation Service Handbook Chapter —
English only.
2
❒ Image Creation and Recovery CD-ROM — 5011-6692-xx .
Extra Information Can ❒ ELSA GLoria Synergy graphics card
Be Obtained At:
❒ Matrox graphics cards
❒ 3D Labs Oxygen GVX1 graphics card
❒ Intel Chipsets. Intel I840 chipset
❒ Intel Pentium III Processor
1. Also includes information about the HP Kayak XM600 Minitower PC
Workstation.
2. xx = Language code.
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1
System Overview
This manual describes the HP Kayak XU800 PC Workstation and provides
detailed system specifications.
This chapter introduces the external features, and lists the specifications
and characteristic data of the system. It also provides a summary of the
documentation available.
HP Kayak XU800 PC Workstation Overview
The HP Kayak XU800 PC Workstation is based on the Extended ATX
(E-ATX) form factor.
The following table provides an overview of the system.
Feature
System Board
Description
E-ATX with a dimension of 12.8-inch x 11.4-inch.
All models have support for up to two Intel Pentium® III processors.
Processor
For Processor 1, a VRM (Voltage Regulator Module) is integrated on the
system board, while there is a VRM socket for a second processor.
•
•
Level-One: 16 KB code, 16 KB data.
Level-Two: i256 KB.
Cache Memory
(integrated in processor
package)
533 MHz, 600 MHz, 667 MHz, 733 MHz, 800 MHz and higher.
133 MHz Front Side Bus.
Internal CPU Clock Rate
External Processor Bus
Intel® Chipset (I840) including, Input/Output Controller Hub (ICH), PCI 64-bit
Hub (P64H), FirmWare Hub (FWH) and Memory Repeater Hub (MRH-S) for
SDRAM support.
Chipset
NS 87364.
Super I/O Chip
Based on the core of AMIBIOS, including:
BIOS (Basic Input/Output
System)
•
•
•
4 M/bits of flash memory.
Support for PCI 2.2 Specification.
Support for RDRAM or SDRAM memory modules.
Flash EEprom: Intel’s Firmware hub concept.
Firmware - BIOS
9
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1 System Overview
HP Kayak XU800 PC Workstation Overview
Feature
Description
Hardware monitoring utility that monitors system components via the I2C bus
and a LCD status panel.
HP MaxiLife Utility
(available on all models)
All models are preloaded with Windows NT® 4.0 SP5.
Operating System
Models include either:
Main Memory
•
•
Four RIMM sockets supporting RDRAM ECC memory modules installed in
pairs. Any unused RIMM sockets must contain a continuity module.
Models are supplied with either 128 MB or 256 MB RDRAM ECC main
memory installed in pairs.
Memory upgrades are available in pairs of: 64 MB, 128 MB, 256 MB or
512 MB RDRAM ECC modules.
Four DIMM sockets supporting SDRAM 100 MHz ECC memory modules
installed in pairs. Models are supplied with 128 MB of SDRAM unbuffered
ECC main memory.
Maximum amount of
memory that can be
installed is:
2 GB (4 x 512 MB)
Memory upgrades are available in pairs of: 64 MB, 128 MB, 256 MB or
512 MB unbuffered 100 MHz ECC SDRAM modules.
Seven shelves supporting:
Mass Storage
•
Two front-access, third-height 3½-inch (one for the floppy disk drive and
one free) (height 1”);
•
Three front-access, half-height, 5¼-inch drives (height 1.0”);
Possibility of installing a 3½-inch hard disk drive in one of the
5¼-inch shelves.
•
Two internal 3½-inch hard disk drives (height 1.0”).
Ultra 160 SCSI controller:
SCSI Controller
Adaptec® AIC-7892 Ultra 160 16-bit integrated SCSI controller (160 MB/s).
The internal SCSI connectors allow for up to five internal devices to be
connected. Additional devices can be added outside the PC Workstation by
connecting directly to the rear panel SCSI connector. The external connector
allows up to ten external devices to be connected. This gives a maximum of 15
(internal + external) devices that can be connected.
All models include an integrated Ultra ATA-66 controller that supports up to
four IDE devices.
IDE Controller
10
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1 System Overview
HP Kayak XU800 PC Workstation Overview
Feature
Description
Models include either:
Video Controllers
•
•
•
•
ELSA GLoria Synergy® II AGP video controller with 32 MB of installed
SGRAM video memory (maximum configuration).
Matrox® Millennium G250 AGP video controller with
8 MB SGRAM video memory which can be upgraded to 16 MB.
Matrox Millennium G400-Dual monitor AGP video controller with
16 MB SGRAM video memory (maximum configuration).
3Dlabs Oxygen® GVX1, 32 MB SGRAM video memory (maximum configu-
ration).
All models have:
Accessory Card Slots
•
One Universal AGP Pro 4X 50 W 32-bit slot. The AGP bus provides a high
performance graphics interface.
•
•
Three 32-bit 33 MHz PCI1 slots: 1, 2 and 5 (5 V).
Two 64-bit 66 MHz PCI slots: 3 and 4 (3.3 V).
The majority of the configurations are delivered with PCI slots 1 to 4 vacant.
All models are supplied with an HP 10/100BT PCI Ethernet Adapter LAN card
installed in PCI slot 5, supporting Wake-On LAN (WOL) and PCI 2.2
Specification.
LAN Card
Models include either an IDE 48X CD-ROM, CD-RW drive or DVD drive.
CD-ROM Drive
Audio
Integrated on the system board CS4280 audio PCI chip and AC97 Codec
(CS4297) audio.
Cooling system with multiple temperature-regulated fans to optimize cooling.
Alert reporting to MaxiLife and TopTools.
HP UltraFlow Cooling
System
1. All five PCI slots comply with the PCI Specification 2.2.
11
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1 System Overview
HP Kayak XU800 PC Workstation Overview
Feature
Description
•
•
•
One flexible disk drive connector
System Board
Connectors
Two ATA-66 IDE connectors (for up to four IDE devices)
One 16-bit Ultra 160 SCSI connector and one SCSI terminator.
The SCSI cable is routed from the SCSI connector on the system board
(located near the system switches) to the SCSI devices inside the chassis,
onto an onboard SCSI terminator (behind the processor), and finally onto the
external SCSI connector on the rear panel. The onboard SCSI terminator is
automatically deactivated when an external device is attached.
One CD-IN audio connector
AUX connector
Internal speaker connector
One WOL connector
One status panel connector
•
•
•
•
•
•
•
•
Two power supply connectors that must be connected
One battery socket
The system board layout with all connectors can be found on page 28.
•
9-pin serial (two, buffered)
❒ Standard: Two UART 16550 buffered serial ports
(both RS-232-C).
Rear Panel Connectors
(color coded)
❒ Serial Ports A and B: 2F8h (IRQ 3), 2E8h (IRQ 3),
3F8h (IRQ 4), 3E8h (IRQ 4), or Off—
(if one port uses 2xxh, the other port must use 3xxh).
•
•
•
Dual USB connectors
External 16-bit U160m SCSI connector
Audio
❒ Joystick/Dual MIDI connector
❒ LINE IN jack (3.5 mm)
❒ LINE OUT jack (3.5 mm)
❒ MIC IN jack (3.5 mm)
•
•
Keyboard/Mouse
❒ HP enhanced keyboard with mini-DIN connector
❒ HP enhanced scrolling mouse with mini-DIN connector
25-pin parallel connector
❒ Mode: Centronics or bidirectional modes (ECP/EPP)
❒ Parallel port: 1 (378h, IRQ 7), 2 (278h, IRQ 5), or Off.
12
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1 System Overview
HP Kayak XU800 PC Workstation Package
HP Kayak XU800 PC Workstation Package
The following two diagrams show the front and rear views of the HP Kayak
XU800 PC Workstation.
Front and Side Views
Power Supply Unit
HP UltraFlow Airflow Guide
Front Access
Drives, for
- three 5.25-inch
drive shelves. Pos-
sibility of installing
a 3½-inch hard disk
drive in one of the
5¼-inch shelves.
- two 3.5-inch
shelves including a
1.44 MB floppy
Rear Fan
Spare mounting rails (not shown) for:
- 3.5-inch (short green) devices
(for example, zip drive),
disk drive
- 5.25-inch (long green) devices,
- 3.5-inch (short blue) hard disk drives
Primary Internal Hard
Disk Drive Shelf
Secondary Internal
Hard Disk Drive Shelf
Second 3.5-inch shelf
13
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1 System Overview
Internal Features
Rear View
External SCSI
connector
Mouse connector
Keyboard connector
Dual USB (12 Mbps)
connectors
Serial port A
Serial port B
Line Out connector
Line In connector
Microphone connector
Parallel port
Display connector
MIDI connector
Internal Features
The core architecture of the HP Kayak XU800 PC Workstation is
constructed around: Memory Controller Hub (MCH), Input/Output
Controller Hub (ICH), FirmWare Hub (FWH) and the Host bus.
The HP Kayak XU800 PC Workstation can support up to two Pentium III
processors. This processor is described on page 65.
HP BIOS routines are summarized in chapter 5; and the Power-On Self-Test
routines are described in chapter 6.
14
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1 System Overview
Front Panel
Front Panel
The front panel of HP Kayak XU800 PC Workstation has the following
features:
LCD Control Buttons
Power On/Off
Button
Reset Button
Hard Disk
Activity Light
• Liquid Crystal Display (LCD). LCD error messages and available menus
are described on page 107.
• On/Off LED. There are five states:
Blank. Indicates that the computer is turned off.
Green. Indicates that the computer is turned on and running correctly.
Red. Indicates that there is a Power-On Self-Test (POST) error.
Red flashing. Indicates that there is a MaxiLife (Diag/Alarm) error.
Amber. Displayed during system reset, system lock, Standby mode
(Windows 98) or Suspend mode (Windows 95).
• Hard disk drive activity LED. Activated during POST and when the
hard disk drive is being accessed.
15
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1 System Overview
Specifications and Characteristics
Specifications and Characteristics
Physical Characteristics
System Processing Unit
Weight (excl. keyboard and display):
Dimensions:
14.4 kilograms (31.68 pounds)
47.0 cm max. (D) by 21,0 cm (W) by 49.0 cm (H)
(18.50 inches by 8.26 inches by 19.29 inches)
Footprint:
0.09 m2 (1.06 sq ft)
Electrical Specifications
Maximum per
PCI Slots1
(1,2 & 5)
Maximum per
PCI Slots1
(3 & 4)
Peak
(15
secs.)
Maximum for
Universal
Parameter
Total Rating
AGP Pro Slot2
32-bit 33 MHz
64-bit 66 MHz
Input voltage -
100 - 127
200 -
—
—
—
—
Switch select
VAC
250 V Vac
Input current (max)
Input frequency
9 A
4.5 A
—
—
—
—
—
—
—
—
50 to 60 Hz
Available power
300 W
13.5 A
0.8 A
1.5 A
—
320 W
15 A
—
100 W for PCI slots and AGP Pro slot
Max current at +12 V
Max current at -12 V
Max current at +3.3 V
0.5 A
0.1 A
7.6 A
—
0.5 A
0.1 A
7.6 A
—
9.2 A
—
—
Imax(Vcc) = 7.6 A
Imax(Vddq) = 2 A
Max current at Vddq
(3.3 V or 1.5 V)
—
Max current at +5 V
Max current at -5 V
Max current at +5Vstdby3
combined with 3.3 V stdby
32 A
0.5 A
2 A
—
—
—
5 A
—
5 A
—
2 A
—
1.5 A total on 3.3 V stdby
1.
2.
The maximum power dissipation for a PCI card is 25 W (refer to PCI specifications 2.2 on page 31).
An AGP Pro card uses the electrical and cooling resources of both the Universal AGP Pro slot and the adjacent PCI slot. Power
limitation is managed in the BIOS.
3.
Refer to System Board Switch 10 on page 33.
16
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1 System Overview
Specifications and Characteristics
Some examples of a supported configuration with combined power
consumption of 100 W (PCI slots + Universal AGP Pro slot):
Number of
PCIAccessory
Cards
TotalPower
Supply
AGP Pro Slot
Accessory Card Power Consumption
Used
1 x 5 W PCI accessory card + 3 x 15 W PCI accessory cards + 0 W empty PCI
slot (adjacent to Universal AGP Pro slot) + 1 x 50 W AGP Pro card
100 W
100 W
Four
One AGP Pro Card
(50 W)
1 x 5 W PCI accessory card + 1 x 15 W PCI accessory card + 2 x 12.5 W PCI
accessory cards+ 0 W empty PCI slot (adjacent to Universal AGP Pro slot) + 1
x 50 W AGP Pro card
One AGP Pro Card
(50 W)
Four
Five
1 x 5 W PCI accessory card + 2 x 25 W PCI accessory cards + 2 x 10 W PCI
accessory cards + 1 x 25 W AGP standard card
100 W
One AGP Standard
Card (25 W)
An attempt to draw too much current (such as a short circuit across edge-
connector pins, or an accessory board that is not suitable for this PC
Workstation), will cause the overload protection in the power supply to be
triggered, and will shut down the PC Workstation.
NOTE
When the PC Workstation is turned off with the power button on the front
panel, the power consumption falls below the low power consumption (refer
to the following table), but is not zero. The special on/off method used by this
PC Workstation extends the lifetime of the power supply. To reach zero
power consumption in “off” mode, either unplug the PC Workstation from the
power outlet or use a power block with a switch.
Power Consumption and Cooling
The power consumption and acoustics (shown in the Environmental
Specifications table) are valid for a standard configuration as shipped (one
processor, 256 MB of memory, 300 W power supply, one hard disk drive,
video card, LAN card).
All information in this section is based on primary power consumptions.
Power consumption - Windows NT:
230 V / 50 Hz
115 V / 60 Hz
85.5 W - 291.7 Btu/h1 84.5 W - 288.3 Btu/h
75.8 W - 258.6 Btu/h 77.2 W - 263.4 Btu/h
•
•
•
Operating with input/output (disk access)
Operating without input/output (idle)
Off with LAN card
4.2 W - 14.3 Btu/h
4 W - 13.6 Btu/h
1.
1 W = 3.4121 Btu/h
17
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1 System Overview
Specifications and Characteristics
Component:
•
•
•
•
Processor:
50 W
23 W
16 W
10 W - 36 W
-
-
-
-
170.6 Btu/h
78.4 Btu/h
54.5 Btu/h
34.1 Btu/h - 122.8 Btu/h
SCSI HDD with access:
SCSI HDD with no access:
PCI card:
Environmental Specifications
Environmental Specifications (System Processing Unit, with Hard Disk)
Operating Temperature
+10 °C to +35 °C (+50 °F to +95 °F)
-40 °C to +70°C (-40 °F to +158 °F)
15% to 85% (relative)1
Storage Temperature
Operating Humidity
Storage Humidity
8% to 85% (relative)1
Acoustic noise emission (as defined ISO 7779):
Sound Power
Sound Pressure
LwA <= 43.9 dB
LwA <= 44.9 dB
LwA <= 46.7 dB
LpA <= 30.8 dB
LpA <= 31.8 dB
LpA <= 33.6 dB
•
•
•
Operating
Operating with hard disk access
Operating with floppy disk access
Operating Altitude
Storage Altitude
10000 ft (3100m) max
15000ft (4600m) max
1.non condensing conditions.
Operating temperature and humidity ranges may vary depending upon the mass
storage devices installed. High humidity levels can cause improper operation of
disk drives. Low humidity levels can aggravate static electricity problems and
cause excessive wear of the disk surface.
18
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1 System Overview
Power Saving and Ergonometry
Power Saving and Ergonometry
Depending on the operating system, the following power management types
are available:
• No sleeping state: Windows NT 4 (Full On and Off).
• APM: Windows 95 and Windows 98 SE APM (Full On, Standby, Suspend
and Off).
• ACPI: Windows 98 SE ACPI and Windows 2000 (Full On, S1, Suspend to
RAM, Suspend to disk, Off).
Windows 2000
Windows 98 SE
Windows NT 4
Windows 95
Supported
Supported
Supported
Full On
Standby
Suspend
Off
Supported
Supported
Supported
Supported
Supported
Supported
A
P
M
Not Supported by
Windows NT 4
Not Supported by
Windows 2000
Supported
S1 (processor stopped)
S31(suspend to RAM)
Supported
Supported
Supported
Supported
Supported
A
C
P
I
S4 (suspend to disk / hibernation)
Not Supported by
Windows 98
APM only Operating System
S5 (off)
Supported
Supported
1.
It is anticipated that the S3 feature will be supported by HP Windows 2000 models. More information about this feature will be
documented with the HP Windows 2000 release.
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1 System Overview
Power Saving and Ergonometry
Power Saving and Ergonometry for APM Systems
Full On
Normal speed
Standby1
Suspend1
Off
Normal speed
Halted
Halted
Processor
Display
On
Blanked, <30 W, on
models with integrated
graphics
Blanked, <5 W (typ)
Blanked, <5 W (typ)
Normal speed
Stopped
Halted
Halted
Hard disk drive
supports up to 300 W
<40 W (230V, 50 Hz)
<27 W (115V, 60 Hz)
<40 W (230V, 50 Hz)
<21 W (115V, 60 Hz)
(plugged in but turned off)
<5 W (average)
Power
consumption
Keyboard, mouse, alarms, Keyboard, network (RWU), Space bar or power
Resume events
Resume delay
LAN, modem, USB
modem, USB
button, RPO
Instantaneous
a few seconds
Boot delay
1.
Not supported by Windows NT 4.
Power Saving Modes and Resume Events for ACPI Systems
Full On
S1
Suspend to RAM
Off
Suspend to Disk
Off
Off
Normal speed
Halted
Blanked
Halted
Off
Off
Off
Processor
Display
On
Off
Off
Off
Off
Normal speed
Hard Disk
Drive
VCC
VCCAux
VCC
VCCAux
Memory
VCCAux
VCCAux
<10 W
VCCAux
<10 W
Active Power
Planes
Supports up to
300 W
<40 W
<10 W
Power
Consumption
Power button,
LAN,
Power button,
LAN,
Power button,
LAN,
Power button,
HP Start Key
Modem,
USB,
Scheduler,
HP Start Key
Modem,
Scheduler,
HP Start Key
Modem,
Scheduler,
HP Start Key
Resume Events
Resume Delay
Instantaneous
Instantaneous
BIOS boot delay
Regular boot delay
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1 System Overview
Power Saving and Ergonometry
Power-On from Space-Bar
The power-on from the space-bar function is enabled provided that:
• The computer is connected to a Power-On keyboard (recognizable by the
Power-On icon on the space bar).
• The function has been enabled by setting SW-7 to up (default setting) on
the system board switches.
• The function has been enabled in the “Power” menu of the Setup
program (default configuration).
Soft Power Down
When the user requests the operating system to shut down, the environment
is cleared, and the computer is powered off. Soft Power Down is available
with the Windows NT operating system.
21
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1 System Overview
Documentation
Documentation
The table below summarizes the availability of the documentation that is
appropriate to the HP Kayak XU800 PC Workstation. Only selected
publications are available in paper-based form. Most are available as
printable files from the HP division support servers, or from the HP website.
Online at HP WWW Site
(see address below)
Title
Division Support Server
Paper-based
PDF file
PDF file
Shipped with the PC
Workstation1
HP Kayak XU800 User’s Guide
PDF file2
CD-ROM
PDF file
No
No
No
No
HP Kayak XU800
Troubleshooting Guide
HP Kayak XU800 Training
Module
PDF file
(this document)
PDF file
PDF file
HP Kayak XU800 Technical
Reference Manual
PDF file
PDF file
When available, it will be
included in the fourth edition
of the Service Handbook
HP Kayak XU800 Service
Handbook Chapter
PDF file
No
HP Kayak XU800 Technical
Notes
1.
2.
Refer to the Service Handbook Chapter for the availability of the localized monolingual and multilingual User’s Guides.
Also available in French, Italian, German, Spanish, Swedish and Japanese.
Access HP World Wide Additional online support documentation, BIOS upgrades and drivers are
available from HP’s World Wide Web site, at the following address:
Web Site
World-Wide Web URL:
then select HP Kayak XU800 PC Workstation.
22
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1 System Overview
Documentation
Where to Find the Information
The table below summarizes the availability of information within the
HP Kayak XU800 PC Workstation documentation set.
Technical
Reference
Manual
Troubleshooting
Guide1
Training
Module
Service
Handbook
Technical
Information
User’s Guide
Introducing the PC
Standard
configuration.
New features. Explodedview. Configuration.
Parts list.
Key features.
Product features
Product range.
CPL dates.
Product model
numbers
Setting up the PC.
Working in comfort.
Environmental
Electrical,
Safety.
Safety Warnings
multimedia, safety,
unpacking, removing
& replacing cover.
Preloaded,
HP Web sites.
HP Web sites.
HP Web sites.
Basic details.
HP Web sites.
Advanced.
HP Web
sites, others.
Finding on-line
information
Basic details.
Advanced.
Technical
information
Certificate of
Conformity.
Formal documents
Software License
agreement.
Using the PC
Rear panel connectors,
starting and stopping.
Connecting
devices and
turning on
Basic details.
Updating and
recovering.
New features.
New fields.
Memory maps. Technical
BIOS
details.
Memory
maps.
Complete
list.
Basic details.
Viewing Setup screen,
using, passwords
Basic details.
Fields and their
options within
Setup
Power management,
Software and drivers.
Manageability
23
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1 System Overview
Documentation
Technical
Reference
Manual
Troubleshooting
Guide1
Training
Module
Service
Handbook
Technical
Information
User’s Guide
Upgrading the PC
Full description.
New
procedures.
Opening the PC
Full PN details Full PN details
Supported
accessories
Processor(s), memory, Error messages,
New
procedures.
Installing
accessories
accessory boards,
problem solving.
mass storage devices.
Installing devices
Installing devices.
Network
connection.
Configuring
devices
Installing and
removing, connectors
and switch settings.
Switch settings.
Jumpers,
switches,
connectors
and replacing.
Jumpers,
switches and
connectors.
Layout and
switch
settings.
Jumpers,
switches and
connectors.
Chip-set
System board
details.
Repairing the PC
Basic, MaxiLife,
hardware diagnoses.
MaxiLife, hardware Repair policy.
diagnoses and
Service notes.
Advanced.
Troubleshooting
suggested
solutions.
Basic details.
Error Messages,
EMU and
suggestions for
corrective action.
New features.
Error codes
and
suggestions
for corrective
action.
Power-On Self-
Test routines
(POST)
Order of
tests.
HP DiagTools,
CD-ROM recovery.
HP DiagTools,
CD-ROM recovery
New features
Technical
details.
Kayak diagnostic
utility
Peripheral Devices
Refer to Audio User’s
Guide for information
on setting up and
Refer to online
version of Audio
User’s Guide for
information on
setting up and
configuring audio
accessories.
Audio Accessories configuring audio
accessories.
24
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1 System Overview
Documentation
Technical
Reference
Manual
Troubleshooting
Guide1
Training
Module
Service
Handbook
Technical
Information
User’s Guide
Refer to LAN
Administrator’s Guide
for information on
setting up and
Refer to online
version (preloaded
on hard disk) of
LAN
configuring LAN cards Administrator’s
LAN Accessories
and systems.
Guide for
information on
setting up and
cards and systems.
1.
For address, “Access HP World Wide Web Site” on page 22.
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1 System Overview
Documentation
26
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2
System Board
This chapter describes the components of the system board, taking in turn
the components of the Memory Controller Hub (MCH), the Input/Output
Controller Hub (ICH), FirmWare Hub (FWH) and the Host Bus.
The following diagram shows in detail the HP Kayak XU800 PC
Workstation Extended ATX (E-ATX) system board.
27
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2 System Board
System Board Overview
System Board Overview
The following diagram shows where the different chips and connectors are
located on the E-ATX system board.
c
Fan CPU 1 - J17
SCSI Termination
Connector - J23
AUX Power- J31
Power Supply - J47
Mouse (upper) &
Keyboard (lower) - J3
FDD - J38
Two USB - J8
Processor 1 Connector - XU3
Processor 2 Connector - XU2
Rear Fan- J18
Secondary IDE - J44
Primary IDE - J37
VRM socket for
Serial Port A - J5
Serial Port B - J4
(Both ports are stacked with
the Parallel Port)
for CPU 2 - J45
CPU2 - J45
Memory Controller Hub
(MCH) 8284O-QP - U24
Battery - XU6
Line Out
Line In
MIC
HDD Temperature
c
FanCPU2
Midi & Audio - J2
Sensor - J56
Battery - XU6
- J19
Input/Output Controller
Hub (ICH) 82801AA- U34
b
Anti-Intrusion - J10
XU1
Memory Expansion Card
Connectors-XU1,XU4
XU4
PCI Fan - J50
CD-ROM Audio In - J52
AUX Audio In - J51
Internal Speaker- J48
Universal AGP PRO Slot - J22
PCI Slot 1
(32-bit 33 MHz, 5V) - J15
PCI Slot 2
(32-bit 33 MHz, 5V) - J14
MaxiLife -
U25
Status Panel - J43
Super I/O NS 87364 Chip - U6
Internal SCSI U160
Connector to Internal
Devices - J43
CS4280 Audio PCI chip- U7
Adaptec 7892 SCSI
U160 Controller - U44
PCI Slot 5
(32-bit 33 MHz, 5V)- J11
c
PCI Slot 4 -J14
Wake-On Lan PCI 64-bit Hub
(64-bit 66 MHz, 3.3V) (WOL)- J26
(P64H)- U32
Configuration
Switches - SW1
a
PCI Slot 3 - J13
Additional SCSI
FirmWare Hub
(64-bit 66 MHz, 3.3V)
LEDConnector - Controller (FWH)
J25 82802AB- U35
a. Refer to “Switch Boxes” on page 33 or the Switch Block Label located on the chassis of the system box for the different system board switch
settings.
b. Connector for the Anti-Intrusion switch.
c. Optional.
d. Connector for additional control of HDD LED on the status panel through the SCSI controller on a PCI add-on card.
28
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2 System Board
Architectural View
Architectural View
Intel Pentium III
Processor
(optional second processor)
with L2 cache memory
Intel Pentium III
Processor
with L2 cache memory
SECC-2 cartridge
SECC-2 cartridge
Address (36)
Control
Host (also called FSB)
Bus 100/133 MHz,
1 GB/sec data transfer
rate)
Data (64)
AGP 4x Bus (133
MHz (1 GB MB/s data
transfer rate)
I840
Memory
Controller Hub
(MCH)
Universal
AGP
PRO
Memory
Expansion Card
Connector
Dual Rambus Channel
(2.4 GB/s at 300 MHz or
3.2 GB/s at 400 MHz-
data transfer rate)
HUB
LINK 16
Connector
82840-QP
(533 MB/s data
transfer rate)
PCI Bus (64-bit, 66 MHz)
533 MB/s data transfer rate
HUB LINK 8
(266 MB/s data
transfer rate)
PCI 64-Bit
Hub (P64H)
Slot 3 - 64-bit/66 MHz
Onboard AIC7892
SCSI U160
Controller
Slot 4 - 64-bit/66 MHz
PCI Bus (32-bit, 33 MHz)
133 MB/s data transfer rate
IDE
Controller
PCI Bridge
ATA 66, 2 Channels
2 IDE
a
AC’97
Connectors
AC ‘97
Digital
Link
2 x USB
Controller
Audio
Controller
Slot 1 - 32-bit/33 MHz
USB
2 USB
Connectors
Audio PCI
Chip
(CS4280)
Slot 2- 32-bit/33 MHz
Slot 5 - 32-bit/33 MHz
SM Bus
Controller
LPC
Bridge
Keyboard,
Mouse and
Floppy
Super I/O
LPC / FWH Link
NS 87364
Fans
MaxiLife
Monitoring
Chip
Parallel and
Serial Ports
FirmWare
Hardware
(FWH) 82802
MIDI
Port
Codec
Audio AC‘97
LCD
Status
Panel
Serial
EEPROM
a. It should be noted that the AC’97 Audio Controller is not used. The PCI CS4280 and CS4297 audio is a full PCI solution that is independent of the ICH
core logic.
29
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2 System Board
Accessory Card Slots
Accessory Card Slots
The following block diagram shows the position of the accessory card slots
on the system board.
One Universal AGP Pro slot.
Used for a graphics controller.
(Universal AGP Pro Slot) - J22
Three 32-bit 33 MHz PCI slots:
PCI Slot 1,
PCI Slot 2,
(PCI Slot 1) - J15
(PCI Slot 2) - J14
(PCI Slot 3) - J13
(PCI Slot 4) - J12
PCI Slot 5
Two 64-bit 66 MHz PCI slots:
PCI Slot 3,
PCI Slot 4
(PCI Slot 5) - J11
System board edge
Universal AGP Pro Slot
The Universal AGP Pro (Accelerated Graphics Port) bus, provides
a high-performance graphics interface. It uses a 66.6 MHz base
clock, and provides a peak bandwidth of 1064 MB/second in AGP
4x mode.
The Universal AGP Pro slot is a Universal-type connector which
provides power through 3.3 V, 12 V or 5 V power rails with a
maximum allocated power consumption of 50 W.
The Universal AGP Pro slot supports AGP 1x and 2x modes (uses 3.3 V or
1.5 V signals), and AGP 4x mode (1.5 V signalling is required).
AGP Video Card1
Supported
operation in the
Universal AGP Pro
Slot
1.5 V
Universal
≤ 50 W ≤ 25 W
3.3 V
≤ 50 W
≤ 25 W ≤ 50 W ≤ 25 W
AGP1x2
AGP2x2
AGP4x2
PCI-type
yes
yes
yes
yes
yes
yes
yes
yes
yes
yes
yes
yes
yes
yes
yes
no
yes
yes
no
yes
yes
yes
yes
yes
1.
AGP Pro video cards are supported up to 50 W.
With or without sideband addressing.
2.
30
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2 System Board
Accessory Card Slots
AGP 4x mode transfers data at twice the speed of AGP 2x mode, which is
itself twice the speed of the basic AGP 1x mode. This is achieved by
multiplying the 66 MHz AGP clock frequency, so that four packets of data
are transferred on each cycle (transfers on both rising and falling edges of
the clock speed). Each packet of data contains four bytes, giving a transfer
rate of 66.6 MHz x 4 (quad-clock mechanism) x 4 bytes, a maximum
bandwidth of 1064 MB/s.
The AGP interface and bus are explained on page 38.
PCI Slots
There is a total of five Peripheral Component Interconnect (PCI) connectors
on the system board:
• Three 32-bit 33 MHz PCI slots: 1, 2 and 5.
• Two 64-bit 66 MHz PCI slots: 3 and 4.
The three 32-bit/33 MHz PCI slots accept 5 V PCI cards and
Universal PCI cards (support for 3.3 V or 5 V), while the two
64-bit/66 MHz PCI slots support 3.3 V PCI cards and Universal PCI
cards (support for 3.3 V or 5 V).
A universal compatible 32-bit 33 MHz accessory card can also be installed in
PCI slots 3 or 4. However in this case the PCI 64-bit bus will only perform at
33 MHz.
The maximum supported power consumption per slot is 25W, from the 5V
and/or the 3.3V supply, and must respect the electrical specifications of the
PCI 2.2 specification. The power consumption of each PCI board is
automatically reported to the system through the two Presence Detect pins
of each PCI slot. These pins code the following cases:
•
•
•
•
No accessory board in the PCI slot.
7 W maximum PCI board in the PCI slot.
15 W maximum PCI board in the PCI slot.
25 W maximum PCI board in the PCI slot.
If a standard AGP (Accelerated Graphics Port) card is installed in the AGP
Pro slot, the maximum power consumption for the PCI accessory and AGP
slot must not exceed 100 W.
31
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2 System Board
Accessory Card Slots
If an AGP Pro card (>25 W and ≤50 W) is installed, then the PCI slot 1 is
made inaccessible as defined in the AGP Pro specification (PCI slot must be
left unoccupied to provide its sources, in terms of cooling and electrical
power, to the AGP Pro card. The following table shows the various PCI
board installations for the different PCI slots:
PCI Card
Universal
(3.3 V or 5 V compatible)
5 V
3.3 V
32-bit/
33 MHz
64-bit/
33 MHz
32-bit/
33 MHz or 66 MHz
64-bit/
33 MHz or 66 MHz
32-bit/
33 MHz or 66 MHz
64-bit/
33 MHz or 66 MHz
PCI Slot
1
2
1
1,2
yes
yes
not supported
not supported
yes
yes
yes
yes
Slots 1, 2 & 5
5 V,
32-bit/33 MHz
not
supported
not
supported
33 MHz
66MHz
33 MHz
66 MHz
33 MHz
66 MHz
33 MHz
66 MHz
Slots 3 and 4
3.3 V,
64-bit/66 MHz
3,4
4
3
3,4
4
3
yes
yes
yes
yes
yes
yes
yes
yes
1.
2.
3.
A 64-bit card can be installed in a 32-bit slot. However, this card will only operate in 32-bit mode.
A 66 Mhz card can be installed in a 33 MHz slot. However, this card will only operate in 33 MHz mode.
A 33 MHz card can be installed in a 66 MHz slot, However, the card will operate in 33 MHz mode and will force all other PCI devices to operate
at 33 MHz as well.
4.
A 32-bit card can be installed in a 64-bit slot without preventing other 64-bit PCI devices to operate in 64-bit mode.
The system board and BIOS support the PCI specification 2.2. This
specification supports PCI-to-PCI bridges and multi-function PCI devices,
and each of the five PCI slots have Master capabilities.
PCI slots 1, 2 and 5 are connected to the ICH PCI 32-bit 33 MHz bus, while
PCI slots 3 and 4 are connected to the PCI 64-bit 66 MHz bus via the P64H.
In addition to these PCI slots, the following devices are also connected to a
PCI Bus:
PCI 32-bit/33 MHz Bus
PCI 64-bit/66 MHz Bus
ICH (Input/Output Controller Hub) chip, bridge between the MCH (Memory Controller
Hub), USB ports and IDE buses.
Digital audio CS4280 controller.
The PCI 64-bit 66 MHz bus is explained on page 45. The PCI 32-bit 33 MHz
bus is explained on page 53.
32
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2 System Board
System Board Switches
System Board Switches
There are ten system board switches used for configuration, numbered from
1 to 10. Of these a certain number are reserved and should not be modified,
otherwise it could lead to a system failure.
Default
Position
Switch
Function:
1
UP
UP enables normal mode.
DOWN enables the BIOS recovery mode at next boot.
UP allows Processor(s) to automatically choose the FSB speed.
DOWN forces the FSB speed to 100 MHz.
UP enables User and System Administrator passwords.
DOWN clears the passwords at next boot.
UP retains CMOS memory.
2
3
UP1
UP
4
UP
DOWN clears CMOS memory at next boot.
UP = Automatic FSB frequency setting.
DOWN = Sets operation to 133 FSB/300 Rambus.
UP. AGP¨110 W cards appear as 50 W.
DOWN enables AGP 110 W detection.
UP disables keyboard power-on.
DOWN enables keyboard power-on.
UP forces the PCI 64 bus to 33 MHz if slots 3 and 4 are empty.
DOWN disables this option.
5
UP1
6
DOWN1
DOWN1
DOWN1
7
8
9
UP disables this option.
DOWN enables spread spectrum clocking.
UP Disables this option.
DOWN1
UP1
10
DOWN provides 3.3 V Stdby to AGP Pro connector.
1.
These are default settings and should not be changed.
Switch Boxes
There are two types of system board switch boxes that may be used on the
HP Kayak XU800 PC Workstation.
Default Configuration
or
10
X
9
8
7
6
5
4
3
2
1
OPEN = UP CLOSED = DOWN
OFF = OPEN ON = CLOSED
UP = OPEN
DOWN = CLOSED
X
X
X
X
X
X
X
X
X
33
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2 System Board
Chipset
Chipset
®
The Intel I840 chipset is a high-integration chipset designed for graphics/
multimedia PC platforms and is comprised of the following:
P64H FWH ICH
MCH
• The 82840 Memory Controller Hub (MCH) is a bridge between: the Host
bus, Dual Rambus bus (main memory), the PCI bus (64-bits/66 MHz),
AGP 4x (graphic) bus, Hub Link 8-bit and Hub Link 16-bit, and the
PCI 64-bit Hub (P64H). The MCH chip feature is described in detail on
page 35.
• The PCI 64-bit Hub (P64H) performs PCI bridging between the MCH and
the PCI 64-bit 66 MHz bus. The P64H is described in detail on page 44.
• The 82801AA Input/Output Controller Hub (ICH) is a bridge between the
following buses: the PCI bus (32-bits/33 MHz) and SMBus. In addition,
the ICH supports the integrated IDE controller (Ultra ATA/66), En-
hanced DMA controller, USB controller, Interrupt controller, Low Pin
Count (LPC) interface, FWH interface, ACPI Power Management
Logic, AC’97 2.1 Compliant Link, AOL (Alert-On-LAN) and Real
Time Clock (RTC) and CMOS. The ICH is described in detail on page 48.
•
The 82802AB Firmware Hub (FWH) stores system BIOS and SCSI BIOS,
nonvolatile memory component. In addition, the FWH contains an Intel®
Random Number Generator (RNG). The RNG provides random numbers
digital signing and security protocols for the PC Workstation. The FWH is
described in detail on page 62.
34
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2 System Board
Memory Controller Hub (8240)
Memory Controller Hub (8240)
The MCH Host Bridge/Controller is contained in a 544-pin Ball Grid Array
(BGA) package and is the bridge between the Host bus, Dual Rambus bus
(main memory), AGP 4x (graphic) bus, Hub Link 8-bit and Hub Link
16-bit.
The following figure shows an example of the system block diagram using
the MCH.
Intel Pentium III
Intel Pentium III
Processor
SECC-2 cartridge
Processor
(optional second processor)
with L2 cache memory
with L2 cache memory
SECC-2 cartridge
Address (36)
Control
Host (also called FSB) Bus
100/133 MHz, 1 GB/sec
data transfer rate)
Data (64)
I840 Memory
Controller Hub (MCH)
82840-QP
AGP 4x Bus
(133 MHz (1 GB MB/s
data transfer rate)
Universal
AGP
PRO
Memory
Expansion Card
Connector
AGP
Interface
Dual Rambus Bus
Memory
Controller (2.4 GB/s at 300 MHz or
3.2 GB/s at 400 MHz-
HUB
LINK 16
Connector
data transfer rate)
(533 MB/s data
transfer rate)
PCI Bus (64-bit, 66 MHz)
533 MB/s data transfer rate
HUB LINK 8
(266 MB/s data
transfer rate)
P64H
PCI
Interface
Onboard AIC7892
Slot 3 - 64-bit/66 MHz
Slot 4 - 64-bit/66 MHz
SCSI U160
Controller
I/O Controller Hub
(ICH) 82801AA
35
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2 System Board
Memory Controller Hub (8240)
The following table shows the features that are available in the MCH Host
Bridge/Controller.
Feature
Feature
•
Processor/Host Bus:
❒ Supports up to two Pentium III processors at: 100 MHz/133
MHz Host Bus frequency.
❒ Supports full Symmetric Multiprocessor (SMP) Protocol for
up to two processors.
❒ Provides an 8-deep In-Order Queue supporting up to eight
outstanding transaction requests on the host bus.
❒ Desktop optimized GTL+ bus driver technology (gated GTL+
receivers for reduced power).
•
Accelerated Graphics Port (AGP) Interface:
❒ Single Universal AGP PRO connector.
❒ AGP Rev 2.0 compliant, including AGP 4x data transfers and
2x/4x Fast Write protocol.
❒ AGP Universal Connector support via dual mode buffers to al-
low AGP 2.0 3.3 V or 1.5 V signalling.
❒ AGP PIPE# or SBA initiated accesses to DRAM is not
snooped
❒ AGP FRAME initiated accesses to DRAM are snooped
(snooper identifies that data is coherent in cache memory).
❒ Hierarchical PCI configuration mechanism.
❒ Delayed transaction support for AGP-to-DRAM reads that
cannot be serviced immediately.
❒ Support for 36-bit host bus address.
❒ IERR and BERR signals generate SCi/SERR.
❒ Parity protection on address and resource signals:
Parity errors generate SERR.
•
Memory Controller.
Direct Rambus:
❒ Dual Direct Rambus Channels operating in lock-step (both
SDRAM:
❒ Up to 8 GB of SDRAM using four external Memory Repeater
channels must be populated with a memory module).
Supporting 300 MHz or 400 MHz.
❒ RDRAM 64 Mb, 128 Mb, 256 Mb devices.
❒ Minimum upgrade increment of 16 MB using 64 Mb DRAM
technology.
❒ Up to 64 Direct Rambus devices (without using MRH-R).
Dual channel maximum memory array size is:
— 512 MB using 64 Mb DRAM technology.
— 1 GB using 128 Mb DRAM technology.
— 2 GB using 256 Mb DRAM technology.
❒ Up to 8 simultaneous open pages:
Hubs for SDRAM (MRH-S).
Currently, two MRH-S devices are supported.
❒ Interleaved 100 MHz support using 4 MRH-S for a maximum
bandwidth.
❒ Non-Interleaved 100 MHz support using 2 MRH-s for lower
cost and upgrade path.
❒ Unbuffered DIMMs are supported.
❒ Up to 4 rows or 2 DS DIMMs per MRH-S.
❒ Up to 8 simultaneous open pages:
— 2 KByte page size support for 64 Mbit SDRAM devices.
— 4 KByte - 16 KByte page sizes supporting 64 MBit to
256 Mbit SDRAM devices.
❒ Configurable optional ECC operation:
— ECC with single bit Error Correction and multiple bit Error
Detection.
— 1 KByte page size support for 64 Mbit, 128 Mbit and 256
Mbit RDRAM devices.
— KByte page size support for 256 Mbit RDRAM devices.
— Single bit errors corrected and written back to memory
(scrubbing).
•
Hub Link 8-bit Interface to ICH:
❒ High-speed interconnect between the MCH and ICH
(266 MB/sec).
•
Hub Link 16-bit Interface to P64H:
❒ High-speed interconnect between the MCH and P64H
(533 MB/sec).
36
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2 System Board
Memory Controller Hub (8240)
Feature
Feature
•
Power management:
•
Arbitration:
❒ SMRAM space re-mapping to A0000h - BFFFFh (128 KB).
❒ Extended SMRAM space above 256 MB, additional 128 K,
256 K, 512 K, 1 MB TSEG from Top of Memory, cacheable
(cacheability controlled by processor).
❒ Distributed Arbitration Model for Optimum Concurrency
Support.
❒ Concurrent operations of host, hub interface, AGP and
memory buses supported via a dedicated arbitration and
data buffering logic.
❒ Suspend to RAM.
❒ ACPI Rev. 1.0 compliant power management.
❒ APM Rev. 1.2 compliant power management.
❒ Power-managed states are supported for up to two
processors.
•
544 mBGA MCH package.
•
Input/Output Device Support:
❒ Input/Output Controller Hub (ICH).
❒ PCI 64 Hub (P64H).
MCH Interface
The MCH interface provides bus control signals and address paths via the
Hub Link 8-bit access to the ICH and via the Hub Link 16-bit access to the
P64H for transfers between the processor(s) on the Host bus (FSB), Dual
Rambus bus and AGP 4x bus.
The MCH supports 36-bit host addresses, allowing the processor to address
a space of 64 GB. It also provides an 8-deep In-Order Queue supporting up
to eight outstanding transaction requests on the host bus.
Host-initiated input/output signals are positively decoded to AGP, Hub Link
16-bit interface, or MCH configuration space and subtractively decoded to
Hub Link 8-bit interface. Host-initiated memory cycles are positively
decoded to AGP, Hub Link 16-bit interface, or DRAM, and are again
subtractively decoded to Hub Link 8-bit interface.
AGP semantic memory accesses initiated from AGP to DRAM do not require
a snoop cycle (not snooped) on the Host bus, since the coherency of data
for that particular memory range will be maintained by the software.
However, memory accesses initiated from AGP using PCI Semantics and
accesses from either Hub Link interface (8-bit or 16-bit) to DRAM do
require a snoop cycle on the Host bus.
Memory access whose addresses are within the AGP aperture are translated
using the AGP address translation table, regardless of the originating
interface.
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2 System Board
Memory Controller Hub (8240)
Write accesses from Hub Link interface (8-bit or 16-bit) to the AGP are
supported.
The MCH can support one or two Pentium III processors, at FSB frequencies
of 100/133 MHz using GTL+ signalling. Refer to page 64 for a description of
the Host bus.
Accelerated Graphics Port (AGP) Bus Interface
A controller for the Universal AGP (Accelerated Graphics Port) Pro slot is
integrated in the MCH. The AGP Bus interface is compatible with the
Accelerated Graphics Port Specification, Rev 2.0, operating at 133 MHz, and
supporting up to 1 GB/sec data transfer rates. The MCH supports only a
synchronous AGP interface, coupling to the Host bus frequency.
AGP 4x Bus
The AGP bus is a dedicated bus for the graphics subsystem, which meets the
needs of high quality 3D graphics applications. It has a direct link to the
MCH
The AGP bus is based upon a 66 MHz, 32-bit PCI bus architecture, to which
several signal groups have been added to provide AGP-specific control and
transfer mechanisms.
AGP specific transactions always use pipelining. This control mechanism
increases the bus efficiency for data transfer. Sideband Addressing (SBA)
may also be used by AGP transaction requests which further increases the
bus efficiency for data transfer. The supported modes are detailed below:
•
•
•
•
FRAME based AGP. Only the PCI semantics are: 66 MHz, 32-bit, 3.3 V,
266 MB/s peak transfer rate.
AGP 1X with pipelining, sideband addressing can be added: uses 66 MHz,
32-bit, 3.3 V, increased bus efficiency, 266 MB/s peak transfer rate.
AGP 2X with pipelining, sideband addressing can be added: 66 MHz
double clocked, 32-bit, 3.3 V, 533 MB/s peak transfer rate.
AGP 4X with pipelining, sideband addressing can be added: 133 MHz
double clocked, 32-bit, 1.5 V, increased bus efficiency, 1066 MB/s peak
transfer rate
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2 System Board
Memory Controller Hub (8240)
AGP PCI Bus
Implementation
Pentium III Processor
AGP 4x Bus
(133 MHz)
Device 0
I840
Memory
Controller Hub
(MCH)
GX-Device 1
AGP Port
Interface
Universal
AGP
PRO
PCI-to-PCI
Connector
PCI-to-PCI
Hub Link 8-bit
Hub Link 16-bit
Two PCI
64-bit 66
MHz slots
PCI 64-bit 66 MHz
I/O Controller
Hub (ICH)
Hub (P64H)
PCI-to-PCI
Main Memory Controller
The main memory controller is integrated in the MCH supporting two
primary rambus channels (A and B).
DRAM Interface
The MCH provides optional Host bus error checking for data, address,
request and response signals. Only 300 MHz and 400 MHz Direct Rambus
devices are supported in any of 64, 128 or 256 Mb technology. 64 and 128
MBit RDRAMs use page sizes of 1 kbytes, while 256 Mb devices target
1 kbyte or 2 kbyte pages.
A maximum number of 64 Rambus devices (32 devices maximum per
channel) is supported. Both channels must be populated with paired
memory modules.
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2 System Board
Memory Controller Hub (8240)
The following table shows the number of Rambus devices and memory
technology available on a memory module.
Memory Technology (number of Megabits)
Number of devices
64 Mbits
128 Mbits
256 Mbits
per RIMM
N/A
N/A
64 MB module
128 MB module
256 MB module
128 MB module
256 MB module
512 MB module
4
8
128 MB module
16
MCH also provides optional data integrity features including ECC in the
memory array. During DRAM writes, ECC is generated on a QWord (64 bit)
basis. During DRAM reads, the MCH supports multiple-bit error detection
and single-bit error correction when the ECC mode is enabled.
MCH will scrub single bit errors by writing the corrected value back into
DRAM for all reads when hardware scrubbing is enabled. This, however does
not include reads launched in order to satisfy an AGP transaction.
Dual Rambus Bus
The Dual Rambus bus is comprised of 16 x 2 bits of data information, and
8 bits of Error Correcting Code (ECC). The bus is connected to the Memory
Expansion Card Connector and to the MCH chip supporting two Dual
Rambus channels (A and B).
Both channels run at 300 or 400 MHz supporting up to 32 rambus devices
per channel (individual chips) or one MRH-S (Memory Repeater Hub) per
channel for DIMM sockets. The maximum available data bandwidth is
3.2 GB/s at 400 MHz.
The configuration of both primary rambus channels must be symmetrical.
That is to say, whatever the configuration on channel A, the same must be
on channel B.
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2 System Board
Memory Controller Hub (8240)
Memory Expansion Card Connector
The actual memory array is on a Memory Expansion Card installed in a
Memory Expansion Card Connector (MECC) located on the system board.
On the HP Kayak XU800 PC Workstation there are two types of Memory
Expansion Cards supporting the following configurations:
Four-RIMM Memory
Expansion Card
Four RIMM sockets support RDRAM ECC and memory modules installed in
pairs. Any unused RIMM sockets must contain a continuity module.
RIMM SOCKET A0
RIMM SOCKET B0
RIMM SOCKET A1
RIMM SOCKETB1
Models are supplied with either 128 MB or 256 MB RDRAM ECC main
memory. Memory upgrades are available in pairs of RIMMs, with an
individual RIMM size of 64 MB, 128 MB, 256 MB or 512 MB. The following
diagram shows installed memory. There are always two RIMMs working in
parallel.
A0
A1
Memory modules must be
installed in pairs (A0-B0).
Upgrades are then
installed as pairs in
sockets (A1-B1).
Otherwise, continuity
modules are installed
in sockets (A1-B1).
I840
Memory
Controller Hub
(MCH)
Rambus Channel A
Rambus Channel B
82840-QP
B0
B1
Each RIMM socket is connected to the SMBus and is described on page 57.
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2 System Board
Memory Controller Hub (8240)
Four-DIMM Memory
Expansion Card
Four DIMM sockets support SDRAM 100 MHz unbuffered ECC memory
modules installed in pairs. Unused DIMM sockets can be left free.
DIMM SOCKET A0
DIMM SOCKET B0
DIMM SOCKET A1
DIMM SOCKET B1
The MCH supports one Rambus Memory Hub for SDRAM (MRH-S) per
connected channel. Each MRH-S allows bridging of a single SDRAM channel
on to the main Rambus channel. The MRH-S also translates RDRAM and
SDRAM protocols, thus enabling the DIMM Memory Expansion Card to be
used on the Rambus channels.
As only one MRH-S is connected to each channel, the MCH operates the
MRH-S pair in non-interleaved mode.
Memory modules must be
installed in pairs (A0-B0).
A0
A1
Rambus Channel A
Rambus Channel B
MRH-S
MRH-S
Upgrades are then
installed in pairs
(A1-B1).
I840
Memory
Controller Hub (MCH)
82840-QP
B0
B1
Models are supplied with 128 MB of SDRAM unbuffered ECC main memory.
Memory upgrades are available in 64 MB, 128 MB, 256 MB or 512 MB
unbuffered 100 MHz ECC SDRAM modules.
MRH-S (Memory Repeater Hub-SDRAM) provides support for two double-
sided 100 MHz SDRAM DIMM sockets.
Each DIMM socket is connected to the SMBus and is described on page 57.
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2 System Board
Memory Controller Hub (8240)
Read/Write Buffers
System Clocking
The MCH defines a data buffering scheme to support the required level of
concurrent operations and provide adequate sustained bandwidth between
the DRAM subsystem and all other system interfaces (CPU, AGP and PCI).
The MCH operates the host interface at 100 MHz or 133 MHz, PCI at 33 MHz
and AGP at 66/133 MHz. Coupling between all interfaces and internal logic is
done in a synchronous manner. The clocking scheme uses an external clock
synthesizer (which produces reference clocks for the host, AGP and PCI
interfaces).
I/O APIC
I/O APIC is used to support dual processors as well as enhanced interrupt
processing in the single processor environment. The I/O APIC controller of
the ICH is used in conjunction with a second I/O APIC controller in the
P64H.
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2 System Board
PCI 64-bit Hub
PCI 64-bit Hub
The P64H is a peripheral chip that performs PCI bridging functions
between the MCH and the PCI 64-bit 66 MHz bus. The P64H has a 16-bit
primary hub interface to the MCH and a secondary 64-bit PCI bus
interface. This controller inter-operates transparently with either 64-bit or
32-bit devices.
The following figure shows how the P64H chip is connected to the MCH via
the Hub Link 16 and to the supported devices such as those in the two PCI
64-bit 66 MHz PCI slots and AIC-7892 Ultra 160 SCSI controller via the PCI
64-bit 66 MHz bus.
Intel Pentium III
Intel Pentium III
Processor
SECC-2 cartridge
Processor
(optional second processor)
with L2 cache memory
with L2 cache memory
SECC-2 cartridge
Address (36)
Control
Host (also called FSB)
two-way Bus 100/
133 MHz, 1 GB/sec
data transfer rate)
Data (64)
I840 Memory
Controller Hub (MCH)
82840-QP
HUB
LINK 16
(533 MB/s data
transfer rate)
PCI Bus (64-bit, 66 MHz)
533 MB/s data transfer rate
P64H
PCI
Interface
Onboard AIC7892
Slot 3 - 64-bit/66 MHz
SCSI U160
Controller
Slot 4 - 64-bit/66 MHz
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2 System Board
PCI 64-bit Hub
The following table shows the available P64H features.
Feature Feature
•
PCI Interface:
•
Scalability / Flexibility:
❒ Both 64-bit and 32-bit 33 MHz or 66 MHz devices.
❒ Provides Synchronous operation to the P64H using
1:1(66 MHz) or 2:1 (33 MHz) hub interface/PCI bus gearing
ratio.
❒ Provides arbitration support for all PCI devices.
❒ Supports 2 x 66 MHz PCI slots.
❒ Processes dual address cycle (DAC) for upstream access
>4 GB.
❒ Allows input/output operations to occur with processor
transactions to isolate traffic.
❒ Handles 3.3 V operation with 5.0 V tolerant on all input pins.
❒ Parity and System Error (PERR# / PERR#).
❒ Allows peer-to-peer communication within a single PCI bus
segment.
❒ Provides PCI transaction forwarding for all I/O and memory
(Type 1-to-Type 1, Type 1-to-Type 0, Type 1 to a special
cycle).
•
Upstream Hub Link 16 Interface:
❒ Connects to the MCH via a 16-bit hub interface.
❒ Provides 64-bit and 32-bit addressing.
❒ Utilizes 66 MHz base clock.
❒ Utilizes 133 MHz double-clocked strobes.
❒ Provides address decoding for:
•
Integrated Functions:
❒ I/O APIC to provide 24 interrupts.
❒ Six copies of PCLKOUT signals to its PCI devices.
16-bit I/O addressing.
32-bit memory mapped I/O addressing.
44-bit prefetchable memory addressing (upstream only).
VGA addressing.
❒ Includes downstream LOCK# capabilities.
❒ Fast Back-to-Back cycles (upstream only).
❒ Bus parking.
❒ Implements Delayed Transaction for;
PCI configuration read/written I/O read, and memory read
commands (downstream).
Memory read, I/O read and I/O write commands (upstream).
PCI 64-bit 66 MHz Bus Interface
The P64H provides the interface to a PCI 64-bit 66 MHz bus interface
supporting both 64-bit and 32-bit 33 MHz or 66 MHz devices.
This interface implementation is compliant with PCI Rev 2.2 Specification,
and it can support up to 533 MB/sec data transfer rates.
It also supports PCI master capabilities and the Adaptec AIC 7892
A table on page 68 shows the P64H interrupts.
45
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2 System Board
PCI 64-bit Hub
Devices Supported on the PCI 64-bit 66 MHz Bus
The following devices are supported on the PCI 64-bit 66 MHz bus.
PCI 64-bit 66 MHz Slots There are two PCI 64-bit 66 MHz PCI slots (slots 4 and 5) connected to the
PCI 64-bit 66 MHz bus. These two 64-bit/66 MHz PCI slots support 3.3 V
PCI cards and Universal PCI cards (support for 3.3 V or 5 V).
A universal compatible 32-bit 33 MHz accessory card can also be installed in
PCI slots 3 or 4. However in this case the PCI 64-bit bus will only perform at
33 MHz.
PCI slots are explained in detail on page 31.
Ultra-Wide 160 SCSI
Controller
The Adaptec AIC-7892 Ultra 160 SCSI PCI controller is integrated on the
system board. Data is transferred at 160 MB/s on 16-bit wide, Low Voltage
Differential (LVD) bus.
NOTE
If an Ultra-wide, or older SCSI device is connected on the SCSI bus, all
Ultra 160 and Ultra 2 SCSI devices will automatically be switched to Ultra-
wide SCSI. In this case, the LVD bus works as a single-ended bus, and data
will only be transferred at 40 MB/s.
The controller is fitted with a 16-bit SCSI flat cable with five connectors,
plus a SCSI termination device on the system board; so a maximum of five
internal SCSI internal devices are supported. Additional devices can be
added outside the PC Workstation by connecting directly to the rear panel
SCSI connector. The external connector allows up to ten external devices to
be connected. This gives a maximum of 15 (internal + external) devices that
can be connected.
Internal U-160
SCSI Connector
The last connector on the SCSI cable is connected to the external SCSI
connector on the rear chassis. The connector before this is connected to the
onboard SCSI terminator (located behind the processor).
46
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2 System Board
PCI 64-bit Hub
In the following diagram, the T1 (SCSI terminator located near the
AIC-7892 SCSI controller) and T2 boxes are SCSI terminators. If an external
cable is connected, then the T2 termination is automatically deactivated.
Rear Panel External
68-pin SCSI
16-bit SCSI
Terminator
Connector on the
System Board
Connector
T1
Connected
External Device
Onboard
AIC-7892
SCSI controller
External Cable*
T2
Internal U-160
68-pin SCSI
Connector on the
System Board
Internal 68-pin SCSI
Connectors on the SCSI Flat
Cable
Inside Chassis Edge
of the PC
Outside Chassis
Edge of the PC
Workstation
Workstation
* The External SCSI cable must not exceed 1 metre in length
By default, the internal SCSI bus is configured to run in Ultra 160 SCSI mode
the SCSI system using the SCSISelect utility, included in the system BIOS.
Refer to page 99 for details about the SCSISelect utility. This utility is also
described in more detail in the SCSI User’s Guide.
The Adaptec AIC-7892 Ultra 160 SCSI PCI controller is BBS compliant, but
does not support Hot Swap.
47
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2 System Board
The Input/Output Controller Hub (82801AA)
The Input/Output Controller Hub (82801AA)
The ICH, is encapsulated in a 241-pin Ball Grid Array (BGA) package and
is located on the system board just underneath the Memory Expansion
Card Connector. It provides the interface between the PCI bridge (PCI
Rev. 2.2 compliant with support for 32-bit 33 MHz PCI operations),
PCI-to-LPC (Low Pin Count) bridge, IDE controller, USB controller,
SMBus controller and AC’97 controller.
The ICH functions and capabilities are discussed in detail later on in this
section. The following figure shows an example of the system block
diagram using the ICH.
Intel Pentium III
Processor
Address (36)
with L2 cache memory
Host (also called FSB) two-
way Bus 100/133 MHz,
Control
Data (64)
I840 Memory
Controller Hub
(MCH)
82840-QP
HUB LINK 8
(233 MB/s data
transfer rate)
PCI Bus (32-bit, 33 MHz)
133 MB/s data transfer rate
IDE
Controller
ATA 66, 2 Channels
USB
2 IDE
Connectors
PCI Bridge
AC ‘97
Digital
Link
2 x USB
Controller
Slot 1 - 32-bit/33 MHz
2 USB
Connectors
Audio PCI
Chip
(CS4280)
SM Bus
Controller
DMA
Controller
Slot 2- 32-bit/33 MHz
Slot 5 - 32-bit/33 MHz
Keyboard,
Mouse and
Floppy
Super I/O
LPC / FWH Link
NS 87364
Fans
MaxiLife
Monitoring
Chip
Parallel and
Serial Ports
FirmWare
Hardware
(FWH) 82802
MIDI
Port
Codec
Audio AC‘97
LCD
Status
Panel
Serial
EEPROM
48
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2 System Board
The Input/Output Controller Hub (82801AA)
The following table shows the available ICH features.
Feature
Feature
Enhanced DMA Controller:
•
•
•
Multi-function PCI Bus Interface:
•
•
•
❒ PCI at 32-bit 33 MHz.
❒ PCI Rev 2.2 Specification.
❒ 133 Mbyte/sec data transfer rate.
❒ Master PCI Device Support for up to six devices.
❒ Two 82C37 DMA controllers.
❒ PCI DMA with 2 PC/PCI Channels in pairs.
❒ LPC DMA.
❒ DMA Collection Buffer to provide Type-F DMA performance
for all DMA channels.
USB, supporting:
Interrupt Controller:
❒ USB revision 1.1 compliant.
❒ UHCI Implementation with Two USB Ports for serial
transfers at12 or 1.5 Mbit/sec.
❒ Wake-up from sleeping states (refer to table on page 19).
❒ Legacy keyboard/mouse software.
❒ Two cascaded 82C59 controllers.
❒ Integrated I/O APIC capability.
❒ 15 Interrupt support in 8259 Mode, 24 supported in I/O APIC
mode.
❒ Serial Interrupt Protocol.
Power Management Logic:
Integrated IDE Controller:
❒ ACPI 1.0 compliant.
❒ Independent Timing of up to four drives.
❒ Support for APM-based legacy power management for non-
ACPI implementations.
❒ Ultra ATA/66 Mode (66 Mbytes/sec).
❒ Ultra ATA/33 Mode (33 Mbytes/sec).
❒ ACPI defined power states (S1, S3, S4, S5).
❒ ACPI power management timer.
❒ SMI generation.
❒ All registers readable/restorable for proper resume from 0 V
suspend states.
❒ PIO Mode 4 transfers up to 14 Mbytes/sec.
❒ Separate IDE connections for Primary and Secondary cables.
❒ Integrated 16 x 32-bit buffer for IDE PCI Burst transfers.
❒ Write Ping-Pong Buffer for faster write performances.
❒ PCI PME#.
•
Real-Time Clock, supporting:
•
System TCO Reduction Circuits:
❒ 256-byte battery-backed CMOS RAM.
❒ Hardware implementation to indicate Century Rollover.
❒ Timers to Generate SMI# and Reset Upon.
❒ Timers to Detect Improper Processor Reset.
❒ Integrated Processor Frequency Strap Logic.
•
•
Timers Based on 82C54:
•
•
SMBus
❒ System Timer, Refresh Request, Speaker Tone Output.
❒ Host Interface allows processor to communicate via SMBus.
❒ Compatible with 2-wire I2C bus.
System Timer, Refresh Request, Speaker Tone Output.
GPIO:
❒ TTL, Open-Drain, Inversion.
•
•
Firmware Hub (FWH) interface.
241 BGA Package.
•
•
3.3 V operation with 5 V Tolerant Buffers for IDE and PCI signals.
Alert-On-LAN (AOL) support.
49
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2 System Board
The Input/Output Controller Hub (82801AA)
ICH Architecture
The ICH interface architecture ensures that the I/O subsystems, both PCI
and the integrated input/output features (for example: IDE, AC’97 and USB)
receive the adequate bandwidths.
To achieve this, by placing the I/O bridge directly on the ICH interface, and
no longer on the PCI bus, the ICH architecture ensures that both the input/
output functions integrated into the ICH and the PCI peripherals obtain the
bandwidth necessary for peak performance.
ICH PCI Bus Interface
The ICH PCI provides the interface to a PCI bus interface operating at
33 MHz. This interface implementation is compliant with PCI Rev 2.2
Specification, supporting up to six external PCI masters in addition to the
ICH requests and AC’97 controller. The PCI bus can reach a data transfer
rate of 133 MBytes/sec. The maximum PCI burst transfer can be between
256 bytes and 4 KB. It also supports advanced snooping for PCI master
Refer to the table page 68 for ICH interrupts.
SMBus Controller
The System Management (SM) bus is a two-wire serial bus which runs at a
maximum of (100 kHz). The SMBus Host interface allows the processor to
communicate with SMBus slaves and an SMBus Slave interface that allows
external masters to activate power management events. The bus connects
to sensor devices that monitor some of the hardware functions of the system
Refer to page 55 for a description of the devices on the SMBus, or to page 58
for information on the MaxiLife ASIC.
Low Pin Count Interface The ICH implements the LPC interface 1.0 specification.
Enhanced USB Controller The USB (Universal Serial Bus) controller provides enhanced support for
the Universal Host Controller Interface (UHCI). This includes support that
allows legacy software to use a USB-based keyboard and mouse. The USB
supports two stacked connectors on the back panel. These ports are built
into the ICH, as standard USB ports.
The ICH is USB revision 1.1 compliant.
USB works only if the USB interface has been enabled within the HP Setup
program. Currently, only the Microsoft Windows 95 and Windows 98
operating systems provide support for the USB.
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2 System Board
The Input/Output Controller Hub (82801AA)
AC’97 Controller
This controller, even though available in the ICH, is not used. The HP Kayak
PC Workstation uses the dedicated dual chip PCI solution of the CS4280
Refer to page 54 for information about the CS4280 and CS4297 audio
solution.
IDE Controller
The IDE controller is implemented as part of the ICH chip and has PCI-
Master capability. Two independent ATA/66 IDE channels are provided with
two connectors per channel. Two IDE devices (one master and one slave)
can be connected per channel. In order to guarantee data transfer integrity,
Ultra-ATA cables must be used for Ultra-ATA modes (Ultra-ATA/33 and
Ultra-ATA/66).
The PIO IDE transfers of up to 14 Mbytes/sec and Bus Master IDE transfer
rates of up to 66 Mbytes/sec are supported. The IDE controller integrates
16 x 32-bit buffers for optimal transfers.
It is possible to mix a fast and a slow device, such as a hard disk drive and a
CD-ROM, on the same channel without affecting the performance of the fast
device. The BIOS automatically determines the fastest configuration that
each device supports.
DMA Controller
The seven-channel DMA controller incorporates the functionality of two
82C37 DMA controllers. Channels 0 to 3 are for 8-bit count-by-byte
transfers, while channels 5 to 7 are for 16-bit count-by-word transfers (refer
to table on page 104 for allocated DMA channel allocations). Any two of the
seven DMA channels can be programmed to support fast Type-F transfers.
The ICH DMA controller supports the LPC (Low Pin Count) DMA. Single,
Demand, Verify and Incremental modes are supported on the LPC interface.
Channels 0-3 are 8-bit, while channels 5-7 are 16-bit. Channel 4 is reserved
as a generic bus master request.
Interrupt Controller
The Interrupt controller is equivalent in function to the two 82C59 interrupt
controllers. The two interrupt controllers are cascaded so that 14 external
and two internal interrupts are possible. In addition, the ICH supports a
serial interrupt scheme and also implements the I/O APIC controller. A table
on page 68 shows how the master and slave controllers are connected.
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2 System Board
The Input/Output Controller Hub (82801AA)
Timer/Counter Block
The timer/counter block contains three counters that are equivalent in
function to those found in one 82C54 programmable interval counter/timer.
These three counters are combined to provide the system timer function,
and speaker tone. The 14.318 MHz oscillator input provides the clock source
for these three counters.
Advanced Programmable Incorporated in the ICH, the APIC can be used in either single-processor or
multi-processor systems, while the standard interrupt controller supports
only single-processor systems.
Interrupt Controller
Real Time Clock
The RTC is 146818A-compatible, with 256 bytes of CMOS. The RTC
performs two key functions: keeping track of the time of day and storing
system data.
The RTC operates on a 32.768 kHz crystal and a separate 3V lithium battery
that provides up to 7 years of protection for an unplugged system. It also
supports two lockable memory ranges. By setting bits in the configuration
space, two 8-byte ranges can be locked to read and write accesses. This
prevents unauthorized reading of passwords or other security information.
Another feature is a date alarm allowing for a schedule wake-up event up to
30 days in advance.
Enhanced Power
Management
The ICH’s power management functions include enhanced clock control,
local and global monitoring support for 14 individual devices, and various
low-power (suspend) states. A hardware-based thermal management circuit
permits software-independent entry points for low-power states.
The ICH includes full support for the Advanced Configuration and Power
Interface (ACPI) specifications.
52
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2 System Board
The Input/Output Controller Hub (82801AA)
Devices on the PCI 32-bit 33 MHz Bus
The following devices are connected to the PCI 32-bit 33 MHz bus.
Intel Pentium III
Processor
Host (also called FSB)
Bus 100/133 MHz
I840 Memory
Controller Hub
(MCH)
HUB LINK 8 (233
MB/s data transfer
rate)
PCI Bus (32-bit, 33 MHz)
133 MB/s data transfer rate
IDE
Controller
PCI Bridge
AC ‘97
Digital
Link
2 x USB
Controller
Slot 1 - 32-bit/33 MHz
Audio PCI
Chip
(CS4280)
SM Bus
Controller
Slot 2- 32-bit/33 MHz
Slot 5 - 32-bit/33 MHz
DMA
Controller
MIDI
Port
Codec
Audio AC‘97
Universal PCI cards (support for 3.3 V or 5 V). The LAN card should be
installed in PCI Slot 5. PCI slots are explained in detail on page 31.
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2 System Board
The Input/Output Controller Hub (82801AA)
Dual Chip PCI Audio Solution
The integrated PCI audio solution in the PC Workstation is a dual-chip
solution made up of the CrystalClear™ CS4280 PCI audio controller and the
CrystalClear CS4297 Audio Codec ‘97 (AC’97).
The CS4280 PCI audio controller interfaces with the PCI bus and performs
all digital operations such as sample rate conversions and synthesis. The
CS4297 AC’97 chip mixes and processes all the analog signals.
The interface between audio PCI chip and the audio codec is known as the
AC’97 Digital Link.
CS4280 PCI Audio
Interface Features
•
•
•
•
•
•
PCI Version 2.1 Bus Master.
Windows ® 95, Windows 98, Windows NT 4.0, Windows NT 2000 Drivers.
Compliant with PC’99.
MPU-401 interface, FM synthesizer, and Game Port.
Full duplex operation.
Advanced Power Management (PPMI).
CS4297 Audio Codec‘97
Features
•
•
•
•
•
•
AC’97 1.03 compatibility.
Sophisticated mixed signal technology.
18-bit stereo full-duplex Codec with fixed 48kHz sampling rate.
High quality differential CD input.
Mono microphone input.
Two analog line-level stereo inputs for LINE IN and CD (or VIDEO)
connection.
•
•
•
Single stereo line level output.
Extensive power management support.
Meets Microsoft’s PC’99 audio performance requirements.
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2 System Board
The Input/Output Controller Hub (82801AA)
Audio Chip
Specifications
Feature
Digitized Sounds
Description
•
•
•
16-bit and 8-bit stereo sampling from 4 kHz to 48 kHz.
Hardware Full Duplex Conversion.
16-bit software-based real-time audio compression/
decompression system.
Music Synthesizer
Mixer
•
Integrated OPL3 compatible music synthesizer.
•
•
MPC-3 audio mixer.
Input mixing sources: microphone, LINE In,
CD Audio, AUX Audio, and digitized sounds.
Output mixing of all audio sources to the LINE Out or
integrated PC Workstation speaker.
•
•
Multiple source recording and Left/Right channels balance.
Line Input
•
•
Input impedance: 17k Ω (ohms).
Input range: 0 to 2.83 Vpp
Line Output
•
Stereo output of 100 mW per channel with headphone
speakers (impedance 32 Ω).
•
•
Output impedance: 570 Ω.
Output range: 0 to 2.83 Vpp.
Microphone Input
•
20 dB gain preamplifier. The boost can be muted with
software.
•
•
•
32-level programmable volume control.
Input impedance: 600 Ω.
Sensitivity: 30 mVpp to 283 mVpp.
Stereo Out Jack
•
Impedance: 32 Ω.
Devices on the SMBus
2
The SMBus is a subset of the I C bus. It is a two-wired serial bus which runs
at a maximum speed of 100 kHz. It is used to monitor some of the hardware
functions of the system board (such as voltage levels, temperature, fan
speed, memory presence and type), both at system boot and during normal
run-time. It is controlled by the SMBus controller located in the ICH.
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2 System Board
The Input/Output Controller Hub (82801AA)
The following devices are connected to the SMBus:
•
•
LCD status panel.
One Serial EEPROM MaxiLife (also includes backup values of CMOS
settings).
•
PCI slot 5, thus being ready for Alert-On LAN (AOL) from a hardware
level.
•
•
•
•
•
ICH SMBus Master Controller 100 kHz maximum.
MaxiLife for hardware management, bus master controller.
One LM75 thermal sensor on the system board.
One ADM1024 hardware monitoring sensor.
RIMM or DIMM serial EEPROM.
Intel Pentium III
Processor
Host (also called FSB)
Bus 100/133 MHz,
I840 Memory
Controller Hub
(MCH)
HUB LINK 8
(233 MB/s data
transfer rate)
I/O Controller Hub
(ICH) 82801AA
IDE
PCI Bridge
Controller
2 x USB
Controller
SM Bus
Controller
DMA
Controller
Fans
MaxiLife
Monitoring
Chip
LCD
Status
Panel
Serial
EEPROM
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2 System Board
The Input/Output Controller Hub (82801AA)
ICH SMBus Master
Controller
The ICH provides a processor-to-SMBus controller. All access performed to
the SMBus is done through the ICH SMBus interface. Typically, the
processor has access to all the devices connected to the SMBus.
DIMM Sockets
Each DIMM socket is connected to the SMBus. The 168-pin DIMM modules
include a 256 byte I C Serial EEPROM. The first 128 bytes contain general
2
information, including the DRAM chips’ manufacturer name, DIMM speed
rating, DIMM type, etc. The second 128 bytes of the Serial EEPROM can be
used to store data online.
RIMM Sockets
Each RIMM socket is connected to the SMBus. The 168-pin RIMM modules
include a 256 byte I C Serial EEPROM. The first 128 bytes contain general
2
information, including the DRAM chips’ manufacturer name, RIMM speed
rating, RIMM type, etc. The second 128 bytes of the Serial EEPROM can be
used to store data online.
ADM1024
The ADM1024 chip is a hardware monitoring sensor dedicated to the
processor temperature. This chip uses the thermal diodes integrated into
each processor cartridge and makes the temperature information available
through the SMBus. It also monitors processor power supply voltages.
Serial EEPROM
This is the non-volatile memory which holds the default values for the CMOS
memory (in the event of battery failure).When installing a new system
board, the Serial EEPROM will have a blank serial number field. This will be
detected automatically by the BIOS, which will then prompt the user for the
serial number which is printed on the identification label on the back of the
PC Workstation. The computer uses 16KBytes of Serial EEPROM
implemented within two chips. Serial EEPROM is ROM in which one byte at
a time can be returned to its unprogrammed state by the application of
appropriate electrical signals. In effect, it can be made to behave like very
slow, non-volatile RAM. It is used for storing the tatoo string, the serial
number, and the parameter settings for the Setup program as well as
MaxiLife firmware.
LM75 Temperature
Sensor
The LM75 temperature sensor and alarm are located on the system board.
The sensor is used to measure the temperature in various areas of the
system board. This information is used to regulate fans.
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2 System Board
The Input/Output Controller Hub (82801AA)
HP MaxiLife Hardware MaxiLife is a hardware monitoring chip which is resident on the system
board. Its responsibility includes On/Off and reset control, status panel
management (Lock button, LEDs), hardware monitoring (temperature and
voltage), early diagnostics (CPU, memory, PLLs, boot start), run-time
diagnostics (CPU errors), fan speed regulation, and other miscellaneous
functions (such as special OK/FAIL symbols based on a smiling face).
Monitoring Chip
The integrated microprocessor includes a Synopsys cell based on Dallas
2
“8052” equivalent, a 2 KB boot ROM, 256 bytes of data RAM, an I C cell, an
Analog-to-Digital (ADC) with 5 entries, and an additional glue logic for
interrupt control, fan regulation, and a status panel control.
2
MaxiLife downloads its code in 96 milliseconds from an I C serial EEPROM.
The total firmware (MaxiLife 8051-code, running in RAM) size is 14 KB. As
it exceeds the 2 KB program RAM space, a paging mechanism will swap
code as it is required, based on a 512 byte buffer. The first 2 KB pages of
firmware code is critical because it controls the initial power on/reset to
boot the system. This initial page is checked with a null-checksum test and
the presence of MaxiLife markers (located just below the 2 KB limit).
MaxiLife is not accessible in I/O space or memory space of the system
2
platform, but only through the SMBUS (which is a sub-set of the I C bus),
2
via the ICH. Its I C cell may operate either in Slave or Master mode,
switched by firmware, or automatically in the event of ‘Arbitration’ loss.
As a monitoring chip, MaxiLife reports critical errors at start-up, and is
therefore powered by Vstandby (3.3V) power. For MaxiLife to work, the PC
Workstation must be connected to a grounded outlet. This enables the PC
Workstation’s hardware monitoring chip to be active, even if the system has
been powered off.
Test Sequence and
Error Messages
Refer to “MaxiLife Test Sequence and Error Messages” on page 107 for
detailed information about the different test sequences and error messages
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2 System Board
The Input/Output Controller Hub (82801AA)
MaxiLife Architecture
The MaxiLife chip continuously monitors temperature and voltage sensors
located in critical regions on the system board. This chip receives data about
the various system components via a dedicated I C bus, which is a reliable
2
communications bus to control the integrated circuit boards.
LCD Status Panel
Serial EEPROM
System Fans
Speed up/slow down
2
I C bus
HP MaxiLife
Memory
Memory
Memory
Memory
PCI Slot 5 for
Alert On Lan
support
Temperature
Sensors
Voltage
Sensors
ADM024
NOTE
MaxiLife is powered by VSTBY. This means that it is functional as soon as the
power cord is plugged in.
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2 System Board
The Input/Output Controller Hub (82801AA)
Devices on the Low Pin Count Bus
The following devices are connected to the LPC bus.
Intel Pentium III
Processor
with L2 cache memory
Host (also called FSB)
Bus 100/133 MHz,
I840 Memory
Controller Hub
(MCH)
HUB LINK 8 (233
MB/s data trans-
fer rate)
I/O Controller Hub
(ICH) 82801AA
IDE
PCI Bridge
Controller
2 x USB
Controller
SM Bus
Controller
DMA
Controller
Keyboard,
Mouse and
Floppy
Super I/O
NS 87364
LPC / FWH Link
Parallel and
Serial Ports
FirmWare
Hardware
(FWH) 82802
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2 System Board
The Input/Output Controller Hub (82801AA)
The Super I/O Controller (NS 87364)
The Super I/O chip (NS 87364) provides the control for two FDD devices,
two serial ports, one bidirectional multi-mode parallel port and a keyboard
and mouse controller.
Device
Index
Data
Super I/O
2Eh
2Fh
Serial / Parallel
Communications Ports
The 9-pin serial ports (whose pin layouts are depicted on page 138) support
RS-232-C and are buffered by 16550A UARTs, with 16-Byte FIFOs. They can
The 25-pin parallel port (also depicted on page 139) is Centronics
compatible, supporting IEEE 1284. It can be programmed as LPT1, LPT2, or
disabled. It can operate in the four following modes:
❒ Standard mode (PC/XT, PC/AT, and PS/2 compatible).
❒ Bidirectional mode (PC/XT, PC/AT, and PS/2 compatible).
❒ Enhanced mode (enhanced parallel port, EPP, compatible).
❒ High speed mode (MS/HP extended capabilities port, ECP, compatible).
FDC
The integrated floppy disk controller (FDC) supports any combination of
two of the following: tape drives, 3.5-inch flexible disk drives, 5.25-inch
flexible disk drives. It is software and register-compatible with the 82077AA,
and 100% IBM-compatible. It has an A and B drive-swapping capability and
a non-burst DMA option.
Keyboard and Mouse
Controller
The computer has an 8042-based keyboard and mouse controller. The
connector pin layouts are shown on page 137.
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2 System Board
FirmWare Hub (82802AB)
FirmWare Hub (82802AB)
The FWH (also known as flash memory) is connected to the LPC bus. It
contains 4 Mbit (512 kB) of flash memory.
The hardware features of the FWH include: a Random Number Generator
(RNG), five General Purpose Inputs (GPI), register-based block locking and
hardware-based locking. An integrated combination of logic features and
non-volatile memory enables better protection for the storage and update of
system code and data, adds flexibility through additional GPIs, and allows
for quicker introduction of security/manageability features.
The following table shows the available FWH features.
Feature
Feature
Two Configurable Interfaces:
•
•
Platform Compatibility:
•
•
❒ Enables security-enhanced platform infrastructure.
❒ Part of the Intel I840 chipset.
❒ FirmWare Hub interface for system operation.
❒ Address/Address Multiplexed (A/A Mux) interface.
FirmWare Hub Interface Mode:
4 Mbits of Flash Memory for system code/data non-volatile
storage:
❒ Five signal communication interface supporting x8 reads and
writes.
❒ Register-based read and write protection for each code/data
storage blocks.
❒ Symmetrically blocked, 64 Kbyte memory sections.
❒ Automated byte program and block erase through an
integrated WSM (Write State Machine).
❒ Five additional GPIs for system design and flexibility.
❒ A hardware RNG (Random Number Generator).
❒ Integrated CUI (Command User Interface) for requesting
access to locking, programming and erasing options. It also
handles requests for data residing in status, ID and block lock
registers.
❒ Operates with 33 MHz PCI clock and 3.3 V input/output.
•
•
A/A Mux Interface/Mode, supporting:
•
•
Power Supply Specifications:
❒ 11-pin multiplexed address and 8-pin data I/O interface.
❒ Fast on-board or out-of-system programming.
❒ Vcc: 3.3 V +/- 0.3 V.
❒ Vpp: 3.3 V and 12 V for fast programming, 80 ns.
Industry Standard Packages:
Case Temperature Operating Range.
❒ 40L TSOP or 32L PLCC.
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2 System Board
FirmWare Hub (82802AB)
The FWH includes two hardware interfaces:
•
•
FirmWare Hub interface.
Address/Address Multiplexed (A/A Mux) interface.
The IC (Interface Configuration) pin on the FWH provides the control
between these interfaces. The interface mode needs to be selected prior to
power-up or before return from reset (RST# or INIT# low to high
transition).
The FWH interface works with the ICH during system operation, while the
A/A Mux interface is designed as a programming interface for component
pre-programming.
An internal CUI (Command User Interface) serves as the control center
between the FWH and A/A Mux interfaces, and internal operation of the
non-volatile memory. A valid command sequence written to the CUI initiates
device automation. An internal WSM (Write State Machine) automatically
executes the algorithms and timings necessary for block erase and program
operations.
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2 System Board
Host Bus
Host Bus
The Host bus of the Pentium III processors, also referred to as the FSB
(Front Side Bus), is implemented in the GTL (Gunning Transceiver Logic)+
technology. This technology features open-drain signal drivers that are
pulled-up to 1.5 V through resistors at bus extremities; these resistors also
act as bus terminators, and are integrated in the processor.
If only one processor is installed, a terminating board must be installed in
the second processor slot.
Intel Pentium III
Intel Pentium III
Processor
SECC-2 cartridge
Processor
(optional second processor)
with L2 cache memory
with L2 cache memory
SECC-2 cartridge
Address (36)
Control
Host (also called FSB)
Bus 100/133 MHz,
1 GB/sec data trans-
fer rate)
Data (64)
I840
Memory
Controller Hub
(MCH)
Memory
Expansion Card
Connector
Dual Rambus Bus
AGP 4x Bus
HUB
LINK 16
82840-QP
HUB LINK 8
I/O Controller
Hub
(ICH) 82801AA
The supported operating frequencies of the GTL+ bus are 100 MHz or
133 MHz. The width of the data bus is 64 bits, while the width of the address
is 36 bits. Along with the operating frequencies, the processor voltage is set
automatically.
The control signals of the Host bus allow the implementation of a “split -
transaction” bus protocol. This allows the Pentium III processor to send its
request (for example, for the contents of a given memory address) and then
to release the bus, rather than waiting for the result, thereby allowing it to
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2 System Board
Host Bus
accept another request. The MCH, as target device, then requests the bus
again when it is ready to respond, and sends the requested data packet. Up
to eight transactions are allowed to be outstanding at any given time.
Intel Pentium III Processor
The Pentium III processor has several features that enhance performance:
•
Dual Independent Bus architecture, (supporting level cache sizes of
i256 KB) plus a 64-bit system bus that enables multiple simultaneous
transactions (refer to “split -transaction” above).
•
MMX2 technology, which gives higher performance for media,
communications and 3D applications.
•
•
Dynamic execution to speed up software performance.
Internet Streaming SIMD Extensions for enhanced floating point and 3D
application performance.
•
Processor Serial Number is an electronic number incorporated in the
processor. If enabled, the Processor Serial Number can serve as a means
of identifying the system. By default, this option is set to Disabled in the
Setup program.
•
Uses multiple low-power states, such as AutoHALT, Stop-Grant, Sleep and
Deep Sleep to conserve power during idle times.
The Pentium III processor is packaged in a self-contained Single Edge
Contact Cartridge (SECC-2) installed in a Slot 1 processor slot. The SECC-2
cartridge requires a 242-contact Slot 1 connector on the system board. It
includes a processor core chip and GTL+ termination resistors.
There are two Slot 1 processor slots, along with one VRM (Voltage
Regulation Module) socket. A single Pentium III processor for Slot 1 is
powered through an onboard voltage regulator.
Optional Second Processor
Single processor models can be upgraded to a dual processor system by
installing a second processor in the vacant slot. The second processor must
be a Pentium III processor for Slot 1 of the same speed as the first. The VRM
supplied with the processor accessory kit is installed in the vacant VRM slot.
The second processor is powered through the VRM.
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Host Bus
NOTE
When upgrading a processor or installing a second processor, the processor
type and speed is automatically recognized by the BIOS. This means that no
particular switch settings are required.
Upgrading a single processor to a dual processor system on Windows NT
and Windows 2000 platforms is made easier with the HP DualExpress!
application which is included in the HP processor application kit.
Installing a second processor is only advantageous when the software can
make use of parallel activity. In particular, you need to be running a multi-
threaded operating system that supports multiprocessing (one that is SMP-
ready), such as Windows NT. The Windows NT operating system makes the
best use of the Pentium III 32-bit architecture (though other operating
systems will also show some benefit if 32-bit application programs are run).
The two processors must have the same speed.
Configuring for
Multi-Processing
HP Kayak XU800 PC Workstations support Symmetric Multi-Processing
(SMP). When a second processor is added, it is automatically detected so
there is no specific configuration required.
operating systems that rely on the “legacy” interrupt controller 82C59 and
are not aware of I/O APIC controller operation. Refer to page 68 for further
details.
Processor Clock
Bus Frequencies
The 100/133 MHz Host Bus clock is provided by a PLL. The processor core
clock is derived from the Host Bus by applying a “fix ratio”.
There is a 14.318 MHz crystal oscillator on the system board. This frequency
is multiplied to 133 MHz by a phase-locked loop. This is further scaled by an
internal clock multiplier within the processor.
The bus frequency and the processor voltage are set automatically.
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2 System Board
Host Bus
Cache Memory
The cache memory is sealed within a single Pentium III package that
contains the processor L1 and L2 cache.
The L1 cache memory has a total capacity of 32KB (16 KB data, 16 KB
instructions). The L2 cache memory has a capacity of i256 KB, and is
composed of four-way set-associative static RAM. Data is stored in lines of
32 bytes (256 bits). Thus two consecutive 128-bit transfers with the main
memory are involved in each transaction.
TagRam and Burst-pipelined Synchronous Static RAM (BSRAM) memories
and are implemented on die. Transfer rates between the processor’s core
and L2 cache are at full processor core clock frequency and scale with the
processor core frequency. Both the TagRam and BSRAM receive clocked
data directly from the processor’s core.
The amount of cache memory is set by Intel at the time of manufacture, and
cannot be changed.
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2 System Board
Assigned Device Interrupts
Assigned Device Interrupts
Input/Output Controller Hub Interrupts
Chip-set Interrupt Connection
Reference REQ/
IDSEL
AD[xx]
Device
ID
Name
GNT
INTA
INTB
INTC
INTD
AC’97 Audio Controller
USB Controller
CS4280
—
4 (ICH)
—
5
—
0
21
—
—
A
A
C
A
—
B
—
—
—
A
—
—
—
B
AGP slot
J34
—
16
22
24
27
PCI 32-bit slot #1
PCI 32-bit slot #2
PCI 32-bit slot #5 (LAN card)
J37
1 (ICH)
0 (ICH)
5 (ICH)
6
D
B
J38
8
A
B
C
D
J42
11
C
D
A
PCI 64-bit Hub Interrupts
Interrupt Requests (IRQ)
Reference REQ/
ID
IDSEL
AD[xx]
Device
Name
GNT
0
1
2
3
4
5
6
7
8
Ultra-wide SCSI U160 Controller
PCI 64-bit slot #3
AIC-7892 2 (P64H)
9
4
7
25
20
23
—
—
A
—
—
B
—
—
C
—
—
D
—
A
—
B
—
C
—
D
A
J39
J40
1 (P64H)
0 (P64H)
—
—
PCI 64-bit slot #4
—
—
—
—
Interrupt Controllers
The system has an Interrupt controller which is equivalent in function to
that of two 82C59 interrupt controllers. The following table shows how the
interrupts are connected to the APIC controller. The Interrupt Requests
(IRQ) are numbered sequentially, starting with the master controller, and
followed by the slave (both of 82C59 type).
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Assigned Device Interrupts
Although the Setup program can be used to change some of the settings, the
following address map is not completely BIOS dependent, but is determined
partly by the operating system. Note that some of the interrupts are
allocated dynamically.
APIC Controller
Interrupt Signalling on
Interrupt Source
of
(APIC
(PIC mode)1
Input
device
modes)
INTA - PCI slot 3 (64/66)
INTB - PCI slot 3 (64/66)
INTC - PCI slot 3 (64/66)
INTD - PCI slot 3 (64/66)
INTA - PCI slot 4 (64/66)
INTB - PCI slot 4 (64/66)
INTC - PCI slot 4 (64/66)
INTD - PCI slot 4 (64/66)
INTA - onboard SCSI controller
P64H
P64H
P64H
P64H
P64H
P64H
P64H
P64H
P64H
ICH
IRQ0
IRQ1
IRQ2
IRQ3
IRQ4
IRQ5
IRQ6
IRQ7
IRQ8
INTA
BT_INT
BT_INT
BT_INT
BT_INT
BT_INT
BT_INT
BT_INT
BT_INT
BT_INT
INT
APIC bus
APIC bus
APIC bus
APIC bus
APIC bus
APIC bus
APIC bus
APIC bus
APIC bus
APIC bus
AGP - INTA, PCI Slot 1 - INTC, PCI
Slot 2 - INTA, PCI Slot 5 - INTB
PCI Audio - INTA, AGP - INTB, PCI
Slot 1 - INTD, PCI Slot 2 - INTB,
PCI Slot 5 - INTC
ICH
INTB
INT
APIC bus
BT_INT, PCI Slot 1 - INTA, PCI
Slot 2 - INTC, PCI Slot 5 - INTD
ICH
ICH
INTC
INTD
INT
INT
APIC bus
APIC bus
USB - INTA, PCI Slot 1 - INTB, PCI
Slot 2 - INTD, PCI Slot 5 - INTA
Device on Primary IDE Channel
Device on Secondary IDE Channel
Serial Interrupt from Super I/O
ICH
ICH
ICH
IRQ14
IRQ15
INT
INT
INT
APIC bus
APIC bus
APIC bus
SERIRQ
1.
In PIC mode, the Interrupts signaled to the P64H are chained as INTC to the ICH.
There are three major interrupt modes available:
PIC mode: This mode uses only the “Legacy” interrupt controllers, so that
only one processor can be supported. Because this system has dual
processor capability, this mode is not chosen by default by Windows NT.
However, during Windows NT installation, you have the possibility of
selecting this mode.
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Assigned Device Interrupts
Virtual wire mode: This mode is implemented with APIC controllers in the
ICH and P64H and used during boot time. The virtual wire mode allows the
transition to the “symmetric I/O mode”. In the virtual wire mode, only one
processor executes instructions.
Symmetric I/O mode: This mode is implemented with APIC controllers in
the ICH and P64H, and allows for multiple processor operations.
NOTE
In “PIC mode” and “virtual wire mode”, the PCI interrupts are routed to the
INT line. In the “symmetric I/O mode”, the PCI interrupts are routed to the
I/O APIC controllers and forwarded over an APIC bus to the processors.
PCI Interrupt Request Lines
PCI devices generate interrupt requests using up to four PCI interrupt
request lines (INTA#, INTB#, INTC#, and INTD#).
However, optimal system performance is reached when minimizing the
sharing of interrupts. Refer to page 68 for a table of the PCI device
interrupts.
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3
Interface Cards
This chapter describes the graphics and network devices that are supplied
with the PC Workstation.
Graphics Cards
HP Kayak XU800 PC Workstation models are supplied with a graphics
card. This graphics card is one of the following, depending on the PC
Workstation model:
•
•
•
•
Matrox Millennium G250.
Matrox Millennium G400.
3Dlabs Oxygen GVX1.
ELSA Synergy™ II.
Matrox Millennium G250 Graphics Card
The Matrox Millennium G250 graphics card has a total of 8 MB of installed
video memory, which can be upgraded to a maximum of 16 MB.
The Matrox Millennium G250 on-board MGA G-250 processor
communicates directly with the Pentium II processor along the AGP 2X bus.
The controller can be characterized as follows:
•
•
•
•
•
Supports full AGP 2X mode
Graphics controller in 272-pin BGA (Ball Grid Array) package
Integrated 64-bit, 250 MHz RAMDAC
New, high-performance triangle setup engine to off-load system CPU
Improved 3D drawing engine supports:
• Bilinear texture filtering
• Fogging.
• Alpha blending
• Anti-aliasing
• Specular highlighting
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3 Interface Cards
Graphics Cards
•
•
•
High-performance VGA
Integrated front-end and back-end scalers
®
Fully Direct Draw, Direct 3D, Mini Client Drivers (MCD), and OpenGL
compliant
•
•
143 MHz SGRAM (LVTTL) memory configurations
(up to 16 MB maximum)
Support for memory upgrade via 144-pin SO_DIMM memory modules
(SGRAM)
•
•
Serial EEPROM video BIOS interface (32 KB)
ITU-656 and VMI-like host port provides interface to low-cost decoders/
CODECs
•
12-bit digital RGB port (MAFC) provides support for video encoders and
panel link interfaces
The diagram below shows the Matrox Millennium G250 graphics card .
Available Video Resolutions
The number of colors supported is limited by the graphics device and the
video memory. The resolution/color/refresh-rate combination is limited by a
combination of the display driver, the graphics device, and the video
memory. If the resolution/refresh-rate combination is set higher than the
display can support, you risk damaging the display.
72
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3 Interface Cards
Graphics Cards
The tables below summarize the video resolutions and refresh rates that are
supported.
24-bit
16.7 million
colors
32-bit
16.7 million
colors
Resolution
2D/3D
8-bit
256 colors
16-bit
64k colors
640x480
200 Hz
200 Hz
200 Hz
200 Hz
800x600
180 Hz
140 Hz
120 Hz
100 Hz
90 Hz
180 Hz
140 Hz
120 Hz
100 Hz
90 Hz
180 Hz
140 Hz
120 Hz
100 Hz
85 Hz
180 Hz
140 Hz
120 Hz
90 Hz
65 Hz
650 Hz
-
1024x768
1152x864
1280x1024
1600x1200
1800x1440
1920x1440
2048x1536
80 Hz
80 Hz
75 Hz
76 Hz
76 Hz
70 Hz
70 Hz
70 Hz
65 Hz
-
Maximum Refresh Rates1
8 bpp / 16 bpp
Resolution
24 bpp
32 bpp
640x480
200 Hz
180 Hz
140 Hz
120Hz
100 Hz
90 Hz
200 Hz
180 Hz
140 Hz
120Hz
100 Hz
85 Hz
80Hz
200 Hz
180 Hz
140 Hz
120Hz
90 Hz
65 Hz
60Hz
-
800x600
1024x768
1152x864
1280x1024
1600x1200
1920x1080
1920x1200
1800x1440
80Hz
76 Hz
70 Hz
65 Hz
70 Hz2
-
1.
2.
Your display may not support the maximum refresh rates shown here. Refer to the User’s Guide
supplied with your display for details of the refresh rates supported by your display.
Limitation due to 250 MHz RAMDAC.
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3 Interface Cards
Graphics Cards
Matrox Millennium G400 Graphics Card
The Matrox Millennium G400 Dual AGP 2X/4X graphics card has 16MB of
installed video memory (non-upgradeable), and can be characterized as
follows:
•
•
•
Powered by the Matrox MGA-G400 chip
Full AGP 2X/AGP 4X support (up to 1GB/s bandwidth)
Integrated 300MHz RAMDAC with Ultra Sharp technology for highly
saturated and separated colors
•
Matrox DualHead Display technology with PowerDesk desktop manager:
• Easy multiple resolutions support
• Simple dialog box
• Effortless multiple-window management
•
•
•
•
•
DDC2B support for Plug & Play detection of monitor
256-bit dual bus architecture; true 128-bit external bus to video memory
Vibrant color quality - true 32-bit ARGB
Supports 32-bit Z buffering for exceptional rendering precision
32-bit internal precision specially enhanced for multi-texturing using
32-bit text sources
•
•
16/10 monitor support
Support for true 32-bit color (16.7 million colors) at resolutions of up to
2048 x 1536
•
•
•
Bilinear, trilinear, and anisotropic filtering
Floating-point 3D setup engine
®
DirectX 6 and OpenGL compliant
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3 Interface Cards
Graphics Cards
The diagram below shows the Matrox Millennium G400 graphics card .
Port 1
Port 2
NOTE
If only one monitor is used, then Port 1 must be used.
In the case where a second monitor is installed, it is detected by the driver
during the operating system boot (not after).
If only one monitor is detected, then only the mono head settings will be
available in the Driver Configuration screens.
Available Video Resolutions
The number of colors supported is limited by the graphics device and the
video memory. The resolution/color/refresh-rate combination is limited by a
combination of the display driver, the graphics device, and the video
memory. If the resolution/refresh-rate combination is set higher than the
display can support, you risk damaging the display.
The tables below summarize the 2D and 3D video resolutions that are
supported, and the refresh rates.
Double-
buffered + 16-
bit Z
Double-
buffered + 16-
bit Z
Max. 2D display Max. 3D display
Color palette
area
area
8-bit
2048 x 1536
2048 x 1536
2048 x 1536
2048 x 1536
15- or 16-bit
124-bit
2048 x 1536
1880 x 1440
1600 x 1200
-
-
-
32-bit
1600 x 1200
1280 x 1024
1280 x 1024
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3 Interface Cards
Graphics Cards
Maximum Refresh Rates
Main Display
Second Display
(16-/32-bit)
Resolution (4:3 aspect ratio)
(8-/16-/24-/32-bit)
640x480
200 Hz
200Hz
160 Hz
140 Hz
120 Hz
100 Hz
90 Hz
80Hz
200 Hz
800x600
180 Hz
115 Hz
95 Hz
75 Hz
43 Hz
43 Hz
-
1024x768
1152x864
1280x1024
1600x1200
1600x1280
1800x1440
1920x1440
2048x1536
75 Hz
70Hz
-
-
Main Display
(8-/16-/24-/32-bit)
Second Display
(16-/32-bit)
Resolution (16:9 aspect ratio)
1600x1024
1920x1035
1920x1080
1920x1200
120 Hz
100 Hz
100 Hz
90 Hz
43
-
-
-
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3 Interface Cards
Graphics Cards
3Dlabs Oxygen GVX1
There is a total of 32 MB of video Synchronous Graphics RAM (SGRAM)
memory installed on the graphics card .
Features
•
OpenGL-based geometry and lighting acceleration entirely in the
hardware, freeing the processor for other applications
•
•
OpenGL specific extensions that double the performance under AutoCad
Innovative virtual textures technology, using on-board graphics memory
to cache large textures
•
•
•
Multi-screen support (with additional PCI cards)
Supports 16: 10 wide-format monitors
PowerThreads™ SSE OpenGL drivers fully tested with all leading
professional graphics applications
Specifications
•
Full AGP 1X support
•
Professional 3D rendering features that include:
• Perspectively correct bilinear and trilinear filtering
• Perspectively correct per-pixel MIP mapping
• Single pass dual bilinear mip-mapped textures
• Flat and Gouraud shading
• Source and destination Alpha blending for transparency
• High-quality anti-aliasing
• Fog and depth-cueing
• Overlay and stencil buffers
• 32-bit Z-buffering
• GID clipping
•
GLINT R3 Rasterization processor for:
• Virtual texture memory management unit
• Up to 256 MB virtual texture address space
• Integrated 300MHz RAMDAC
• High-speed 128-bit memory interface
• 2D/3D raster engine
• Integrated SVGA controller
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3 Interface Cards
Graphics Cards
The diagram below shows the 3Dlabs Oxygen GVX1 graphics card .
Video Memory
The video memory, also known as SGRAM, is a local block of RAM for
holding major data structures: Frame Buffer (double buffer), Z-Buffer and
T-Buffer (Texture Buffer). The Frame Buffer holds one frame steady on the
screen while the next one is being processed, while the Z-buffer stores
depth information for each pixel.
Available Video Resolutions
The number of colors supported is limited by the graphics device and the
video memory. The resolution/color/refresh-rate combination is limited by a
combination of the display driver, the graphics device, and the video
memory. If the resolution/refresh-rate combination is set higher than the
display can support, you risk damaging the display. The table below
summarizes the 3D video resolutions and refresh rates that are supported.
Display resolution
Color depth
8-bit, 16-bit, True color
Refresh rates
100, 85, 75, 60 Hz
640 x 480
800 x 600
8-bit, 16-bit, True color
8-bit, 16-bit, True color
8-bit, 16-bit, True color
8-bit, 16-bit, True color
8-bit, 16-bit, True color
8-bit, 16-bit, True color
8-bit, 16-bit, True color
8-bit, 16-bit, True color
8-bit, 16-bit, True color
100, 85, 75, 60 Hz
100, 85, 75, 60 Hz
100, 85, 75, 60 Hz
100, 85, 75, 60 Hz
100, 85, 75, 60 Hz
100, 85, 75, 60 Hz
100, 85, 75, 60 Hz
76 Hz
1024 x 768
1152 x 864
1280 x 960
1280 x 1024
1600 x 1200
1920 x 1080
1920 x 1200
2048 x 1536
60 Hz
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3 Interface Cards
Graphics Cards
ELSA Synergy II Graphics Card
The ELSA Synergy™ II graphics card has 32 MB of Synchronous Graphics
RAM (SGRAM) installed video memory.
Features
•
•
•
•
•
•
•
•
Fastest 128-bit 2D performance
3D hardware texture acceleration
Resolution support up to 1920 x 1200 at 96 Hz
Multi-screen support (up to 4 with additional PCI cards)
Supports 16: 10 wide-format monitors
Software tools: ELSA POWERdraft, ELSA MAXtreme, ELSA Views3D
®
OpenGL extensions for AutoCAD 2000 that doubles performance
PowerThreads™ SSE OpenGL drivers fully tested with all leading
professional graphics applications
Specifications
•
•
•
•
•
•
Full AGP 2X/AGP 4X support
RIVA TNT2 (NVIDIA) graphics processors
VESA 3 (flash ROM)
Integrated 300 MHz RAMDAC
®
3D standards: Hardware accelerated OpenGL , DirectX3, DirectX5/6
Standards: VESA DPMS, DDC2B, Plug & Play
The diagram below shows the ELSA Synergy II graphics card .
79
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3 Interface Cards
Graphics Cards
Video Memory
The video memory, also known as SGRAM, is a local block of RAM for
holding major data structures: Frame Buffer (double buffer), Z-Buffer and
T-Buffer (Texture Buffer). The Frame Buffer holds one frame steady on the
screen while the next one is being processed, while the Z-buffer stores
depth information for each pixel.
Available Video Resolutions
The number of colors supported is limited by the graphics device and the
video memory. The resolution/color/refresh-rate combination is limited by a
combination of the display driver, the graphics device, and the video
memory. If the resolution/refresh-rate combination is set higher than the
display can support, you risk damaging the display.
The table below summarizes the 3D video resolutions and refresh rates that
are supported.
Display resolution
Color depth
8-bit, 16-bit, True color
Refresh rates
640 x 480
200, 100, 85, 75, 60 Hz
200, 100, 85, 75, 60 Hz
200, 100, 85, 75, 60 Hz
200, 100, 85, 75, 60 Hz
100, 85, 75, 60 Hz
100, 85, 75, 60 Hz
100, 85, 75, 60 Hz
100, 85, 75, 60 Hz
up to 96 Hz
800 x 600
8-bit, 16-bit, True color
8-bit, 16-bit, True color
8-bit, 16-bit, True color
8-bit, 16-bit, True color
8-bit, 16-bit, True color
8-bit, 16-bit, True color
8-bit, 16-bit, True color
8-bit, 16-bit, True color
1024 x 768
1152 x 864
1280 x 960
1280 x 1024
1600 x 1200
1920 x 1080
1920 x 1200
NOTE
200 Hz accepted if supported by the monitor.
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3 Interface Cards
Network Cards
Network Cards
Most HP Kayak XU800 PC Workstation models are supplied with an
HP 10/100 TX LAN card.
A description and features of other supported LAN cards are also mentioned
in this section.
HP 10/100 TX PCI LAN Interface
The 10/100 TX LAN Interface is a 32-bit PCI 2.2 card that supports 10 Mbits
per second (10 BaseT) and 100 Mbits per second (100 TX) transfer speeds,
and both half and full duplex operation.
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3 Interface Cards
Network Cards
HP 10/100 TX PCI LAN Interface Features
Feature:
Description:
Connection to Ethernet 10/100 TX autonegotiation
RJ45 Connector
BootROM
Protocols:
•
•
PxE 2.0,
On-board socket support up to 128 Kb.
Full remote power on using Magic Packet for Microsoft Windows 95,
Windows 98, Windows NT4 in APM mode.
Remote Power On (RPO)
Remote Wake Up (RWU)
Enable and Wake Up from Suspend state using Magic Packet and Pattern
Matching for Microsoft Win98SE and Win2000 in ACPI mode.
This feature enables a host computer to remotely (over the network) power
on computers and wake computers up from energy-saving Sleep mode. For
these features to work, use the Setup program to configure the BIOS.
•
•
•
•
OnNow 1.0,
Power Management
Advanced Power Management 1.2,
PCI Power Management 1.1,
WfM 2.0 compliant, ACPI.
•
•
•
Desktop Management Interface (DMI) 2.0 Dynamic driver,
DMI 2.0 SNMP mapper,
PXE 2.0 Flashable BootROM (optional on socket).
Manageability
Diagnostic
•
•
Mac address DOS report tool,
User Diag for DOS.
HP 10/100 TX PCI LAN Interface LED Descriptions
LED
Description
Flashing
Steady
Off
Link integrity
Reversed polarity
Good 10 Base-T
connection between
NIC and hub.
No connection
between NIC and
hub
10 LNK
Link integrity
Reversed polarity
Good 100 TX
connection between
NIC and hub.
No connection
between NIC and
hub
100 LNK
ACT
Yellow:
Port traffic for
Network traffic
present
Heavy network
traffic
No traffic
either speed
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3 Interface Cards
Network Cards
Supported LAN Cards
The following LAN cards are supported on the HP Kayak XU800 PC
Workstation.
3COM NIC (Network Interconnect) LAN Card
3COM NIC LAN Card Features
Feature
Interface
Description
32-bit 10/100 BT full duplex RJ LAN Port.
Three LEDs:
LED
•
•
•
activity,
10 MB/s speed,
100 MB/s speed.
PCI 2.2 Specification, PC 99, Intel WfM 2.0.
Labels
Power Management1
•
•
•
•
•
•
RPO and RWU for APM Windows 95 and Windows 98,
RWU for ACPI Windows 98 and Windows 2000,
RPO for Windows NT 4,
OnNow 1.0, APM 1.2,
PCI power management. 1.1,
WOL, PCI VccAux 3.3 V.
DMI 2.0 Component Code.
Manageability
Diagnostic
•
•
Mac address DOS report tool,
User Diag for DOS, Windows NT 4, Windows 95 and Windows 98.
Major OSes, Minor OSes.
Drivers
Multiboot BootROM (BIOS or socket).
Boot ROM
This feature enables a host computer to remotely (over the network) power
on computers and wake computers up from energy-saving Sleep mode. For
these features to work, use the Setup program to configure the BIOS.
Remote Wake Up
(RWU)
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3 Interface Cards
Network Cards
3COM LAN Card LED Descriptions
LED
Description
Flashing
Steady
Off
GREEN:
Link integrity
Reversed polarity
Good 10 Base-T
connection between
NIC and hub.
No connection
between NIC and
hub
10 LNK
GREEN:
Link integrity
Reversed polarity
Good 100 TX
connection between
NIC and hub.
No connection
between NIC and
hub
100 LNK
ACT
Yellow:
Port traffic for
Network traffic
present
Heavy network
traffic
No traffic
either speed
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3 Interface Cards
Network Cards
INTEL NIC (Network Interconnect) LAN Card
INTEL NIC LAN Card Features
Feature
Description
IEEE802.3 100 Base-TX,
IEEE802.3 10 Base-T,
Interface
32-bit 10/100 BT full duplex RJ LAN Port.
Two LEDs:
LED
•
•
one for act/lnk (activity and link),
one for 10 MB operation (on = 100 MB, off = 10MB).
PCI 2.2 Specification, PC 99.
Labels
•
•
•
•
•
•
Wfm 2.0 compliant,
RPO and RWU for APM Windows 95 and Windows 98,
OnNow 1.0, APM 1.2,
PCI power management 1.1,
VccAux s3.3 V support via PCI bus 2.2,
VccAux 5 Vsupport via 3-pin WOL.
Power Management
DMI 2.0 and DMI 2.0 SNMP mapper.
Manageability
Diagnostic
•
•
•
Windows and DOS based,
Mac address DOS report tool,
User Diag for DOS, Windows NT 4, Windows 95 and Windows 98.
Major OSes, Minor OSes.
Onboard flash ROM.
Drivers
Boot ROM
This feature enables a host computer to remotely (over the network) power
on computers and wake computers up from energy-saving Sleep mode. For
these features to work, use the Setup program to configure the BIOS.
Remote Wake Up
(RWU)
INTEL NIC LAN Card LED Descriptions
LED
On
Flashing
Off
Adapter and hub are
receiving power. Cable packets
connection is good.
Receiving or sending
Adapter and hub are not
receiving power. Cable
connection could be faulty
or there is a driver
ACT/LNK
configuration problem.
Operating at 100 Mbps N/A
Operating at 10 Mbps
100 TX
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3 Interface Cards
Network Cards
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4
Mass Storage Devices
This chapter describes the mass storage devices that are supplied with the
PC Workstation. Refer to the diagram on page 13 for the position of the
different mass storage devices in the PC Workstation. This chapter also
summarizes the pin connections on internal and external connectors.
HP product numbers and replacement part numbers for mass storage
devices are listed in the Service Handbook Chapter, which can be accessed
from the HP World Wide Web site at the following address:
Flexible Disk Drives
A 3.5-inch, 1.44 MB flexible disk drive is supplied in the front-access shelf.
Hard Disk Drives
The following table lists the 3.5-inch (1-inch high) hard disk drives (which
are subject to change) that may be supplied (type and quantity depends on
model) on internal shelves, connected to the SCSI or IDE controller.
Cheetah 18LP
SCSI Seagate
(10 krpm)
Atlas (Tornado)
SCSI Quantum
(10 krpm)
Barracuda IDE
Seagate
(7.2 krpm)
Capacity
9.1 GB and 18 GB
Ultra2 Wide SCSI
80 MB/s
9.1 GB and 18 GB
Ultra160
15 GB
Interface
UltraIDE ATA/66
66 MB/s
7.6 ms
External peak transfer rate
Average seek time (read)
160 MB/s
5.4 ms
5.4 ms
Internal formatted transfer rate (MB/s) 29.5 max.
20 to 29
43
Number of discs/heads
9.1 GB: 3/6
18 GB: 6/12
9.1 GB: 3/6
18 GB: 6/12
15 GB: 2/4
Buffer size
1 MByte
2 MBytes
512 KBytes
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4 Mass Storage Devices
CD-ROM Drives
1
IDE 48X CD-ROM Drive Some models have a 48X IDE CD-ROM drive supplied in a 5.25-inch
front-access shelf ATAPI, supporting ATAPI commands and with audio
playback capability. It can play any standard CD-Audio disks, in addition to
CD-ROM disks, conforming to optical and mechanical standards as specified
in the Red, Yellow, Green and Orange Book.
Some of the 48X IDE CD-ROM features include:
•
•
•
•
•
•
Application Disk type (confirmed by Red, Yellow, Green, Orange Book)
CD-ROM data disk (Mode 1 and Mode 2)
Photo-CD Multisession
CD Audio disk
Mixed mode CD-ROM disk (data and audio)
CD-ROM XA, CD-I, CD-Extra, CD-R, CD-RW
Description
Data capacity
Data transfer rate
650 MB
Sustained transfer rate (1X=150 KB/s); Outerside: 7,200 KB/s
Burst transfer rate:
PIO mode 4 - 16.6 Mbytes/s maximum
Single Word DMA Mode 2 - 8.3 Mbytes/s maximum
Multi Word DMA Mode 2 - 16.6 Mbytes/s maximum
Buffer memory size
Access time
128 kbytes
Average Stroke (1 / 3) 110 ms
Full Stroke 180 ms
2,048 bytes (Mode-1)
2,336 bytes (Mode-2)
ATAPI
Rotational speed
Interface
Power requirements
5V, 1.2A
12V, 0.8A
1. Refer to the HP Kayak PC Workstations Service Handbook to find out which
models are installed with the 48X IDE CD-ROM.
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4 Mass Storage Devices
1
8X Video IDE DVD-ROM Some models have a DVD-ROM (Read Only) drive. It can play any standard
CD-Audio disks, in addition to CD-ROM disks, conforming to optical and
mechanical standards as specified in the Red, Yellow, Orange and Green
Books.
Drive
Description
Data capacity
650 MB
Data transfer rate
Sustained transfer rate (1X=150 KB/s); Outerside: 7,200 KB/s
Burst transfer rate:
PIO mode 4 - 16.6 Mbytes/s maximum
Single Word DMA Mode 2 - 8.3 Mbytes/s maximum
Multi Word DMA Mode 2 - 16.6 Mbytes/s maximum
Buffer memory size
Access time
128 kbytes
Average Stroke (1 / 3) 110 ms
Full Stroke 180 ms
2,048 bytes (Mode-1)
2,336 bytes (Mode-2)
ATAPI
Rotational speed
Interface
Power requirements
5V, 1.2A
12V, 0.8A
1. Refer to the HP Kayak PC Workstations Service Handbook to find out which
models are installed with the DVD-ROM drive.
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4 Mass Storage Devices
1
4X IDE CD-Writer Plus Some models have a CD-RW (ReWritable) drive supplied in a 5.25-inch
front-access shelf ATAPI, supporting ATAPI commands and with audio
playback capability. It can play any standard CD-Audio disks, in addition to
CD-ROM disks, and can record both write-once (CD-R) and CD-RW optical
media. It conforms to optical and mechanical standards as specified in the
Red, Yellow, Orange and Green Books.
Drive
Description
Data capacity
Performance
650 MB or up to 74 minutes of audio per disc
547MB in CD-UDF data format
Seek time (1/3 stroke: <150 ms (CD-ROM))
Data transfer rate:
Read: Up to 24X (1X=150 KB/s)
Write: 4X (CD-R); 2X (CD-RW)
Minimum burst transfer rate
Spin-up time (2X)
Initialization time (2X)
HP fast format time (CD-RW)
Disc finalization time (2X
Corrected error rate
2.5Mbytes/sec.
2 seconds max. (from spin down state until disc ready)
5 seconds max. (from new disc inserted until disc ready)
5 minutes max.
2 minutes typical
Audio, Mode 2, Mode 2 Form 2: < 1 frame in 109 bits read
Mode 1, Mode 2 Form 1: < 1 frame in 1012 bits read
Buffering
1MByte (>6 sec at 1X speed). If buffered data drops to less than one
sector, the recording stops.
Write methods
- Track at once
- Disc at once
- Incremental (packet)
- Multisession
Write verification
Format and EEC standard
MTBF
Automatic Power Control to dynamically adjust laser writer power
Red, Yellow, Orange, Green books
150,000 hours
Interface
ATAPI
1. Refer to the HP Kayak PC Workstations Service Handbook to find out which
models are installed with the HP CD-RW drive.
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5
HP BIOS
The Setup program and BIOS are summarized in the two sections of this
chapter. The POST routines are described in the next chapter.
®
The BIOS is based on an AMIBIOS core, which includes support for
4 M/bits flash parts, PCI 2.2 Specification, and RIMM or DIMM memory
modules. Added to this, a New BIOS Architecture (NBA) has been
implemented. The main principle of the NBA is that HP features are
independent modules and run at defined moments in the boot process. They
are installed as hooks, either in:
•
•
Source code form, for small tasks, or before memory is available.
Binary. As .COM files, for larger tasks once memory is available.
They both communicate with the BIOS through CMOS and memory tables
providing information to the operating system through SMBIOS tables.
So, what are hooks? Hooks are architected points in the BIOS where specific
code can be run. HP code is integrated, as mentioned above, in either
source/object files, or as separate binaries.
HP/NBA BIOS Summary
The System ROM contains the POST (Power-On-Self-Test) routines and the
BIOS: the System BIOS, video BIOS, and low option ROM. This chapter,
together with the following one, give an overview of the following aspects:
•
•
•
Menu-driven Setup with context-sensitive help, described next in this
chapter.
The address space, with details of the interrupts used, described at the
end of this chapter.
The Power-On-Self-Test or POST, which is the sequence of tests the
computer performs to ensure that the system is functioning correctly,
described in the next chapter.
The system BIOS is identified by the version number qXX.YM.mm, where:
•
q is an optional letter indicating non-production status (removed at
release).
•
•
•
•
XX is a two-letter code indicating the system (IA).
Y is a one-digit code indicating the HP entity.
M is the major BIOS version.
mm is the minor BIOS version.
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5 HP BIOS
HP/NBA BIOS Summary
An example of a released version would look similar to the following
example: IA.11.02.
The procedure for updating the System ROM firmware is described on
page 95.
Using the HP Setup Program
To run the Setup program, press
while the initial “Kayak” logo is
displayed immediately after restarting the PC.
Alternatively, press
to view the summary configuration screen. The
summary screen will remain visible until a key is pressed.
The band along the top of the Setup screen offers the following menus:
Main, Advanced, Security, Boot, Power and Exit. These are selected using
the left and right arrow keys.
Main Menu
The Main Menu presents a list of fields, for example, “PnP Operating
System” (selects whether the BIOS or Plug and Play operating system
configures Plug and Play devices); “Reset Configuration Data”, “System
Time”, “System Date”, “Key Click”, “Key auto-repeat speed” “Delay before
auto-repeat” and Numlock at Power-on”. By default the “Reset
Configuration Data” item is set to “No”. Selecting “Yes”, will clear the system
configuration data.
Advanced Menu
The Advanced Menu does not have the same structure as the Main Menu
and Power Menu. Instead of presenting a list of fields, it offers a list of
sub-menus. The Advanced Menu contains the following sub-menus:
•
Processors, Memory and Cache. Configures processor, CPU speed,
Processor Serial Number, memory controller and cache operations (error
correction, shadowing and caching).
•
•
Floppy Disk Drives. Enables or disables the on-board floppy disk
controller.
IDE Devices. Configures IDE devices. Setting of IDE Primary and Master
slave devices, and IDE Secondary Master slave devices. To use both these
channels, the Integrated BUS IDE adapter is set to Both Enabled.
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5 HP BIOS
HP/NBA BIOS Summary
•
•
Integrated USB Interface. Enable or disable the integrated USB
(Universal Serial Bus) interface. Setting this option to Autolets the BIOS
or PnP operating system configure the device. However, disabling this op-
tion leaves the devices disabled by the BIOS, but a PnP operating system
can still configure it.
Integrated Audio Interface. Enables or disables the audio interface. Set-
ting this option to Autolets the BIOS or PnP operating system configure
the device. Disabling this option frees resources used by the device.
•
•
Integrated I/O Ports. Enables or disables the on-board parallel and
serial ports at the specified address.
Integrated SCSI. Enables or disables the Option ROM scan, Bus Master
and Bus Latency Timer.
Security
Sub-menus are presented for changing the characteristics and values of the
System Administrator Password, User Password, Power-on Password, boot
device security and Hardware Protection. The Security Menu contains the
following sub-menus:
•
Administrator Password. This password prevents unauthorized access
to the computer’s configuration. It can also be used to start the computer
when power-on password is set to Auto.
•
User Password. This password can only be set when an administrator
password has been set. The User Password prevents unauthorized use of
the computer and is used to start the computer when power-on password
is set to Auto.
•
•
Power-on Password. If enabled, a password will be requested on boot.
Start from Floppy, Start from CD-ROM and Start from HDD. These de-
vices can be disabled to prevent unauthorized use to start the computer.
•
Hardware Protection. The following devices can have their accesses
unlocked/locked: floppy disk drives and hard disk boot sector.
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5 HP BIOS
HP/NBA BIOS Summary
Boot Menu
The QuickBoot Mode option allows the system to skip certain tests while
booting. This decreases the time needed to boot the system. From this
menu, you can also display the option ROM messages. Enabling this option
is recommended when installing an accessory card. It can be disabled when
accessory card installation has been completed.
If both AGP and PCI video cards are installed, use the setting to select which
will be used as a boot display device. If only one video card is installed, the
setting is not used.
Select the order of the devices from which you want the BIOS to attempt to
boot the operating system. During POST, if the BIOS is unsuccessful at
booting from one device, it will then try the next one on the Boot Device
Priority list until an operating system is found.
Power Menu
This menu allows you to set the standby delay and suspend delay. Standby
mode slows down the processor, while the suspend mode saves a maximum
of energy. Both these options are only available with Windows 95. For other
operating systems, Windows 98 and Windows 2000, use the control panel for
similar options
Modem ring enables or disables the system to return to full speed when an
IRQ is generated. Network interface enables or disables the system to return
to full speed when a specific command is received by the network interface.
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5 HP BIOS
Updating the System BIOS
Updating the System BIOS
The System BIOS can be updated with the latest BIOS firmware. This can be
downloaded from HP’s World Wide Web site:
then select HP Kayak XU800 PC Workstation.
Instructions on updating the BIOS are supplied with the downloaded BIOS
files and a BIOS flash utility (flash.txt).
The BIOS update not only flashes the BIOS, but also updates MaxiLife. How
the System BIOS flash is carried out is shown below.
Boot from
floppy disk
Flash
BIOS
PC Workstation
powers off
automatically
PC Workstation
reboots
automatically
Flash
MaxiLife
PC Workstation
powers off
PC Workstation
reboots
automatically
Do not switch off the computer until the system BIOS update procedure has
completed, successfully or not, otherwise irrecoverable damage to the ROM
may be caused. While updating the flash ROM, the power supply switch and
the reset button are disabled to prevent accidental interruption of the flash
programming process.
Restoring BIOS Default Settings
Suspected hardware errors may be caused by BIOS and configuration
issues. If the BIOS settings are suspected to be wrong, perform the following
steps to restore the BIOS to its default setting:
1 Press
while the initial “Kayak” logo is displayed immediately after re-
starting the PC Workstation to access the Setup program.
2 Press
to load the default settings from the Setup program.
3 Set the “Reset Configuration Data” to Yes in the Main menu.
It is recommended that before you make any modifications to the BIOS
you take note of the system setup.
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5 HP BIOS
Clearing the CMOS
Clearing the CMOS
1 Turn off the PC Workstation, disconnect the power cord and data cables,
then remove the cover.
2 Set the system board switch 4 to the DOWN position to clear the CMOS
memory.
3 Replace the cover, and only reconnect the power cord.
4 Reboot the PC Workstation. A message similar to the following will be dis-
played:
“Configuration has been cleared.
You can now:
Switch off the PC Workstation and remove the cover.
Reset the “Clear Configuration” switch to OFF (Up).
Replace the cover.
Switch on the PC Workstation and allow it to startup.
To modify the default configuration information:
press [F2] when prompted during self-test (POST), to enter
Setup.”
5 Turn off the PC Workstation, disconnect the power cord, and remove the
cover.
6 Set the system board switch 4 to the UP position to retain the
configuration.
7 Replace the cover, and reconnect the power cord and data cables.
8 Switch on the PC Workstation. Run the Setup program by pressing
.
Then press
. The CMOS default values will be automatically download-
ed and saved.
9 Press
to save the configuration and exit from the Setup program.
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5 HP BIOS
Clearing Passwords
Clearing Passwords
To clear the Administrator and User password (for example, Administrator
password has been forgotten), perform the following steps:
1 Turn off the PC Workstation, disconnect the power cord and data cables,
then remove the cover.
2 Set the system board switch 3 to the UP position to clear passwords.
3 Replace the cover, and only reconnect the power cord.
4 Reboot the PC Workstation. A message similar to the following will be
displayed:
“Passwords have been cleared.
You can now:
Switch off the PC Workstation and remove the cover.
Reset the “Clear Password” switch to ON (Down).
Replace the cover.
Switch on the PC Workstation and allow it to startup.
To modify the password setting:
press [F2] when prompted during self-test (POST),
to enter Setup.”
5 Turn off the PC Workstation, disconnect the power cord, and remove the
cover.
6 Set the system board switch 3 to the DOWN position to retain the
configuration.
7 Replace the cover, and reconnect the power cord and data cables.
8 Switch on the PC Workstation. Run the Setup program by pressing
.
Then select the Security menu from the band along the top of the Setup
screen.
9 Press
to save the configuration and exit from the Setup program.
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5 HP BIOS
Recovering the BIOS (Crisis Mode)
Recovering the BIOS (Crisis Mode)
If for some reason the BIOS is corrupted and the standard flash cannot be
used, use the BIOS Recovery Mode (exceptional BIOS recovery operation)
to restore the BIOS.
The following recovery operation is also documented in the flash.txt file
which is supplied with the downloaded BIOS files.
To restore the BIOS:
1 Copy the BIOS files on to the floppy disk.
2 Rename the file AI11xx.rom to amiboot.rom.
3 Shut down the PC Workstation.
4 Power off the PC Workstation and remove the power cord and cables.
5 Remove the cover.
6 Set switch 1 to the DOWN position.
7 Insert the floppy disk into the floppy disk drive.
8 Reconnect the power cord and switch on the PC Workstation.
9 The PC Workstation boots from the floppy disk, then flashes the BIOS.
However, it should be noted that during the flash process, the screen
remains blank. MaxiLife will display a message on the LCD panel
“RECOVERY MODE”.
10 The recovery process is finished when there are four beeps.
11 Power off the PC Workstation. Remove the floppy disk from the drive.
Remove the power cord.
12 Set switch 1 back to the UP position.
13 Replace the cover, reconnect the power cord, then reboot the PC
Workstation.
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5 HP BIOS
Adaptec SCSISelect Configuration Utility
Adaptec SCSISelect Configuration Utility
The AIC-7892 BIOS includes the SCSISelect configuration utility, which
allows you to view and change host adapter settings. SCSISelect also lists
the SCSI IDs of devices on the host adapter, formats SCSI disk drives, and
checks drives for defects.
Default Settings
The following tables show the default configuration settings that can be
changed. The first table shows the global settings which impact the host
adapter; the second table shows the boot device options which allow you to
specify the boot device; the third table shows the different advance
configuration options; and the fourth table shows the device settings which
apply to individual devices.
SCSI BUS Interface Options
Host Adapter and SCSI Parity
Checking Settings
Default
Settings
Comments
Host Adapter SCSI ID
7
Each device on the SCSI bus, including the adapter,
must have a unique SCSI ID. Allowable IDs are 0 - 15.
SCSI Parity Checking
Enabled
Each adapter verifies the accuracy of data transfer on
the SCSI bus.
Boot Device Options
Boot Target ID and Boot LUN
Number Settings
Default
Settings
Comments
Boot Target ID
0
0
To specify a different boot device, choose a SCSI ID
0 - 15. If the boot device has multiple logical units, you
must specify the boot LUN, which can be 0 - 7.
Boot LUN Number
Advanced Configuration Options
Options
Default
Comments
Settings
Reset SCSI Bus at IC Initialization
Enabled
BIOS resets the SCSI at POST time (scans the bus for
SCSI devices).
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5 HP BIOS
Adaptec SCSISelect Configuration Utility
Advanced Configuration Options
Options
Default
Comments
Settings
Extended BIOS Translation for DOS
drives > 1 GByte
Enabled
Includes an extended translation scheme that supports
disk drives of more than 1 GByte.
Verbose/Silent Mode
Host Adapter BIOS
Verbose
Enabled
Displays messages on the screen at POST.
Controls the state of the BIOS at POST.
Support for Removable Disks Under
BIOS as Fixed Disks
Disabled No removable media drives running under DOS are
treated as hard disk drives. Driver software is required
because the drives are not controlled by the BIOS.
Display <F6> message during
BIOS Initialization
Enabled
Displays Press F6 for SCSISelect(TM)
Utility!
BIOS Support for Bootable CD-ROM
BIOS Support for Int 13h Extensions
Domain Validation
Enabled
Enabled
Enables booting from a CD-ROM.
Host adapter BIOS supports Int 13h extensions.
Disabled Downgrades the performance while maintaining the
integrity of data transmission
SCSI Device Configuration Options
SCSI Device Options
Default
Comments
Settings
SyncTransfer Rate
160
Determines the synchronous data transfer rate that
the host adapter will negotiate with the device.
Enable Disconnection
Yes
Determines whether the host adapter allows a SCSI
device to disconnect from the SCSI bus (also referred
to as Disconnect/Reconnect).
Initiate Wide Negotiation
(16-bit adapters only)
Yes
Yes
N/C
Allows the adapter to initiate wide negotiation with a
16-bit SCSI device.
Send Start unit Command
Determines whether the host adapter sends the Start
Unit command to the SCSI bus.
Enable Write Back Cache
Allows the BIOS to program the state of the write
back cache in the hard disk drive.
BIOS Multiple Lun Support
Include in BIOS Scan
No
Allows the BIOS to support multiple logical units.
Yes
Determines whether the host adapter BIOS supports
devices attached to the SCSI bus without the need for
device driver software.
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5 HP BIOS
Adaptec SCSISelect Configuration Utility
Starting the SCSISelect Configuration Utility
Just after the “Kayak” boot screen, press
when the message Press F6
for SCSISelect(TM) Utility! is displayed.
NOTE
The above message will not be displayed if “Display <F6> Messages During
BIOS Initialization” has been disabled in the Advanced Configuration
Options. The default setting for this option is Enabled.
Follow the on-screen instructions to access the required menu. Any changes
made in SCSISelect must be saved and the PC Workstation rebooted for
modifications to take affect.
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5 HP BIOS
BIOS Addresses
BIOS Addresses
This section provides a summary of the main features of the HP system
hardware and the operating system.The procedure for updating the System
ROM firmware is described on page 68.
System Memory Map
Reserved memory used by accessory boards must be located in the area
from C8000h to EFFFFh.
0000 0000 - 0000 03FF
0000 0400 - 0000 04FF
0000 0500 - 0009 FC00
0009 FC00 - 0009 FFFF
000A_0000 - 000B_FFFF
Real-mode IDT
BIOS Data Area
Used by Operating System
Extended BIOS Data Area
Video RAM or
SMRAM (not visible unless in SMM)
000C 0000 - 000C 7FFF
000C 8000 - 000F FFFF
000E 0000-000F FFFF
0001 0000-000F FFFF
0010 0000-001F FFFF
0020 0000-003F FFFF
0040 0000-007F FFFF
0080 0000-7FFF FFFF
FECO 0000
Video ROM (VGA ROM)
Adapter ROM, RAM, memory-mapped registers, BIOS
128 KB BIOS (Flash/Shadow)
Memory (1 MB to 16 MB)
Memory (16 MB to 32 MB)
Memory (32 MB to 64 MB)
Memory (64 MB to 128 MB)
Memory (128 MB to 2 GB)
I/O APIC
FEEO 0000
Local APIC (each CPU)
FFFE 0000-FFFF FFFF
128 KB BIOS (Flash)
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5 HP BIOS
BIOS Addresses
1
HP I/O Port Map (I/O Addresses Used by the System )
Peripheral devices, accessory devices and system controllers are accessed
via the system I/O space, which is not located in system memory space. The
64 KB of addressable I/O space comprises 8-bit and 16-bit registers (called
I/O ports) located in the various system components. When installing an
accessory board, ensure that the I/O address space selected is in the free
area of the space reserved for accessory boards (100h to 3FFh).
Default Values for
Function
I/O Address Ports
0000 - 000F
0020 - 0021
002E - 002F
0040 - 0043
0060, 0064
0061
0070
0070 - 0071
0080
DMA controller 1
Master interrupt controller
Timer 1
Keyboard controller (reset, slow A20)
Port B (speaker, NMI status and control)
Bit 7: NMI mask register
RTC and CMOS
Manufacturing port (POST card)
0081 - 0083,
008F
DMA controller
0092
00A0 - 00A1
00C0 - 00DF
00F0 - 00FF
0130 - 013F
0170 - 0177
01F0 - 01F7
0200
Slave interrupt controller
DMA controller 2
Co-processor error
ICH (82801AA) bus master IDE controller
IDE primary channel
0220 - 0232
0278 - 027F
02E8 - 02EF
02F8 - 02FF
0330 - 0331
0372 - 0377
0378 - 037A
Serial port 2 (COM2)
LPT1
1.If configured.
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5 HP BIOS
BIOS Addresses
Default Values for
I/O Address Ports
0388 - 038B
Function
03B0 - 03DF
03E8 - 03EF
03F0 - 03F5
03F6
VGA
IDE primary channel
Flexible disk drive controller
COM1
03F7
03F8 - 03FF
04D0 - 04D1
0678 - 067B
0778 - 077B
0CF8 - 0CFF
8000 -
System board resources under Windows 95
LPT1 ECP
PCI configuration space
8400 -
8800 -
DMA Channel Controllers
Only “I/O-to-memory” and “memory-to-I/O” transfers are allowed.
“I/O-to-I/O” and “memory-to-memory” transfers are disallowed by the
hardware configuration. The system controller supports seven DMA
channels, each with a page register used to extend the addressing range of
the channel to 16 MB. The following table summarizes how the DMA
channels are allocated.
DMA controller
Channel
DMA 0
DMA 1
DMA 2
DMA 3
DMA 4
DMA 5
DMA 6
DMA 7
Function
Free
Free
Flexible disk drive controller
LPT ECP
DMA controller
Free
Free
Free
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5 HP BIOS
BIOS Addresses
IRQs Used by the PC Workstation
The IRQ address mappings shown here are for a basic configuration. The
resources used by the PC Workstation may vary, depending on which
accessory cards are bundled with the PC Workstation. Resources are
allocated by the system BIOS or the Plug and Play operating system.
IRQs used by
PC Workstation
IRQ0
IRQ1
IRQ2
IRQ3
IRQ4
IRQ5
IRQ6
IRQ7
IRQ8
IRQ9
IRQ10
IRQ11
IRQ12
IRQ13
IRQ14
IRQ15
System timer
Keyboard controller
Free
COM2, COM4
COM1, COM3
Flexible disk drive controller
LPT1
Real-time clock
Mouse
Not connected
Integrated IDE controller (primary)
Integrated IDE controller (secondary)
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5 HP BIOS
BIOS Addresses
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6
Tests and Error Messages
This chapter describes the MaxiLife firmware test sequences and error
messages, the Power-On-Self-Test (POST) routines, which are contained in
the computer’s ROM BIOS, the error messages which can result, and the
suggestions for corrective action.
MaxiLife Test Sequence and Error Messages
When the PC Workstation is turned on (pressing the ON/OFF button), the
system initiates the normal startup sequence which is composed of the
following steps:
•
•
•
•
Basic pre-boot diagnostics
BIOS launch
POST phase
Operating System boot phase
If any errors are detected during the startup sequence, MaxiLife will not
necessarily ‘freeze’ the system. However, some critical hardware errors are
fatal to the system and will prevent the system from starting (for example,
‘Power’ and ‘Board PLL’ are serious malfunctions that will prevent the CPU
from working correctly).
Errors that are not so critical will be detected both during pre-boot
diagnostics and POST where the BIOS boot process will abort after beeping.
The MaxiLife LCD status panel will display the error. Some errors are only
detected during POST sequence, and produce the same abort process.
Finally, while the PC Workstation is working, fan and temperature controls
can be reported (for example, a fan error will be reported if a fan cable is not
connected). This type of error disappears as soon as the problem is fixed
(for example, the fan cable has been reconnected).
The different diagnostics are described below.
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6 Tests and Error Messages
MaxiLife Test Sequence and Error Messages
Basic Pre-boot Diagnostics
The first diagnostic (called basic pre-boot diagnostics) is run to check the
presence of the processor(s) or terminators, VRMs, power supply, CPU
Board PLL and memory.
The pre-boot diagnostic tests are run in order of priority with respect to
their importance to computer functions.
The first detected error displays a message on the LCD status panel. If this
happens, one of the following screens could appear.
Presence of processor, processor
terminator or VRM
Control of Some Voltages
: VRMs, 12V, 3.3V, 1.8V, 2.5V
Control of the CPU Board
ERROR
ERROR
ERROR
BOARD PLL
POWER SUPPLY
CPU SOCKET
System Board is not connected, or
the system board needs replacing.
Missing or
installed processor or
processor terminator
VRM or CPU power supply are not connected.
If an Error Power message is displayed, a cause could be that the
power supply is not connected, or the VRM is installed with an
unpopulated CPU socket (unsupported configuration).
The following diagram shows how the Pre-boot Diagnostics works when it
encounters an error.
CPU or Terminator
PLL Frequency
Voltage 12V, 3.3V, 1.8V, 2.5V
Voltage CPU1, CPU2
2
I C Bus
Vcc State (5V)
MaxiLife Firmware
PGOOD (VRM output)
System
Memory
LCD Status Panel
An error has been detected when checking the
processor and processor terminator. The
displayed error message could indicate a missing
processor or processor terminator.
ERROR
CPU SOCKET
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6 Tests and Error Messages
MaxiLife Test Sequence and Error Messages
The following table shows the test sequence carried out, the type of error
message, and the action to take.
Test
Error Code
CPU SOCKET
Action to Take
Presence of either a processor or processor
terminator
Check that the processor(s), processor terminator and VRM are
correctly installed.
Control of some voltages: VRMs, 12V, 3.3V,
1.8V, 2.5V
POWER SUPPLY
BOARD PLL
Check the power supply cable and connectors, VRM and processor.
Check the system board clock generators (PLL).
1 Check that the system board is connected
2
Replace the system board (PLL clock generator).
Post Test Sequence and Post Error
In this phase, MaxiLife waits for any error messages that the BIOS may
issue. If such an error occurs, then a screen similar to the following example
is displayed. The error code that appears on the LCD status panel is the
same as the one that appears on the monitor screen. If the POST issues
several error codes, only the last one is visible on the LCD status panel.
ERROR
POST XXXX
The following diagrams show the different BIOS-generated errors.
There is a time-out of 3 seconds before
the message is displayed on the LCD
status panel and video display.
“BIOS” ERROR
BIOS
“read system memory”
MaxiLife
“Spy System
Memory”
ERROR
BIOS
System Memory
LCD Status Panel
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6 Tests and Error Messages
MaxiLife Test Sequence and Error Messages
“BIOS”-Generated Errors
System
Memory
“No Video”
“RAM type”
BIOS
ERROR
MaxiLife
NO VIDEO
Video
Slots
System issues a Beep Code before
attempting to display the error code.
LCD Status Panel
Test
Error Code
Action to Take
Presence of continuity modules in the RIMM
sockets
RIMM CONTINUITY
Check that the RDRAM continuity modules are installed
Presence of RDRAM modules
NO RIMM
Install RDRAM modules in the RIMM sockets
Compatibility speed rating of installed RDRAM
modules
RIMM SPEED
Check that the installed RDRAM modules have the same speed
ratings
presence of installed SDRAM modules
NO DIMM
Check that the SDRAM modules are correctly installed in the
DIMM sockets
Presence of installed memory modules in pairs
per channel
MEM MISCOMPARE Check that the RDRAM modules are correctly installed in pairs
Presence of memory modules
MEMORY ERROR
NO VIDEO
Check that the memory modules are correctly installed
Check that the video controller is correctly installed
Availability of video controller. It is checked by
the BIOS. If an error is detected, it is not a fatal
one and the BIOS will continue its execution
normally.
Note: No error is detected if a monitor is not connected to an
installed video controller. This is not a fatal error and the BIOS will
continue its normal execution.
The BIOS then executes the Power On Self Test POST XXXX
(POST) sequence. In this phase, MaxiLife waits
If the screen is working, you can obtain the meaning of the
error by typing “Enter” at the end of the POST.
for any error messages that the BIOS may issue.
Operating System Boot Phase
If no error message has been displayed at this stage of the system startup by
the BIOS, the operating system is launched and the LCD status panel will
display the system platform and a “smiling icon.”
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6 Tests and Error Messages
MaxiLife Test Sequence and Error Messages
Run-Time Errors
During the normal usage of the PC Workstation (and at boot), MaxiLife
continually monitors vital system parameters. These include: temperature
errors, fan malfunctions, power voltage drops, board PLL problems and CPU
problems.
If both the fan for disks and the I/O slot are not connected (both are run-
time error 1), only the “Fan disk” will be displayed.
Test
Error Code
FAN CPU
Action to Take
Rear fan, system board,1 fan cable.
During normal usage of the PC, HP MaxiLife
continually checks vital system parameters. If an
error occurs, a message appears on the LCD
panel.
FAN PCI
PCI fan, PCI cards, system board, fan cable.
TEMP. CPU
TEMP PCI
Rear fan, airflow guide, “Airflow Separator”2, system board.
PCI fan, airflow guide, “Airflow Separator”, system board, PCI
cards.
TEMP DISK
Rear fan, airflow guide, “Airflow Separator”, disk temperature,
sensor, system board.
POWER ERRORS
BOARD PLL
Power supply unit, VRM, system board.
Processor(s), system board
POWER 12V ERROR Power supply unit has failed. Try the following:
1 Replace the power supply unit with a known working one
2 If the problem persists, replace the system board
VCC CPU 1 ERROR
VCC CPU 2 ERROR
POWER 1.5V ERROR
POWER 1.8V ERROR
POWER 2.5V ERROR
POWER 3.3V ERROR
POWER 5V ERROR
1.Special cases: Board PLL = System board needs replacing. CPU error = Reset or power off the system to recover.
2.A retaining bar holds the airflow guide in place, dividing inside the chassis into two separate areas (processor and PCI slots) for better cooling.
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6 Tests and Error Messages
MaxiLife Test Sequence and Error Messages
Main Menu
The main menu is displayed when any of the LCD buttons are pressed
(MaxiLife LCD status panel can be accessed even though the PC
Workstation is turned off). The Main Menu comprises three sub-menus:
System Info, Boot Steps and Diagnostics.
System Info
Obtains information from the BIOS and the system’s Serial EEPROM from a
previously successful boot. This information includes: product name, BIOS
version, serial number, number of processors and speed, size of memory for
each socket. The following diagram shows how the System Info obtains its
information.
System Info
strings in EEPROM
MaxiLife
HP KAYAK XU800
Write
LCD Status Panel
BIOS
DMI Table
Boot Steps
Shows the Power-On-Self-Test (POST) codes during the system startup.
The POST code is provided by the BIOS and is displayed on the LCD panel
as soon as it is available. If the system stops during the startup, the last
successful boot step POST code is displayed on the LCD. When Boot Steps
is selected, the POST step will be shown on the LCD status panel during the
subsequent boot processes.
To ensure that MaxiLife is ready to display the first POST codes as soon as
possible, the Pre-boot diagnostics are not executed when the system is
booted with the Boot Steps option selected. The following diagram shows
how Boot Steps obtains its information from the BIOS, and then displays a
POST error if needed.
HP KAYAK XU800
ERROR XXXX
SYSTEM INFO
BOOT STEPS
MaxiLife
BIOS
NEXT
GO
“Write
POST
ERROR”
“Write
POST
Code”
This is a toggle item,
which is indicated with
a check mark
ERROR
XXXX
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6 Tests and Error Messages
MaxiLife Test Sequence and Error Messages
Diagnostics
Runs a set of diagnostics assessing the system’s components. Results of the
tests are displayed on the LCD status panel, one after another, when the
LCD
buttons are pressed.
It is possible to cancel the diagnostic process and return to the previous
state by pressing the LCD key labelled “Back”. When “OK” is selected, the
main power supply is started but the PC Workstation is not allowed to do a
normal boot. The purpose of this is to allow only those devices that can be
tested to answer the diagnostic request from MaxiLife.
Components are tested in sequence when the “Next” button is pressed.
When they have all been checked, a diagnostic screen is shown. Depending
on the result of the diagnostics, the screen could indicate either:
OK or FAIL.
At the end of the test, you can exit the diagnostic mode by pressing the
LCD button.
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6 Tests and Error Messages
MaxiLife Test Sequence and Error Messages
Typical Diag Error
Messages
When the Processor and VRM are
correctly installed, the “smiling icon” is
shown on the LCD status panel.
Processor
HP KAYAK XU
VRM
VRM
If the Processor has only been partly
inserted in the processor slot, then the
displayed message will indicate a CPU
socket error.
r
so
s
e
c
ro
P
ERROR
CPU SOCKET
The Processor has not been inserted
correctly in the processor slot. The
displayed message will indicate a CPU
socket error.
Processor
ERROR
CPU SOCKET
VRM
VRM
There is no installed Processor.
However, the VRM is correctly
installed. The displayed message will
indicate a Power error.
ERROR
CPU SOCKET
For More Information
About MaxiLife
Refer to the online Troubleshooting Guide for more information about this
diagnostics utility at the HP World Wide Web site:
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6 Tests and Error Messages
Order in Which POST Tests Are Performed
Order in Which POST Tests Are Performed
Each time the system is powered on, or a reset is performed, the POST is
executed. The POST process verifies the basic functionality of the system
components and initializes certain system parameters.
The POST starts by displaying a graphic screen of the HP PC Workstation’s
logo when the PC Workstation is restarted. If you wish to view the POST
details, press
to get the HP Summary Screen.
If the POST detects an error, the error message is displayed inside a view
displays the error diagnosis, but the suggestions for corrective action (refer
to page 123 for a brief summary). Error codes are no longer displayed on
MaxiLife LCD panel.
Devices such as memory and newly installed hard disks, are configured
automatically. The user is not requested to confirm the change. Newly
removed hard disks are detected, and the user is prompted to confirm the
new configuration by pressing
. Note, though, that the POST does not
detect when a hard disk drive has been otherwise changed.
During the POST, the BIOS and other ROM data are copied into high-speed
shadow RAM. The shadow RAM is addressed at the same physical location
as the original ROM in a manner which is completely transparent to
applications. It therefore appears to behave as very fast ROM. This
technique provides faster access to the system BIOS firmware.
An example of an Error This example explains the different coding messages that appear in the
lower left corner of the screen when the POST detects an error during
startup.
Code Message
For example, if the error 0101 - 52 is displayed.
0101 - Post Error Code failure. This error code is accompanied by a short
the screen and MaxiLife LCD panel.
A table listing the error codes, causes and symptoms is on page 124.
52 - Post Checkpoint Code. This checkpoint code indicates that a test has
failed at this stage of the POST. If the “Boot Step” option has been validated
in MaxiLife, then Post Checkpoint Codes (in this example, 52) will be
reported to the MaxiLife.
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6 Tests and Error Messages
Order in Which POST Tests Are Performed
A Check Point Code allows you to follow the POST schedule on the MaxiLife
LCD panel. To achieve this, you first need to select the “Boot Step” option in
the “Service” menu of MaxiLife.
The following table lists the POST checkpoint codes written at the start of
each test and listed in order of execution.
Checkpoint
Code
POST Routine Description
(A Check Point Code is NOT an error code or error number)
Uncompressed Initialization Codes
D0h
D1h
NMI is disabled. Power on delay is starting. Next, the initialization code checksum will be
verified.
Initializing the DMA controller, performing the keyboard controller BAT test, starting
memory refresh, and entering 4 GB flat mode.
D3h
D4h
D5h
Starting Memory sizing.
Returning to real mode. Executing any patches and setting the stack.
Passing control to the uncompressed code shadow RAM at E000:0000h. The initialization
code is copied to segment 0 and control will be transferred to segment 0.
D6h
Control is segment 0. Next, checking if <Ctrl><Home> was pressed and verifying
the system BIOS checksum.
If either <Ctrl><Home> was pressed or the system BIOS checksum is bad, next will
go to checkpoint code E0h.
Otherwise, going to checkpoint code D7h.
D7h
D8h
D9h
Passing control to the interface module.
Main system BIOS runtime code will be decompressed.
Passing control to the main system BIOS in shadow RAM.
Bootblock Recovery Codes
E0h
Onboard floppy disk driver controller is initialized. Next, beginning the base 512 KB
memory test.
E1h
E2h
E6h
Initializing the interrupt vector table.
Initializing the DMA and Interrupt controllers.
Enabling the floppy disk drive controller, Timer IRQs and internal cache memory.
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6 Tests and Error Messages
Order in Which POST Tests Are Performed
Checkpoint
Code
POST Routine Description (Continued)
(A Check Point Code is NOT an error code or error number)
EDh
EEh
EFh
F0h
F1h
F2h
Initializing the floppy disk drive.
Looking for a floppy disk in drive A: Reading the first sector of the floppy disk.
A read error occurred while reading the floppy disk drive A:.
Searching for the AMIBOOT.ROM file for the root directory.
AMIBOOT.ROM file is not found in the root directory.
Reading and analyzing the floppy disk FAT to find clusters occupied by the AMIBOOT.ROM
file.
F3h
F4h
F5h
FBh
FCh
FDh
FFh
Reading the AMIBOOT.ROM file, cluster by cluster.
AMIBOOT file is not the correct size.
Disabling internal cache memory.
Detecting the type of flash ROM.
Erasing the flash BIOS.
Programming the flash BIOS.
Flash PROM programming was successful. Restarting the system BIOS.
Uncompressed Initialization Codes
The following routine checkpoint codes are listed in order of execution.
These codes are uncompressed in F0000h shadow RAM.
03h
05h
06h
07h
08h
0Bh
0Ch
Disable Non-Maskable Interrupt (NMI)
BIOS stack has been built. Next, disabling cache memory.
Uncompressing the POST code.
Initializing processor and the processor data area.
CMOS checksum calculation performed.
Performing any required initialization before the keyboard BAT command is issued.
Keyboard controller input buffer is free. Next, issuing the BAT command to the keyboard
controller.
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6 Tests and Error Messages
Order in Which POST Tests Are Performed
Checkpoint
POST Routine Description (Continued)
Code
(A Check Point Code is NOT an error code or error number)
0Eh
Keyboard controller BAT command result has been verified. Next performing any
necessary initialization after the keyboard controller BAT command test.
0Fh
10h
11h
Keyboard command byte is then written.
Issuing the Pin 23 and 24 blocking and unblocking commands.
Checking if the <End> or <Ins> keys were pressed during power-on. Initializing
CMOS RAM if the Initialize CMOS RAM in every boot AMIBIOS POST option was set in
AMIBCP or the <End> key was pressed.
12h
13h
14h
19h
1Ah
23h
Disabling DMA controllers 1 and 2, and Interrupt controllers 1 and 2.
Video display has been disabled. Port B has been initialized. Then, initializing the chipset.
8254 timer initialization.
Initializing memory refresh test.
memory refresh line is toggling. Checking the 15 second on/off time.
Reading the 8042 input port and disabling the MEGAKEY Green PC feature. Making the
BIOS code segment writable and performing any necessary configuration before
initialization the interrupt vectors.
24h
Configuration required before Interrupt vector initialization has completed. Then Interrupt
vector initialization begins.
25h
27h
28h
2Ah
2Bh
2Ch
Clearing the password if the POST DIAG switch is on.
Setting video mode.
Video ROM performs any required configuration before the video ROM test.
System bus initialization, static, output devices, if present.
Video ROM performs any required configuration before testing.
All necessary processing before passing control to the Video ROM is completed. Video
ROM is searched, then control passed on to it.
2Dh
Video ROM returns control to the BIOS POST. Performing any required processing after
the video
2Eh
2Fh
If the EGA/VGA controller is not found, performing the display memory read/write test.
The EGA/VGA controller was not found. The display memory read/write test begins.
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6 Tests and Error Messages
Order in Which POST Tests Are Performed
Checkpoint
Code
POST Routine Description (Continued)
(A Check Point Code is NOT an error code or error number)
30h
31h
Display memory read/write test passed. Looking for retrace checking.
Display memory read/write test or retrace failed. Performing the alternate display retrace
checking.
32h
Alternate display memory read/write test passed. Looking for alternate display retrace
checking.
34h
37h
38h
39h
3Ah
40h
42h
44h
Video display checking is complete. Setting the display mode.
Display mode is set. Displaying the display mode text.
Initializing the bus input, IPL, and if present and general devices.
Displaying the bus initialization errors.
New cursor position has been read and saved. Displaying the Hit <DEL> message.
Preparing the descriptor tables.
Descriptor tables are prepared. Entering protected mode for the memory test.
Interrupts enabled if the diagnostics switch is on. Initializing data to check memory wrap-
around at 0:0.
45h
47h
Data initialized. Checking for memory wrap-around at 0:0 and finding total system memory
size.
Memory pattern has been written to extended memory. Writing patterns to the base
640 KB memory
48h
49h
Patterns written in base memory. Determining the amount of memory below 1 MB.
Amount of memory below 1 MB has been found and verified. Determining the amount of
memory above 1 MB.
4Bh
Amount of memory above 1 MB has been found and verified. Checking for a soft reset and
clearing the memory below 1 MB for the soft reset. If this is a power on situation, going to
checkpoint 4Eh.
4Ch
4Dh
Memory below 1 MB has been cleared via a soft reset. Clearing the memory above 1 MB.
Memory above 1 MB has been cleared via a soft reset. Saving the memory size. Going to
checkpoint 52h.
4Eh
Memory test started, but not as the result of the soft reset. Displaying the first 64 KB
memory size.
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6 Tests and Error Messages
Order in Which POST Tests Are Performed
Checkpoint
POST Routine Description (Continued)
Code
(A Check Point Code is NOT an error code or error number)
50h
Memory below 1 MB has been tested and initialized. Adjusting the displayed memory size
for relocation and shadowing.
51h
Memory size display was adjusted for relocation and shadowing. Testing the memory
above 1 MB.
52h
53h
54h
Memory above 1 MB has been tested and initialized. Saving the memory size information.
Memory size information and CPU registers are saved. Entering real mode.
Shutdown was successful. The CPU is in real mode. Disabling the Gate A20 line, parity,
and the NMI.
57h
58h
59h
The A20 address line, parity, and the NMI disabled. Adjusting the memory size depending
on relocation and shadowing.
Memory size was adjusted for relocation and shadowing. Clearing the Hit <DEL>
message.
The Hit <DEL> message is cleared. The <WAIT> message is displayed. Starting the
DMA and Interrupt controller test.
60h
62h
DMA page register test passed. Performing the DMA controller 1 base register test.
DMA controller 1 base register test passed. Performing the DMA controller 2 base register
test.
65h
66h
62h
7Fh
80h
DMA controller 2 base register test passed. Programming DMA controllers 1 and 2.
Completed programming DMA controllers 1 and 2. Initializing the 8259 interrupt controller.
Test extended memory address lines
Extended NMI source enabling is in progress.
Keyboard test has started. Clearing the output buffer and checking for stuck keys. Issuing
the keyboard reset command.
81h
82h
83h
84h
Keyboard reset error or stuck key was found. Issuing the keyboard controller interface test
command.
Keyboard controller interface test completed. Writing the command byte and initializing
the circular buffer.
Command byte was written and global data initialization has completed. Checking for a
locked key.
Locked key checking is over. Checking for memory size mismatch with CMOS RAM data.
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6 Tests and Error Messages
Order in Which POST Tests Are Performed
Checkpoint
Code
POST Routine Description (Continued)
(A Check Point Code is NOT an error code or error number)
85h
Memory size check is done. Displaying a soft error and checking for a password or
bypassing WINBIOS Setup.
86h
87h
Password was checked. Performing any required programming before WINVIOS Setup.
Programming before WINBIOS Setup has completed. Uncompressing the WINBIOS Setup
code and executing the AMIBIOS Setup or WINBIOS Setup utility.
88h
Returned from WINBIOS Setup and cleared the screen. Performing any necessary
programming after WINBIOS Setup.
89h
8Bh
Programming after WINBIOS Setup has completed. Display the power on screen message.
First screen message has been displayed. The <WAIT...> message is displayed.
Performing PS/2 mouse check and extended BIOS data area allocation check.
8Ch
8Dh
8Fh
91h
95h
96h
97h
Programming the WINBIOS Setup options.
WINBIOS Setup options are programmed. Resetting the hard disk drive controller.
Hard disk drive controller has been reset. Configuring the floppy disk drive controller.
Floppy disk drive controller has been configured. Configuring the hard disk drive controller.
Initializing the bus option ROMs from C800.
Initializing before passing control to the adaptor ROM at C800.
Initialization before the C800 adaptor ROM gains control has completed. The adaptor ROM
is then checked.
98h
99h
Adaptor ROM has control and has now returned control to BIOS POST. Performing any
required processing after the option ROM returned control.
Any initialization required after the option ROM test has completed. Configuring the timer
data area and printer bas address.
9Ah
9Bh
Set the timer and printer bas address. Setting the RS-232 bas address.
Returned after setting the RS-232 bas address. Performing any required initialization
before the co-processor test.
9Ch
9Dh
9Eh
Required initialization before the co-processor test is over. initializing the co-processor.
Co-processor initialized. Performing any required initialization after the co-processor test.
Initialization after the co-processor test is complete. Checking the extended keyboard IDn
and Num Lock key. Issuing the keyboard ID command.
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6 Tests and Error Messages
Order in Which POST Tests Are Performed
Checkpoint
POST Routine Description (Continued)
(A Check Point Code is NOT an error code or error number)
Code
A2h
A3h
A4h
A5h
Displaying any soft key errors.
Soft error display has completed; Setting the keyboard typematic rate.
Keyboard typematic rate is set. Programming the memory wait states.
Memory wait state programming is over. Clearing the screen and enabling parity and the
NMI.
A7h
NMI and parity enabled. Performing any initialization required before passing control to the
adaptor ROM at E000h.
A8h
A9h
Initialization before passing control to the adaptor ROM at E000h
Returned from adaptor ROM at E000h control. Performing any initialization required after
the E000h option ROM had control.
AAh
INitialization after E000h option ROM control has completed. Displaying the system
configuration.
ABh
ACh
B0h
B1h
00h
Building the multi-processor table, if necessary.
Uncompressing the DMI table data and initializing DMI POST.
System configuration is displayed.
Copying any code to specific areas.
Code copying to specific area is done. Passing control to INT 19h boot loader.
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6 Tests and Error Messages
Error Message Summary
Error Message Summary
The Error Message Utility or EMU (.COM application written in C language)
is to provide full screen online help messages (localized) on most common
POST errors. In the event of an error generated in POST (Power-On-Self-
Test) during the boot process, there are two beeps, then the Error Setup
Manager gives access to one or more detected errors. For each error, a
specific message is displayed on the monitor screen.
NOTE
If the monitor is not available, a short error message is displayed on the
MaxiLife LCD panel.
All errors detected by the POST have an associated EMU message. The
following examples give the different types of error categories.
Category #1:
ERROR
If an error can be bypassed with <F1> or solved through Setup, the POST should prompt:
0070
CPU Terminator Card Error
Press <Enter> to view more information about error1
<F1= Continue>
1.
Intervention is required. For example, install a CPU Terminator Card in the vacant processor socket.
Category #2:
If the error is only a warning (i.e. key stuck), the POST should prompt:
Keyboard Warning1
WARNING
00100
1.
Warning message followed by a short timeout period. Then the system continues to boot without any
required intervention.
Category #3:
00xx
If the error is serious, the POST should prompt:
The BIOS has detected a serious problem that prevents your PC from booting
Press <Enter> to view more information about error
<F1= Continue>, <F2= Fix>
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6 Tests and Error Messages
Error Message Summary
The following table lists the error codes, causes and symptoms, and the
accompanying short messages that are displayed in the upper left corner of
the screen.
Also shown are the corresponding MaxiLife messages (where available) that
are displayed on the LCD panel.
Associated MaxiLife
Code #
Cause / Symptom
Short message (US)
LCD message
0000h
0010h
0011h
Any POST error that is not listed below
CMOS Checksum error
System error
Incorrect CMOS Checksum
Date and Time Lost
Date and Time (CMOS backed up from SE2P)
ERROR !
Date & Time Lost
0012h
0021h
0040h
PC configuration lost (both SE2P and CMOS lost)
Any POST error regarding an external PCI card issue
Serial number corrupted (bad checksum or null #)
Incorrect PC Configuration
PCI Error
Invalid PC Serial Number
ERROR !
Serial Number
0041
Product flag not initialized or bad
Invalid Internal product type
Fan Not Connected
ERROR !
Product Name
0050h
Fan not connected (according to CPU)
ERROR !
CPU FAN
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6 Tests and Error Messages
Error Message Summary
Associated MaxiLife
LCD message
Code #
Cause / Symptom
Keyboard stuck key
Short message (US)
0100h
0101h
0102h
0103h
0108h
0105h
0106h
Keyboard Error
Keyboard self-test failure
Keyboard Error
ERROR !
Keyboard Error
Keyboard controller I/O access failure
Keyboard not connected
Keyboard Error
Keyboard Not Connected
Keyboard and Mouse Error
Mouse Error
Keyboard and Mouse connectors reversed
Mouse self-test failure
ERROR !
Mouse not detected (but configured in CMOS)
Mouse Error
Mouse Error
0300h
0301h
0305h
Floppy A: self-test failure
Flexible Disk Drive A Error
Flexible Disk Drive B Error
Flexible Disk Drive Error
ERROR !
Floppy Drive A
Floppy B: self-test failure
ERROR !
Floppy Drive B
Floppy A: plugged on Floppy B: connector
ERROR !
Floppy
0306h
0307h
General failure on floppy controller
Conflict on floppy disk controller
Flexible Disk Drive Error
Flexible Disk Drive Error
ERROR !
Floppy Ctrl
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6 Tests and Error Messages
Error Message Summary
Associated MaxiLife
LCD message
Code #
Cause / Symptom
Short message (US)
0400h
CD-ROM test failure
CD-ROM Error
ERROR !
CD-ROM
0500h
0501h
General failure on HDD onboard primary ctrl
General failure on HDD onboard secondary ctrl
IDE Device Error
IDE Device Error
ERROR !
IDE Device
0510h
0511h
0512h
0513h
0530h
0531h
0540h
HDD # 0 self-test error
IDE Device # 0 Error
IDE Device # 1 Error
IDE Device # 2 Error
IDE Device # 3 Error
IDE Device Error
ERROR !
HDD # 1 self-test error
IDE Device “n”
HDD # 2 self-test error
HDD # 3 self-test error
Found a drive on slave connector only (primary)
Found a drive on slave connector only (secondary)
Conflict on hard disk controller
ERROR !
IDE Device Error
IDE Device
IDE Device Error
0800h
Found lower cache size than configured
System Cache Error
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6 Tests and Error Messages
Error Message Summary
The following table summarizes the most significant of the problems that
can be reported.
Message
Explanation or Suggestions for Corrective Action
Operating system not found or all
devices have been checked and no
operating system has been found
Check whether the disk, HDD, FDD or CD-ROM disk drive is
connected.
If it is connected, check that it is detected by POST.
Check that your boot device is enabled on the Setup Security
menu.
If the problem persists, check that the boot device contains the
operating system.
Missing operating system
If you have configured HDD user parameters, check that they are
correct. Otherwise, use HDD type “Auto” parameters.
Resource Allocation Conflict -PCI device Clear CMOS.
0079 on system board
Video Plug and Play interrupted or
You may have powered your computer Off/On too quickly and the
failed. Re-enable in Setup and try again computer turned off Video plug and play as a protection.
System CMOS checksum bad - run
Setup
CMOS contents have changed between 2 power-on sessions. Run
Setup for configuration.
No message, system “hangs”
Check that the main memory modules are correctly set in their
sockets.
Other
An error message may be displayed and the computer may “hang”
for 20 seconds and then beep. The POST is probably checking for a
mass storage device which it cannot find and the computer is in
Time-out Mode. After Time-out, run Setup to check the
configuration.
Beep Codes
If an error occurs during the POST, which prevents the PC Workstation from
starting, and before the display device has been initialized, a series of beep
codes are issued. Beep codes indicate that a fatal error has occurred and can
be reported one after another if there is more than one detected error. In
this case, the first detected error is the most important.
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6 Tests and Error Messages
Error Message Summary
These codes are useful for identifying the error when the system is unable to
display the error message.
Number
of Beeps
Description
Action to Take...
1
The memory refresh circuitry is
faulty.
Check that:
•
•
Memory is installed correctly.
Correct memory modules are being used.
2
Parity error in the base memory (the
first 64 KB block) of memory.
If the error still occurs, replace the memory.
3
4
Memory error.
Clock error.
•
Check that the system board is correctly cabled
(power cables, processor and terminator).
If the error still occurs, replace the system board.
5
Processor test error.
Check that:
•
•
Processor is correctly installed.
Termination card installed in processor slot 2 in a
single processor system.
If the error still occurs, replace:
1 Processor.
2 System board.
6
7
Input/Output (I/O) error.
•
•
•
Keyboard is connected.
PCI card is installed correctly.
Termination card installed in processor slot 2 in a
single processor system.
The processor on the system board
generated an error.
•
•
There is an installed processor(s).
Processor(s) is correctly installed in the processor
slot(s).
•
•
•
Two installed processors have the same cache size
(256 k).
Termination card is installed in processor slot 2 in a
single processor system.
VRM is installed in the VRM socket in a dual proces-
sor system.
If the error still occurs, replace the system board.
8
The system video card is either
missing or faulty.
This is not a fatal error. Check that the video card is
correctly installed and cabled. If missing, install the
video card. If the error still occurs, replace it with a
known working video card.
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6 Tests and Error Messages
Error Message Summary
Number
of Beeps
Description
Action to Take...
9
The BIOS Checksum value does not
match the value encoded in the BIOS.
Perform the following actions in this order:
load the default BIOS settings.
2 Clear the CMOS. Refer to page 96 for instructions.
3 Flash the BIOS. Refer to page 95 for instructions on
how to update the BIOS.
If the error still occurs, replace the system board.
10
11
The CMOS RAM has failed.
Perform the following actions in this order:
load the default BIOS settings.
2 Clear the CMOS. Refer to page 96 for instructions.
3 Flash the BIOS. Refer to page 95 for instructions on
how to update the BIOS.
If the error still occurs, replace the system board.
The cache memory test failed.
Replace the processor(s).
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6 Tests and Error Messages
Error Message Summary
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7
Connectors and Sockets
IDE Drive Connectors
IDE Connectors
Flexible Disk Drive Data Connector
Pin
Signal
Reset#
HD7
HD6
HD5
HD4
Pin
Signal
Ground
HD8
HD9
Pin
Signal
Ground
Ground
Ground
Ground
Ground
Pin
Signal
LDENSEL#
Microfloppy
EDENSEL
INDX#
1
3
5
7
9
2
4
6
8
1
3
5
7
9
2
4
6
8
HD10
10 HD11
12 HD12
14 HD13
16 HD14
10 MTEN1#
12 DRSEL0#
14 DRSEL1#
16 DTEN0#
18 DIR#
11 HD3
13 HD2
15 HD1
17 HD0
19 Ground 7
21 DMARQ
23 DIOW#
25 DIOR#
27 IORDY
29 DMACK#
31 INTRQ
33 DA1
11 Ground
13 Ground
15 Ground
17 Ground
19 Ground
21 Ground
23 Ground
25 Ground
27 Ground
29 Ground
31 Ground
33 Ground
18 HD15
20 orientation key
22 Ground 2
24 Ground 3
26 Ground 4
28 CSEL
30 Ground 5
32 IOCS16#
34 PDIAG#
36 DA2
20 STP#
22 WRDATA#
24 WREN#
26 TRK0#
28 WRPRDT#
30 RDDATA#
32 HDSEL1#
34 DSKCHG#
35 DA0
37 CS1FX#
39 DASP#
38 CS3FX#
40 Ground 6
Battery Pinouts
Battery Connections
Battery Connections
Pin
Signal
GROUND
VBAT1
VBAT2
Pin
Signal
VBAT1
GROUND
1
2
3
1
2
131
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7 Connectors and Sockets
VRM
VRM
Pin
Signal
5Vin_5
Pin
Signal
5Vin_2
A1
A2
A3
A4
A5
B1
B2
B3
B4
B5
5Vin_4
5Vin_3
12Vin_1
12Vin_2
ISHARE
VID0
5Vin_1
5Vin_0
12Vin_0
SENSE
OUTEN
VID1
A6
A7
B6
B7
A8
VID2
B8
VID3
A9
VID4
VCCP10
GND5
VCCP9
GND4
VCCP8
GND3
VCCP7
GND2
VCCP6
GND1
B9
PWRGOOD
GND0
VCCP4
GND10
VCCP3
GND9
VCCP2
GND8
VCCP1
GND7
A10
A11
A12
A13
A14
A15
A16
A17
A18
A19
A20
B10
B11
B12
B13
B14
B15
B16
B17
B18
B19
B20
VCCP0
GND6
VCCP5
132
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7 Connectors and Sockets
SCSI Connectors
SCSI Connector
Signal Pin
Pin
Signal
+SCDBI2
+SCDBI4
+SCDBP1
+SCDB1
+SCDB3
Pin
Signal
Pin
Signal
1
3
5
7
9
2
4
6
8
+SCDBI3
+SCDBI5
+SCDB0
+SCDB2
35 -SCDBI2
37 -SCDBI4
39 -SCDBP1
41 -SCDB1
43 -SCDB3
45 -SCDB5
47 -SCDB7
49 Ground3
51 TERMPWR2
53 RESERVED1
55 -ATN
36 -SCDBI3
38 -SCDBI5
40 -SCDB0
42 -SCDB2
44 -SCDB4
46 -SCDB6
48 -SCDB8
50 INT_DEV
52 TERMPWR3
54 Ground5
56 Ground6
58 -ACK
10 +SCDB4
12 +SCDB6
14 +SCDB8
16 DiffSenGround
18 TERMPWR1
20 Ground1
22 Ground2
24 +ACK
11 +SCDB5
13 +SCDB7
15 Ground0
17 TERMPWR0
19 RESERVED2
21 +ATN
23 +BSY
57 -BSY
25 +RST
26 MSG
59 -RST
60 -MSG
27 +SEL
28 +C_D
61 -SEL
62 -C_D
29 +REQ
30 +I_O
63 -REQ
64 -I_O
31 +SCDB8
33 +SCDB10
32 +SCDB9
34 +SCDB11
65 -SCDB8
67 -SCDB10
66 -SCDB9
68 -SCDB11
Additional SCSI LED
Connector
Additional SCSI LED Connector
(4-pin)
Pin Signal
1
2
3
4
Not used
LED Out
LED Out
Not used
133
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7 Connectors and Sockets
Power Supply Connector
(20-pin) and
Aux Power Connector
Power Supply Connector for
System Board (20-pin)
Aux. Power
Connector
Pin
Signal
Pin
Signal
3V3_2
3V3_3
GROUND2
5V_1
GROUND4
5V_2
GROUND7
PW0K
5VSB
Pin
Signal
11 3V3_MAINSENSE
12 12V_NEG
13 GROUND_1
14 _PSON
15 GROUND3
16 GROUND5
17 GROUND6
18 5V_NEG
19 5V_3
1
2
3
4
5
6
7
8
9
1
2
3
4
5
6
GROUND1
GROUND2
GROUND3
3V3_1
3V3_2
5V
20 5V_4
10 12V
Wake On LAN
Connector
Wake On LAN (WOL)
Pin
Signal
5V STDBY
Ground
1
2
3
LAN_WAKE
Rear Fan Connector
Fan Connector
Pin Signal
Ground
1
2
3
12V Power
Sense
134
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7 Connectors and Sockets
PCI Fan
Connector
3
2
1
Fan Connector
Signal
Pin
1
2
3
Sense
+12 V Power (or less, depending on desired fan speed)
Ground
Vertical plastic latch for
keying and attachment
Status Panel and
Intrusion
Status Panel
Intrusion
Pin
Signal
Pin
Signal
Pin
Signal
1
3
5
7
9
B1_LCD1
Ground
HDD_LED_K
ON_OFF
2
4
6
8
B1_LCD2
4
3
1
CLOSE
COMMON
OPEN
PWR_LED_A
BACKLIGHT
RED-LED_A
GROUND2
10 HDD_LED_A
12 SDA
11 _RESET
13 VSTDBY_3V
14 SCL
Hard Disk Drive
Temperature Connector
HDD Temperature
Pin
Signal
1
2
4
3V3
SENSE
Ground
135
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7 Connectors and Sockets
VGA DB15 Connector
VGA DB Connector Pins
Standard VGA
Analog RED
Pin
1
2
3
4
5
6
7
8
DDC2B
Analog RED
Analog GREEN
Analog BLUE
Monitor ID2
n/c
Analog RED return
Analog GREEN return
Analog BLUE return
n/c
Digital ground
Monitor ID 0
Monitor ID 1
HSYNC
Analog GREEN
Analog BLUE
Monitor ID2
DDC return
Analog RED
Analog GREEN
Analog BLUE
VCC supply (optional)
Digital ground
Monitor ID 0
Data:SDA
9
10
11
12
13
14
15
HSYNC
VSYNC
VSYNC
n/c
Clock:SCL
LCD Panel
LCD Panel
Pin
Signal
Pin
Signal
1
3
5
7
9
SCL_5V
SDA_5V
not connected
RX_BB
2
4
6
8
VSTDBY 5V
BT_LCD 1
BT_LCD 2
TX_BB
Ground
10 Ground
Ethernet UTP Connector
136
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7 Connectors and Sockets
Rear Panel Socket Pin Layouts
Rear Panel Socket Pin Layouts
Mouse Connector
Keyboard Connector
USB Connectors (two)
Serial Port A
9-pin Serial Port
Connectors
25-pin Parallel Port Connector
Serial Port B
Line Out
MIDI/Joystick Connector
Audio jacks
Line In
MIC
Keyboard (left) and
Mouse (right)
Connectors
Keyboard and Mouse Connectors
4
3
6
5
2
1
Pin
Signal
Pin
Signal
Not Used
+5 V dc
Not Used
1
3
5
Data
Ground
Clock
2
4
6
137
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7 Connectors and Sockets
Rear Panel Socket Pin Layouts
USB Stacked Connector The below USB graphic and pinout table is for a USB connector. However,
the information is also valid for a USB Stacked Connector.
USB Stacked Connector
Pin
Signal
1
2
3
4
VBus
D-
D+
GND
1
2 3
4
Shell Shield
Even though the below graphic and pinout table is for one connector, the
information is valid for both the Serial Port A and Serial Port B Connectors.
Serial Port A (top) and
Serial Port B (bottom)
Connectors
9-pin Serial Port Connector
1
Pin
Signal
Pin
Signal
(DCD) CF
(RD) BB
(TD) BA
(DTR) CD
(GND) AB
6
7
2
3
4
1
2
3
4
5
6
7
8
9
(DSR) CC
8
9
(RTS) CA
(CTS) CB
(R) CE
5
138
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7 Connectors and Sockets
Rear Panel Socket Pin Layouts
25-pin Parallel Connector
25-pin Parallel Connector
13
12
11
10
Pin
Signal
Pin
Signal
25
13 SLCT
12 PE
11 BUSY
10 ACK
9
8
7
6
5
4
3
2
1
24
23
25 Ground
24 Ground
23 Ground
22 Ground
21 Ground
20 Ground
19 Ground
18 Ground
17 SLIN
22
21
20
9
8
7
6
5
D7
D6
D5
D4
D3
D2
D1
DO
19
18
17
16
15
4
3
2
1
16 INIT
15 ERROR
14 AUTO-FD
14
Strobe
MIDI/Joystick
Connector
MIDI/Joystick Connector
Pin
Signal
Pin
Signal
8
8
7
6
5
4
3
2
1
+5 V
A-2
A-Y
9
7
6
10
9
+5 V
11
12
13
5
4
3
2
1
10 B-1
11 B-X
12 MIDI-OUT
13 B-Y
14 B-2
15 MIDI-IN
Ground
Ground
A-X
14
15
A-1
+5 V
External Audio Jacks
On the PC Workstation there is a Line In jack, Line Out jack and Mic In jack
located on the rear panel. These external jacks are standard connectors.
139
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7 Connectors and Sockets
Rear Panel Socket Pin Layouts
140
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