Fujitsu Computer Hardware M200R User Manual

GP 7000F

M200, M200R, M400A, M400R, M600, M600R

Edition December 1999

1 Preface

This manual contains the operating instructions for the GranPower7000 (GP 7000F) system

from Fujitsu Siemens Computers. A chapter about the connection of Siemens specific de-

vices precedes the actual operating instructions.

U42335-J-Z775-1-76

2 Console connections to GP 7000F

This chapter describes connections to the M200, M200R, M400A, M400R, M600 and

M600R models of the Fujitsu Siemens Computers GP 7000F system with a view to

attaching existing components of Siemens devices to Fujitsu equipment. Graphical or serial

consoles can be connected.

The GP 7000F systems do not support SIDATA

(installation by customer is not allowed).

2.1 Graphical console

It is preferable to connect graphical consoles.

GP 7000F

system

V.24 (A)

Teleservice

V.24 (B)

preferably

10/100 Mbit Eth

Monitor

PCI graphics

controller

D:GP70F-CC10

(option)

Keyboard

Mouse

SUNAdapt

Keyboard/mouse

(Keyboard with trackball

in the 19" rack)

U42335-J-Z775-1-76

Graphical console

Console connections to GP 7000F

The following technical requirements must be met in order to connect graphical consoles:

–

PCI graphics controller D:GP70F-CC10

The GP 7000F models can be made into a workstation or server with a graphical

console by means of a PCI graphics card featuring a frame buffer.

–

An RM keyboard and mouse can be connected via the D:GP70F-AN10 interface

converter. All models in the GP 7000F server family have a Sun-compatible

keyboard/mouse interface. The adapter converts the interface signals to allow the

keyboard and 3-button mouse featuring a PC-compatible interface to be connected

to the server.

PS/2 mouse

PS/2 keyboard

Sun keyboard/

mouse interface

Keyboard/mouse adapter

–

Monitor (CRT or LCD)

Keyboard

Mouse

The same monitor, keyboard and mouse types have been released as for the Siemens

systems.

U42335-J-Z775-1-76

Console connections to GP 7000F

Serial console

2.2 Serial console

A converter is used here to convert the 25-pin connector of the GP 7000F system to the

usual 9-pin V.24/COM connector. This converter is preinstalled at the factory. A VT100 or

VT200 emulation must be available for a serial console to be used.

9-pin

25-pin

25/9-pin converter

U42335-J-Z775-1-76

Serial console

Console connections to GP 7000F

2.2.1 LAN console

A Solaris PC is connected as a LAN console via an RCA (Remote Communication Adapter)

attached to the V.24 console interface. Up to six servers can be attached to one RCA.

GP 7000F

system

RCA

V.24 (A)

V.24 (B)

LAN

console

Ethernet hub

10/100 Mbit Eth

Teleservice

Keyboard/mouse

U42335-J-Z775-1-76

Console connections to GP 7000F

Serial console

2.2.2 Standard PC with terminal emulation

a) Windows 98 or NT (with NetTerm, for instance, but not with HyperTerminal)

b) LINUX (with Minicom or Seyon)

c) Solaris (cu)

(NT, Windows)

GP 7000F

system

V.24 (A)

Teleservice

V.24 (B)

preferably

10/100 Mbit Eth

Keyboard/mouse

U42335-J-Z775-1-76

Teleservice

Console connections to GP 7000F

2.2.3 TC20 or T100

Use of these terminals is intended as a migration solution only.

α ^console

GP 7000F

system

V.24 (A)

V.24 (B)

Teleservice

preferably

10/100 Mbit Eth

Keyboard/mouse

When operating with the LAN console, TC20 or T100 it is not possible to access the

Open Boot PROM using the BREAK signal.

2.3 Teleservice

The teleservice modem has to be connected via V.24 to the system board. The modem has

to be ordered separately owing to national variants.

If a LAN console is used, connection of the modem is to the LAN console PC. Thus one

teleservice port serves all connected servers.

U42335-J-Z775-1-76

P321-E102-02EN

USER'S MANUAL

IMPORTANT READING

FOR SAFE OPERATION

Handling of This Manual

This manual contains important information regarding the use and handling of this product. Read this manual

thoroughly. Pay special attention to the section "Important Warnings". Use the product according to the

instructions and information available in this manual.

FUJITSU makes every effort to prevent users and bystanders from being injured or from suffering from damages

to their property. Use the product according to this manual.

IMPORTANT NOTE TO USERS

READ CAREFULLY ALL THROUGHOUT THIS MANUAL BEFORE USING THE PRODUCT. INCORRECT

USE OF THE PRODUCT MAY CAUSE UNEXPECTED DAMAGE TO THE USERS OR BYSTANDERS.

While all efforts have been made to ensure the accuracy of all information in this manual, FUJITSU assumes no

liability to any party for any damage caused by errors or omissions or by statement of any kind in this manual, its

updates or supplements, whether such errors are omissions or statements resulting from negligence, accidents, or

any other cause. FUJITSU further assumes no liability for incidental or consequential damages arising from the

use of this manual. FUJITSU disclaims all warranties regarding the information contained herein, whether

expressed, implied, or statutory.

DO NOT MAKE MECHANICAL OR ELECTRICAL MODIFICATIONS TO THE EQUIPMENT. FUJITSU

LIMITED IS NOT RESPONSIBLE FOR REGULATORY COMPLIANCE OR SAFETY OF A MODIFIED

FUJITSU PRODUCT.

DO NOT REPAIR OR INSTALL THE EQUIPMENT BY USERS. IT SHOULD BE PERFORMED BY A

TRAINED SERVICE ENGINNER.

THIS PRODUCT IS NOT DESIGNED FOR USE IN ON-LINE CONTROL EQUIPMENT IN HAZARDOUS

ENVIRONMENTS SUCH AS OPERATION OF NUCLEAR FACILITIES, AIRCRAFT NAVIGATION OR

CONTROL, OR DIRECT LIFE SUPPORT MACHINES. HENCE, IF THESE PRODUCTS ARE USED IN

SUCH HAZARDOUS ENVIRONMENTS, FUJITSU LIMITED AND SUN MICROSYSTEMS, INC. DOES

NOT WARRANT THEM AT ALL.

FUJITSU reserves all the right to make changes to any products herein to improve reliability, function, or design,

without further notice and without obligation.

FCC Class A Notice

This equipment has been tested and found to comply with the limits for a Class A digital device,

pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection

against harmful interference when the equipment is operated in a commercial environment. This

equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in

accordance with the instruction manual, may cause harmful interference to radio communications.

Operation of this equipment in a residential area is likely to cause harmful interference in which

case the user will be required to correct the interference at his own expense.

DOC Class A Notice

This class A digital apparatus meets all requirements of the Canadian Interference-Causing

Equipment Regulations.

Cet appareil numerique de la class A respecte toutes les exigences du Reglement sur le material

brouiller du Canada.

Warning This is a Class A product of Electromagnetic Interference (EMI) standard. In a domestic

environment this product may cause radio interference in which case the user may be required to

take adequate measures.

VCCI/FCC label

The VCCI/FCC labels for models 200R, 400R, and the Expansion ﬁle unit (GP7B7FLxx) are afﬁxed in the

following locations:

VCCI / FCC label

Laser Radiation Statement (EU)

Class 1 Laser Product

TRADEMARK ACKNOWLEDGMENTS

licenses restricting its use, copying, distribution, and recompilation. No part of this product or related

documentation may be reproduced in any form by any means without prior written authorization of Fujitsu

Limited and its licensors, if any.

RESTRICTED RIGHTS LEGEND: Use, duplication, or disclosure by the United States Government is subject to

the restrictions set forth in DFARS 252.227-7013 (c) (1) (ii) and FAR 52.227-19.

The product described in this book may be protected by one or more U.S. patents, foreign patents, or pending

applications.

iii

TRADEMARKS

Fujitsu and the Fujitsu logo are trademarks of Fujitsu Limited.

SPARC64 is a registered trademark or trademark of SPARC International, Inc. in the United States

and other countries used under license by Fujitsu Ltd. Products bearing SPARC64 trademarks

comply with SPARC V9 architecture developed by SPARC International, Inc. Products bearing the

SPARC trademarks are based on an architecture originally developed by Sun Microsystems, Inc. "

Sun, the Sun logo, Sun Microsystems, Sun Microsystems Computer Corporation, the Sun

Microsystems Computer Corporation logo, SunSoft, the SunSoft logo, Solaris, Solaris PEX, SunOS,

SunLink, OpenWindows, Direct Xlib, SunSHIELD, NeWS, NeWSprint, SunInstall, DeskSet, ONC,

ONC+, OpenBoot, Online DiskSuite, NFS, JumpStart, AnswerBook, the AnswerBook logo,

SunDiag, ToolTalk, Sun PC, and Wabi are trademarks or registered trademarks of Sun

Microsystems, Inc., in the U.S. and certain other countries.

UNIX is a registered trademark in the United States and other countries, licensed exclusively

through X/Open Company Ltd.

All other product names mentioned herein are the trademarks of their respective owners.

THIS PUBLICATION IS PROVIDED "AS IS" WITHOUT WARRANTY OF ANY KIND, EITHER EXPRESS

OR IMPLIED, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OR

MERCHANTABILITY, FITNESS FOR A PARTICULAR POURPOSE, OR NONINFRINGEMENT.

THIS PUBLICATION COULD INCLUDE TECHNICAL INACCURACIES OR TYPOGRAPHICAL ERRORS.

CHANGES ARE PERIODICALLY ADDED TO THE INFORMATION HEREIN; THESE CHANGES WILL BE

INCORPORATED IN NEW EDITIONS OF THE PUBLICATION. FUJITSU LIMITED MAY MAKE

IMPROVEMENTS AND/OR CHANGES IN THE PRODUCT(S) AND/OR THE PROGRAM(S) DESCRIBED

IN THIS PUBLICATION AT ANY TIME.

Documents produced by FUJITSU may contain technology controlled under the

Foreign Exchange and Foreign Trade Control Law of Japan. The document

which contains such technology should not be exported from Japan or

transferred to anyone other than residents of Japan without first obtaining

license from the Ministry of International Trade and Industry of Japan in

accordance with the above law.

Second Edition: November 1999

This manual may be best printed on A4 size. If it is printed on 8.5" ( 11" size, adjust your printer setting in advance.

The contents of this manual may be revised without prior notice.

The contents of this manual shall not be disclosed in any way or reproduced in any media without the express

written permission of Fujitsu Limited.

Preface

This manual explains the function, conﬁguration, and operation of GP7000F. This manual is intended for the

experienced users who have a basic knowledge of computer systems.

The structure of this manual is as follows:

Introduction to Chapters

CHAPTER 1 Product Outline

Chapter 1 describes the distinctive features of GP7000F.

CHAPTER 2 M200 Main Cabinet

Chapter 2 explains the device conﬁguration and operation of M200 Main Cabinet.

CHAPTER 3 M200R Main Cabinet

Chapter 3 explains the device conﬁguration and operation of M200R Main Cabinet.

CHAPTER 4 M400A Main Cabinet

Chapter 4 explains the device conﬁguration and operation of M400A Main Cabinet.

CHAPTER 5 M400R Main Cabinet

Chapter 5 explains the device conﬁguration and operation of M400R Main Cabinet.

CHAPTER 6 M600 Main Cabinet

Chapter 6 explains the device conﬁguration and operation of M600 Main Cabinet.

CHAPTER 7 M600R Main Cabinet

Chapter 7 explains the device conﬁguration and operation of M600R Main Cabinet.

CHAPTER 8 Expansion Disk Cabinet

Chapter 8 describes the distinctive features of the GP7000F external disk cabinet.

CHAPTER 9 Expansion File Unit Type-2(GP7B7FLxx)

Chapter 9 describes the distinctive features of the GP7000F rack mount expansion disk unit.

CHAPTER 10 Expansion File Unit(GP7B7FU1xx)

Chapter 10 describes the distinctive features of the GP7000F rack mount expansion disk unit.

CHAPTER 11 Input-Output Units

Chapter 11 explains the speciﬁcations of Input-Output units.

CHAPTER 12 External Interface

Chapter 12 explains the external interface of the main cabinet such as UPS Control Interface,

RS232C Interface, and Centronics Interface.

CHAPTER 13 RCI Setting

Chapter 13 explains the description of RCI commands to be used for managing nodes.

CHAPTER 14 Troubleshooting

Chapter 14 will help the user isolate the cause of system failures, and provides suggested solutions.

Conventions for Warning Messages

A warning message consists of a signal and statements. The signal consists of a symbol and a signal word or just a

signal word.

The following are the signals and their meanings:

CAUTION

This indicates a hazardous situation could result in minor or moderate personal injury if the user

does not perform the procedure correctly. This signal also indicates that damage to the product or

other property, may occur if the user does not perform the procedure correctly.

IMPORTANT

This indicates information that could help the user use the product more efﬁciently.

In the text, the signal is centered, followed below by the indented message. A wider line space precedes and

follows the message to show where the message begins and ends. The following is an example:

(Example)

Data destruction: Do not press these buttons before installing the necessary

CAUTION

software package. Otherwise, data may be destroyed. Turn off the system in the

OBP prompt state if the software package is not installed.

Attention

Please forward any comments you may have regarding this manual.

To make this manual easier for users to understand, opinions from readers are needed. Please write your opinions

or requests on the "Comment Form" sheet at the back of this manual and forward it to the address provided on the

sheet.

vii

Important Warnings

The following are cautions found in this manual. They have been compiled here with corresponding page

references.

A hazardous situation could result in minor or moderate personal injury if the

CAUTION

user does not perform the procedure correctly. Also, damage to the product or

other property may occur.

Task

Warning

Normal Operation

Data destruction: Pressing the RESET switch while the

system is running may destroy data.

System Installation

Be sure to install software packages from "Basic Software

Extension" or "Enhanced Support Facility. Otherwise, above

switch functions or proper messages on LCD panel are not

guaranteed.

Terminal break command

If used improper commands at the ok prompt, the GP7000F

may be destroyed. If you need to used any other commands

except shown on this manual, you should well understand

the function and usage of the command before using it.

Power Off

Be sure to eject backup tape media and any diskettes before

power-off the system, if the media are installed. Other

wise, the data on the media may be destroyed.

Normal Operation

Except in an emergency, never turn off the AC switch or

disconnect the power cable wile the GP7000F main cabinet is

turned on. If you do, data in the disk drive may be

destroyed.

viii

Task

Warning

System Installation

Install "Basic Software Extension" or "Enhanced Support

Facility"before operating the system. Without this package,

incorrect front panel operations and hardware errors may cause

the system to shutdown or destroy data.

Disk Expansion Unit

Installation

Be sure to replace the power supply fan when installing the

Disk Expansion Unit. Otherwise, the system will shutdown or

disk units will deteriorate due to a temperature rise in the

M200 main cabinet caused by insufficient cooling.

Disk Expansion Unit

Installation

If the installing location (slot) is not set or set

incorrectly, the disk drive may not be hot-swappable.

Data may be destroyed as a result of inadvertently replacing

the different disk drive. Be sure to set the installing

location (slot) correctly.

Also, while replacing or initializing NVRAM, set the

installing location again.

Normal Operation

Do not set the AC main line switch to OFF, not disconnect

the power cable or RCI cable while the GP7000F main cabinet

is powered on, unless absolutely necessary. Otherwise, the

data may be destroyed in the disk units.

Do not set the AC main line switch to OFF, nor disconnect

the power cable or RCI cable while the GP7000F main cabinet

is powered on, unless absolutely necessary. Otherwise, the

data in the disk units may be destroyed.

Replacing Disk Drives

Formatting Disk Drives

Handling Floppy Disks

When replacing the disk unit,take the following precautions.

If these precautions are not observed, the disk unit or its

data may be destroyed.

Carefully proceed formatting a disk drive. Once formatting

a disk drive, data on the disk never restored, if you don't

have backup files.

Do not eject a floppy disk while the access LED is on, other

wise the floppy disk or the data on the diskette may be

destroyed.

For information on the handling method, see Table 11.2,

"Handling floppy disks."

Ejecting DAT cartridge

Data destruction: Do not press the eject switch during an

operation (when the tape LED is blinking). If the eject

switch is held down for about 5 seconds or pressed 3 times

within a 5 minutes period, the forced ejection function may

execute and the data being written may be destroyed.

Handling DAT cartridge

Storing 8-mm cartridge

Ejecting QIC cartridge

Storing QIC cartridge

When using the data cartridge (DAT), take the following

precautions. If these precautions are not observed, the

DAT unit or its data may be destroyed.

When using or storing the data cartridge, take the following

precautions. If these precautions are not taken, the data

on 8-mm tape may be destroyed.

Data destruction: Do not press the eject switch during an

operation. The forced ejection function may operate and

data being written may be destroyed.

When using or storing the data cartridge, take the following

precautions. If these precautions are not taken, the QIC

tape unit or its data may be destroyed.

CONTENTS

CHAPTER 1

Product Outline

1.1

1.2

1.3

1.4

1.5

1.6

1.7

Key Features

Operator Panel

External Interface

Console

Power On/Off

Installation of Basic Software Extension or Enhanced Support Facility

local-mac-address Property

CHAPTER 2

M200 Main Cabinet

2.1

2.2

2.3

2.4

2.5

2.6

Overview

Device Conﬁguration

Systemboard

Disk Units

PCI Slots

Installation

CHAPTER 3

CHAPTER 4

CHAPTER 5

M200R Main Cabinet

3.1

3.2

3.3

3.4

3.5

3.6

Overview

Device Conﬁguration

Systemboard

Disk Units

PCI Slots

Installation

M400A Main Cabinet

4.1

4.2

4.3

4.4

4.5

4.6

Overview

Device Conﬁguration

Systemboard

Disk Units

PCI Slots

Installation

M400R Main Cabinet

5.1

5.2

5.3

5.4

5.5

5.6

Overview

Device Conﬁguration

Systemboard

Disk Units

PCI Slots

Installation

CHAPTER 6

M600 Main Cabinet

6.1

6.2

Overview

Device Conﬁguration

CONTENTS

6.3

6.4

6.5

6.6

Systemboard

Disk Units

PCI Slots

Installation

CHAPTER 7

M600R Main Cabinet

7.1

7.2

7.3

7.4

7.5

7.6

Overview

Device Conﬁguration

Systemboard

Disk Units

PCI Slots

Installation

CHAPTER 8

CHAPTER 9

CHAPTER 10

Expansion Disk Cabinet

8.1

8.2

8.3

8.4

Product Outline

Device Conﬁguration

Hot System Replacement

Installation

101

102

Expansion File Unit Type-2 (GP7B7FLxx)

105

9.1

9.2

9.3

9.4

Product Outline

106

107

109

110

Device Conﬁguration

Hot System Replacement

Installation

Expansion File Unit (GP7B7FU1xx)

113

114

10.1

Product Outline

iii

10.2

10.3

10.4

Device Conﬁguration

Hot System Replacement

Installation

115

117

118

CHAPTER 11

Input-Output Units

121

11.1

11.2

11.3

11.4

11.5

11.6

11.7

Disk Units

122

123

126

128

129

135

140

Floppy Disk Units

CD-ROM Unit

Tape Unit

DAT Unit

8-mm Tape Unit

QIC Tape Unit

CHAPTER 12

CHAPTER 13

CHAPTER 14

External Interfaces

145

12.1

12.2

12.3

UPS Control Interface

RS232C Interface

Parallel Interface

146

148

151

RCI Setting

153

13.1

13.2

13.3

Overview

154

155

RCI Commands

Liquid Crystal Display (LCD) Speciﬁcations

Troubleshooting

157

14.1

14.2

14.3

Overview

158

159

Commands at the ok prompt

Initial Diagnosis Sequence

CONTENTS

14.4

SCF Error Messages

160

ILLUSTRATIONS

Figure 1.1

Figure 1.2

Operator Panel (M200, M600)

Operator Panel (M200R, M400A, M400R, M600R)

Figure 2.1

Figure 2.2

Figure 2.3

Figure 2.4

Figure 2.5

Front View of M200 Main Cabinet

Open View of M200 Main Cabinet

Rear View of M200 Main Cabinet

Systemboard Layout of M200

Disk Drive Bays of M200 Main Cabinet

Figure 3.1

Figure 3.2

Figure 3.3

Figure 3.4

Front View of M200R Main Cabinet

Open View of M200R Main Cabinet

Rear View of M200R Main Cabinet

Systemboard Layout of M200R

Figure 4.1

Figure 4.2

Figure 4.3

Figure 4.4

Front View of M400A Main Cabinet

Open View of M400A Main Cabinet

Rear View of M400A Main Cabinet

Systemboard Layout of M400A

Figure 5.1

Figure 5.2

Figure 5.3

Figure 5.4

Front View of M400R Main Cabinet

Open View of M400R Main Cabinet

Rear View of M400R Main Cabinet

Systemboard Layout of M400R

Figure 6.1

Front View of M600 Main Cabinet

vii

Figure 6.2

Figure 6.3

Figure 6.4

Figure 6.5

Open View of M600 Main Cabinet

Rear View of M600 Main Cabinet

Systemboard Layout of M600

PCI IO Board Layout of M600

Figure 7.1

Figure 7.2

Figure 7.3

Figure 7.4

Figure 7.5

Figure 7.6

Figure 7.7

Front View of M600R Main Cabinet

Open View of M600R Main Cabinet

Front View of M600R Main Cabinet (remove Front cover)

Rear View of M600R Main Cabinet

Systemboard Layout of M600R

PCIBPR Board Layout of M600R

PCIRSR Board Layout of M600R

Figure 8.1

Figure 8.2

Figure 8.3

Front View of Expansion Disk Cabinet

Drive Bays of Expansion Disk Cabinet

Rear View of Expansion Disk Cabinet

100

Figure 9.1

Figure 9.2

Figure 9.3

Figure 9.4

Front View of Expansion File Unit Type-2

Drive Bays of Expansion File Unit Type-2

Rear View of Expansion File Unit Type-2

106

107

108

Figure 10.1

Figure 10.2

Figure 10.3

Front View of Expansion File Unit

Drive Bays of Expansion File Unit

Rear View of Expansion File Unit

114

115

116

Figure 11.1

Figure 11.2

Figure 11.3

Figure 11.4

Figure 11.5

Figure 11.6

Figure 11.7

Figure 11.8

Figure 11.9

Floppy Disk Unit Front Panel

Inserting Floppy Disks

123

124

126

127

130

132

133

136

137

139

140

142

CD-ROM Unit Front Panel

Mark on CD-ROM Disk

DAT Unit Front Panel

DDS Logos

DDS Media Recognition System Logo

Inserting a Data Cartridge in The DAT Unit

DAT Data Cartridge Write-protection Tab

Figure 11.10 8-mm Tape Unit Front Panel

Figure 11.11 8-mm Tape Data Cartridge

Figure 11.12 Cleaning Cartridge of The 8-mm Tape Unit

Figure 11.13 Cleaning Cartridge of The 8-mm Tape Unit

Figure 11.14 QIC Tape Drive Front Panel

Figure 11.15 QIC Data Cartridge

viii

ILLUSTRATIONS

Figure 12.1

Figure 12.2

Figure 12.3

Signal Conﬁguration

147

150

Conﬁguration of Signal Line when Connecting DCE Device(Example)

Conﬁguration of Signal Line when Connecting DTE Line(Example)

Figure 14.1

Power-on Sequence

159

TABLES

Table 1.1

Table 1.2

Table 1.3

Table 1.4

Table 1.5

Table 1.6

Data Protection for Components and Interfaces

POWER LED

CHECK LED

MODE Switch Settings

Connectors and Switches

Connectors and Switches for Maintenance

Table 2.1

Table 2.2

Table 2.3

Table 2.4

Fans

PCI Slot Speciﬁcations

Installation Speciﬁcations of M200 Main Cabinet (1)

Installation Speciﬁcations of M200 Main Cabinet (2)

Table 3.1

Table 3.2

Table 3.3

Table 3.4

Table 3.5

Table 3.6

Fans

Power Supply Units

PCI Slot Speciﬁcations

Mounting Combination for Expansion Rack

Installation Speciﬁcations of M200R (1)

Installation Speciﬁcations of M200R (2)

Table 4.1

Table 4.2

Table 4.3

Table 4.4

Table 4.5

Fans

Power Supply Units

PCI Slot Speciﬁcations

Installation Speciﬁcations of M400A Main Cabinet (1)

Installation Speciﬁcations of M400A Main Cabinet (2)

TABLES

Table 5.1

Table 5.2

Table 5.3

Table 5.4

Table 5.5

Table 5.6

Fans

Power Supply Units

PCI Slot Speciﬁcations

Mounting Combination for Expansion Rack

Installation Speciﬁcations of M400R

Installation Speciﬁcations of M400R (2)

Table 6.1

Table 6.2

Table 6.3

Table 6.4

Table 6.5

Table 6.6

Fans

Power Supply Units

CPU Module Conﬁgurations

PCI Slot Speciﬁcations

Installation Speciﬁcations of M600 Main Cabinet (1)

Installation Speciﬁcations of M600 Main Cabinet (2)

Table 7.1

Table 7.2

Table 7.3

Table 7.4

Table 7.5

Table 7.6

Table 7.7

Fans

Power Supply Units

CPU Module Conﬁgurations

PCI Slot Speciﬁcations

Mounting Combination for Expansion Rack

Installation Speciﬁcations of M600R

Installation Speciﬁcations of M600R (2)

Table 8.1

Table 8.2

Table 8.3

Table 8.4

CHECK LED Status

101

103

104

LEDs

Expansion Disk Cabinet Installation Speciﬁcations (1)

Installation Speciﬁcations of Expansion Disk Cabinet (2)

Table 9.1

Table 9.2

Table 9.3

Table 9.4

CHECK LED Status

108

109

111

112

LEDs

Mounting Combination for Expansion Rack

Installation Speciﬁcations of Expansion File Unit Type-2

Table 10.1

Table 10.2

Table 10.3

Table 10.4

CHECK LED Status

116

117

119

120

LEDs

Mounting Combination for Expansion Rack

Installation Speciﬁcations of Expansion File Unit

Table 11.1

Table 11.2

Table 11.3

Table 11.4

Disk Units LEDs

122

125

131

Handling Floppy Disks

LED Displays on The DAT Unit

DAT Cartridge Capacity

Table 11.5

Table 11.6

8-mm Tape Cartridge Capacity

QIC Tape Cartridge Capacity

136

141

Table 12.1

Table 12.2

Table 12.3

Table 12.4

Table 12.5

Table 12.6

Table 12.7

Deﬁnitions of UPS Signal Lines

Input Circuits

146

147

148

149

151

152

Output Circuits

Electrical Rating Speciﬁcations

Deﬁnitions of Signal Lines

IEEE1284-A Connector Terminal Distribution

IEEE1284-A Connector Terminal Distribution (Continued)

Table 14.1

Table 14.2

Table 14.3

Table 14.4

Table 14.5

Table 14.6

Table 14.7

The ’show-post-results’ Command

OBP Error Messages

158

160

161

162

163

164

Power Unit Conﬁguration Error Messages

Power/Fan/Environmental Error Messages

Processor Monitoring Error Messages

Lithium Battery Error Messages

Other Error Messages

xii

CHAPTER 1 Product Outline

CONTENTS

1.1

Key Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Operator Panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

External Interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Console . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

1.2

1.3

1.4

1.5

1.6

1.7

Power On/Off . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Installation of Basic Software Extension or Enhanced Support Facility . . . . . . . . . . . . . . . . . . . . . . . . . . .

local-mac-address Property . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

CHAPTER 1 Product Outline

1.1 Key Features

The GP7000F is SMP (Symmetric Multi-Processor) servers with 64-bit SPARC64 GP processors. Each model in

the group has high-performance 64-bit processors, high-speed I/O interfaces and enhanced reliability, availability,

and serviceability (RAS) features. The crossbar conﬁguration is used as the system architecture of the GP7000F,

and the performance of the multi-processor conﬁguration has been improved almost linear scalability.

The GP7000F, which has excellent scalability and reliability, is an ideal server for not only group or department

servers but also for mission-critical enterprise servers.

IMPORTANT

The availability of these products depends on the Sales and Support Companies. Please contact these

companies.

High-performance SPARC64 GP Processor

The SPARC64 GP is a high performance processor which has an out-of-order execution engine.

The SPARC64 GP supports large size external cache of 2MB/4MB/8MB per processor as well

as 64KB(instruction)+64KB(Data) on-chip cache.

Error Correcting Code (ECC) is used for both on-chip and external cache.

High-performance Multi-Processor Platform

Symmetric Multiprocessing (SMP) architecture

The memory system has a high bandwidth, up to 8-way interleaving, and which enables fast

access.

A packet-based bus protocol, to enable a throughput of 1.3 to 1.6 GB/s per processor, is

implemented.

A crossbar conﬁguration, which is based on a packet bus, enables high-level parallel operations

of processors and memory modules, I/O and memory modules, and data transfer among

processors. And, the system delivers scalable performance by installing additional processors

and I/Os.

–

The crossbar switch enables parallel operations of several processors and I/Os.

The performance of the single bus is improved by expanding the bus width and high

frequency operation.

–

The efﬁciency of bus usage is drastically improved by bus control in the packet exchange

system.

High-performance EDO DRAM (Extended Data Out DRAM) is used on the platform for the

memory expansion.(M200, M600)

High-performance SDRAM (Synchronous DRAM) is used on the platform for the memory

expansion.(M200R, M400A, M400R, M600R)

1.1 Key Features

High-speed I/O interface

One built-in 40 MB/s UltraSCSI Single-Ended interface for internal devices.

One built-in 100BASE-TX interface (10/100 Mbps, auto-sensing).

The GP7000F has some 64-bits PCI (Peripheral Component Interconnect) buses.

Additional interfaces, such as 100BASE-TX, FDDI, ATM, can be provided by installing PCI

cards. Both short and long size PCI cards can be installed. (*1)

*1)

The maximum length of the cards that can be installed in PCI slots #8 to #12 of the

M600R Main cabinet is 19.4cm.

High-performance, Large-capacity File Devices

Up to 22, 7200rpm or 10000rpm, UltraSCSI disk drives can be built in. Note that the number of

drives that can be installed depends on each model.

The disk drives can be hot-swappable

One CD-ROM drive unit is provided as standard.

One tape drive can be built in as optional.

Reliability, Availability, and Serviceability (RAS) features

Error Correction Code (ECC) is implemented for on-chip cache, external cache, memory

module and data paths. The data for the I/O data path(PCI) is protected by parity.

Table 1.1 Data Protection for Components and Interfaces

Components and interfaces

Processor (on-chip & external cache)

Memory

Data protection method

By ECC (corrects 1 bit and detects 2 bit)

By parity

Data path

Address path

I/O bus (PCI)

By parity

Processor operation

Operation monitoring by an independent

processor

Built-in basic SCSI, LAN, parallel

By parity, IP check sum

Note:

The RS232C interface and a ﬂoppy disk on a standard conﬁguration are not

protected by parity.

Power-on diagnostics are executed on the system components, such as processors, memory

modules and so on, during initial power-on or reset of the system.

Automatic System Reconﬁguration (ASR) isolates faulty hardware components immediately

after detecting it. The ASR function isolates not only faulty components detected during initial

power-on but also those detected while the system is running. However, the ASR function

cannot restart the system if errors are detected in the resources required for booting up the

system, or in the basic components of the system.

CHAPTER 1 Product Outline

A SCF (System Control Facility), which has an integrated service processor, monitors the

operation of SPARC64 GP processors, and reports erroneous events such as environmental

monitoring explained below. With a GUI-based intelligent monitoring and reporting tool,

which is provided in "Basic Software Extension" or "Enhanced Support Facility",

administration and management of GP7000F is easy and less time consuming.

The SCF monitors environmental temperature, powering and cooling conditions. This function

prevents the system from environmental condition that can cause error or damages to the

system.

–

Monitoring Environmental Temperature ; The guaranteed operating temperature of the

system ranges from 5 to 35 degrees Celsius (41 to 95 degrees Fahrenheit). A warning

message is displayed at about 35 degrees Celsius (95 degrees Fahrenheit). If the

temperature reaches about 40 degrees Celsius (104 degrees Fahrenheit), the system is shut

down automatically.

Monitoring Powers ; The power supplies are always monitored, and a message is displayed

on the LCD panel, if power supply failure is detected. When the system doesn’t have a

redundant power supply, the system will be powered off immediately. Besides it, the

integrated service processor monitors and controls DC-DC converter which provides

power to the processor modules.

Monitoring Fans ; Several fans are installed inside the GP7000F main cabinet. If one of the

fans breaks down, a warning message which indicates the defective fan is displayed on the

LCD panel. And, if the fans cannot provide enough cooling, the system is shut down

automatically.

RCI (Remote Cabinet Interface) makes power cycle control of expansion I/O unit, such as

Expansion Disk Unit and Expansion File Unit, which has the RCI interface.

Status of LEDs and messages on LCD panel of GP7000F main cabinet as well as console

messages make trouble shooting easy and less time consuming.

All internal disk drives are hot-swappable, and these drives can be mirrored for higher data

availability. In addition, redundant power supplies and fans are supported for higher availability.

The front cover/panel has a lock key to prevent unauthorized access to the internal I/O devices

as well as front panel switches.

1.2 Operator Panel

The operator panel has a set of status LEDs, switches, and a LCD panel. The switches as well as built-in I/O

device are covered with a panel cover that can be locked with a key. It prevents incorrect operations and ensures

security for the internal I/O device as well as the switches.

RESET switch

POWER switch

REQUEST switch

LCD panel

REQUEST

RESET

POWER

CHECK POWER

AUTO

MANUAL

SECURE

POWER LED( green )

CHECK LED( amber )

MODE switch

Figure 1.1 Operator Panel (M200, M600)

CHECK LED (amber)

POWER LED (green)

POWER switch

LCD panel

CHECK POWER

POWER

REQUEST RESET

AUTO

SECURE

MANUAL

RESET swich

Figure 1.2 Operator Panel (M200R, M400A, M400R, M600R)

MODE switch

REQUEST switch

CHAPTER 1 Product Outline

LED (CHECK LED/POWER LED)

The POWER LED indicates whether the system is turned on while the CHECK LED indicates

system operation by lighting up or blinking.

Table 1.2 POWER LED

Descriptions

Status

OFF

The power is on

The power is off

The user and system administrator can recognize the system operation status from the CHECK LED

and messages that appear on the LCD panel.

Table 1.3 CHECK LED

Status

Descriptions

The system is turned on, but the processors are not operating.

System down.

Blinking

(quickly)

Blinking

(slowly)

There are faulty components in the system. (The system is still

operating)

OFF

The system is not turned on or it is operating normally

If the system administrator shuts down the system (when the AC main line switch is on) while there

are degraded-mode components remaining in the system, the CHECK LED will continue to blink

slowly to remind the system administrator there are faulty components to be diagnosed. Possible

causes of a CHECK LED alarm are: errors in temperature monitoring, related components (such as

the power supplies and fans) or degraded-mode components (such as processors and memory

modules, etc.).

When the system is turned on, the CHECK LED lights up brieﬂy. However, this is not an error

unless the CHECK LED remains light up for more than three seconds, or begins to blink.

LCD

The LCD panel can display 2 rows of 16 digits. The messages displayed on it are status or results of

the power-on diagnostics, and environmental events such as over temperature, etc. Therefore, when

an error occurs, the user or system administrator can recognize the state of the hardware system

easily by checking the messages displayed on the LCD panel as well as console messages.

Error messages remain on the LCD panel until the error is corrected. There is only one LCD panel,

therefore, it displays messages in turn when there are several errors. Note that error events are

corrected even though their message displayed on the panel is overwritten by messages of other

events. However, since the initial diagnostics is allowed to report only one event, the next message

of another event will be displayed on the panel after repaired a reported event.

Messages are erased from the panel when:

an error event is corrected.

the power of the main cabinet is cycled

the AC main line switch is turned off, or

the RESET switch is pressed (partial messages are erased).

When an error or an abnormal state occurs, record the messages displayed on the LCD panel and

status of the CHECK LED. Then, contact the system administrator or service engineers. See 14

"Troubleshooting" for more information regarding the messages displayed on the LCD panel.

1.2 Operator Panel

Switches There are 4 switches on the operator panel, as below.

POWER switch

The user can turn on and off the system by pressing this switch. The POWER switch

operation is managed by the setting of the MODE switch as well as software setting

with "scftool". By pressing the POWER switch while the system is running, the

system will be powered off after graceful shutdown. Refer to the user’s guide of

"Basic Software Extension" or "Enhanced Support Facility" for the information of the

"scftool".

RESET switch

The user can reset the system forcibly with the RESET switch. Enabling the RESET

switch is managed by the state of the MODE switch setting. If the user cannot restart

the system with the RESET switch, check the LCD panel if there are any messages,

then press this switch again.

Data destruction: Pressing the RESET switch while

CAUTION

the system is running may destroy data.

REQUEST switch

The REQUEST switch is used by trained service engineers only for maintenance

purpose. Do not use the REQUEST switch by users.

MODE switch

The MODE switch is used to set boot-up mode of the system as well as

enabling/disabling the POWER, RESET and REQUEST switches. The MODE

switch has 3 states as shown in the Table 1.4 . In the table below, YES means that a

switch is enabled when the MODE switch is set to the position/state, while NO means

a switch is disabled.

Table 1.4 MODE Switch Settings

POWER

switch

RESET

switch

REQUEST

switch

Remarks

The system stops at ok prompt after the

power-on diagnostics.

MANUAL

AUTO

YES

The system boots up automatically after

the initial diagnostics.

YES

The system boots up automatically after

the initial diagnostics, and keyboard

STOP+A command and terminal break

command are ignored while Solaris is

running.

SECURE

Notes:

At the maintenance of main cabinet, be sure to set the MODE switch to

the MANUAL state even if the AC line switch is OFF.

The POWER, RESET and REQUEST switches must be pressed longer

than 0.3 seconds for valid operation.

CHAPTER 1 Product Outline

Be sure to install software packages in the "Basic Software Extension" or

"Enhanced Support Facility". Otherwise, above switch functions or proper

messages on LCD panel are not guaranteed.

CAUTION

IMPORTANT

Under the MANUAL and AUTO state, keyboard STOP+A command and terminal break command will

abort booting-up the system or halt the system while operating system is running. To prevent system

down by unexpected break or STOP+A command, set MODE switch SECURE state.

1.3 External Interface

Various interfaces are available for peripherals and network connections.

PCI Interface

The GP7000F provides the PCI bus as the I/O interface. The PCI interface has the following

characteristics:

PCI Local Bus Speciﬁcation, Rev 2.1 compliant.

64-bit bus widths, 33 MHz (5.0V) and 33/66 MHz (3.3V).

Short and long size card can be installed into any of the PCI slots. (*1)

Data paths are protected by parity.

*1)

The maximum length of the cards that can be installed in PCI slots #8 to #12 of the

M600R Main cabinet is 19.4cm.

Connector

The following connectors are installed on the back of the GP7000F main cabinet:

1.3 External Interface

Table 1.5 Connectors and Switches

Connector/

Switch

Marking

Type

Remarks

RS232C

SERIAL A/B Dsub/25 pin*

The same connector as Parallel

Connect a mouse via a keyboard

AT compatible

8-pin DIN

Dsub/25 pin*

RJ45

Parallel

PARALLEL

10 Mb/100Mb LAN

Ethernet

10 Mb/100 Mb automatic recognition

UPS

Dsub/9 pin

Connector to a UPS (Uninterruptable Power

Supply) which has the UPA interface.

RCI

RJ11

Install a terminating resistor

8-pin DIN

For controlling power on for the main

cabinet

This type will not operate if connected improperly. However, it does not affect the

system performance.

The RS232C, Parallel and Ethernet interfaces use industry-standard connectors. Therefore, the user

can connect them to various peripheral devices. For the speciﬁcations of the RS232C, parallel

interface and UPS control interface, see 12 , "External Interfaces".

Table 1.6 shows other connectors and switches than the above:

Table 1.6 Connectors and Switches for Maintenance

Connector/

Switch

Marking

Type

Remarks

SCF/switch

No notation

Push pin

Dsub/9 pin

Unavailable

SCF/RS232C

IMPORTANT

The connector and switches in Table 1.6 are used only for the maintenance purpose by

trained service engineers. If used for any other reason the server will malfunction.

CHAPTER 1 Product Outline

1.4

Console

Serial Terminal

If your GP7000F has no local graphic console, a serial terminal, such as Personal Computer, should

be attached to the GP7000F in order to install the system and to run diagnostic programs. To attach

a serial terminal :

Connect a terminal data cable to serial port A on your server.

Set a terminal to receive 8bit per character, 1 stop bit and no parity at 9600 baud.

Refer to the document accompanying your terminal for more information about the terminal itself.

Terminal break command

You can disable to enter the OpenBoot mode from break command and keyboard STOP+A

command, by the following proceedings.

set no-break value to fw-option variable at the ok prompt, with the procedures as below.

Then, running the system on SECURE mode, which you can set on the operator panel.

1 To display current setting, type print-fw-options command as below. Below shows

default setting, and no default value means that the break command and STOP+A command are

enabled.

ok print-fw-options

fw-options =

2 To disable break command and keyboard STOP+A command, type as below.

ok set-fw-options no-break

fw-options = no-break

3 To make sure the settings, type print-fw-options command and check the no-break value

is set as below.

ok print-fw-options

fw-options = no-break

To enable the break command and STOP+A command, use the following command at the ok

prompt. Note that the commands are enabled as the default of the GP7000F.

4 To display currrent setting, type print-fw-options command as below. The no-break

value means the break command and keyboard STOP+A command are disabled.

ok print-fw-options

fw-options = no-break

5 To enable break command and keyboard STOP+A command, type as below.

ok clear-fw-options no-break

fw-options =

6 To make sure the setting, type print-fw-options command and check the no value is set

as below.

ok print-fw-options

fw-options =

If used improper commands at the ok prompt, the GP7000F

may be destroyed. If you need to used any other commands

CAUTION

except shown on this manual, you should well understand the

function and usage of the command before using it.

1.5 Power On/Off

Power On

After connected cables necessary to the system as well as console (or local graphic display), take the

following procedures.

1 Turn on any peripherals and external IO devices attached to the main cabinet as well as a

terminal (or local graphic display).

2 Set the AC main line switch to ON.

3 Press the POWER switch on the operator panel, when the mode switch is in MANUAL/AUTO

mode. Note that power on function by pressing keyboard power-on key is not supported.

IMPORTANT

If a serial terminal is attached to the system, be sure to power on the terminal before the

main cabinet is powered on, and never power off the terminal during the system is running.

Otherwise, the system may be halted and it may destroy data.

Power Off

Before power-off the system, notify users that the system will be shut down. And, back-up the ﬁles

if necessary.

1 Press the POWER switch on the operator panel, then the system will be powered off after a

graceful shutdown.

2 Turn off any peripherals and external IO devices attached to the main cabinet as well as

terminal(or local graphic display).

Be sure to eject backup tape media and any diskettes before

CAUTION

power-off the system, if the media are installed. Otherwise, the

data on the media may be destroyed.

Except in an emergency, never turn off the AC switch or disconnect

the power cable while the GP7000F main cabinet is turned on. If

you do, data in the disk drives may be destroyed.

IMPORTANT

When turning on the main line switch under a state that the MODE switch is AUTO or

SECURE, the GP7000F may be powered up automatically just turn on the main line switch

if APCS(Auto Power Control System) software is installed in your GP7000F system.

To avoid powering up just turning on the main line switch even if the softwares is installed

in your GP7000F system, turn on the main line switch under the state of the MODE switch

is set to MANUAL position.

CHAPTER 1 Product Outline

1.6 Installation of Basic Software Extension or Enhanced Support Facility

To enable support of GP7000F speciﬁc functions, software packages in the "Basic Software Extension" or

"Enhanced Support Facility"are needed to install on the system. Please refer to the user’s guide and installation

guide of the "Basic Software Extension" or "Enhanced Support Facility" for more information.

Install "Basic Software Extension" or "Enhanced Support Facility" before

CAUTION

operating the system. Without this package, incorrect operator panel operations

or hardware errors may cause the system to shut down or destroy data.

1.7 local-mac-address Property

The network interface of the Ethernet (100BASE-TX) is assigned a unique MAC (Media Access Control)adress,

which represents the 48-bit ethernet address for the channel. The OpenBoot(R) ﬁrmware reports this MAC address

via the local-mac-address property in the device nodes corresponding to the network interfaces.

A system is not obligated to use this assigned MAC address if it has a system-wide MAC address. In such cases,

the system-wide MAC address applies to all network interfaces on the system.

The device driver, or any other adapter utility, can use the network device’s MAC address (local-mac-address)

while conﬁguring it. In future Solaris releases, you will be able to use the channel’s MAC address when booting

over the network.

The mac-address property of the network device speciﬁes the network device speciﬁes the network address

(system-wide or local-mac-address) used for booting the system. To start using the MAC address assigned to the

network interface of the Ethernet (100BASE-TX), set the NVRAM conﬁguration variable local-mac-address? to

true.

OK setenv local-mac-address? true

CHAPTER 2

M200 Main Cabinet

CONTENTS

2.1

2.2

2.3

2.4

2.5

2.6

Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Device Conﬁguration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Systemboard . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Disk Units . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

PCI Slots . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

CHAPTER 2 M200 Main Cabinet

2.1 Overview

Appearance

CHECK LED

( amber )

Lock

POWER LED

( green )

Stabilizing Feet

Figure 2.1 Front View of M200 Main Cabinet

Key Features

Up to 2 processors

16 DIMM slots. Up to 4 gigabytes of memory.

64-bits width, 4 PCI buses provide 6 PCI slots ( 2*33/66MHz + 4*33MHz).

Up to 8 UltraSCSI disk drive bays, which support hot-swap features.

1 CD-ROM unit and 1 ﬂoppy disk unit as the basic conﬁguration.

1 tape unit can be installed.

1 100BASE-TX (auto-sensing 10/100Mbps), 2 Serial, 1 parallel, and 1 Keyboard/Mouse port

2.2 Device Conﬁguration

The M200 main cabinet consists of the following components:

Desk-side type cabinet

Basic power supply and optional expansion power supply unit

Cooling fans

Systemboard

Processor modules

DIMM (Dual Inline Memory Module)

Operator panel

PCI card (option)

SCSI-BP boards (1 basic board, 1 option board)

Disk drive units

CD-ROM unit

Tape unit (optional QIC tape, 8-mm tape, or DAT)

Floppy disk unit

The processor modules, DIMMs, PCI cards, tape drive unit, expansion power supply, disk expansion feature

(SCSI-BP board), and disk drive units of the above components are available as options.

CHAPTER 2 M200 Main Cabinet

Front view of the M200 main cabinet

Operation Panel

Panel Cover

DAT unit,8-mm Tape Unit,

QIC Tape Unit( option )

CD-ROM Unit

Floppy Disk Unit

Front Cover

Stabilizing Feet

Figure 2.2 Open View of M200 Main Cabinet

Panel cover

The panel cover can be opened from its right side after unlocking it. Then, you can access switches

on the operator panel, CD-ROM drive unit, Floppy drive unit, tape drive unit, and so on.

2.2 Device Conﬁguration

Fans

Table 2.1 lists the fans installed in the M200 main cabinet.

Table 2.1 Fans

Name

Fan #0

Fan #1

Fan #2

Fan #3

Shape

Location

Behind the Systemboard

Under the disk unit

120-mm (4.7 inch) square fan

92-mm (3.6 inch) square fan

Above the processor module

Behind the power supply

80-mm (3.1 inch) or 120-mm

(4.7 inch) square fan (*1)

Fan #4

92-mm (3.6 inch) square fan

Side the PCI slot

The 80-mm square fan is replaced by the 120-mm square fan when the expansion

power supply is installed.

Power supplies

The M200 main cabinet has a basic power supply unit as well as DDC(DC-DC Converter)s

dedicated to each processor module. When the Disk Expansion Unit is installed, The expansion

power supply is required (when 5 to 8 disks are installed in the M200 main cabinet).

If the expansion power supply is not installed when the Disk Expansion Unit is installed, an

indication that a mounting rule has been violated is reported on the LCD panel and power-on is

inhibited. This checking function prevents faulty conﬁgurations. The checking function is executed

when a disk cage is expanded regardless of whether a disk unit is installed.

The alarm detection feature is not implemented for the expansion power supply of the M200 main

cabinet. If a failure occurs in the expansion power supply, the power cannot be supplied to the Disk

Expansion Unit. In this case, the POWER LED on the disk expansion cage turns off. If an error

occurs in the disk unit installed in the Disk Expansion Unit (because the power is not supplied), the

expansion power supply may be at failed. Check the POWER LED on the expansion disk cage.

Stabilizing feet

The stabilizing feet prevent the M200 main cabinet from falling over when it is pushed from its side

or if there is an earthquake. When installing the M200 main cabinet, be sure to install the stabilizing

feet.

Rear of the M200 main cabinet

AC input, AC main line switch, power supply(FEP) and some connectors are located on the rear

panel of the M200 main cabinet as shown in the Figure 2.3 .

CHAPTER 2 M200 Main Cabinet

RCI

AC Main Line Switch

AC Power Input

UPS

PCI slot #6

PCI slot #5

PCI slot #4

PCI slot #3

PCI slot #2

PCI slot #1

100BASE-TX

Keyboard

RS232C

( Port A)

RS232C

( Port B )

Parallel

( AT Centrenics )

Stabilizing Feet

Figure 2.3 Rear View of M200 Main Cabinet

2.3 Systemboard

Systemboard layout

CPU module slots, memory module slots, and PCI slots are located on the Systemboard as described

in Figure 2.4 .

NVRAM

SCF BOARD ONLY

PCI Slot #6

PCI Slot #5

PCI Slot #4

PCI Slot #3

PCI Slot #2

PCI Slot #1

DDC #3

CPU #1

DDC #2

DDC #1

CPU #0

DDC #0

MEMORY SLOT

#13

#12

#15

#14

#11

#10

Figure 2.4 Systemboard Layout of M200

Processor Conﬁguration

Up to 2 processors can be installed in the M200 main cabinet. When installing the processor

modules, the following conditions must be satisﬁed:

The installed processor modules must be the same type (including the cache size).

Install a processor module in slot 0 before installing one in slot 1.

When installing a processor module, install DC-DC converters along with the processor in the

corresponding slot.

IMPORTANT

If any of the above conditions is not satisﬁed, the operation is not guaranteed.

CHAPTER 2 M200 Main Cabinet

Memory conﬁguration

The M200 has 16 DIMM slots, allowing for as much as 4 gigabytes of main memory. When

installing the DIMMs, the following conditions must be satisﬁed:

When installing the ﬁrst set of DIMM, install a set of 4 modules of the same size in slots 0 to 3.

At subsequent memory expansions, install a set of 4 modules of the same size in slots 4, 5, 6, 7;

and 8, 9, 10, 11; then 12, 13, 14, 15.

IMPORTANT

If any of the above conditions is not satisﬁed when installing the DIMMs, some DIMMs are

degraded in the power-on diagnostics. When adding the memory modules, check that the

DIMMs are installed correctly.

Memory ECC feature

The EDO DRAM is used as the memory element. The single-bit error correction and multiple-bits

error detection features are available for a large capacity memory by using the Error Check Code

(ECC) system. A single-bit error can be isolated down to the memory slot on which it occurred. A

multiple-bit error can be isolated down to the pair of slots on which it occurred.

Checking the memory diagnostics

To check that the system recognizes installed memory modules correctly, execute the

show-post-results command at the ok prompt. A module that does not satisfy any condition

described in "Memory conﬁguration" or a module judged to be faulty by memory diagnostics is

treated as an invalid module. The screen below lists the command execution results related to

memories and their meanings.

Example for normal operation

=== Memory =========

Type : EDO

SLOT#

0-3

4-7

8-11

12-15

Size[Valid(MB)/Existing(MB)

Total

32/32 32/32 32/32 32/32

----- ----- ----- -----

: 128/128 MB

: 0/0 MB

*=Error SLOT

In this example, a memory module has been placed in degraded mode.

=== Memory =========

Type : EDO

SLOT#

0-3

4-7

8-11

12-15

Size[Valid(MB)/Existing(MB)

32/32 32/32 32/32 32/32

0/32 0/0* 0/32 0/32

----- ----- ----- -----

Total

: 128/128 MB

: 0/96 MB

: 0/0 MB

*=Error SLOT

2.4 Disk Units

The denominator indicates the size of the memory module for a slot (unit: megabytes); 0* indicates

a faulty slot. The numerator indicates the size of the memory that is actually available for use. The

numerator 0 indicates that no memory is used.

In this example, DIMMs are installed in slots 0 to 7. The size of each module is 32 megabytes

except the one installed in slot 5. The initial system diagnostics detected an error in the module

installed in slot 5 and placed the module in degraded mode, assuming there was no available space.

As a result, the group of modules in slots 4 to 7 is not available for use.

2.4 Disk Units

Disk drive conﬁguration

When the Disk Expansion Unit (which includes an expansion disk cage) is added, up to 8 disk units

can be installed in the M200 main cabinet. Basic disk cage (bay #0 - #3) is connected to UltraSCSI

bus, and the expansion disk cage (bay #0 - #3) is connected to another UltraSCSI bus. Each disk

drive has two status LEDs. For the status of these LEDs, refer to 11 , "Input-Output Units."

ACTIVE LED( Green )

FAULT LED( Amber )

Expansion disk cage

POWER LED

Basic disk cage

Figure 2.5 Disk Drive Bays of M200 Main Cabinet

CHAPTER 2 M200 Main Cabinet

Disk Expansion Unit

By using the Disk Expansion Unit, up to 8 disk drives can be installed in the M200 main cabinet.

The Disk Expansion Unit consists of the following components:

Disk cage (including SCSI-BP)

PCI adapter (UltraSCSI Wide Single-Ended)

Expansion power supply unit (requires changing to 120-mm (4.7 inch) square fan: included)

Cables

Be sure to replace the power supply fan when installing the Disk

Expansion Unit. Otherwise, the system will shutdown or disk units

will deteriorate due to a temperature rise in the M200 main cabinet

caused by insufﬁcient cooling.

CAUTION

A Power LED is installed on the SCSI-BP board. If both ACTIVE LED and FAULT LED above a

disk bay do not lights, check to see if the POWER LED on the SCSI-BP board is turned on. If this

POWER LED does not turn on, disk expansion unit or its cable may be faulty.

When installing the Disk Expansion Unit, the installed location (slot) of the PCI card used for

connection must be set. Below shows the setting procedure.

1 First, execute show-scsi command at the ok prompt, to get the path name of the UltraSCSI

card and it’s PCI slot. The followings example shows that a Ultra SCSI card is installed in PCI

slot#6.

ok show-scsi

PCI#6 : /pci@1d,4000/scsi@5,1

PCI#6 : /pci@1d,4000/scsi@5

SCSI#0: /pci@1f,4000/scsi@3

2 Then, set led-control-1 to correspond to the PCI slot by using setenv command at the

ok prompt. The followings example shows that a Disk Expansion Unit connection to SCSI

Conector #1 of the UltraSCSI card in PCI slot#6.

ok setenv led-control-1 /pci@1d,4000/scsi@5

If the installing location (slot) is not set or set incorrectly, the disk

drive may not be hot-swappable. Data may be destroyed as a

result of inadvertently replacing the different disk drive. Be sure to

set the installing location (slot) correctly.

CAUTION

Also, while replacing or initializing NVRAM, set the installing

location again.

2.5 PCI Slots

PCI slots conﬁguration

PCI slots are located on the Systemboard as described in Figure 2.4 , and each PCI slots has the

following speciﬁcations. There are 4 separate PCI Bus channels: A, B, C, and D. All PCI slots

provide for the full 64-bit data path and can accommodate both 32-bit and 64-bit data path cards.

The speciﬁcations for the PCI slots are described in Table 2.2 .

Table 2.2 PCI Slot Speciﬁcations

PCI slot #

PCI Bus

Slot width / card width

(bits)

PCI clock

(MHz)

Card input voltage

64 / 32,64

5 V or Universal

3.3 V or Universal

33 / 66

2.6 Installation

Notes on installation:

Do not block the ventilation slits.

Do not install the M200 main cabinet where it will be exposed to sunlight or sources of heat.

Do not install the M200 main cabinet in dusty places or places where it will be exposed to

corrosive gas or sea breeze.

Keep the M200 main cabinet isolated from vibration. Install the M200 main cabinet on a level

surface so that it does not tilt.

Make sure that the AC power supply source is grounded properly. Otherwise, the M200 main

cabinet may malfunction.

Do not run a cable under a unit or allow a cable to become taut. Do not disconnect the power

cable when the power is on.

Do not place anything on the M200 main cabinet. Do not use the cabinet of the M200 main

cabinet as a work space.

To prevent condensation in the M200 main cabinet, do not raise the ambient temperature

rapidly, in winter. Use the M200 main cabinet only after it has warmed up sufﬁciently.

Do not install the M200 main cabinet near a noise generating device such as a photocopier, air

conditioner, or welder.

Take electrostatic prevention measures. Note that some carpets generates static electricity

easily and can cause the M200 main cabinet to malfunction.

When moving the M200 main cabinet, do not pull on the front cover. Otherwise, the main

cabinet may be damaged.

CHAPTER 2 M200 Main Cabinet

IMPORTANT

If the above conditions are not satisﬁed, the M200 main cabinet may be damaged. Be sure

to follow these precautions.

Installation speciﬁcations

Table 2.3 Installation Speciﬁcations of M200 Main Cabinet (1)

Item

Specification

Mass

Up to 43kg (approx.94.9 lb)

Single phase

100 to 120 VAC

(+-10%)

Single phase

200 to 240 VAC

(+-10%)

Power condition

Input voltage

Input frequency

50/60 Hz (+2 to -4%)

5.0 A

Maximum consumption current

Leakage current

2.5 A

3.5 mA or less

Ground resistance

100ohm or less ( class C installation standard)

5 to 35 degrees Celsius (+41 to +95 F) (*1)

0 to 50 degrees Celsius (+32 to +122F)

20 to 80%RH (no condensation)

8 to 80% RH (no condensation)

0.2 G

Temperature condition Operating

Not operating

Operating

Humidity condition

Vibrations condition

Not operating

Operating

Idle

0.4 G

Noise

47 db (A) (*2)

Installation

standalone type

*1:

*2:

If the ambient temperature exceeds 35 degrees Celsius (+95 F) during operation, a

warning message is displayed. Take steps to rectify the problem immediately.

The indicated noise is the mean value of the measurements obtained in an anechoic

chamber with less echoic inﬂuence. The actual noise measured at the installation site

may be greater than the indication noise due to surrounding noise and echoes.

2.6 Installation

Table 2.4 Installation Speciﬁcations of M200 Main Cabinet (2)

Item

Specification

External

dimension

(unit:mm)

Width 230

Depth 630

Height 700

352 *1

677

(Front View)

(Side View)

Service

area

(unit:mm)

230

Service area

800 *2

800 *3

Top of

Service area

630

the unit

Front

800

Service area

*1:

*2:

The unit width including the Stabilizing Feet is 352 mm (13.9 inch).

For the rear space, if 800 mm (31.5 inch) or more space is available by moving the

cabinet when repair the cabinet or provide any services for it, 200 mm (7.8 inch) of

space is acceptable for regular use. However, when optical cables are laid out, more

than 300 mm (11.8 inch) of space between the rear side of the unit and wall is

required.

*3:

For the side space, if 800 mm (31.5 inch) or more space is available by moving the

cabinet when repair the cabinet or provide any services for it, the service area as

described in Table 2.4 is not necessary for regular use.

*4:

*5:

A minimum of 50 mm (1.9 inch) of clearance is required above the top of the unit.

The unit depth of the cabinet at the bottom including the skirt is 677 mm (26.7 inch).

CHAPTER 3

M200R Main Cabinet

CONTENTS

3.1

3.2

3.3

3.4

3.5

3.6

Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Device Conﬁguration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Systemboard . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Disk Units . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

PCI Slots . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

CHAPTER 3 M200R Main Cabinet

3.1 Overview

Appearance

POWER LED (green)

CHECK LED (amber)

Lock

Figure 3.1 Front View of M200R Main Cabinet

Key Features

Up to 2 processors

16 DIMM slots, up to 4 gigabytes of memory.

64-bits width, 4 PCI buses provide 6 PCI slots ( 2*33/66MHz + 4*33MHz).

2 UltraSCSI disk drive bays, which support hot-swap features.

1 CD-ROM unit and 1 ﬂoppy disk unit as the basic conﬁguration.

1 100BASE-TX (auto-sensing 10 / 100 Mbps), 1 UltraSCSI(differencal), 2 Serial, 1 Parallel, 1

Keyboard/Mouse port

N+1 redundant power supply units, and fan units, which support hot-swap feature.

3.2 Device Conﬁguration

The M200R main cabinet consists of the following components:

RackMount type cabinet

Basic power supply and option redundant power supply unit

Cooling fans

Systemboard

Processor modules

DIMM (Dual Inline Memory Module)

Operator panel

PCI card (option)

Disk drive units

CD-ROM unit

Floppy disk unit

The processor modules, DIMMs, PCI cards, redundant power supply, and disk drive units of the above

components are available as options.

Front view of the M200R main cabinet

Operator Panel

Panel Cover

CD-ROM Unit

Floppy Disk Unit

Figure 3.2 Open View of M200R Main Cabinet

Panel cover

The panel cover can be opened from its right side after unlocking it. Then you can access switches

on the operator panel, CD-ROM unit, Floppy drive unit, and so on.

CHAPTER 3 M200R Main Cabinet

Fans

The Table 3.1 lists the fans installed in the M200R main cabinet.

Table 3.1 Fans

Name

Fan #0

Tray #

Location

Tray #0

Right (front view) of the cabinet

Fan #1

Fan #2

Tray #1

Tray #5

Tray #7

Tray #8

Left (front view) of the cabinet

Rear of the cabinet

Fan #3

Fan #10

Fan #11

Fan #14

Fan #15

Fan #16

Fan #17

Above the processer module

Side the PCI slot

Power supplies

The M200R main cabinet has 2 kinds of power supply units as well as DDC (DC-DC Converter).

FEP (Front End Bulk Power) unit has AC input, and provide +48V(to BE). BE (Back End Power)

has +48V input, and provide +12V or +5V or +3.3V to some internal components.

Table 3.2 Power Supply Units

Standard

Redundant

FEP

BE(5V)

BE(3.5V)

3.2 Device Conﬁguration

Rear of the M200R main cabinet

AC input, power supplies (FEP) and some connectors are located on the rear of the M200R main

cabinet as shown in the Figure 3.3

UPS RCI

AC Power Input

FEP#1(option)

Parallel

FEP#0

PCI slot

RS232C

(portB)

RS232C

(portA)

Power Control 100BASE-TX

SCSI

Keyboard

Figure 3.3 Rear View of M200R Main Cabinet

CHAPTER 3 M200R Main Cabinet

3.3 Systemboard

Systemboard

CPU module slots and memory module slots are located on Systemboard as described in Figure 3.4 .

DIMM Slot #1

DIMM Slot #3

DIMM Slot #5

DIMM Slot #7

DIMM Slot #9

DIMM Slot #11

DIMM Slot #13

DIMM Slot #15

DDC#0

DDC#1

DDC#2

DDC#3

DDC#4

CPU Slot #0

CPU Slot #1

PCI Slot #1

PCI Slot #2

PCI Slot #3

PCI Slot #4

PCI Slot #5

PCI Slot #6

DIMM Slot #14

DIMM Slot #12

DIMM Slot #10

DIMM Slot #8

DIMM Slot #6

DIMM Slot #4

DIMM Slot #2

DIMM Slot #0

Figure 3.4 Systemboard Layout of M200R

3.3 Systemboard

Processor Conﬁguration

Up to 2 processors can be installed in the M200R main cabinet. When installing the processor

modules, the following conditions must be satisﬁed:

The installed processor modules must be the same type (including the cache size).

Install a processor module in slot 0 before installing one in slot 1.

When installing a processor module, install DC-DC converters along with the processor in the

corresponding slot.

IMPORTANT

If any of the above conditions is not satisﬁed, the operation is not guaranteed.

Memory conﬁguration

The M200R has 16 memory slots, allowing for as much as 4 gigabytes of main memory. When

installing the memory modules, the following conditions must be satisﬁed:

When installing the ﬁrst set of DIMM, install a set of 4 modules of same size in slots 0, 1, 2,

and 3.

At subsequent memory expansions, install a set of 4 modules of the same size in slots 4, 5, 6, 7,

and 8, 9, 10, 11, then 12, 13, 14, 15.

IMPORTANT

If any of the above conditions is not satisﬁed when installing the DIMMs, some DIMMs are

degraded in the power-on diagnostics. When expanding the memory modules, check that

the DIMMs are installed correctly.

Memory ECC feature

The SDRAM is used as the memory chip. The single-bit error correction and multiple-bit error

detection features are available for a large capacity memory by using the Error Check Code (ECC)

system. A single-bit error can be isolated down to the memory slot on which it occurred. A

multiple-bit error can be isolated down to the pair of slots on which it occurred.

Checking results of the memory diagnostics

To check that the system recognizes installed memory modules correctly, execute the

"show-post-results" command at the ok prompt. A module that does not satisfy any

condition described in "Memory conﬁguration" or a module judged to be faulty by memory

diagnostics is treated as an invalid module. The screen below lists the command execution results

related to memories and their meanings.

CHAPTER 3 M200R Main Cabinet

Example for normal operation

=== Memory ===================

Type : SDRAM

SLOT#

Size [ Valid (MB) / Existing (MB) ]

Total

00- 0- 3

00- 4- 7

00- 8-11

00-12-15

256 / 256

: 1024 / 1024 MB

* = Error SLOT

Example of a slot #4 error

=== Memory ===================

Type : SDRAM

SLOT#

Size [ Valid (MB) / Existing (MB) ]

Total

00- 0- 3

00- 4- 7

00- 8-11

00-12-15

256 / 256

0 / 256

256 / 256

0 / 256

256 / 256

0 / 256

256 / 256

: 1024 / 1024 MB

0 /

0 / 768 MB

256 / 256

: 1024 / 1024 MB

* = Error SLOT

Note:

If a memory error is detected, an asterisk is displayed in the Size ﬁeld for the

corresponding slot. In this example, an error in slot #4 is detected in the initial

diagnostics operation. Modules in slots 5 to 7 are recognized as normal modules but

also become invalid.

3.4 Disk Units

Disk drive conﬁguration

Up to 2 disk drives can be installed in the base conﬁguration of the M200R main cabinet. To install

more than 3 disk drive units, the Expansion File Unit must also installed.

3.5 PCI Slots

PCI slots conﬁguration

PCI slots are located on the Systemboard as described in Figure 3.4 . There are 4 separate PCI Bus

channels: A, B, C, and D. All PCI Bus slots provide for the full 64-bit data path and can

accommodate both 32-bit and 64-bit data path cards. The speciﬁcations for the PCI slots are

described in the Table 3.3 .

Table 3.3 PCI Slot Speciﬁcations

PCI slot #

PCI Bus

Slot width / card

width (bits)

PCI clock

(MHz)

Card input voltage

64 / 32, 64

5 V or Universal

3.3 V or Universal

33 / 66

CHAPTER 3 M200R Main Cabinet

3.6 Installation

Purpose The following installation instruction is intended to provide the product safety requirements which

must be addressed when the end-use product manufacturer installs this product in their equipment.

Note that the acceptability of the combination of this product in a rack should be re-determined by

an appropriate certiﬁcation body, if that combination is differ from the Table 3.4 .

Safety Installation Instruction:

This unit is installed in a closed or multi-unit rack assembly, the operating ambient temperature

inside of the rack environment may be greater than room ambient. Therefore, consideration

should be given to installing the unit in an environment compatible with the manufacturer’s

maximum rated ambient temperature.

–

Consideration for adjustment of air condition like air circulation should be given to prevent

the internal rack ambient from exceeding the Max. Operating ambient temperature of this

unit.

–

Maximum operating ambient temperature of this unit : 35 deg C.

Installation of the unit in a rack should be such that the amount of air ﬂow required for safe

operation of the unit is not compromised.

–

This unit has ventilation openings at front and rear face of the unit.

Do not cover or close these ventilation openings to prevent overheating.

Mounting of the unit in the rack should be such that a hazardous condition is not achieved due

to uneven mechanical loading. To keep stability of entire rack, please ﬁx the rack to wall or

ﬂoor by suitable means.

–

Be careful about injury during installation of this unit into rack.

Do not install this unit into your rack where the unit may make the entire rack unstable.

Mass of this unit with maximum conﬁguration : 40 kg.

If the unit is supplied from Power Strip or Service Outlet of other units, it may overload the

Power Supply Cord of the Power Strip or other units.

–

Conﬁrm that the current rating of Power Strip or Service Outlet exceeds the combined

ratings of all equipment it is supplying.

Electrical ratings of this unit : Rated 100 - 240Vac, 4.0 - 1.5 A, 50/60 Hz, 1 phase

Reliable earthing of rack-mounted equipment should be maintained. Particular attention should

be given to supply connections other than direct connections to the branch circuit (e.q., use of

power strips).

3.6 Installation

IMPORTANT

High Leakage Current may ﬂow through Power Strip Earthing Conductor, if all power

supply cords of this unit are connected to one Power Strip. Earth connection essential

before connecting supply.

Table 3.4 Mounting Combination for Expansion Rack

Mounting Portion Priority in the Rack

Rack-Mount Units

Communication Swichable Unit

Expansion File Unit Type-2

Disk Array Unit (GP-DxxxxU)

GP7000F Model 200R/400R

Disk Array Unit (GR700/720)

Outlet and/or Outlet Type-2

GP7000F Model 600R

Upper

Lower

Note:

Each rack-mount unit should be mounted in the lowest available portion with the

priority indicated in the Table 3.4 .

Notes on Installation

Do not install this ﬁle unit where it will be exposed to sunlight or sources of heat.

Do not install this ﬁle unit in dusty places or places where it will be exposed to corrosive gas or

sea breeze.

Keep this ﬁle unit isolated from vibration. Install this ﬁle unit on a level surface to prevent it

from tilting.

Do not run a cable under a unit or overextend a cable. Do not disconnect the power cable while

the power is on.

Do not place anything on this ﬁle unit. Do not use this ﬁle unit as a desk.

To prevent condensation in this ﬁle unit, do not raise the room temperature rapidly in the winter.

Use the cabinet only after sufﬁciently warming it.

Do not install this cabinet near noisy devices such as a photocopier, air conditioner, or welder.

Take electrostatic prevention measures. Note that some carpets generate static electricity easily

and can cause this ﬁle unit to malfunction.

IMPORTANT

If the above conditions are not satisﬁed, this ﬁle unit may be damaged. Be sure to follow

above precautions.

CHAPTER 3 M200R Main Cabinet

Installation speciﬁcations

Table 3.5 Installation Speciﬁcations of M200R (1)

Item

Specification

Mass

Up to 40kg (approx.88 lb)

Single phase

100 to 120 VAC

(+-10%)

Single phase

200 to 240 VAC

(+-10%)

Power condition

Input voltage

Input frequency

50/60 Hz (+2 to -4%)

4.0 A

Maximum consumption current

Leakage current (1 for each cable)

Ground resistance

2.0 A

3.5 mA or less

100ohm or less ( class C installation standard)

5 to 35 degrees Celsius (+41 to +95 F) (*1)

0 to 50 degrees Celsius (+32 to +122F)

20 to 80%RH (no condensation)

8 to 80% RH (no condensation)

0.2 G

Temperature condition Operating

Not operating

Operating

Humidity condition

Vibrations condition

Not operating

Operating

Idle

0.4 G

Noise

50 db (A) (*2)

Installation

Rack mount type (4pitches)

*1:

*2:

If the ambient temperature exceeds 35 degrees Celsius (+95F) during operation, a

warning message is displayed. Take steps to rectify the problem immediately.

The indicated noise is the mean value of the measurements obtained in an anechoic

chamber with less echoic inﬂuence. The actual noise measured at the installation site

may be greater than the indication noise due to surrounding noise and echoes.

3.6 Installation

Table 3.6 Installation Speciﬁcations of M200R (2)

Item

Specification

External

dimension

(unit:mm)

Width 482

Depth 779

Height 174

(Front of the cabinet)

(Side of the cabinet)

Service

area

(unit:mm)

650

695

Rear

1000

Service area

930

Top of

the cabinet

925

800

Drawer area

Service area

800

Front

Service area

*1:

Keep the drawer area so that the CPU shelf can be pulled out from the main cabinet

during installing some internal option products and providing maintenance of the

CPU shelf.

*2:

*3:

When this unit is installed in a expansion rack:GP7B7RK1U/RK2U/RK3U/RK4U.

When this unit is installed in a expansion rack:GP727RK1U/RK2U.

CHAPTER 4

M400A Main Cabinet

CONTENTS

4.1

4.2

4.3

4.4

4.5

4.6

Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Device Conﬁguration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Systemboard . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Disk Units . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

PCI Slots . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

CHAPTER 4 M400A Main Cabinet

4.1 Overview

Appearance

CHECK LED

(amber)

POWER LED

(green)

Lock

Figure 4.1 Front View of M400A Main Cabinet

Key Features

Up to 4 processors

Up to 32 DIMM slots, 8 gigabytes of memory.

Up to 64-bits width, 8 PCI buses provide 12 PCI slots ( 4*33/66MHz + 8*33MHz).

Up to 22 UltraSCSI disk drive bays, which support hot-swap features.

1 CD-ROM unit and 1 ﬂoppy disk unit as the basic conﬁguration.

1 tape unit can be installed.

1 100BASE-TX (auto-sensing 10 / 100 Mbps), 2 Serial, 1 Parallel, 1 Keyboard/Mouse port

N+1 redundant power supply units, and fan units, which support hot-swap feature.

4.2 Device Conﬁguration

The M400A main cabinet consists of the following components:

Floor stand cabinet

Basic power supply and option redundant power supply unit

Cooling fans

Systemboard

Processor modules

DIMM (Dual Inline Memory Module)

Operator panel

PCI card (option)

Disk drive units

CD-ROM unit

Tape unit (optional QIC tape, 8-mm tape, or DAT)

Floppy disk unit

The processor modules, DIMMs, PCI cards, tape drive unit, redundant power supply, and disk drive units of the

above components are available as options.

Front view of the M400A main cabinet

DAT Unit / 8mm Tape Unit

/ QIC Tape Unit

Operator Panel

Floppy Disk Unit

Panel Cover

CD-ROM Unit

Figure 4.2 Open View of M400A Main Cabinet

CHAPTER 4 M400A Main Cabinet

Panel cover

The panel cover can be opened from its right side after unlocking it. Then you can access switches

on the operator panel, CD-ROM unit, Floppy drive unit, tape unit, and so on.

Fans

The Table 4.1 lists the fans installed in the M400A main cabinet.

Table 4.1 Fans

Name

Fan #0

Tray #

Location

Tray #04

Right (front view) of the cabinet

Fan #1

Fan #3

Tray #01

Tray #02

Center (front view) of the cabinet

Left (front view) of the cabinet

Fan #4

Fan #5

Fan #10

Fan #11

Fan #12

Fan #13

Fan #14

Fan #15

Fan #16

Fan #17

Fan #18

Fan #19

Fan #20

Fan #21

Tray #05

Tray #06

Tray #07

Tray #08

Tray #09

Tray #10

Bottom (rear view) of the cabinet

Upper (rear view) of the cabinet

Above the processer module

Side the PCI slot

Above the processer module (System expansion unit)

Side the PCI slot (System expansion unit)

Power supplies

The M400A main cabinet has 2 kinds of power supply units as well as DDC (DC-DC Converter).

FEP (Front End Bulk Power) unit has AC input, and provide +48V(to BE). BE (Back End Power)

has +48V input, and provide +12V or +5V or +3.3V to some internal components. The power

supplies must be conﬁgured according to the system hardware conﬁguration as described in

Table 4.2 .

Table 4.2 Power Supply Units

Without an Expansion

System Board

With an Expansion

System Board

Standard

Redundant Standard

Redundant

FEP

BE(5V)

BE(3.5V)

4.2 Device Conﬁguration

Rear of the M400A main cabinet

AC input, AC main line switch, power supplies (FEP) and some connectors are located on the rear

of the M400A main cabinet as shown in the Figure 4.3

PCI slot

Expansion System Board

(option)

FEP#2

FEP#3 (option)

100BASE-TX

SCSI

(Differential)

FEP#0

FEP#1

UPS

RS232C (portB)

RS232C (portA)

RCI

AC Main Line

Switch

Parallel

SCSI

(Differential)

Keyboard

100BASE-TX

Expansion File Unit Type-2

(option)

AC Mainline Switch

AC Power Input

Figure 4.3 Rear View of M400A Main Cabinet

CHAPTER 4 M400A Main Cabinet

4.3 Systemboard

Systemboard

CPU module slots and memory module slots are located on Systemboard as described in Figure 4.4 .

NVRAM

Base System Board

NVRAM

Expansion System Board

Figure 4.4 Systemboard Layout of M400A

4.3 Systemboard

Processor Conﬁguration

Up to 4 CPU can be installed in the M400A main cabinet. When installing the processor modules,

the following conditions must be satisﬁed:

The installed processor modules must be the same type (including the cache size).

Install a processor module in slot 0 before installing one in slot 1.

When installing a processor module, install DC-DC converters alog with the processor in the

corresponding slot.

IMPORTANT

If any of the above conditions is not satisﬁed, the operation is not guaranteed.

Memory conﬁguration

Using the Expansion System Board’s option the M400A has 32 memory slots, allowing for as much

as 8 gigabytes of main memory. When installing the memory modules, the following conditions

must be satisﬁed:

When installing the ﬁrst set of DIMM, install a set of 4 modules of same size in slots 0, 1, 2,

and 3.

At subsequent memory expansions, install a set of 4 modules of the same size in slots 4, 5, 6, 7,

and 8, 9, 10, 11, then 12, 13, 14, 15.

The same memory installation rules ( described above ) apply when using the Expansion

System Board.

IMPORTANT

If any of the above conditions is not satisﬁed when installing the DIMMs, some DIMMs are

degraded in the power-on diagnostics. When expanding the memory modules, check that

the DIMMs are installed correctly.

Memory ECC feature

The SDRAM DRAM is used as the memory chip. The single-bit error correction and multiple-bit

error detection features are available for a large capacity memory by using the Error Check Code

(ECC) system. A single-bit error can be isolated down to the memory slot on which it occurred. A

multiple-bit error can be isolated down to the pair of slots on which it occurred.

Checking results of the memory diagnostics

To check that the system recognizes installed memory modules correctly, execute the

"show-post-results" command at the ok prompt. A module that does not satisfy any

condition described in "Memory conﬁguration" or a module judged to be faulty by memory

diagnostics is treated as an invalid module. The screen below lists the command execution results

related to memories and their meanings.

CHAPTER 4 M400A Main Cabinet

Example for normal operation

=== Memory ===================

Type : SDRAM

SLOT#

Size [ Valid (MB) / Existing (MB) ]

Total

00- 0- 3

00- 4- 7

00- 8-11

00-12-15

01- 0- 3

01- 4- 7

01- 8-11

01-12-15

256 / 256

: 1024 / 1024 MB

* = Error SLOT

Example of a slot #4 error

=== Memory ===================

Type : SDRAM

SLOT#

Size [ Valid (MB) / Existing (MB) ]

Total

00- 0- 3

00- 4- 7

00- 8-11

00-12-15

01- 0- 3

01- 4- 7

01- 8-11

01-12-15

256 / 256

0 / 256

256 / 256

0 / 256

256 / 256

0 / 256

: 1024 / 1024 MB

0 /

0 / 768 MB

256 / 256

: 1024 / 1024 MB

* = Error SLOT

Note:

If a memory error is detected, an asterisk is displayed in the Size ﬁeld for the

corresponding slot. In this example, an error in slot #4 is detected in the initial

diagnostics operation. Modules in slots 5 to 7 are recognized as normal modules but

also become invalid.

4.4 Disk Units

Disk drive conﬁguration

Up to 7 disk dirves can be installed in To install more than 8 disk drive units, the File Unit

Expansion Kit and/or Expansion File Unit Type-2 must be installed.

4.5 PCI Slots

PCI slots conﬁguration

PCI slots are located on the systemboard as described in Figure 4.4 . There are 7 separate PCI Bus

channels: A, B, C, D, E, F, G, and H. All PCI Bus slots provide for the full 64-bit data path and can

accommodate both 32-bit and 64-bit data path cards. The speciﬁcations for the PCI slots are

described in the Table 4.3 .

Table 4.3 PCI Slot Speciﬁcations

PCI slot #

PCI Bus

Slot width / card

width (bits)

PCI clock

(MHz)

Card input voltage

(00)

64 / 32, 64

5 V or universal

3.3 V or universal

5 V or universal

3.3 V or universal

33 / 66

(01)

33 / 66

Note:

When you use 7 PCI slots or more, optional PCI Extension System Board must be

added to the M400R main cabinet.

CHAPTER 4 M400A Main Cabinet

4.6 Installation

Notes on installation:

Do not block the ventilation slits.

Do not install the M400A main cabinet where it will be exposed to sunlight or sources of heat.

Do not install the M400A main cabinet in dusty places or places where it will be exposed to

corrosive gas or sea breeze.

Keep the M400A main cabinet isolated from vibration. Install the M400A main cabinet on a

level surface so that it does not tilt.

Make sure that the AC power supply source is grounded properly. Otherwise, the M400A main

cabinet may malfunction.

Do not run a cable under a unit or allow a cable to become taut. Do not disconnect the power

cable when the power is on.

Do not place anything on the M400A main cabinet. Do not use the cabinet of the M400A main

cabinet as a work space.

In winter, to prevent condensation in the M400A main cabinet, do not raise the ambient

temperature rapidly. Use the M400A main cabinet only after it has warmed up sufﬁciently.

Do not install the M400A main cabinet near a noise generating device such as a photocopier, air

conditioner, or welder.

Take electrostatic prevention measures. Note that some carpets generates static electricity

easily and can cause the M400A main cabinet to malfunction.

When moving the M400A main cabinet, do not pull on the front cover. Otherwise, the main

cabinet may be damaged.

IMPORTANT

If the above conditions are not satisﬁed, the M400A main cabinet may be damaged. Be

sure to follow these precautions.

4.6 Installation

Installation speciﬁcations

Table 4.4 Installation Speciﬁcations of M400A Main Cabinet (1)

Item

Specification

Mass

Up to 175kg (approx.385 lb)

Single phase

100 to 120 VAC

(+-10%)

Single phase

200 to 240 VAC

(+-10%)

Power condition

Input voltage

Input frequency

50/60 Hz (+2 to -4%)

13.5 A

Maximum consumption current

Leakage current (1 for each cable)

Ground resistance

6.75 A

3.5 mA or less

100ohm or less ( class C installation standard)

5 to 35 degrees Celsius (+41 to +95 F) (*1)

0 to 50 degrees Celsius (+32 to +122F)

20 to 80%RH (no condensation)

8 to 80% RH (no condensation)

0.2 G

Temperature condition Operating

Not operating

Operating

Humidity condition

Vibrations condition

Not operating

Operating

Idle

0.4 G

Noise

47 db (A) (*2)

Installation

Floor Stand type

*1:

*2:

If the ambient temperature exceeds 35 degrees Celsius (+95 F) during operation, a

warning message is output. Take steps to rectify the problem immediately.

The indicated noise is the mean value of the measurements obtained in an anechoic

chamber with less echoic inﬂuence. The actual noise measured at the installation site

may be greater than the indication noise due to surrounding noise and echoes.

CHAPTER 4 M400A Main Cabinet

Table 4.5 Installation Speciﬁcations of M400A Main Cabinet (2)

Item

Specification

External

dimension

(unit:mm)

Width 500

Depth 882

Height 700

(Front of the cabinet)

(Side of the cabinet)

Service

area

(unit:mm)

500

Rear

1000

Service area

Top of

the cabinet

882

800

Service area

800

Drawer area

Service area

Front

Service area

*1:

Keep the drawer area so that the CPU shelf can be pulled out from the main cabinet

during installing some internal option products and providing maintenance of the

CPU shelf.

CHAPTER 5

M400R Main Cabinet

CONTENTS

5.1

5.2

5.3

5.4

5.5

5.6

Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Device Conﬁguration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Systemboard . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Disk Units . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

PCI Slots . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

CHAPTER 5 M400R Main Cabinet

5.1 Overview

Appearance

POWER LED (green)

CHECK LED (amber)

Lock

Figure 5.1 Front View of M400R Main Cabinet

Key Features

Up to 4 processors

Up to 32 DIMM slots, 8 gigabytes of memory.

Up to 64-bits width, 8 PCI buses provide 12 PCI slots ( 4*33/66MHz + 8*33MHz).

2 UltraSCSI disk drive bays, which support hot-swap features.

1 CD-ROM unit and 1 ﬂoppy disk unit as the basic conﬁguration.

1 tape unit can be installed.

1 100BASE-TX (auto-sensing 10 / 100 Mbps), 2 UltraSCSI(differencal), 2 Serial, 1 Parallel, 1

Keyboard/Mouse port

N+1 redundant power supply units, and fan units, which support hot-swap feature.

5.2 Device Conﬁguration

The M400R main cabinet consists of the following components:

Rack-mount cabinet

Basic power supply and option redundant power supply unit

Cooling fans

Systemboard

Processor modules

DIMM (Dual Inline Memory Module)

Operator panel

PCI card (option)

Disk drive units

CD-ROM unit

Tape unit (optional QIC tape, 8-mm tape, or DAT)

Floppy disk unit

The processor modules, DIMMs, PCI cards, tape drive unit, redundant power supply, and disk drive units of the

above components are available as options.

Front view of the M400R main cabinet

DAT Unit / 8mm Tape Unit

/ QIC Tape Unit

Operator Panel

Front Cover

Floppy Disk Unit

Figure 5.2 Open View of M400R Main Cabinet

CD-ROM Unit

Panel cover

The panel cover can be opened from its right side after unlocking it. Then you can access switches

on the operator panel, CD-ROM unit, Floppy drive unit, tape unit, and so on.

CHAPTER 5 M400R Main Cabinet

Fans

The Table 5.1 lists the fans installed in the M400R main cabinet.

Table 5.1 Fans

Name

Fan #0

Tray #

Location

Tray #04

Right (front view) of the cabinet

Fan #1

Fan #3

Tray #01

Tray #02

Center (front view) of the cabinet

Left (front view) of the cabinet

Fan #4

Fan #5

Fan #10

Fan #11

Fan #12

Fan #13

Fan #14

Fan #15

Fan #16

Fan #17

Fan #18

Fan #19

Fan #20

Fan #21

Tray #05

Tray #06

Tray #07

Tray #08

Tray #09

Tray #10

Bottom (rear view) of the cabinet

Upper (rear view) of the cabinet

Above the processer module

Side the PCI slot

Above the processer module (System expansion unit)

Side the PCI slot (System expansion unit)

Power supplies

The M400R main cabinet has 2 kinds of power supply units as well as DDC (DC-DC Converter),

FEP (Front End Bulk Power) unit has AC input, and provide +48V(to BE). BE (Back End Power)

has +48V input, and provide +12V or +5V or +3.3V to some internal components. The power

supplies must be conﬁgured according to the system hardware conﬁguration as described in

Table 5.2 .

Table 5.2 Power Supply Units

Without an Expansion

System Board

With an Expansion

System Board

Standard

Redundant Standard

Redundant

FEP

BE(5V)

BE(3.5V)

5.2 Device Conﬁguration

Rear of the M400R main cabinet

AC input, power supplies (FEP) and some connectors are located on the rear of the M400R main

cabinet as shown in the Figure 5.3 .

100BASE-TX

PCI slot

Expansion System Board

(option)

FEP#2

FEP#3 (option)

SCSI

(Differential)

FEP#0

UPS

FEP#1

RS232C (portB)

RS232C (portA)

Parallel

Keyboard

Power Control

100BASE-TX

RCI

SCSI

Figure 5.3 Rear View of M400R Main Cabinet

CHAPTER 5 M400R Main Cabinet

5.3 Systemboard

Systemboard

CPU module slots and memory module slots are located on Systemboard as described in Figure 5.4 .

NVRAM

Base System Board

NVRAM

Expansion System Board

Figure 5.4 Systemboard Layout of M400R

5.3 Systemboard

Processor Conﬁguration

Up to 4 CPU can be installed in the M400R main cabinet. When installing the processor modules,

the following conditions must be satisﬁed:

The installed processor modules must be the same type (including the cache size).

Install a processor module in slot 0 before installing one in slot 1.

When installing a processor module, install a DC-DC converter along with the processor in the

corresponding slot.

IMPORTANT

If any of the above conditions is not satisﬁed, the operation is not guaranteed.

Memory conﬁguration

Using the Expansion System Board’s option the M400R has 32 memory slots, allowing for as much

as 8 gigabytes of main memory. When installing the memory modules, the following conditions

must be satisﬁed:

When installing the ﬁrst set of DIMM, install a set of 4 modules of same size in slots 0, 1, 2,

and 3.

At subsequent memory expansions, install a set of 4 modules of the same size in slots 4, 5, 6, 7,

and 8, 9, 10, 11, then 12, 13, 14, 15.

The same memory installation rules ( described above ) apply when using the Expansion

System Board.

IMPORTANT

If any of the above conditions is not satisﬁed when installing the DIMMs, some DIMMs are

degraded in the power-on diagnostics. When expanding the memory modules, check that

the DIMMs are installed correctly.

Memory ECC feature

The SDRAM is used as the memory chip. The single-bit error correction and multiple-bit error

detection features are available for a large capacity memory by using the Error Check Code (ECC)

system. A single-bit error can be isolated down to the memory slot on which it occurred. A

multiple-bit error can be isolated down to the pair of slots on which it occurred.

Checking results of the memory diagnostics

To check that the system recognizes installed memory modules correctly, execute the

"show-post-results" command at the ok prompt. A module that does not satisfy any

condition described in "Memory conﬁguration" or a module judged to be faulty by memory

diagnostics is treated as an invalid module. The screen below lists the command execution results

related to memories and their meanings.

CHAPTER 5 M400R Main Cabinet

Example for normal operation

=== Memory ===================

Type : SDRAM

SLOT#

Size [ Valid (MB) / Existing (MB) ]

Total

00- 0- 3

00- 4- 7

00- 8-11

00-12-15

01- 0- 3

01- 4- 7

01- 8-11

01-12-15

256 / 256

: 1024 / 1024 MB

* = Error SLOT

Example of a slot #4 error

=== Memory ===================

Type : SDRAM

SLOT#

Size [ Valid (MB) / Existing (MB) ]

Total

00- 0- 3

00- 4- 7

00- 8-11

00-12-15

01- 0- 3

01- 4- 7

01- 8-11

01-12-15

256 / 256

0 / 256

256 / 256

0 / 256

256 / 256

0 / 256

: 1024 / 1024 MB

0 /

0 / 768 MB

256 / 256

: 1024 / 1024 MB

* = Error SLOT

Note:

If a memory error is detected, an asterisk is displayed in the Size ﬁeld for the

corresponding slot. In this example, an error in slot #4 is detected in the initial

diagnostics operation. Modules in slots 5 to 7 are recognized as normal modules but

also become invalid.

5.4 Disk Units

Disk drive conﬁguration

Up to 2 disk drives can be installed in the base conﬁguration of the M400R main cabinet. To install

more than 3 disk drive units, the Expansion File Unit Type-2 must also installed.

5.5 PCI Slots

PCI slots conﬁguration

PCI slots are located on the systemboard as described in Figure 5.4 . There are 7 separate PCI Bus

channels: A, B, C, D, E, F, G, and H. All PCI Bus slots provide for the full 64-bit data path and can

accommodate both 32-bit and 64-bit data path cards. The speciﬁcations for the PCI slots are

described in the Table 5.3 .

Table 5.3 PCI Slot Speciﬁcations

PCI slot #

PCI Bus

Slot width / card

width (bits)

PCI clock

(MHz)

Card input voltage

(00)

64 / 32, 64

5 V or universal

3.3 V or universal

5 V or universal

3.3 V or universal

33 / 66

(01)

33 / 66

Note:

When you use 7 PCI slots or more, optional Expansion System Board must be added

to the M400R main cabinet.

CHAPTER 5 M400R Main Cabinet

5.6 Installation

Purpose The following installation instruction is intended to provide the product safety requirements which

must be addressed when the end-use product manufacturer installs this product in their equipment.

Note that the acceptability of the combination of this product in a rack should be re-determined by

an appropriate certiﬁcation body, if that combination is differ from the Table 5.4 .

Safety Installation Instruction:

This unit is installed in a closed or multi-unit rack assembly, the operating ambient temperature

inside of the rack environment may be greater than room ambient. Therefore, consideration

should be given to installing the unit in an environment compatible with the manufacturer’s

maximum rated ambient temperature.

–

Consideration for adjustment of air condition like air circulation should be given to prevent

the internal rack ambient from exceeding the Max. Operating ambient temperature of this

unit.

–

Maximum operating ambient temperature of this unit : 35 deg C.

Installation of the unit in a rack should be such that the amount of air ﬂow required for safe

operation of the unit is not compromised.

–

This unit has ventilation openings at front and rear face of the unit.

Do not cover or close these ventilation openings to prevent overheating.

Mounting of the unit in the rack should be such that a hazardous condition is not achieved due

to uneven mechanical loading. To keep stability of entire rack, please ﬁx the rack to wall or

ﬂoor by suitable means.

–

Be careful about injury during installation of this unit into rack.

Do not install this unit into your rack where the unit may make the entire rack unstable.

Mass of this unit with maximum conﬁguration : 65 kg.

If the unit is supplied from Power Strip or Service Outlet of other units, it may overload the

Power Supply Cord of the Power Strip or other units.

–

Conﬁrm that the current rating of Power Strip or Service Outlet exceeds the combined

ratings of all equipment it is supplying.

Electrical ratings of this unit : Rated 100 - 240Vac, 7.5 - 3.0 A, 50/60 Hz, 1 phase

Reliable earthing of rack-mounted equipment should be maintained. Particular attention should

be given to supply connections other than direct connections to the branch circuit (e.q., use of

power strips).

5.6 Installation

IMPORTANT

High Leakage Current may ﬂow through Power Strip Earthing Conductor, if all power

supply cords of this unit are connected to one Power Strip. Earth connection essential

before connecting supply.

Table 5.4 Mounting Combination for Expansion Rack

Mounting Portion Priority in the Rack

Rack-Mount Units

Communication Swichable Unit

Expansion File Unit Type-2

Disk Array Unit (GP-DxxxxU)

GP7000F Model 200R/400R

Disk Array Unit (GR700/720)

Outlet and/or Outlet Type-2

GP7000F Model 600R

Upper

Lower

Note:

Each rack-mount unit should be mounted in the lowest available portion with the

priority indicated in the Table 5.4 .

Notes on Installation

Do not install this ﬁle unit where it will be exposed to sunlight or sources of heat.

Do not install this ﬁle unit in dusty places or places where it will be exposed to corrosive gas or

sea breeze.

Keep this ﬁle unit isolated from vibration. Install this ﬁle unit on a level surface to prevent it

from tilting.

Do not run a cable under a unit or overextend a cable. Do not disconnect the power cable while

the power is on.

Do not place anything on this ﬁle unit. Do not use this ﬁle unit as a desk.

To prevent condensation in this ﬁle unit, do not raise the room temperature rapidly in the winter.

Use the cabinet only after sufﬁciently warming it.

Do not install this cabinet near noisy devices such as a photocopier, air conditioner, or welder.

Take electrostatic prevention measures. Note that some carpets generate static electricity easily

and can cause this ﬁle unit to malfunction.

IMPORTANT

If the above conditions are not satisﬁed, this ﬁle unit may be damaged. Be sure to follow

above precautions.

CHAPTER 5 M400R Main Cabinet

Installation speciﬁcations

Table 5.5 Installation Speciﬁcations of M400R

Item

Specification

Mass

Up to 65kg (approx.143 lb)

Single phase

100 to 120 VAC

(+-10%)

Single phase

200 to 240 VAC

(+-10%)

Power condition

Input voltage

Input frequency

50/60 Hz (+2 to -4%)

7.5 A

Maximum consumption current

Leakage current (1 for each cable)

Ground resistance

3.75 A

3.5 mA or less

100ohm or less ( class C installation standard)

5 to 35 degrees Celsius (+41 to +95 F) (*1)

0 to 50 degrees Celsius (+32 to +122F)

20 to 80%RH (no condensation)

8 to 80% RH (no condensation)

0.2 G

Temperature condition Operating

Not operating

Operating

Humidity condition

Vibrations condition

Not operating

Operating

Idle

0.4 G

Noise

47 db (A) (*2)

Installation

Rack mount type (7pitches)

*1:

*2:

If the ambient temperature exceeds 35 degrees Celsius (+95F) during operation, a

warning message is displayed. Take steps to rectify the problem immediately.

The indicated noise is the mean value of the measurements obtained in an anechoic

chamber with less echoic inﬂuence. The actual noise measured at the installation site

may be greater than the indication noise due to surrounding noise and echoes.

5.6 Installation

Table 5.6 Installation Speciﬁcations of M400R (2)

Item

Specification

External

dimension

(unit:mm)

Width 482

Depth 814

Height 307

(Front of the cabinet)

(Side of the cabinet)

Service

area

(unit:mm)

650

695

Rear

1000

Service area

930

Top of

the cabinet

925

800

Drawer area

Service area

800

Front

Service area

*1:

Keep the drawer area so that the CPU shelf can be pulled out from the main cabinet

during installing some internal option products and providing maintenance of the

CPU shelf.

*2:

*3:

When this unit is installed in a expansion rack:GP7B7RK1U/RK2U/RK3U/RK4U.

When this unit is installed in a expansion rack:GP727RK1U/RK2U.

CHAPTER 6

M600 Main Cabinet

CONTENTS

6.1

6.2

6.3

6.4

6.5

6.6

Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Device Conﬁguration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Systemboard . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Disk Units . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

PCI Slots . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

CHAPTER 6 M600 Main Cabinet

6.1 Overview

Appearance

CHECK LED( amber )

POWER LED( green )

Lock

Figure 6.1 Front View of M600 Main Cabinet

Key Features

Up to 8 processors

32 DIMM slots, up to 8 gigabytes of memory.

64-bits width, 7 PCI buses provide 13 PCI slots ( 4*33/66MHz + 9*33MHz).

Up to 22 UltraSCSI disk drive bays, which support hot-swap features.

1 CD-ROM unit and 1 ﬂoppy disk unit as the basic conﬁguration.

1 tape unit can be installed.

1 100BASE-TX (auto-sensing 10 / 100 Mbps), 2 Serial, 1 Parallel, 1 Keyboard/Mouse port

N+1 redundant power supply units, and fan units, which support hot-swap feature.

6.2 Device Conﬁguration

The M600 main cabinet consists of the following components:

Floor stand cabinet

Basic power supply and option redundant power supply unit

Cooling fans

Systemboard, PCI IO board

Processor modules

DIMM (Dual Inline Memory Module)

Operator panel

PCI card (option)

Disk drive units

CD-ROM unit

Tape unit (optional QIC tape, 8-mm tape, or DAT)

Floppy disk unit

The processor modules, DIMMs, PCI cards, tape drive unit, redundant power supply, and disk drive units of the

above components are available as options.

Front view of the M600 main cabinet

DAT Unit/8-mm Tape

Unit, QIC Tape Unit

Operator Panel

CD-ROM Unit

Floppy Disk Unit

Front Cover

Figure 6.2 Open View of M600 Main Cabinet

CHAPTER 6 M600 Main Cabinet

Panel cover

The panel cover can be opened from its right side after unlocking it. Then you can access switches

on the operator panel, CD-ROM unit, Floppy drive unit, tape unit, and so on.

Fans

The Table 6.1 lists the fans installed in the M600 main cabinet.

Table 6.1 Fans

Name

Fan #0

Tray #

Location

Tray #01

Upper, Left (front view) of the cabinet

Fan #1

Fan #2

Fan #3

Tray #02

Tray #03

Upper, Right (front view) of the cabinet

Bottom, Left (front view) of the cabinet

Fan #4

Fan #5

Fan #6

Fan #7

Fan #8

Fan #9

Fan #10

Fan #11

Fan #12

Fan #13

Fan #14

Fan #15

Fan #16

Fan #17

Fan #18

Fan #19

Fan #20

Fan #21

Fan #22

Tray #04

Bottom, Right (front view) of the cabinet

Tray #05

Tray #06

Tray #07

Upper, Center Left-hand (front view) of the cabinet

Upper, Center Right-hand (front view) of the cabinet

Bottom, Left (rear view) of the cabinet

Tray #08

Tray #09

Tray #10

Bottom, Left (rear view) of the cabinet

Bottom, Right (rear view) of the cabinet

Power supplies

The M600 main cabinet has 2 kinds of power supply units as well as DDC (DC-DC Converter)

dedicated each processor module. FEP (Front End Bulk Power) unit has AC input, and provide

+45V(to PPU) and +5V(to SCF). PPU (Power Processing Unit) has +45V input, and provide +12V

or +5V or +3.3V or +2V to some internal components. The power supplies must be conﬁgured

according to the system hardware conﬁguration as described in Table 6.2 .

6.2 Device Conﬁguration

Table 6.2 Power Supply Units

Number of CPUs

Number of PCI cards

1 - 6

7 - 13

FEP

3(FEP#2)

PPU2

PPU3

PPU3-io

PPU5

PPU12

3(PPU#2)

2(PPU3#4)

2(PPU5#1)

Note:

In the Table 6.2 above, ( ) indicate additional power supply unit #.

Rear of the M600 main cabinet

AC input, AC main line switch, power supplies (FEP) and some connectors are located on the rear

of the M600 main cabinet as shown in the Figure 6.3

PCI slot #13

PCI slot #12

PCI slot #11

PCI slot #10

PCI slot #9

PCI slot #8

PCI slot #7

PCI slot #6

PCI slot #5

PCI slot #4

PCI slot #3

PCI slot #2

PCI slot #1

UPS

RCI

Parallel( AT Centronics )

RS232C( Port A )

RS232C( Port B )

Keyboard

100BASE-TX

AC Main Line Switch

AC Power Input

FEP#0

FEP#1

FEP#2

Figure 6.3 Rear View of M600 Main Cabinet

CHAPTER 6 M600 Main Cabinet

6.3 Systemboard

Systemboard

CPU module slots and memory module slots are located on Systemboard as described in Figure 6.4 .

Figure 6.4 Systemboard Layout of M600

6.3 Systemboard

Processor Conﬁguration

Up to 8 CPU conﬁguration is supported as described in Table 6.3 .

Table 6.3 CPU Module Conﬁgurations

CPU Slot #

Additional Power

Supply units

2CPU

3CPU

4CPU

5CPU

6CPU

7CPU

8CPU

Yes

1DDC,1FEP

1DDC

Yes

1DDC,1PPU

1DDC

Yes Yes

Yes Yes Yes

1DDC

Yes 1DDC

IMPORTANT

If any of the above conditions is not satisﬁed, the operation is not guaranteed.

Memory conﬁguration

The M600 has 32 memory slots, allowing for as much as 8 gigabytes of main memory. When

intsalling the memory modules, the following conditions must be satisﬁed:

When installing the ﬁrst set of DIMM, install a set of 4 modules of same size in slots 0 and 1 of

both groups A and B.

At subsequent memory expansions, install a set of 4 modules in slots 2 and 3 of both groups A

and B. Then, install a set of 8 modules in slots 4 to 7 of both groups A and B. Finally, install a

set of 16 modules in slots 8 to 15 of both groups A and B. The modules installed in the slots of a

group must have the same size.

Alternatively, install the set of 4 or 8 or 16 modules of same size in just group A. The set of

modules must be installed in the lowest available slots. However, ASR (Automatic System

Reconﬁguration) from memory failure may not work, in this memory conﬁguration.

IMPORTANT

If any of the above conditions is not satisﬁed when installing the DIMMs, some DIMMs are

degraded in the power-on diagnostics. When expanding the memory modules, check that

the DIMMs are installed correctly.

Memory ECC feature

The EDO DRAM is used as the memory chip. The single-bit error correction and multiple-bit error

detection features are available for a large capacity memory by using the Error Check Code (ECC)

system. A single-bit error can be isolated down to the memory slot on which it occurred. A

multiple-bit error can be isolated down to the pair of slots on which it occurred.

CHAPTER 6 M600 Main Cabinet

Checking results of the memory diagnostics

To check that the system recognizes installed memory modules correctly, execute the

"show-post-results" command at the ok prompt. A module that does not satisfy any

condition described in "Memory conﬁguration" or a module judged to be faulty by memory

diagnostics is treated as an invalid module. The screen below lists the command execution results

related to memories and their meanings.

Example for normal operation

=== Memory =========

Type : EDO

Group

SLOT#

0-3

4-7

Size[Valid(MB)/Existing(MB)

256/256 256/256 256/256 256/256

Total

8-11

12-15

0-3

-----

-----: 2048/2048 MB

256/256 256/256 256/256 256/256

4-7

8-11

12-15

-----

-----: 2048/2048 MB

*=Error SLOT

Example of a slot #4 error

=== Memory =========

Type : EDO

Group

SLOT#

0-3

4-7

Size[Valid(MB)/Existing(MB)

256/256 256/256 256/256 256/256

Total

8-11

12-15

0-3

-----

-----: 2048/2048 MB

0 /256 0 /256 0 /256 0 /256

0 / 0* 0 /256 0 /256 0 /256

4-7

8-11

12-15

-----

-----:

0 /1792 MB

*=Error SLOT

Note:

If a memory error is detected, an asterisk is displayed in the Size ﬁeld for the

corresponding slot. In this example, an error in slot #4 of group B is detected in the

initial diagnostics operation. Modules in slots 0 to 3 and 5 to 7 of group B are

recognized as normal modules but also become invalid.

6.4 Disk Units

6.5 PCI Slots

Disk drive conﬁguration

Up to 2 disk drives can be installed in the base conﬁguration of the M600 main cabinet. To install

more than 3 disk drive units, the Expansion File Unit must also installed.

PCI slots conﬁguration

PCI slots are located on the PCI IO board as described in Figure 6.5 . There are 7 separate PCI Bus

channels: A, B, C, D, E, F, and G. All PCI Bus slots provide for the full 64-bit data path and can

accommodate both 32-bit and 64-bit data path cards. The speciﬁcations for the PCI slots are

described in the Table 6.4 .

PCI slot #13

PCI slot #12

PCI slot #11

PCI slot #10

PCI slot #9

PCI slot #8

PCI slot #7

PCI slot #6

PCI slot #5

PCI slot #4

PCI slot #3

PCI slot #2

PCI slot #1

Figure 6.5 PCI IO Board Layout of M600

CHAPTER 6 M600 Main Cabinet

Table 6.4 PCI Slot Speciﬁcations

PCI slot #

PCI Bus

Slot width / card

width (bits)

PCI clock

(MHz)

Card input voltage

64 / 32, 64

33/66

3.3 V or universal

5 V or universal

3.3 V or universal

5 V or universal

3.3 V or universal

5 V or universal

33/66

Note:

When you use 7 PCI slots or more, optional PCI Extension PSU must be added to the

M600 main cabinet.

6.6 Installation

Notes on installation:

Do not block the ventilation slits.

Do not install the M600 main cabinet where it will be exposed to sunlight or sources of heat.

Do not install the M600 main cabinet in dusty places or places where it will be exposed to

corrosive gas or sea breeze.

Keep the M600 main cabinet isolated from vibration. Install the M600 main cabinet on a level

surface so that it does not tilt.

Make sure that the AC power supply source is grounded properly. Otherwise, the M600 main

cabinet may malfunction.

Do not run a cable under a unit or allow a cable to become taut. Do not disconnect the power

cable when the power is on.

Do not place anything on the M600 main cabinet. Do not use the cabinet of the M600 main

cabinet as a work space.

In winter, to prevent condensation in the M600 main cabinet, do not raise the ambient

temperature rapidly. Use the M600 main cabinet only after it has warmed up sufﬁciently.

Do not install the M600 main cabinet near a noise generating device such as a photocopier, air

conditioner, or welder.

Take electrostatic prevention measures. Note that some carpets generates static electricity

easily and can cause the M600 main cabinet to malfunction.

When moving the M600 main cabinet, do not pull on the front cover. Otherwise, the main

cabinet may be damaged.

IMPORTANT

If the above conditions are not satisﬁed, the M600 main cabinet may be damaged. Be sure

to follow these precautions.

CHAPTER 6 M600 Main Cabinet

Installation speciﬁcations

Table 6.5 Installation Speciﬁcations of M600 Main Cabinet (1)

Item

Specification

Mass

Up to 250kg (approx.552 lb) (*1)

Single phase

100 to 120 VAC

(+-10%)

Single phase

200 to 240 VAC

(+-10%)

Power condition

Input voltage

Input frequency

50/60 Hz (+2 to -4%)

13.4 A

Maximum consumption current

Leakage current (1 for each cable)

Ground resistance

6.6 A

2.2 mA or less

4.7 mA or less

100ohm or less ( class C installation standard)

5 to 35 degrees Celsius (+41 to +95 F) (*2)

0 to 50 degrees Celsius (+32 to +122F)

20 to 80%RH (no condensation)

8 to 80% RH (no condensation)

0.2 G

Temperature condition Operating

Not operating

Operating

Humidity condition

Vibrations condition

Not operating

Operating

Idle

0.4 G

Noise

55 db (A) (*3)

Installation

Floor Stand type

*1:

*2:

The mass shows M600 main cabinet without Expansion File Units.

If the ambient temperature exceeds 35 degrees Celsius (+95 F) during operation, a

warning message is output. Take steps to rectify the problem immediately.

*3:

The indicated noise is the mean value of the measurements obtained in an anechoic

chamber with less echoic inﬂuence. The actual noise measured at the installation site

may be greater than the indication noise due to surrounding noise and echoes.

6.6 Installation

Table 6.6 Installation Speciﬁcations of M600 Main Cabinet (2)

Item

Specification

External

dimension

(unit:mm)

Width 800

Depth 900

Height 1200

(Front of the cabinet)

(Side of the cabinet)

Service

area

(unit:mm)

800

Rear

1000

Service area

Top of

the cabinet

900

800

Service area

800

Drawer area

Service area

Front

Service area

*1:

Keep the drawer area so that the CPU shelf can be pulled out from the main cabinet

during installing some internal option products and providing maintenance of the

CPU shelf.

CHAPTER 7

M600R Main Cabinet

CONTENTS

7.1

7.2

7.3

7.4

7.5

7.6

Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Device Conﬁguration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Systemboard . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Disk Units . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

PCI Slots . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

CHAPTER 7 M600R Main Cabinet

7.1 Overview

Appearance

POWER LED (green)

CHECK LED (amber)

Lock

Figure 7.1 Front View of M600R Main Cabinet

Key Features

Up to 8 processors

32 DIMM slots, up to 16 gigabytes of memory.

64-bits width, 8 PCI buses provide 12 PCI slots ( 4*33/66MHz + 8*33MHz).

2 UltraSCSI disk drive bays, which support hot-swap features.

1 CD-ROM unit and 1 ﬂoppy disk unit as the basic conﬁguration.

1 tape unit can be installed.

1 100BASE-TX (auto-sensing 10 / 100 Mbps), 2 Serial, 1 Parallel, 1 Keyboard/Mouse port

N+1 redundant power supply units, and fan units, which support hot-swap feature.

7.2 Device Conﬁguration

The M600R main cabinet consists of the following components:

Rack-mount cabinet

Basic power supply and option redundant power supply unit

Cooling fans

Systemboard, PCIBPR board, PCIRSR board, PCIIO2 board

Processor modules

DIMM (Dual Inline Memory Module)

Operator panel

PCI card (option)

Disk drive units

CD-ROM unit

Tape unit (optional QIC tape, 8-mm tape, or DAT)

Floppy disk unit

The processor modules, DIMMs, PCI cards, tape drive unit, redundant power supply, and disk drive units of the

above components are available as options.

Front view of the M600R main cabinet

CD-ROM Unit

Floppy DISK Unit

Operator Panel

Front Cover

DAT Unit / 8mm Tape Unit,

QIC Tape Unit

Figure 7.2 Open View of M600R Main Cabinet

CHAPTER 7 M600R Main Cabinet

FEP#2

FEP#3

(additional) (redundant option)

Figure 7.3 Front View of M600R Main Cabinet (remove Front cover)

Panel cover

The panel cover can be opened from its right side after unlocking it. Then you can access switches

on the operator panel, CD-ROM unit, Floppy drive unit, tape unit, and so on.

Fans

The Table 7.1 lists the fans installed in the M600R main cabinet.

Table 7.1 Fans

Name

Fan #0

Fan #1

Fan #2

Fan #3

Fan #4

Fan #5

Fan #6

Fan #7

Fan #8

Fan #9

Fan #10

Fan #11

Tray #

Location

Tray #01

Front, Left (front view) of the cabinet

Tray #02

Tray #03

Tray #04

Tray #05

Tray #06

Front, Above the Disk drive slots

Rear, Above the PCI Slots

Rear, Right (rear view) of the cabinet

Tray #07

Tray #08

Right (front view), side the PCI

slots from #8 to #12

7.2 Device Conﬁguration

Power supplies

The M600R main cabinet has 2 kinds of power supply units as well as DDC (DC-DC Converter)

dedicated each processor module. FEP (Front End Bulk Power) unit has AC input, and provide

+45V(to PPU) and +5V(to SCF). PPU (Power Processing Unit) has +45V input, and provide +12V

or +5V or +3.3V or +2V to some internal components. The power supplies must be conﬁgured

according to the system hardware conﬁguration as described in Table 7.2 .

Table 7.2 Power Supply Units

Number of CPUs

FEP

3(FEP#2)

PPU2

PPU3

PPU3-io

PPU5

PPU12

3(PPU#2)

Note:

In the Table 7.2 above, ( ) indicate additional power supply unit #.

Rear of the M600R main cabinet

AC input, AC main line switch, power supplies (FEP) and some connectors are located on the rear

of the M600R main cabinet as shown in the Figure 7.4

UPS

RCI

RS232C(Port A)

PCIslot#1

PCIslot#2

PCIslot#3

PCIslot#4

PCIslot#5

PCIslot#6

PCIslot#7

RS232C(Port B)

Power Control

Parallel(AT Centronecs)

Keyboard

100BASE-TX

PCIslot#8

PCIslot#9

PCIslot#10

PCIslot#11

PCIslot#12

AC Power Input

AC Main Line Switch

FEP#0 FEP#1

Figure 7.4 Rear View of M600R Main Cabinet

CHAPTER 7 M600R Main Cabinet

7.3 Systemboard

Systemboard

CPU module slots and memory module slots are located on Systemboard as described in Figure 7.5 .

DIMMslot A1

DIMMslot B1

DIMMslot A9

DIMMslot B9

PPU2 #0

DIMMslot A3

DIMMslot B3

DIMMslot A5

DIMMslot B5

DIMMslot A7

DIMMslot B7

DIMMslot A11

DIMMslot B11

DIMMslot A13

DIMMslot B13

DIMMslot A15

DIMMslot B15

CPUslot 3

CPUslot 2

CPUslot 1

CPUslot 7

CPUslot 6

CPUslot 5

CPUslot 0

CPUslot 4

DIMMslot A0

DIMMslot B0

DIMMslot A8

DIMMslot B8

DIMMslot A2

DIMMslot B2

DIMMslot A4

DIMMslot B4

DIMMslot A6

DIMMslot B6

DIMMslot A10

DIMMslot B10

DIMMslot A12

DIMMslot B12

DIMMslot A14

DIMMslot B14

Figure 7.5 Systemboard Layout of M600R

7.3 Systemboard

Processor Conﬁguration

Up to 8 CPU conﬁguration is supported as described in Table 7.3 .

Table 7.3 CPU Module Conﬁgurations

CPU Slot #

Additional Power

Supply units

2CPU

3CPU

4CPU

5CPU

6CPU

7CPU

8CPU

Yes

1DDC,1FEP

1DDC

Yes

1DDC,1PPU

1DDC

Yes Yes

Yes Yes Yes

1DDC

Yes 1DDC

IMPORTANT

If any of the above conditions is not satisﬁed, the operation is not guaranteed.

Memory conﬁguration

The M600R has 32 memory slots, allowing for as much as 16 gigabytes of main memory. When

installing the memory modules, the following conditions must be satisﬁed:

When installing the ﬁrst set of DIMM, install a set of 4 modules of same size in slots 0 and 1 of

both groups A and B.

At subsequent memory expansions, install a set of 4 modules in slots 2 and 3 of both groups A

and B. Then, install a set of 8 modules in slots 4 to 7 of both groups A and B. Finally, install a

set of 16 modules in slots 8 to 15 of both groups A and B. The modules installed in the slots of a

group must have the same size.

Alternatively, install the set of 4 or 8 or 16 modules of same size in just group A. The set of

modules must be installed in the lowest available slots. However, ASR (Automatic System

Reconﬁguration) from memory failure may not work, in this memory conﬁguration.

IMPORTANT

If any of the above conditions is not satisﬁed when installing the DIMMs, some DIMMs are

degraded in the power-on diagnostics. When expanding the memory modules, check that

the DIMMs are installed correctly.

Memory ECC feature

The SDRAM is used as the memory chip. The single-bit error correction and multiple-bit error

detection features are available for a large capacity memory by using the Error Check Code (ECC)

system. A single-bit error can be isolated down to the memory slot on which it occurred. A

multiple-bit error can be isolated down to the pair of slots on which it occurred.

CHAPTER 7 M600R Main Cabinet

Checking results of the memory diagnostics

To check that the system recognizes installed memory modules correctly, execute the

"show-post-results" command at the ok prompt. A module that does not satisfy any

condition described in "Memory conﬁguration" or a module judged to be faulty by memory

diagnostics is treated as an invalid module. The screen below lists the command execution results

related to memories and their meanings.

Example for normal operation

=== Memory =========

Type : SDRAM

Group

SLOT#

0-3

4-7

Size[Valid(MB)/Existing(MB)

256/256 256/256 256/256 256/256

Total

8-11

12-15

0-3

-----

-----: 2048/2048 MB

256/256 256/256 256/256 256/256

4-7

8-11

12-15

-----

-----: 2048/2048 MB

*=Error SLOT

Example of a slot #4 error

=== Memory =========

Type : SDRAM

Group

SLOT#

0-3

4-7

Size[Valid(MB)/Existing(MB)

256/256 256/256 256/256 256/256

Total

8-11

12-15

0-3

-----

-----: 2048/2048 MB

0 /256 0 /256 0 /256 0 /256

0 / 0* 0 /256 0 /256 0 /256

4-7

8-11

12-15

-----

-----:

0 /1792 MB

*=Error SLOT

Note:

If a memory error is detected, an asterisk is displayed in the Size ﬁeld for the

corresponding slot. In this example, an error in slot #4 of group B is detected in the

initial diagnostics operation. Modules in slots 0 to 3 and 5 to 7 of group B are

recognized as normal modules but also become invalid.

7.4 Disk Units

Disk drive conﬁguration

Up to 2 disk drives can be installed in the base conﬁguration of the M600R main cabinet. To install

more than 3 disk drive units, the Expansion File Unit must also installed.

7.5 PCI Slots

PCI slots conﬁguration

PCI slots are located on the PCIBPR board and PCIRSR board as described in Figure 7.6 and

Figure 7.7 . There are 8 separate PCI Bus channels: A, B, C, D, E, F, and G. All PCI Bus slots

provide for the full 64-bit data path and can accommodate both 32-bit and 64-bit data path cards.

The speciﬁcations for the PCI slots are described in the Table 7.4 .

PCIslot#7

PCIslot#6

PCIslot#5

PCIslot#4

PCIslot#3

PCIslot#2

PCIslot#1

Figure 7.6 PCIBPR Board Layout of M600R

PCIslot#8

PCIslot#9

PCIslot#10

PCIslot#11

PCIslot#12

Figure 7.7 PCIRSR Board Layout of M600R

CHAPTER 7 M600R Main Cabinet

Table 7.4 PCI Slot Speciﬁcations

PCI slot #

PCI Bus

Slot width / card

width (bits)

PCI clock

(MHz)

Card input voltage

64 / 32, 64

33/66

3.3 V or universal

5 V or universal

3.3 V or universal

5 V or universal

3.3 V or universal

5 V or universal

33/66

7.6 Installation

Purpose The following installation instruction is intended to provide the product safety requirements which

must be addressed when the end-use product manufacturer installs this product in their equipment.

Note that the acceptability of the combination of this product in a rack should be re-determined by

an appropriate certiﬁcation body, if that combination is differ from the Table 7.4 .

Safety Installation Instruction:

This unit is installed in a closed or multi-unit rack assembly, the operating ambient temperature

inside of the rack environment may be greater than room ambient. Therefore, consideration

should be given to installing the unit in an environment compatible with the manufacturer’s

maximum rated ambient temperature.

–

Consideration for adjustment of air condition like air circulation should be given to prevent

the internal rack ambient from exceeding the Max. Operating ambient temperature of this

unit.

–

Maximum operating ambient temperature of this unit : 35 deg C.

Installation of the unit in a rack should be such that the amount of air ﬂow required for safe

operation of the unit is not compromised.

–

This unit has ventilation openings at front and rear face of the unit.

Do not cover or close these ventilation openings to prevent overheating.

Mounting of the unit in the rack should be such that a hazardous condition is not achieved due

to uneven mechanical loading. To keep stability of entire rack, please ﬁx the rack to wall or

ﬂoor by suitable means.

–

Be careful about injury during installation of this unit into rack.

Do not install this unit into your rack where the unit may make the entire rack unstable.

Mass of this unit with maximum conﬁguration : 100 kg.

If the unit is supplied from Power Strip or Service Outlet of other units, it may overload the

Power Supply Cord of the Power Strip or other units.

–

Conﬁrm that the current rating of Power Strip or Service Outlet exceeds the combined

ratings of all equipment it is supplying.

Electrical ratings of this unit : Rated 100 - 240Vac, 13.4 - 6.6 A, 50/60 Hz, 1 phase

Reliable earthing of rack-mounted equipment should be maintained. Particular attention should

be given to supply connections other than direct connections to the branch circuit (e.q., use of

power strips).

CHAPTER 7 M600R Main Cabinet

IMPORTANT

High Leakage Current may ﬂow through Power Strip Earthing Conductor, if all power

supply cords of this unit are connected to one Power Strip. Earth connection essential

before connecting supply.

Table 7.5 Mounting Combination for Expansion Rack

Mounting Portion Priority in the Rack

Rack-Mount Units

Communication Swichable Unit

Expansion File Unit Type-2

Disk Array Unit (GP-DxxxxU)

GP7000F Model 200R/400R

Disk Array Unit (GR700/720)

Outlet and/or Outlet Type-2

GP7000F Model 600R

Upper

Lower

Note:

Each rack-mount unit should be mounted in the lowest available portion with the

priority indicated in the Table 7.5 .

Notes on Installation

Do not install this unit where it will be exposed to sunlight or sources of heat.

Do not install this unit in dusty places or places where it will be exposed to corrosive gas or sea

breeze.

Keep this unit isolated from vibration. Install this unit on a level surface to prevent it from

tilting.

Do not run a cable under a unit or overextend a cable. Do not disconnect the power cable while

the power is on.

Do not place anything on this unit. Do not use this unit as a desk.

To prevent condensation in this unit, do not raise the room temperature rapidly in the winter.

Use the cabinet only after sufﬁciently warming it.

Do not install this cabinet near noisy devices such as a photocopier, air conditioner, or welder.

Take electrostatic prevention measures. Note that some carpets generate static electricity easily

and can cause this unit to malfunction.

IMPORTANT

If the above conditions are not satisﬁed, this unit may be damaged. Be sure to follow

above precautions.

7.6 Installation

Installation speciﬁcations

Table 7.6 Installation Speciﬁcations of M600R

Item

Specification

Mass

Up to 100kg (approx.220 lb)

Single phase

100 to 120 VAC

(+-10%)

Single phase

200 to 240 VAC

(+-10%)

Power condition

Input voltage

Input frequency

50/60 Hz (+2 to -4%)

13.4 A

Maximum consumption current

6.6 A

Leakage current (1 for each cable)

Ground resistance

2.2 mA or less

100ohm or less ( class C installation standard)

5 to 35 degrees Celsius (+41 to +95 F) (*1)

0 to 50 degrees Celsius (+32 to +122F)

20 to 80%RH (no condensation)

8 to 80% RH (no condensation)

0.2 G

Temperature condition Operating

Not operating

Operating

Humidity condition

Vibrations condition

Not operating

Operating

Idle

0.4 G

Noise

55 db (A) (*2)

Installation

Rack mount type (12pitches)

*1:

*2:

If the ambient temperature exceeds 35 degrees Celsius (+95F) during operation, a

warning message is displayed. Take steps to rectify the problem immediately.

The indicated noise is the mean value of the measurements obtained in an anechoic

chamber with less echoic inﬂuence. The actual noise measured at the installation site

may be greater than the indication noise due to surrounding noise and echoes.

CHAPTER 7 M600R Main Cabinet

Table 7.7 Installation Speciﬁcations of M600R (2)

Item

Specification

External

dimension

(unit:mm)

Width 482

Depth 787

Height 530

(Front of the cabinet)

(Side of the cabinet)

Service

area

(unit:mm)

650

695

Rear

1000

Service area

930

Top of

the cabinet

925

800

Drawer area

Service area

800

Front

Service area

800

*1:

Keep the drawer area so that the CPU shelf can be pulled out from the main cabinet

during installing some internal option products and providing maintenance of the

CPU shelf.

*2:

*3:

When this unit is installed in a expansion rack:GP7B7RK1U/RK2U/RK3U/RK4U.

When this unit is installed in a expansion rack:GP727RK1U/RK2U.

CHAPTER 8

Expansion Disk Cabinet

CONTENTS

8.1

8.2

8.3

8.4

Product Outline . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Device Conﬁguration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

101

102

Hot System Replacement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

CHAPTER 8 Expansion Disk Cabinet

8.1 Product Outline

Key Features

2 separate 40MB/s differential UltraSCSI connections to the host per Expansion Disk Cabinet.

Up to 5 UltraSCSI disk units can be installed per UltraSCSI bus, and up to 10 UltraSCSI disk

units can be installed per Expansion Disk Cabinet.

The disk units can be hot-swappable.

The power supply unit can be conﬁgured redundantly, and it can be hot-swappable when

conﬁgured redundantly.

Fans are conﬁgured redundantly to continue working even if a fan is failed.

The Expansion Disk Cabinet has some status LEDs inside the cabinet, as well as a CHECK LED

and a POWER LED on the front panel. It makes easy to identify/isolate hardware problems.

The Expansion Disk Cabinet is connected to the GP7000F main cabinet through a RCI (Remote

Cabinet interface) cable as well as UltraSCSI interfaces. The RCI makes power cycle of the

cabinet linking to the GP7000F main cabinet.

The front panel has a lock key to prevent unauthorized access to the internal units in the

Expansion Disk Cabinet.

8.2 Device Conﬁguration

Front View of the unit

Figure 8.1 shows the front view of the cabinet.

Panel Cover

CHECK LED

( amber )

POWER LED

( green )

Lock

Stabilizing Feet

Figure 8.1 Front View of Expansion Disk Cabinet

8.2 Device Conﬁguration

The Expansion Disk Cabinet consists of the following components.

Desk side cabinet (system cabinet)

Basic power supply unit (an optional power supply unit is available for redundant conﬁguration)

DC-DC converter

Redundant cooling fans

SCSI-BP boards

Interface board

Hot-swappable disk drives

CHAPTER 8 Expansion Disk Cabinet

Disk conﬁguration

The Expansion Disk Cabinet has 2 UltraSCSI buses. Up to 5 drive units can be installed in the

upper drive bays of the cabinet as shown in the Figure 8.2 below. Internally, they are connected to

an interface board by a single-ended UltraSCSI bus. And, up to 5 drive units can be installed in the

lower drive bays. Also, they are connected to an interface board by a single-ended UltraSCSI bus.

The interface board has a single-ended to differential interface converter in it, and each interface

board is connected to the host server by a differential UltraSCSI bus.

Each interface board has a POWER LED. If a FAULT LED and an ACTIVE LED of a disk bay that

has a disk drive doesn’t light up, check the POWER LED on the interface board in the cage if it is

light up or not. A failed unit can be isolated by checking this POWER LED, a ACTIVE LED, a

FAULT LED, and a POWER LED on the power supply unit.

ACTIVE LED( Green )

FAULT LED( Amber )

Interface Board

( Standard )

POWER LED( Green )

Interface Board

( Option )

Figure 8.2 Drive Bays of Expansion Disk Cabinet

8.2 Device Conﬁguration

status LED

A POWER LED and a CHECK LED are installed on the front of the cabinet. The POWER LED

indicates if the power is on or off. And, the CHECK LED indicates if there is any hardware errors or

not. The CHECK LED operates as described below.

Table 8.1 CHECK LED Status

Indication

No errors

Remarks

State

Off

Identifying a device Activated when a maintenance command is used

to identify the target device.

Blinking

Error

The cause of the error will be a power

failure, or abnormal fan rotation.

When a power supply unit or fan unit is failed, the CHECK LED is lighted steadily. And, if a disk

unit fail, its FAULT LED is lighted by software command to identify the faulty disk unit.

When a FAULT LED is lighted up according to hot-swap procedures, the CHECK LED is lighted

steadily to identify an Expansion Disk Cabinet.

Disk units can be hot-swappable easily by opening the front cover of the cabinet. The front cover

has a key lock in order to protect from unauthorized access to the internal units in the Expansion

Disk Cabinet.

Stabilizing foot

The stabilizing feet prevent the expansion disk cabinet from toppling over if it is pushed or shaken,

as during an earthquake. Be sure to attach these feet according to the installation condition as

explained below:

When the expansion cabinet is installed beside a GP7000F main cabinet, attach the stabilizing

feet only to the opposite side of the main cabinet. Do not attach the stabilizing feet to the

GP7000F main cabinet on the side next to the Expansion Cabinet as well.

When the cabinet is installed as a standalone, attach the stabilizing feet on both sides of the

cabinet.

CHAPTER 8 Expansion Disk Cabinet

Rear Panel

The Figure 8.3 shows the rear panel of Expansion Disk Cabinet.

SCSI OUT Connector

SCSI IN Connector( Option )

SCSI OUT Connector

SCSI IN Connector( Standard )

Service Pin

RCI Port

Power Supply Unit

( Standard )

AC Power Input

AC Main Line Switch

Figure 8.3 Rear View of Expansion Disk Cabinet

The Expansion Disk Cabinet is not powerd on/off by only the main line switch, but it is linked to

power on/off of the GP7000F main cabinet. Note that this cabinet does not power on if the main line

switch is OFF, even if the GP7000F main cabinet is powered on. Keep the main line switch set to

ON for regular use.

Be sure to set the RCI conﬁguration, which is detailed in Chapter13 , must be set properly when

installing an Expansion Disk Cabinet.

The cabinet has 2 pair of SCSI IN/OUT connectors on it. When the cabinet is conﬁgured without

expansion (optional) drive bays, a SCSI cable must be connected to the standard SCSI IN connector.

Be sure to install an UltraSCSI differential terminator plug on SCSI OUT connector.

100

8.3 Hot System Replacement

Do not set the AC main line switch to OFF, nor disconnect the

power cable or RCI cable while the GP7000F main cabinet is

powered on, unless absolutely necessary. Otherwise, the data may

be destroyed in the disk units.

CAUTION

8.3 Hot System Replacement

Disk unit The SCA-II connector is used as the disk unit connector to enable hot system replacement of a

faulty disk unit. The availability is improved by combining this feature with the disk mirroring

feature. Two LEDs (ACTIVE and FAULT) are installed per disk unit to indicate the disk unit status.

These LEDs operate as described below.

Table 8.2 LEDs

Name

ACTIVE LED Green

FAULT LED Amber

Color

Status

Lights up when the SCSI commands are executed.

Lights up when the hot replacement command is executed.

To hot-swap a disk unit, you need to use the software tool which is provided in "Basic Software

Extension" or "Enhanced Support Facility". Please refer to user’s guide of "Basic Software

Extension" or "Enhanced Support Facility" for more information. The FAULT LED lights up

according to the procedures described in the user’s guide to identify the failed disk unit. If the

FAULT LED does not light up even if you follows the procedures described in the user’s manual,

hot-swapping is not possible. In this case, power-off the entire system, then replace the disk unit.

When adding a new disk unit while the system is running, use the software tool, as well.

Power

When the power supply units are conﬁgured redundantly, it can be hot-swapped. Each power supply

unit has a POWER LED on it, and it lights steadily while the corresponding power supply is

working. When the POWER LED doesn’t light, it indicates that the power is turned off or the power

unit has failed. Hot replacement of the power supply unit is possible only while the corresponding

POWER LED is off.

Use a software tool, which is provided in "Basic Software Extension" or "Enhanced Support

Facility", to how-swap a power supply unit. Please refer to user’s guide of "Basic Software

Extension" or "Enhanced Support Facility" for more information.

101

CHAPTER 8 Expansion Disk Cabinet

8.4 Installation

Notes on installation:

Do not block the air vents.

Do not install this cabinet where it is exposed to sunlight or heat.

Do not install this cabinet in dusty places or places where it is exposed to corrosive gas or sea

air.

Keep this cabinet isolated from vibration. Install the cabinet on a level surface to prevent it

from tilting.

Make sure that the AC power supply source is grounded properly. Otherwise, this ﬁle unit may

malfunction.

Do not run a cable under a unit or allow a cable to become taut. Do not disconnect the power

cable while the power is on.

Do not place anything on this cabinet. Do not use the cabinet as a desk.

To prevent condensation in this cabinet, do not raise the room temperature rapidly in the winter.

Use the cabinet only after sufﬁciently warming it.

Do not install this cabinet near noisy devices such as a photocopier, air conditioner, or welder.

Take electrostatic prevention measures. Note that some carpets generate static electricity easily

and can cause this cabinet to malfunction.

When moving this cabinet, do not pull on the front cover. Otherwise, the cabinet may be

damaged.

IMPORTANT

If the above conditions are not satisﬁed, the cabinet may be damaged. Be sure to follow

these precautions.

102

8.4 Installation

Installation speciﬁcations

Table 8.3 Expansion Disk Cabinet Installation Speciﬁcations (1)

Item

Specification

Mass

Up to 38kg

Single phase

100 to 120 VAC

(+-10%)

Single phase

200 to 240 VAC

(+-10%)

Power condition

Input voltage

Input frequency

50/60 Hz (+2 to -4%)

3 A

Maximum consumption current

Leakage current(1 for each cable)

Ground resistance

1.5 A

1.2 mA or less

2.7 mA or less

100ohm or less ( class C installation standard)

5 to 35 degrees Celsius (+41 to +95 F) (*1)

0 to 50 degrees Celsius (+32 to +122F)

20 to 80%RH (no condensation)

8 to 80% RH (no condensation)

0.2 G

Temperature condition Operating

Not operating

Operating

Humidity condition

Vibrations condition

Not operating

Operating

Idle

0.4 G

Noise

47 db (A) (*2)

Installation

Standalone type

*1:

*2:

If the ambient temperature exceeds 35 degrees Celsius (+95F) during operation, a

warning message is displayed. Take steps to rectify the problem immediately.

The indicated noise is the mean value of the measurements obtained in an anechoic

chamber with less echoic inﬂuence. The actual noise measured at the installation site

may be greater than the indication noise due to surrounding noise and echoes.

103

CHAPTER 8 Expansion Disk Cabinet

Table 8.4 Installation Speciﬁcations of Expansion Disk Cabinet (2)

Item

Specification

External

dimension

(unit:mm)

Width 230

Depth 630

Height 700

352 *1

677

(Front View)

(Side View)

Service

area

(unit:mm)

230

Service area

800 *2

800 *3

Top of

Service area

630

the unit

Front

800

Service area

The unit width including the Stabilizing Feet is 352 mm (13.8 inch).

For the rear space, if 800 mm (31.5 inch) or more space is available by moving the

cabinet when repair the cabinet or provide any services for it, 200 mm (7.8 inch) is

sufﬁcient for regular usual.

For the side space, if 800 mm (31.5 inch) or more space is available by moving the

cabinet when repair the cabinet or provide any services for it, the service area as

described above Table is not necessary for regular usual.

104

CHAPTER 9

Expansion File Unit

Type-2 (GP7B7FLxx)

CONTENTS

9.1

9.2

9.3

9.4

Product Outline . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Device Conﬁguration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Hot System Replacement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

106

107

109

110

105

CHAPTER 9 Expansion File Unit Type-2 (GP7B7FLxx)

9.1 Product Outline

Key Features

2 separate 40MB/s differential UltraSCSI connections to the host per Expansion File Unit

Type-2.

By adding a File Unit Expansion Kit, the Expansion File Unit can accommodate up to 10

UltraSCSI disk units (5 UltraSCSI disk units is standard). Or by installing a Tape Unit Bay Kit,

a maximum of any two: 8 mm, DAT, or QIC tape unit can be added.

The disk units can be hot-swappable.

The power supply unit can be conﬁgured redundantly, and it can be hot-swappable when

conﬁgured redundantly.

Fans are conﬁgured redundantly to continue working even if a fan is failed.

The Expansion File Unit Type-2 has some status LEDs inside the cabinet, as well as a CHECK

LED and a POWER LED on the front panel. It makes easy to identify/isolate hardware

problems.

The Expansion File Unit Type-2 is connected to the GP7000F main cabinet through a RCI

(Remote Cabinet Interface) cable as well as UltraSCSI interfaces. The RCI makes power cycle

of the cabinet linking to the GP7000F main cabinet.

Front View of the unit

POWER LED

( green )

CHECK LED

( amber )

Front Cover

Lock

Air Inlet

Figure 9.1 Front View of Expansion File Unit Type-2

106

9.2 Device Conﬁguration

This ﬁle unit consists of the following components.

Rack mount cabinet

Basic power supply and expansion option power supply (for redundant conﬁguration)

DC-DC converter

Cooling fans (redundant conﬁguration)

SCSI-BP boards

Interface board

Hot-swappable disk drives

Disk conﬁguration

Opening the unit’s front cover, Figure 9.2 and Figure 9.3 shows the drive bays Figure 9.2 . Shows

a Basic SCSI Unit and an File Unit Expansion Kit bay conﬁguration. Figure 9.3 shows a Basic

SCSI unit (SCSI bays #1~ #5) and an Tape Unit Bay Kit (tape bays #1 and #2) bay conﬁguration.

The Basic SCSI Unit (SCSI bays #1~ #5) and the File Unit Expansion Kit (bays #1~ #5) or the

Tape Unit Bay Kit (tape bays #1 and #2) can be connected to the main processing unit by separate

SCSI busses.

Up to 10 UltraSCSI disk units (5 UltraSCSI disk units is the standard) can be accommodated by

installing an File Unit Expansion Kit to this unit. Or, by installing an Tape Unit Bay Kit, a

maximum of any two: 8 mm, DAT, or QIC tape unit can be added.

Each interface board has a POWER LED. If a FAULT LED and an ACTIVE LED of a disk bay that

has a disk drive doesn’t light up, check the POWER LED on the interface board in the cage if it is

light up or not. A failed unit can be isolated by checking this POWER LED, a ACTIVE LED, a

FAULT LED, and a POWER LED on the power supply unit.

ACTIVE LED (Green)

FAULT LED (Amber)

File Unit Expansion Kit

Basic SCSI Unit

Figure 9.2 Drive Bays of Expansion File Unit Type-2

107

CHAPTER 9 Expansion File Unit Type-2 (GP7B7FLxx)

ACTIVE LED (Green)

FAULT LED (Amber)

Tape Unit Bay Kit

Basic SCSI Unit

tape bays

Figure 9.3 Drive Bays of Expansion File Unit Type-2

status LED

A POWER LED and a CHECK LED are installed on the front of the cabinet. The POWER LED

indicate if the power is on or off. And, the CHECK LED indicates if there is any hardware errors or

not. The CHECK LED operates as described in the Table 9.1 .

Table 9.1 CHECK LED Status

Indication

No errors

Remarks

State

Off

Identifying a device Activated when a maintenance command is used

to identify the target device.

Blinking

Error

The cause of the error will be a power

failure, or abnormal fan rotation.

When a power supply unit or fan unit is failed, the CHECK LED is lighted steadily. And, if a disk

unit fail, its FAULT LED is lighted by software command to identify the faulty disk unit.

When a FAULT LED is lighted up according to hot-swap procedures, the CHECK LED is blinking

to identify an Expansion Disk Cabinet.

Disk units can be hot-swappable easily by opening the front cover of the cabinet.

Rear Panel

The Figure 9.4 shows the rear panel of Expansion File Unit Type-2.

Standard

SCSI OUT

SCSI IN

Expansion File Unit Board

or Expansion Tape Board

SCSI IN

Service Pin

RCI port

Figure 9.4 Rear View of Expansion File Unit Type-2

108

9.3 Hot System Replacement

The Expansion File Unit Type-2 is not powerd on/off by only the main line switch, but it linked to

power on/off of the GP7000F main cabinet. Note that this ﬁle unit does not power on if the main

line switch is OFF, even if the GP7000F main cabinet is powered on. Keep the main line switch set

to ON for regular use.

Be sure to set the RCI conﬁguration, which is detailed in Chapter13 , must be set properly when

installing an Expansion File Unit Type-2.

The cabinet has 2 pair of SCSI IN/OUT connectors on it. When the cabinet is conﬁgured without

expansion (optional) drive bays, a SCSI cable must be connected to the standard SCSI IN connector.

Be sure to install an UltraSCSI differential terminator plug to the SCSI OUT connector.

Do not set the AC main line switch to OFF, nor disconnect the

CAUTION

power cable or RCI cable while the GP7000F main cabinet is

powered on, unless absolutely necessary. Otherwise, the data in

the disk units may be destroyed.

9.3 Hot System Replacement

Disk unit The SCA-II connector is used as the disk unit connector to enable hot system replacement of a

faulty disk unit. The availability is improved by combining this feature with the disk mirroring

features. Two LEDs (ACTIVE and FAULT) are installed per disk unit to indicate the disk unit

status. These LEDs operate as described below.

Table 9.2 LEDs

Name

ACTIVE LED Green

FAULT LED Amber

Color

Status

Lights up when the SCSI commands are executed.

Lights up when the hot replacement command is executed.

To hot-swap a disk unit, you need to use the software tool which is provided in "Basic Software

Extension" or "Enhanced Support Facility". Please refer to user’s guide of "Basic Software

Extension" or "Enhanced Support Facility"for more information. The FAULT LED lights up

according to the procedures described in the user’s guide to identify the failed disk unit. If the

FAULT LED does not lights up even if you follows the procedures described in the user’s guide,

hot-swapping is not possible. In this case, power-off the entire system, then replace the disk unit.

When adding a new disk unit while the system is running, use the software tool, as well.

Power

When the power supply units are conﬁgured redundantly, it can be hot-swapped. Each power supply

unit has a POWER LED on it, and it lights steadily while the corresponding power supply is

working. When the POWER LED doesn’t light, it indicates that the power is turned off or the power

unit has failed. Hot replacement of the power supply unit is possible only while the corresponding

POWER LED is off.

Use a software tool, which is provided in "Basic Software Extension" or "Enhanced Support

Facility", to how-swap a power supply unit. Please refer to user’s guide of "Basic Software

Extension" or "Enhanced Support Facility" for more information.

109

CHAPTER 9 Expansion File Unit Type-2 (GP7B7FLxx)

9.4 Installation

Purpose The following installation instruction is intended to provide the product safety requirements which

must be addressed when the end-use product manufacturer installs this product in their equipment.

Note that the acceptability of the combination of this product in a rack should be re-determined by

an appropriate certiﬁcation body, if that combination is differ from the Table 9.3 .

Safety Installation Instruction:

This unit is installed in a closed or multi-unit rack assembly, the operating ambient temperature

inside of the rack environment may be greater than room ambient. Therefore, consideration

should be given to installing the unit in an environment compatible with the manufacturer’s

maximum rated ambient temperature.

–

Consideration for adjustment of air condition like air circulation should be given to prevent

the internal rack ambient from exceeding the Max. Operating ambient temperature of this

unit.

–

Maximum operating ambient temperature of this unit : 35 deg C.

Installation of the unit in a rack should be such that the amount of air ﬂow required for safe

operation of the unit is not compromised.

–

This unit has ventilation openings at front and rear face of the unit.

Do not cover or close these ventilation openings to prevent overheating.

Mounting of the unit in the rack should be such that a hazardous condition is not achieved due

to uneven mechanical loading. To keep stability of entire rack, please ﬁx the rack to wall or

ﬂoor by suitable means.

–

Be careful about injury during installation of this unit into rack.

Do not install this unit into your rack where the unit may make the entire rack unstable.

Mass of this unit with maximum conﬁguration : 30 kg.

If the unit is supplied from Power Strip or Service Outlet of other units, it may overload the

Power Supply Cord of the Power Strip or other units.

–

Conﬁrm that the current rating of Power Strip or Service Outlet exceeds the combined

ratings of all equipment it is supplying.

Electrical ratings of this unit : Rated 100 - 240Vac, 3.0 - 1.5 A, 50/60 Hz, 1 phase

Reliable earthing of rack-mounted equipment should be maintained. Particular attention should

be given to supply connections other than direct connections to the branch circuit (e.q., use of

power strips).

110

9.4 Installation

IMPORTANT

High Leakage Current may ﬂow through Power Strip Earthing Conductor, if all power

supply cords of this unit are connected to one Power Strip. Earth connection essential

before connecting supply.

Table 9.3 Mounting Combination for Expansion Rack

Mounting Portion Priority in the Rack

Rack-Mount Units

Communication Swichable Unit

Expansion File Unit Type-2

Disk Array Unit (GP-DxxxxU)

GP7000F Model 200R/400R

Disk Array Unit (GR700/720)

Outlet and/or Outlet Type-2

GP7000F Model 600R

Upper

Lower

Note:

Each rack-mount unit should be mounted in the lowest available portion with the

priority indicated in the Table 9.3 .

Notes on Installation

Do not install this ﬁle unit where it will be exposed to sunlight or sources of heat.

Do not install this ﬁle unit in dusty places or places where it will be exposed to corrosive gas or

sea breeze.

Keep this ﬁle unit isolated from vibration. Install this ﬁle unit on a level surface to prevent it

from tilting.

Do not run a cable under a unit or overextend a cable. Do not disconnect the power cable while

the power is on.

Do not place anything on this ﬁle unit. Do not use this ﬁle unit as a desk.

To prevent condensation in this ﬁle unit, do not raise the room temperature rapidly in the winter.

Use the cabinet only after sufﬁciently warming it.

Do not install this cabinet near noisy devices such as a photocopier, air conditioner, or welder.

Take electrostatic prevention measures. Note that some carpets generate static electricity easily

and can cause this ﬁle unit to malfunction.

IMPORTANT

If the above conditions are not satisﬁed, this ﬁle unit may be damaged. Be sure to follow

above precautions.

111

CHAPTER 9 Expansion File Unit Type-2 (GP7B7FLxx)

Installation speciﬁcations

Table 9.4 Installation Speciﬁcations of Expansion File Unit Type-2

Item

Specification

Mass

Up to 30kg (approx.70 lb)

Single phase

100 to 120 VAC

(+-10%)

Single phase

200 to 240 VAC

(+-10%)

Power condition

Input voltage

Input frequency

50/60 Hz (+2 to -4%)

3.0 A

Maximum consumption current

Leakage current (1 for each cable)

Ground resistance

1.5 A

1.2 mA or less

2.7 mA or less

100ohm or less ( class C installation standard)

5 to 35 degrees Celsius (+41 to +95 F) (*1)

0 to 50 degrees Celsius (+32 to +122F)

20 to 80%RH (no condensation)

8 to 80% RH (no condensation)

0.2 G

Temperature condition Operating

Not operating

Operating

Humidity condition

Vibrations condition

Not operating

Operating

Idle

0.4 G

Noise

50 db (A) (*2)

Installation

Rack mount type (3 pitches)

*1:

*2:

If the ambient temperature exceeds 35 degrees Celsius (+95F) during operation, a

warning message is displayed. Take steps to rectify the problem immediately.

The indicated noise is the mean value of the measurements obtained in an anechoic

chamber with less echoic inﬂuence. The actual noise measured at the installation site

may be greater than the indication noise due to surrounding noise and echoes.

112

CHAPTER 10

Expansion File Unit

(GP7B7FU1xx)

CONTENTS

10.1 Product Outline . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

10.2 Device Conﬁguration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

10.3 Hot System Replacement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

10.4 Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

114

115

117

118

113

CHAPTER 10 Expansion File Unit (GP7B7FU1xx)

10.1 Product Outline

Key Features

2 separate 40MB/s differential UltraSCSI connections to the host per Expansion File Unit.

Up to 5 UltraSCSI disk units can be installed per UltraSCSI bus, and up to 10 UltraSCSI disk

units can be installed per Expansion File Unit.

The disk units can be hot-swappable.

The power supply unit can be conﬁgured redundantly, and it can be hot-swappable when

conﬁgured redundantly.

Fans are conﬁgured redundantly to continue working even if a fan is failed.

The Expansion File Unit has some status LEDs inside the cabinet, as well as a CHECK LED

and a POWER LED on the front panel. It makes easy to identify/isolate hardware problems.

The Expansion File Unit is connected to the GP7000F main cabinet through a RCI (Remote

Cabinet Interface) cable as well as UltraSCSI interfaces. The RCI makes power cycle of the

cabinet linking to the GP7000F main cabinet.

Front View of the unit

POWER LED

( green )

Front Cover

Air Inlet

CHECK LED

( amber )

Figure 10.1 Front View of Expansion File Unit

114

10.2 Device Conﬁguration

This ﬁle unit consists of the following components.

Rack mount cabinet

Basic power supply and expansion option power supply (for redundant conﬁguration)

DC-DC converter

Cooling fans (redundant conﬁguration)

SCSI-BP boards

Interface board

Hot-swappable disk drives

Disk conﬁguration

The Expansion File Unit has 2 UltraSCSI buses. Up to 5 drive units can be installed in the half

portion of the cabinet as indicated in Figure 10.2 . Internally, they are connected to an interface

board by a single-ended UltraSCSI bus. And, up to 5 drive units can be installed another half

portion of the cabinet. Also, they are connected to an interface board by a single-ended UltraSCSI

bus. The interface board has a single-ended to differential interface converter in it, and each

interface board is connected to the host by a differential UltraSCSI bus.

Each interface board has a POWER LED. If a FAULT LED and an ACTIVE LED of a disk bay that

has a disk drive doesn’t light up, check the POWER LED on the interface board in the cage if it is

light up or not. A failed unit can be isolated by checking this POWER LED, a ACTIVE LED, a

FAULT LED, and a POWER LED on the power supply unit.

ACTIVE LED (Green)

POWER LED (Green)

FAULT LED (Amber)

Interface Board (Standard)

Figure 10.2 Drive Bays of Expansion File Unit

Interface Board (Option)

115

CHAPTER 10 Expansion File Unit (GP7B7FU1xx)

status LED

A POWER LED and a CHECK LED are installed on the front of the cabinet. The POWER LED

indicate if the power is on or off. And, the CHECK LED indicates if there is any hardware errors or

not. The CHECK LED operates as described in the Table 10.1 .

Table 10.1 CHECK LED Status

Indication

No errors

Remarks

State

Off

Identifying a device Activated when a maintenance command is used

to identify the target device.

Blinking

Error

The cause of the error will be a power

failure, or abnormal fan rotation.

When a power supply unit or fan unit is failed, the CHECK LED is lighted steadily. And, if a disk

unit fail, its FAULT LED is lighted by software command to identify the faulty disk unit.

When a FAULT LED is lighted up according to hot-swap procedures, the CHECK LED is lighted

steadily to identify an Expansion Disk Cabinet.

Disk units can be hot-swappable easily by opening the front cover of the cabinet.

Rear Panel

The Figure 10.3 shows the rear panel of Expansion File Unit.

Service Pin

RCI Port

AC Main Line Switch

AC Power Input

SCSI OUT Connector

( Standard )

SCSI IN Connector

( Standard )

SCSI IN Connector

( Option )

SCSI OUT Connector

( Option )

Figure 10.3 Rear View of Expansion File Unit

The Expansion File Unit doesn’t power on/off by only the main line switch, but it linked to power

on/off of the GP7000F main cabinet. Note that this ﬁle unit does not power on if the main line

switch is OFF, even if the GP7000F main cabinet is powered on. Keep the main line switch set to

ON for regular use.

Be sure to set the RCI conﬁguration, which is detailed in Chapter13 , must be set properly when

installing an Expansion File Unit.

The cabinet has 2 pair of SCSI IN/OUT connectors on it. When the cabinet is conﬁgured without

expansion (optional) drive bays, a SCSI cable must be connected to the standard SCSI IN connector.

116

10.3 Hot System Replacement

Be sure to install an UltraSCSI differential terminator plug to the SCSI OUT connector.

Do not set the AC main line switch to OFF, nor disconnect the

power cable or RCI cable while the GP7000F main cabinet is

powered on, unless absolutely necessary. Otherwise, the data in

the disk units may be destroyed.

CAUTION

10.3 Hot System Replacement

Disk unit The SCA-II connector is used as the disk unit connector to enable hot system replacement of a

faulty disk unit. The availability is improved by combining this feature with the disk mirroring

features. Two LEDs (ACTIVE and FAULT) are installed per disk unit to indicate the disk unit

status. These LEDs operate as described below.

Table 10.2 LEDs

Name

ACTIVE LED Green

FAULT LED Amber

Color

Status

Lights up when the SCSI commands are executed.

Lights up when the hot replacement command is executed.

To hot-swap a disk unit, you need to use the software tool which is provided in "Basic Software

Extension" or "Enhanced Support Facility". Please refer to user’s guide of "Basic Software

Extension" or "Enhanced Support Facility" for more information. The FAULT LED lights up

according to the procedures described in the user’s guide to identify the failed disk unit. If the

FAULT LED does not lights up even if you follows the procedures described in the user’s guide,

hot-swapping is not possible. In this case, power-off the entire system, then replace the disk unit.

When adding a new disk unit while the system is running, use the software tool, as well.

Power

When the power supply units are conﬁgured redundantly, it can be hot-swapped. Each power supply

unit has a POWER LED on it, and it lights steadily while the corresponding power supply is

working. When the POWER LED doesn’t light, it indicates that the power is turned off or the power

unit has failed. Hot replacement of the power supply unit is possible only while the corresponding

POWER LED is off.

Use a software tool, which is provided in "Basic Software Extension" or "Enhanced Support

Facility", to how-swap a power supply unit. Please refer to user’s guide of "Basic Software

Extension" or "Enhanced Support Facility" for more information.

117

CHAPTER 10 Expansion File Unit (GP7B7FU1xx)

10.4 Installation

Purpose The following installation instruction is intended to provide the product safety requirements which

must be addressed when the end-use product manufacturer installs this product in their equipment.

Note that the acceptability of the combination of this product in a rack should be re-determined by

an appropriate certiﬁcation body, if that combination is differ from the Table 10.3 .

Safety Installation Instruction:

This unit is installed in a closed or multi-unit rack assembly, the operating ambient temperature

inside of the rack environment may be greater than room ambient. Therefore, consideration

should be given to installing the unit in an environment compatible with the manufacturer’s

maximum rated ambient temperature.

–

Consideration for adjustment of air condition like air circulation should be given to prevent

the internal rack ambient from exceeding the Max. Operating ambient temperature of this

unit.

–

Maximum operating ambient temperature of this unit : 35 deg C.

Installation of the unit in a rack should be such that the amount of air ﬂow required for safe

operation of the unit is not compromised.

–

This unit has ventilation openings at front and rear face of the unit.

Do not cover or close these ventilation openings to prevent overheating.

Mounting of the unit in the rack should be such that a hazardous condition is not achieved due

to uneven mechanical loading. To keep stability of entire rack, please ﬁx the rack to wall or

ﬂoor by suitable means.

–

Be careful about injury during installation of this unit into rack.

Do not install this unit into your rack where the unit may make the entire rack unstable.

Mass of this unit with maximum conﬁguration : 32 kg.

If the unit is supplied from Power Strip or Service Outlet of other units, it may overload the

Power Supply Cord of the Power Strip or other units.

–

Conﬁrm that the current rating of Power Strip or Service Outlet exceeds the combined

ratings of all equipment it is supplying.

Electrical ratings of this unit : Rated 100 - 240Vac, 3.0 - 1.5 A, 50/60 Hz, 1 phase

Reliable earthing of rack-mounted equipment should be maintained. Particular attention should

be given to supply connections other than direct connections to the branch circuit (e.q., use of

power strips).

118

10.4 Installation

IMPORTANT

High Leakage Current may ﬂow through Power Strip Earthing Conductor, if all power

supply cords of this unit are connected to one Power Strip. Earth connection essential

before connecting supply.

Table 10.3 Mounting Combination for Expansion Rack

Mounting Portion Priority in the Rack

Rack-Mount Units

Communication Swichable Unit

Expansion File Unit Type-2

Disk Array Unit (GP-DxxxxU)

GP7000F Model 200R/400R

Disk Array Unit (GR700/720)

Outlet and/or Outlet Type-2

GP7000F Model 600R

Upper

Lower

Note:

Each rack-mount unit should be mounted in the lowest available portion with the

priority indicated in the Table 10.3 .

Notes on Installation

Do not install this ﬁle unit where it will be exposed to sunlight or sources of heat.

Do not install this ﬁle unit in dusty places or places where it will be exposed to corrosive gas or

sea breeze.

Keep this ﬁle unit isolated from vibration. Install this ﬁle unit on a level surface to prevent it

from tilting.

Do not run a cable under a unit or overextend a cable. Do not disconnect the power cable while

the power is on.

Do not place anything on this ﬁle unit. Do not use this ﬁle unit as a desk.

To prevent condensation in this ﬁle unit, do not raise the room temperature rapidly in the winter.

Use the cabinet only after sufﬁciently warming it.

Do not install this cabinet near noisy devices such as a photocopier, air conditioner, or welder.

Take electrostatic prevention measures. Note that some carpets generate static electricity easily

and can cause this ﬁle unit to malfunction.

IMPORTANT

If the above conditions are not satisﬁed, this ﬁle unit may be damaged. Be sure to follow

above precautions.

119

CHAPTER 10 Expansion File Unit (GP7B7FU1xx)

Installation speciﬁcations

Table 10.4 Installation Speciﬁcations of Expansion File Unit

Item

Specification

Mass

Up to 32kg (approx.70 lb)

Single phase

100 to 120 VAC

(+-10%)

Single phase

200 to 240 VAC

(+-10%)

Power condition

Input voltage

Input frequency

50/60 Hz (+2 to -4%)

3.0 A

Maximum consumption current

Leakage current (1 for each cable)

Ground resistance

1.5 A

1.2 mA or less

2.7 mA or less

100ohm or less ( class C installation standard)

5 to 35 degrees Celsius (+41 to +95 F) (*1)

0 to 50 degrees Celsius (+32 to +122F)

20 to 80%RH (no condensation)

8 to 80% RH (no condensation)

0.2 G

Temperature condition Operating

Not operating

Operating

Humidity condition

Vibrations condition

Not operating

Operating

Idle

0.4 G

Noise

50 db (A) (*2)

Installation

Rack mount type (4 pitches)

*1:

*2:

If the ambient temperature exceeds 35 degrees Celsius (+95F) during operation, a

warning message is displayed. Take steps to rectify the problem immediately.

The indicated noise is the mean value of the measurements obtained in an anechoic

chamber with less echoic inﬂuence. The actual noise measured at the installation site

may be greater than the indication noise due to surrounding noise and echoes.

120

CHAPTER 11

Input-Output Units

CONTENTS

11.1 Disk Units . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

11.2 Floppy Disk Units . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

122

123

126

128

129

135

140

11.3 CD-ROM Unit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

11.4 Tape Unit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

11.5 DAT Unit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

11.6 8-mm Tape Unit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

11.7 QIC Tape Unit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

121

CHAPTER 11 Input-Output Units

11.1 Disk Units

Key features

The following features of the disk units are applied for the GP7000F main cabinet, Expansion Disk

Cabinet and Expansion File Unit.

3.5-inch UltraSCSI wide disk drive, up to 40 MB/s transfer rate.

SCA-II (Single Connector Attachment II) connector, which support hot-swap.

Geographical SCSI addressing, which depend upon disk drive bay, simpliﬁes SCSI address

selection.

Hot-swapping a disk unit

The hot swap feature, combined with disk mirroring, improves system availability. The system

administrator or service engineers can determine the status of disk unit using the software

management command for disk mirroring. In addition, each disk unit has two status LEDs along

each disk drive bay.

Table 11.1 Disk Units LEDs

Name

Color

Status

ACTIVE LED Green

Lights when the SCSI command is executed.

Lights when the hot replacement command is executed.

FAULT LED

Amber

IMPORTANT

To hot-swap a disk unit, you need to use the software tool which is provided in "Basic

Software Extension" or "Enhanced Support Facility". Please refer to user’s guide of the

"Basic Software Extension" or "Enhanced Support Facility" for more information. The

FAULT LED lights up according to the procedures described in the user’s guide to identify

the failed disk unit. If the FAULT LED does not light up even if you follow the procedures

described in the user’s guide, hot-swapping is not possible. In this case, power-off the

entire system, then replace the disk unit.

When adding a new disk unit while the system is running, use the software tool, as well.

The POWER LED is installed in the disk cage. If the FAULT LED and ACTIVE LED of a disk

drive bay that has a disk drive doesn’t light up, check the POWER LED if it is light up or not.

122

11.2 Floppy Disk Units

When replacing the disk unit, take the following precautions. If

these precautions are not taken, the disk unit or its data may be

destroyed.

CAUTION

Do not subject the disk unit to strong shocks.

Do not bring a device generating a strong electromagnetic ﬁeld

such as a motor or a loudspeaker near the disk unit.

Do not store the disk unit where condensation may occur or

where the temperature or humidity changes rapidly.

Disk format

The disk units are pre-formatted. If you need to format a disk drive, you can format a disk drive

with a format utility. The format utility performs auto-conﬁguration, when you enter type at the

format> prompt and select Auto conﬁgure as the disk type.

Carefully proceed formatting a disk drive. Once formatting a disk

CAUTION

drive, data on the disk never restored, if you don’t have backup

ﬁles.

Backing Up the Data

The disk drive units are very reliable. However, an accidental failure is possible. If a failure occurs,

data recovery from the disk unit may not be possible, or may take a long time. To protect against

such failures, regular back-ups onto tape are highly recommended.

11.2 Floppy Disk Units

Front Panel

The ﬂoppy disk drive is compatible with AT and supports three modes: 1.44 MB, 1.2 MB, and 720

KB. The eject button and Access LED are installed on the front panel of the ﬂoppy disk unit. A

ﬂoppy disk can be ejected by pressing the eject button. Ensure that the Access LED is off before

ejecting a ﬂoppy disk. The green Access LED lights when the ﬂoppy disk is accessed.

Access LED

Eject button

Figure 11.1 Floppy Disk Unit Front Panel

123

CHAPTER 11 Input-Output Units

Inserting ﬂoppy disks

Insert ﬂoppy disks with the label facing opposite side of the eject button as shown in Figure 11.2 . A

disk has been inserted properly if a clicking sound is heard and the eject button comes out.

Floppy disk unit

Eject button

Floppy disk

Figure 11.2 Inserting Floppy Disks

Ejecting ﬂoppy disks

Press the eject button on the ﬂoppy disk unit, then remove the ﬂoppy disk.

Before removing the ﬂoppy disk, be sure to execute eject command on Solaris or to execute eject

operation on your application program.

IMPORTANT

You need to format new ﬂoppy disk with fdformat command on Solaris, before you use

them. Please refer to on-line manual for more information about the fdformat command.

Do not eject a ﬂoppy disk while the access LED is on, otherwise the

CAUTION

ﬂoppy disk or the data on the diskette may be destroyed. For

information on the handling method, see Table 11.2 , "Handling

ﬂoppy disks."

124

11.2 Floppy Disk Units

Table 11.2 Handling Floppy Disks

Keep floppy

disks away from

magnets;

otherwise,disk

data may

Avoid pinching

floppy disks with

paper clips.

corrupted.

Do not expose

floppy disks to

heat or sunlight.

Do not bend

floppy disks.

When storing

floppy disks on a

shelf,place them

in a floppy disk

storage box or

store them

Avoid opening

floppy disk

shutters or

allowing

anything to come

into direct

Floppy disk

storage box

vertically.

contact with the

disk surface.

Write information on disk labels

before applying the labels to

floppy disks.

Do not clean the

surface of a

floppy disk.

Felt-tip pen

When writing information

on labels already applied

to floppy disks,

use a soft point pen

such as a felt-tips pen.

125

CHAPTER 11 Input-Output Units

11.3 CD-ROM Unit

Front Panel

A headphone jack is installed on the front panel, so the CD-ROM unit can also be used to enjoy

music. To play music on the CD-ROM unit, install the appropriate software driver to support the

audio function.

Tray

BUSY LED

Headphone terminal

Eject button

Sound volume

adjustment knob

Figure 11.3 CD-ROM Unit Front Panel

1 BUSY LED

Green LED lights when the CD-ROM is accessed

Used to mount a CD-ROM.

2 Tray

3 Eject button

Press this button to open and close the tray.

4 Volume control

When using headphones, use this dial to control the sound volume.

5 Headphone terminal

Connect headphone’s mini-plug to this jack.

To use headphones, sound software is required. Check the software support.

IMPORTANT

The SCSI ID of the CD-ROM unit is set to 4.

Installing a CD-ROM disk

1 When the system is powered on, check that the BUSY LED on the CD-ROM unit doesn’t light.

2 Pressing the Eject button, the tray comes out.

3 Place the CD-ROM disk on the tray.

4 Press the Eject button. The tray goes in, and the disk is mounted in the drive.

126

11.3 CD-ROM Unit

Ejecting a CD-ROM disk

1 If the system is running, check that the disk is in use or not. If the disk is in use, the process

should be killed to eject the CD-ROM disk. Note that you should warn the users beforehand, if

you kill a process.

2 Press the Eject button. The tray comes out.

3 Remove the CD-ROM disk, then press the Eject button. The tray goes in.

Only CD-ROM disks with the mark shown in the ﬁgure below can be used in this CD-ROM unit.

Figure 11.4 Mark on CD-ROM Disk

IMPORTANT

1 Do not scratch the surface of a CD-ROM disk. Pay special attention when removing a

CD-ROM disk from its case.

2 Do not widen the center hole of a CD-ROM disk.

3 Do not write on a CD-ROM disk with a ball-point pen or pencil.

4 Do not clean a CD-ROM disk with benzene, paint thinner, water, record spray, or an

antistatic agent.

5 Do not expose a CD-ROM disk to sunlight or heat.

6 Do not store a CD-ROM disk in a place that undergoes a rapid environmental change.

7 If a CD-ROM disk is not being used, remove it from the CD-ROM unit and store it in its

case to protect it from dust, scratching, and breakage.

Cleaning the optical lens

After the CD-ROM drive has been used for a long time, the optical lens for data reading may

become dirty, causing data on the CD-ROM disk to be read incorrectly. To clean the optical lens:

1 Use the small brush provided with the CD-ROM cleaning disk to straighten the special brush

for cleaning on the rear surface of the CD-ROM cleaning disk.

2 Press the Eject button. The tray of the CD-ROM unit comes out.

3 Place the CD-ROM cleaning disk on the tray of the CD-ROM unit with the red triangle mark

towards you.

4 Press the Eject button. The tray of the CD-ROM unit goes in.

5 Wait for about 20 seconds.

(If there are clicking sounds or the disk rotates fast, this is not a sign of a failure.)

6 Check that the BUSY LED is off, then press the Eject button and remove the CD-ROM

cleaning disk.

127

CHAPTER 11 Input-Output Units

7 Use the attached small brush to remove dust from the special cleaning brush of the CD-ROM

cleaning disk. Then, store the brush in the case.

If the CD-ROM disk is dirty, clean it from the center to the circumference using a soft cloth. Do not

clean using a circular motion.

11.4 Tape Unit

Overview One of the following tape units shown below can be installed into the main cabinet as an option.

DAT (DDS-3) unit: up to 24 Gigabytes/cartridge (compressed)

8-mm tape unit: up to 14 Gigabytes/cartridge (compressed)

1/4-inch cartridge (QIC) tape unit: up to 2.5 Gigabytes/cartridge

Data can also be read from and written to a 150-megabyte QIC tape.

IMPORTANT

The SCSI ID of these tape units is set to 5 for 1st expansion, or 3 for 2nd expansion (only

applied for Expansion File Unit Type-2)

Hot replacement feature

Hot replacement can be performed for the tape drive in the main cabinet. The tape unit is used as a

simple backup device. If tape unit failures occur, such as tape snagging, the hot replacement feature

can be used to replace the unit without shutdown the system.

128

11.5 DAT Unit

This section describes the front panel indicators and buttons of the 4-mm DAT unit, and explains how to use the

DAT unit.

Setting in operating system

Before using the DAT unit, the /kernel/drv/st.conf ﬁle must be modiﬁed. The modiﬁcation is

described below.

Setting an Internal DAT

1 Copy the original st.conf ﬁle as below.

# cp /kernel/drv/st.conf /kernel/drv/st.conf.old

2 Add the following to the /kernel/drv/st.conf ﬁle.

tape-config-list =

"HP

C1537A", "HP DDS3 4mm DAT", "HP_data2";

HP_data2 = 1,0x34,1024,0xd639,4,0x00,0x13,0x24,0x3,3;

IMPORTANT

The space between HP and C1537A must be 6 spaces. If the effective tape-conﬁg-list

has been deﬁned, separate the above description with a "," and add it to the ﬁle like the

following example.

Tape-config-list =

"EXABYTE EXB-8505", "Exabyte 8mm EXB-8505", "EXBT-8SC",

"HP

C1537A", "HP DDS3 4mm DAT", "HP_data2";

EXBT-8SC = 1,0x35,0,0xce39,2,0x15,0x8c,1;

HP_data2 = 1,0x34,1024,0xd639,4,0x00,0x13,0x24,0x3,3;

3 Remove the contents of the /dev/rmt directory as follow.

# cd /dev/rmt

# rm *

4 Do a reconﬁgure boot as follow.

# cd /

# touch /reconfigure

# shutdown -y -i0

5 Then, make a reconﬁgure boot as follow.

ok boot -r

129

CHAPTER 11 Input-Output Units

Front Panel

The DAT unit has two LEDs and Eject switch as shown in Figure 11.5 .

Tape

Clean

Eject switch

Attention LED

Active LED

Figure 11.5 DAT Unit Front Panel

This section describes the functions of the switches and LEDs of the DAT unit.

1 Eject switch

A data cartridge can be removed by pressing the eject switch. If the processor inhibits

removal of a data cartridge, it cannot be removed by pressing the eject switch.

Data destruction: Do not press the eject switch during

CAUTION

an operation (when the tape LED is blinking). If the

eject switch is held down for about 5 seconds or

pressed 3 times within a 5-minutes period, the forced

ejection function will be executed and the data being

written may be destroyed.

2 Active LED

The Active LED lights steady when the data cartridge is loaded and the tape unit is

ready to operate. The Active LED blinks when the tape unit is operating. For details,

refer to Table 11.3 .

3 Attention LED

When the Attention LED blinks, the head of the tape unit should be cleaned using a

cleaning tape or a cartridge is near the end of it’s useful life. The Attention LED

lights steady on continuously when the tape unit fails. For details, refer to Table 11.3 .

130

11.5 DAT Unit

Table 11.3 LED Displays on The DAT Unit

LED status display

Indication

Active

(green)

Attention

(Amber)

Off

No data cartridge is loaded.

A data cartridge is loaded.

Blinking

(slow)

Loading or unloading a tape, or the tape

unit is being self-diagnosed.

Blinking

(fast)

Operating (reading or writing)

Any status

The tape unit has failed.

Blinking

(slow)

Errors have occurred in the data cartridge

on operation. Use a cleaning cartridge to

clean the magnetic head. (*1)

If the Attention LED is still blinking after cleaning the head, repeat the operation with

a different tape. If this clears the signal, the ﬁrst tape is nearing the end of its life.

Blinking of the Attention LED is cleared when a new tape is loaded or when the drive

is power-cycled.

Tape cartridge information

This tape drive supports 60 m, 90 m, 120 m or 125 m DDS cartridges as shown in Table 11.4 .

Table 11.4 DAT Cartridge Capacity

Length Native capacity Compressed capacity

1.3 Gbytes

Format

DDS-1

DDS-2

DDS-3

60 m

2.6 Gbytes

4.0 Gbytes

8.0 Gbytes

24.0 Gbytes

90 m

2.0 Gbytes

4.0 Gbytes

12.0 Gbytes

120 m

125 m

Note:

The compressed capacity is assuming a data compression ratio of 2:1.

When specifying the data format to be used (native or compressed) for your DAT unit, use the

following device codes:

native

/dev/rmt/xl[n]

compress /dev/emt/xc[n]

Where x refers to the number speciﬁc to your system. To get this number, look in the /dev/rmt

directory to ﬁnd the entry that corresponds to the SCSI ID 5.

[n] is an optional parameter specifying no rewind.

131

CHAPTER 11 Input-Output Units

IMPORTANT

Never use DAT audio media. Always use computer grade media with a DDS-1, DDS-2 and

DDS-3 logos as shown in Figure 11.6 or with a MRS (Media Recognition System) logo as

shown in Figure 11.7 . The MRS is used on all DDS-2 and DDS-3 tapes with the logos

shown in Figure 11.6 . Note that non-MRS cartridges are allowed to read only.

Digital

Data

Digital

Data

Digital

Data

Storage

Figure 11.6 DDS Logos

Digital

Data

Storage

Figure 11.7 DDS Media Recognition System Logo

Inserting a data cartridge

Check that the Active LED and Attention LED are off. If the Active LED is on, a data cartridge

is already inserted.

Insert the data cartridge into the slot on the front panel. Be careful to insert the data cartridge in

the direction indicated by the label, and push gently on the cartridge.

The DAT unit takes it automatically and starts loading the tape. The Active LED blinks while

the tape is being loaded.

About 14 seconds is required to complete tape loading. When the tape is loaded, the Active

LED lights steady.

Labeled surface

Clean

Tape

Figure 11.8 Inserting a Data Cartridge in The DAT Unit

132

11.5 DAT Unit

Removing a data cartridge

1 Check that the Active LED is off (the DAT unit is not operating).

2 Press the eject switch to rewind and unload the tape. The Active LED blinks while the tape is

being rewound and unloaded.

3 After the tape has been rewound, the data cartridge is ejected. Up to 120 seconds is required to

eject the tape. After the tape is ejected, the Active LED goes off.

Write-protecting a data cartridge

Data cartridges have a write-protection tab to protect important data from being overwritten by

mistake.

Write-protection tab

Write-protected

Write-enabled

Figure 11.9 DAT Data Cartridge Write-protection Tab

When using the data cartridge (DAT), take the following

CAUTION

precautions. If these precautions are not observed, the DAT unit or

its data may be destroyed.

Do not allow a magnet or magnetized object near a data cartridge.

Do not expose the tape or turn the tape reel unnecessarily.

Do not spill coffee or any other liquid over a data cartridge.

Do not leave a data cartridge where it may be exposed to high temperature, high humidity, dust,

or sunlight.

Do not drop a data cartridge or subject it to any other strong shock.

If the ambient temperature or humidity changes rapidly, wait for data cassettes to adapt to the

new conditions before mounting them in the DAT unit.

When a data cartridge is not being used, store it outside the DAT unit (do not leave it in the

DAT unit).

Rewrite magnetic tape cartridges in storage that contain important data every six months.

When storing data cartridges for a long time, the following environmental conditions must be

satisﬁed:

Temperature: 5 to 32 degrees Celsius (+41 to +89 F)

Humidity: 20 to 60% (Condensation not allowed)

Maximum wet bulb temperature: 26 degrees Celsius (+78.8 F)

133

CHAPTER 11 Input-Output Units

Each data cartridge has an expendable service life. If the Attention LED blinks frequently or

continuously after the magnetic head has been cleaned, the life of the data cartridge has expired.

Generally, replace data cartridges with new ones after they have been used 300 times.

Cleaning the magnetic head

After the DAT unit has been used for a long time, the magnetic head will accumulate dust or

magnetic powder from the tapes. If the magnetic head is left dirty, it may damage a tape, or deposit

dust or magnetic powder onto a tape and thus cause errors or data destruction. Therefore, use a

cleaning cartridge to clean the magnetic head.

Clean the magnetic head when:

The DAT unit has been operating for more than 25 hours.

One month has passed since the last head cleaning

The Attention LED is blinking

The cleaning instruction message is output to the console display.

When a cleaning cartridge is inserted into the DAT unit in the same way as a data cartridge, head

cleaning will start automatically. Head cleaning takes about 30 seconds. The cleaning cartridge is

ejected automatically after cleaning is completed.

Replacing the cleaning cartridge, when the cleaning cartridge is used, a portion of the cleaning tape

is moved from the left reel to the right reel as shown in the ﬁgure above. Each part of the tape is

used once only.

Replace the cleaning cartridge when there is no more tape on the left reel.

IMPORTANT

Do not use any method other than a DDS-approved cleaning cartridge which has a DDS

logo on it.

134

11.6 8-mm Tape Unit

This section describes front panel indicators and buttons of the 8-mm tape unit, and explains how to use the 8-mm

tape unit.

Setting in operating system

Before using the 8-mm tape unit, the /kernel/drv/st.conf ﬁle must be modiﬁed by the following

steps.

1 Copy an original st.conf ﬁle as below.

# cp /kernel/drv/st.conf /kernel/drv/st.conf.old

2 Add the following to the /kernel/drv/st.conf ﬁle.

tape-config-list =

"EXABYTE EXB-8505", "Exabyte 8mm EXB-8505", "EXBT-8SC";

EXBT-8SC = 1,0x35,0,0xce39,2,0x15,0x8c,1;

IMPORTANT

If the effective tape-conﬁg-list has been deﬁned, separate the above description with a

"," and add it to the ﬁle like the following example.

Tape-config-list =

"HP

C1537A", "HP DDS3 4mm DAT", "HP_data2",

"EXABYTE EXB-8505", "Exabyte 8mm EXB-8505", "EXBT-8SC";

HP_data2 = 1,0x34,1024,0xd639,4,0x00,0x13,0x24,0x3,3;

EXBT-8SC = 1,0x35,0,0xce39,2,0x15,0x8c,1;

3 Then, make a reconﬁgure boot as below.

ok boot -r

When specifying the data format to be used by your 8-mm tape unit, use the following density code.

data format

8200 format

8500 format

8200c format

8500c format

Density code

0x14 (14h)

0x15 (15h)

0x90 (90h)

0x8c (8ch)

Device number *

/dev/rmt/xl[n]

/dev/rmt/xm[n]

/dev/rmt/xh[n]

/dev/rmt/xc[n]

The x in this column refers to the number speciﬁc to your system. To get this number,

look in the /dev/rmt directory and ﬁnd the entry that corresponds to the SCSI ID 5.

[n]: no rewind

135

CHAPTER 11 Input-Output Units

Front Panel.

The 8-mm tape unit has three LEDs and an eject switch as shown in Figure 11.10 .

2 Warning LED

Eject switch

Access LED

Ready LED

Figure 11.10 8-mm Tape Unit Front Panel

1 Eject switch

This switch is used to rewind, unload, and eject the 8-mm data cartridge.

2 Warning LED

If this LED blinks, an error may be occurred in this unit. If Warning LED and Ready

LED blink together, this unit requires cleaning. And, it will light at reset or initial

power-on phase.

3 Ready LED

This LED lights, when 8-mm data cartridge is inserted and ﬁnished loading the tape.

And, it will light at reset or initial power-on phase, also.

4 Access LED

This LED lights steady or blinks, when the 8-mm drive is working (reading or writing

a tape). And, it will light at reset or initial power-on phase, also.

Tape cartridge information

This tape drive unit uses EXATAPE 112m or EXATAPE 160mXL 8-mm tape cartridges, which

have typical storage capacity of 5 - 14 Gbytes.

Table 11.5 8-mm Tape Cartridge Capacity

Tape Length

160 m

EXB-8500

10 Gbytes

5 Gbytes

EXB-8500c

14 Gbytes

7 Gbytes

120 m

Note that the 8-mm tape unit can read tape written in EXB-8200 format, when the cartridge is set to

write-protected.

IMPORTANT

Never use 8-mm video media. Always use computer grade media.

136

11.6 8-mm Tape Unit

Inserting a data cartridge

1 Check that the Access LED and Ready LED are off. Do not insert a cartridge during its

power-on self test.

2 Insert the tape cartridge into the 8-mm tape unit. Be careful to insert the data cartridge in the

direction indicated by the label, and push gently on the cartridge.

3 The 8-mm tape unit pulls in the cartridge automatically and starts loading the tape. The Ready

LED lights after the tape has being loaded.

Removing a data cartridge

1 Check that the 8-mm tape unit is not operating (the Access LED is off).

2 Press the eject switch to wind back and unload the tape. Then, the Ready LED turns off, the

tape is wound back, and the data cartridge is ejected.

Notes on handling tape cartridges

When reading data, it is recommended that the data cartridge is write-protected.

When a data cartridge is not being used, be sure to store it outside the 8-mm tape unit. Never

leave a data cartridge in the 8-mm tape unit for a long time.

The 8-mm tape unit may fail to load the data cartridge and may eject it instead. If this happens,

insert the data cartridge again, making sure that it is correctly oriented.

Appearance of the data cartridge

Figure 11.11 shows the appearance of the 8-mm tape data cartridge.

62.5

Open

Write-enabled

Write-protected

Label application location

Unit: mm

Figure 11.11 8-mm Tape Data Cartridge

When using or storing the data cartridge, take the following

precautions. If these precautions are not taken, the 8-mm tape unit

or its data may be destroyed.

CAUTION

137

CHAPTER 11 Input-Output Units

When storing the data cartridge for a long time, ensure the storage area meets the following

environmental conditions and rewrite data once a year:

Temperature: 5 to 32 degree Celsius (+41 to +89.6 F)

Humidity: 20 to 60% RH

Maximum wet bulb temperature: 24 degree Celsius (+75.2 F)

If the ambient temperature or humidity changes rapidly, allow the data cartridge to adjust to the

new environment before inserting it in the 8 mm tape unit.

Do not subject the data cartridge to strong shock. Do not open the data cartridge.

Do not place the data cartridge near a magnet or device generating a strong electromagnetic

ﬁeld.

Apply the index label to the speciﬁed location.

The data cartridge tape has a limited service life. Replace the data cartridge after using it 50

times (reference). The tape may wear out prematurely depending on the environment where it

is used.

Be sure to store data cartridges in the dedicated case.

Cleaning the magnetic head

By using the 8-mm tape unit for a long time, the built-in magnetic head is stained by dust or

magnetic powder from the tapes. If the magnetic head is left stained, it may damage the tape used.

Dust or magnetic powder on a tape may cause errors or result in data destruction. Use the cleaning

cartridge to periodically clean the magnetic head.

Head cleaning cycle

Clean the magnetic head in the following cases:

8-mm tape motions of 30 hours or longer since the last head cleaning.

One month has passed since the last cleaning.

A tape or hardware error occurs.

(Stains on the magnetic head may cause a hardware error.)

LEDs or console message indicates to need the head cleaning.

Both warning and ready LEDs on the 8 mm tape unit blink together.

How to use a Cleaning Cartridge

To clean the magnetic head, insert the cleaning cartridge the same way as the data cartridge. Head

cleaning is completed automatically within about three minutes, then the cleaning cartridge is

ejected. Do not use any other method than described in this section.

IMPORTANT

Use only Exabyte "Premium Cleaning Cartridge" or equivalents. Never use any other

cleaning methods.

138

11.6 8-mm Tape Unit

Appearance of the Cleaning Cartridge

Figure 11.12 shows the appearance of the cleaning cartridge.

Check sheet

The dimensions are the same as

those of the data cartridge.

Figure 11.12 Cleaning Cartridge of The 8-mm Tape Unit

Replacing the cleaning cartridge

Figure 11.13 Cleaning Cartridge of The 8-mm Tape Unit

The tape in the cleaning cartridge is wound onto the right reel from the left reel (as shown in the

ﬁgure above) each time the magnetic head is cleaned. The used portion of the tape is not rewound.

When the entire length of the cleaning tape on the left reel is used up, the cleaning cassette can no

longer be used.

Replace the cleaning cartridge with a new cartridge when there is no more tape on the left reel. Use

either another Fujitsu labeled cleaning cartridge or an Exabyte "Premium Cleaning Cartridge"

IMPORTANT

When handling the cleaning cartridge, note the following items:

Use the cleaning cartridge in the operating environment of the 8-mm tape unit.

Do not allow condensation to form inside the cleaning cartridge.

Do not subject the cleaning cartridge to strong shock. Do not open the cleaning

cartridge.

139

CHAPTER 11 Input-Output Units

11.7 QIC Tape Unit

This section describes front panel indicator and button of the QIC tape unit, and explains how to use the QIC tape

unit.

Front Panel

The QIC tape unit has a LED and an eject button as shown in Figure 11.14 .

Eject button

Load LED

Door

Figure 11.14 QIC Tape Drive Front Panel

This section describes the functions of the switche and LED on the QIC tape unit.

1 Eject button

The eject button is used to open the door when inserting and remove a tape. Except

for inserting or removing a tape, be sure to keep the door closed while operating the

QIC tape cartridge unit. If the QIC tape cartridge unit is used with the door open, data

may not be read from or written to the tape because of dust.

Data destruction: Do not press the eject switch during

CAUTION

an operation The forced ejection function may operate

and data being written may be destroyed.

2 Load LED

The load LED lights in green when a data cartridge is inserted in the QIC tape

cartridge unit. The load LED blinks in green when the QIC tape cartridge unit is

operating.

If an error occurs in the QIC tape cartridge unit or a tape, the load LED lights in

orange. If the QIC tape cartridge unit cannot be recovered, the load LED lights in red.

In this case, contact the system administrator.

140

11.7 QIC Tape Unit

Tape cartridge information

This tape drive uses DC 9250 or equivalent 1/4-inch tape cartridges, which have maximum storage

capacity of 2.5 Gbytes. The cartridges do not require preformatting.

Table 11.6 QIC Tape Cartridge Capacity

Format

QIC-2GB

QIC-1000

QIC-525

QIC-150

QIC-120

QIC-24

Length

356 m (1200 ft)

232 m (760 ft)

311 m (1020 ft)

183 m (600 ft)

Capacity

2.5 Gbytes

1.0 Gbytes

525 Mbytes

150 Mbytes

125 Mbytes

Read only

Inserting the data cartridge

1 Check that the load LED is off, then press the eject button.

If the load LED is on, a data cartridge is already inserted.

2 Insert the data cartridge slowly. Note that the cartridge is not fully inserted at this time.

3 Close the door. The data cartridge is fully inserted deeper and the load LED light up.

Removing the data cartridge

Remove the data cartridge from the QIC tape cartridge unit according to the following procedure:

1 Check that the QIC tape cartridge unit is not operating, then press the eject button to open the

door. Part of the inserted data cartridge is ejected before stopping.

2 Remove the data cartridge manually.

Notes on handling

When handling data cartridges, note the following items:

When reading data, the data cartridge should be write-protected.

When a data cartridge is not to be used, store it outside the QIC tape cartridge unit (i.e., do not

leave the data cartridge in the QIC tape cartridge unit).

IMPORTANT

After a QIC tape cartridge unit has been used for a long time , the built-in magnetic head

will become stained by dust or magnetic powder from tapes. If the magnetic head is left

stained, it may damage the tape. Dust or magnetic powder on the tape may cause errors

or result in data destruction. To clean the magnetic head using a cleaning cartridge, read

the section "Cleaning the magnetic head" in this chapter.

141

CHAPTER 11 Input-Output Units

Head cleaning cycle

To clean the magnetic head when:

The QIC tape cartridge unit is used for eight hours or longer from the last head cleaning.

One month has passed since the last head cleaning.

Tape errors occur frequently.

The QIC tape cartridge unit has a function that outputs a cleaning instruction message to the console

display. When this message is output, clean the magnetic head.

Cleaning the magnetic head

To clean the magnetic head with a cleaning cartridge:

Use the ISSI(R) Data Products 1/4-inch cleaning cartridge (Model IS5404), or equivalent cleaning

cartridge. Follow the instructions included with the kit.

1 Dampen the cleaning pad attached to the cleaning cartridge with cleaning ﬂuid.

2 Insert the cleaning cartridge the same way as the data cartridge.

3 Close the door of the QIC tape cartridge unit. Head cleaning will starts automatically. When the

door is open, head cleaning stops. Wait ten seconds, then open the door.

4 Remove the cleaning cartridge manually. Wait three minutes to dry the magnetic head before

using the QIC tape cartridge unit.

Appearance of the data cartridge

Figure 11.15 shows the appearance of the data cartridge.

S A F E

Write-enabled

Write-protected

Figure 11.15 QIC Data Cartridge

142

11.7 QIC Tape Unit

When using or storing the data cartridge, take the following

CAUTION

precautions. If these precautions are not taken, the QIC tape unit

or its data may be destroyed.

Use the data cartridge in the operating environment of the QIC

tape cartridge unit.

When storing the data cartridge for a long time, ensure the

storage area meets the following environmental conditions and

rewrite data once a year.

Temperature: 5 to 45 degrees Celsius

Humidity: 20 to 80% RH

Maximum wet bulb temperature: 29 degrees Celsius

If the ambient temperature or humidity changes rapidly, allow

the data cartridge to adjust to the new environment before

inserting it in the QIC tape cartridge unit.

Do not subject the data cartridge to strong shock. Do not open

the data cartridge.

Do not place the data cartridge near a magnet or device

generating a strong electromagnetic ﬁeld.

Attach the index label to the speciﬁed location.

The data cartridge tape has a limited service life. Replace the

data cartridge after using it 250 times (reference). The tape

may wear out prematurely depending on the environment it is

used in.

Be sure to store data cartridges in their dedicated cases.

143

CHAPTER 12

External Interfaces

CONTENTS

12.1 UPS Control Interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

12.2 RS232C Interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

12.3 Parallel Interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

146

148

151

145

CHAPTER 12 External Interfaces

12.1 UPS Control Interface

Overview The UPS control interface is used to perform temporary data saving processing. In this processing, a

reserved interruption for software occurs when the uninterruptible power supply (UPS) is used to

backup a power failure in the commercial AC power supply. In addition to this type of UPS control

interface, there are several other UPS units that use the general-purpose interface such as RS232C.

Connecting interfaces

The conﬁgurations and deﬁnitions of the signal lines to be connected to the UPS system are shown

below. Do not use pin numbers unspeciﬁed below to connect to the UPS system.

Table 12.1 Deﬁnitions of UPS Signal Lines

Signal

names

Definitions

Nos.

Remarks

Enabled with ON.

BPS

Signal indicating faulty UPS

conditions

BTL

Signal indicating that the UPS

battery level has lowered and

that ineffectual battery char

ge may result after a certain

period of time (*1)

UPSON

ACOFF

Signal indicating the UPS is

operating

Signal notifying power failure

in the commercial AC supply

connected to the UPS (*2)

When power fails: ON

When power is normal:

OFF

System ground signal

ER (*4)

Signal indicating the main

cabinet is operating (*3)

ON indicates contacts are closed.

OFF indicates contacts are open.

The normal power supply should be maintained by the UPS battery for at least 10 to

60 seconds after the connecting interface signal is turned on.

For momentary power supply interruption of the commercial AC power not

exceeding two seconds, the normal battery power supply without activating ACOFF*

is recommended.

This connecting interface signal identiﬁes the status of the main cabinet to prevent

supplying battery power in case the signal is in the OFF (LOW) state (the main

cabinet is stopped), even though a power failure is detected by the UPS.

ER signal may be left unused.

146

12.1 UPS Control Interface

*BPS

*BTL

BPS

BTL

*UPSON

*ACOFF

UPSON

ACOFF

UPS

Interface cable

GP 7000

Figure 12.1 Signal Conﬁguration

Electrical requirements:

The UPS control interface must meet the following electrical requirements:

Table 12.2 Input Circuits

Signal names

*BPS

Input conditions

* Dead-front relay contacts

*BTL

* Contact rating: 12 V DC, 10 mA or more

*UPSON

*ACOFF

* Gold plated contacts or lead relays are recommended.

Table 12.3 Output Circuits

Signal names

Output conditions

Output voltages

Output currents

VOH

VOL

IOH

IOL

3.76 V to 5.5 v

0. to 0.4 v

max. -4 mA

max. 4 mA

Signal Cables

Use shielded pair cables that meet the following speciﬁcations.

Connector shapes:

D-SUB 9-pin, Male connector (Female connector on the equipment side)

DEU-9PF-FO (Manufactured by Japan Aircraft Electronics Inc.) or equivalent

Cable length:

10 m or less

DC resistance:(per pair, both ways)

400 ohm/km or less

147

CHAPTER 12 External Interfaces

12.2 RS232C Interface

Overview The RS232C interface is the interface standard adopted by EIA (Electronic Industries Association)

in the USA in accordance with the CCITT (comite consultatif international telegraphique et

telephonique) recommendation. The connections should be made after the speciﬁcations have

carefully been checked for each of the adapters and controllers, since only the limited and necessary

codes in the RS232C standard are supported in them. The RS232C interface is an unbalanced

interface based on JISX5101 (former JISC6361) and CCITT V.24/V28.

Moreover, care must be taken not to confuse the signal names which may differ from equipment to

equipment.

Electrical Rating Speciﬁcations

The following rating speciﬁcations must be met:

Table 12.4 Electrical Rating Speciﬁcations

Input thresholds ON (0) at +3 V or higher, OFF

Input circuits

(1) at -3 V or lower

3 to 7 Kohm

+-25 V

Input impedance

Maximum allowable input

voltage

Receiving margin

RV element used

45% or more

SN75C1406 or SN75189AN

(products of TI) or equivalent

Output circuits

Output voltages

+5 V to +15 V, -5 V to -15 V

300ohm or less

Output impedance

Maximum output current

DV element used

+-0.5 A or less

SN75C1406 or SN75188AN or

equivalent

Connecting cables

Use shielded pair cables that meet the following speciﬁcations. The signal return lines should be

gathered together to be connected to the SG (signal ground) at both ends.

DC resistance (per pair, both ways): 300 ohm/km or less

Capacitance between lines (between pairs): 70 PF/m or less

Cable length: 100 m or less

Cable screen: Shielded cables

Table 12.5 lists the deﬁnitions of signal line.

148

12.2 RS232C Interface

Table 12.5 Deﬁnitions of Signal Lines

Signal

Pin Nos. on the

I/O device side

names and

pin Nos.on

the host

side

Voltage levels

Description

(DSUB25P) '0'-off

(*1)

'1'-on

(*1)

TERMINAL-25P

SD: 2

RD: 3

RS: 4

+8 V

-8 V

+8 V

GP transmitting data signals

GP receiving data signals

Transmission request signal

when the GP transmits the data

RS: 4

CS: 5

-8 V

+8 V

Transmission request signal

Request to transmit when the

I/O device sends out the data

ER: 20

DR: 6

-8 V

+8 V

-8 V

Status signal to indicate

whether or not the host is

ready for operation

Status signal to indicate

whether or not the I/O device

is ready for operation

CD: 8

Indicates that the I/O device

receives the signal from the

connected system normally

5-8(*2)

ST1:24

ST2:15

RT: 17

SG: 7

Reception timing for the I/O

device to be supplied with the

data from the GP

Transmission timing for the

I/O device to supply the GP

host with the data

Transmission timing for the

I/O device to supply the GP

host with the data

Used as a signal return line.

Indicates the data signal logic or ON/OFF of the control line.

Indicates the pin numbers short-circuited on the TERMINAL side connector.

149

CHAPTER 12 External Interfaces

Connection of signal lines

Figure 12.2 shows a conﬁguration of signal line on connecting DCE device.

ST1

ST2

[Send Data]

[Receive Data]

[Request to Send]

[Clear to Send]

[Equipment Ready]

[Data set Ready]

[Carrier Detect]

[Send Timing 1]

[Send Timing 2]

[Receive Timing]

[Signal Ground]

Controller/

adapter

(DTE)

I/O Device

(DTE)

Figure 12.2 Conﬁguration of Signal Line when Connecting DCE Device(Example)

The conﬁguration of the signal line on connecting DTE device is shown below.

Main cabinet side

I/O device side

ST1

ST2

ST1

ST2

Note:

RS/CS flow control cannot be achieved by

this wiring

Figure 12.3 Conﬁguration of Signal Line when Connecting DTE Line(Example)

150

12.3 Parallel Interface

Parallel interface

The Parallel interface is based upon IEEE1284. For details of the signal line conﬁguration and

electrical standard, refer to the IEEE1284 speciﬁcations. Besides the hardware veriﬁcation

mentioned above, the control codes (e.g., Chinese-character code and ESC sequence) supported by

the connected system must be checked before attempting to use the interface.

In the GP7000F, "Compatible," "Nibble" and "Byte" modes are supported. "ECP (Extended

Capabilities Port)" to "EPP (Enhanced Parallel Port)" modes are not supported as yet.

Terminal Distribution

IEEE1284-A from among IEEE1284 terminal distribution schemes is shown below. The following

table shows the pin numbers, sources and signal names. Sources identify the communicating status,

e.g., [from Host (H)], [from terminal (P)], and [bidirectional (Bi-Di)] (can be sent either from the

host or terminal equipment). The signal names identify those supported in the respective modes.

For the connecting information regarding the cables types, refer to the IEEE1284 speciﬁcations.

Table 12.6 IEEE1284-A Connector Terminal Distribution

Pin #

Source

Compatible

NStrobe

Nibble

HostClk

Byte

Bi-Di*

Data 1 (Least Significant Bit)

Data 2

Data 3

Data 4

Data 5

Data 6

Data 7

Data 8 (Most Significant Bit)

NAck

PtrClk

Busy

PtrBusy

Perror

Select

NAutoFd

AckDataReq

Xflag

HostBusy

151

CHAPTER 12 External Interfaces

Table 12.7 IEEE1284-A Connector Terminal Distribution (Continued)

Pin #

Source

Compatible

NFault

Nibble

nDataAvail

Byte

NInit

nInit

NSelection

1284 Active

Signal Ground (nStrobe)

Signal Ground (Data 1 and Data 2)

Signal Ground (Data 3 and Data 4)

Signal Ground (Data 5 and Data 6)

Signal Ground (Data 7 and Data 8)

Signal Ground (Busy and nFault)

Signal Ground (PError, Select, and nAck))

Signal Ground (nAutoFd, nSelectIn, and nInit)

Data signals can be read by some but not all host devices.

152

CHAPTER 13

RCI Setting

CONTENTS

13.1 Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

13.2 RCI Commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

13.3 Liquid Crystal Display (LCD) Speciﬁcations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

154

155

153

CHAPTER 13 RCI Setting

13.1 Overview

The remote cabinet interface (RCI) function turns on/off the power of the expansion unit along with the main unit.

The RCI function also reports any error that occurring in an expansion unit to the main unit.

RCI displays the current node addresses, executes initialization, and requests the binding of a new node after hot

system replacement. It supports the commands explained below.

13.2 RCI Commands

Overview The RCI command has a function that displays the RCI conﬁguration information, sets the node

address, and incorporates the node during hot system replacement.

The following table lists the RCI commands:

rci-config

This command displays RCI configuration information. Use

this command to check the host node address and references

node device names after the RCI setting.

rci-config n m

This command initializes RCI and sets an address for the

local host node. It does not connect the node. N is the

node address number and m is the number of hosts (n=m).

(Necessary command for initialization)

rci-configio-init

rci-configio

This command sets new addresses of all RCI nodes (host and

I/O) and connects them. I/O node addresses are reassigned,

starting with 1. Use this command in initial installation.

Use this command to add or remove a local node (I/O).

Notes

In initial installation, execute an rci-config command by specifying n=1 and

m=1. Then, execute an rci-configio-init command.

When adding a host node, set the mode switch on the panel of a connected host

node to "MANUAL." This masks a failure report caused by the node expansion.

Then, use the RCI cable to connect the expansion target host and turn on the host.

Execute an rci-config n m command and an rci-configio command in

the host. Set the mode switch to the original position when the connection is

complete.

When adding an I/O node, set the mode switch on the panel of a connected host

node to "MANUAL." Use the RCI cable to connect the expansion target host and

turn on the host again. Then, execute an rci-configio command when the

ok prompt is displayed.

154

13.3 Liquid Crystal Display (LCD) Speciﬁcations

The ﬁgure below shows a setting example.

ok rci-config

HOST:

addres: 000101ff mode: 010038a0 status: c000

LIST:

address

status

device-class

0001

0100

sub-class

000101ff

000301ff

000302ff

0201

13.3 Liquid Crystal Display (LCD) Speciﬁcations

A message is displayed when the service pin of an I/O node is pressed. Use this message to check the RCI address

of the I/O node and the RCI cable connection to the node. The message is shown below.

ID: XXXX VER: yy

ST: zzzzzzzzzzzz

xxxx: RCI address

Explanation:

yy:

RCI version

zzzzzzzzzzzz: Neuron identifier

This message and current messages are displayed alternately for 20 to 30 seconds on the LCD panel of the main

cabinet.

155

CHAPTER 14

Troubleshooting

CONTENTS

14.1 Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

14.2 Commands at the ok prompt . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

158

159

160

14.3 Initial Diagnosis Sequence . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

14.4 SCF Error Messages . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

157

CHAPTER 14 Troubleshooting

14.1 Overview

This chapter will give you some tips to isolate hardware problems of the GP7000F. The GP7000F has some

hardware features to diagnose and monitor the hardware, and it makes trouble shooting easy and less time

consuming.

LCD panel shows hardware error messages, if it is found during power-on diagnostics or while the system is

running. Also, the CHECK LED on the front panel light up, if the GP7000F has a problem.

When the ok prompt are shown on a console display, some commands are available to show results of the

power-on diagnostics.

If problems are occurred while the operating system is running, error messages are displayed on the console

and logged in the /var/adm/messages ﬁle. When the operating system is running, a variety of diagnostic

program can be used to verify the hardware system. For more information about the diagnostic program, refer

to the manuals of the "Basic Software Extension" or "Enhanced Support Facility".

Note that errors in I/O devices such as disk drives and PCI cards are not indicated both on the LCD panel nor the

CHECK LED. Also, except for some system hardware such as processor modules, errors which are occurred while

the operating system is running are not indicated by them. The system administrator should isolate such errors by

the system console messages and the system log ﬁles.

14.2 Commands at the ok prompt

Results of initial diagnosis

The following commands are available at the ok prompt to show results of the initial diagnostic.

Also, the diagnostic results can be referred to by using the prtdiag(1M) command while the

operating system is running. For details of the LCD display messages, refer to Section 14.4 .

Table 14.1 The ’show-post-results’ Command

show-post-

results

Display results of the POST diagnostics for UPA frequency,

UPA modules, PCI slots, memory, on board IO, etc.

If the operating system can’t boot up while the power-on diagnostic has passed without any errors,

check the system’s boot device. The following commands are available at the ok prompt in order to

identify SCSI bus and SCSI devices attached.

158

14.3 Initial Diagnosis Sequence

LCD display Sequence

The LCD display sequence is shown in the Figure 14.1 . There are many patterns in the second line.

But, the following example shows only some of them.

SCF:initial

I/O Power on

diagnostic alarm

POST:Executing#

test_name

POST:ERR########

component

########: error code

POST:ERROR STOP

diagnostic stop

OBP stop

OBP:Initializing

OBP:STOP

Just a moment

check error logs

ex:

Probing Memory

Probing CPU

Probing PCI

ex:

Check error logs

RED state trap

Reset swich

Scrubbing Memory

Booting

Operating System

Figure 14.1 Power-on Sequence

Note that if hardware error is found during the power-on sequence, GP7000F main cabinet is power

cycled automatically to make sure any error detected during the power-on sequence.

If power-up processing is not performed after turning on the power switch, check to see if the AC

main line switch is in the proper position and that the mode switch is set to SECURE.

159

CHAPTER 14 Troubleshooting

OBP Error Messages

Table 14.2 shows just examples of the error messages displayed when faults are detected.

Table 14.2 OBP Error Messages

Message level

(2nd line)

Location of detected abnormality

CPUn

n-th processor module

Memory module for memory slot nn

Violation of memory module installation condition

Controller timer

SLOTnn

Mem config error

U2P(Timer)#x

U2P#xy

PCI Interface

SCSI#x

SCSI Interface

PCIO(LAN

SuperIO(ECPP)

SuperIO(KB)

SuperIO(Mouse)

SuperIO(FDC)

ESCC(TTY)

PCI#x

Ethernet Interface

Parallel Interface

Keyboard Interface

Mouse Interface

Floppy Interface

Serial Interface

x-th PCI Slot

TOD/NVRAM

TOD/NVRAM chip

"0X-" displayed to top of LCD messages at M200R, M400A, and M400R. for example

"0X-CPU#n".

14.4

SCF Error Messages

LCD Display Sequence

System problems encountered during the initial diagnostics and some hardware problems while the

server is running are reported by messages on the LCD panel and by the status LEDs. Once the

operating system has successfully running, it is also logged in message ﬁles, displayed on console,

and shown by prtdiag(1M) command.

However, if the hardware system failed to boot up because of some hardware problems, the CHECK

LED on the operator panel indicate to found problems by blinking, and the problem can be

identiﬁed by the LCD messages displayed on it.

This section describes some of the error messages displayed on the LCD panel. If a hardware

problem occurred, contact your system administrator or service engineers with the messages on the

LCD panel or any other error indications/messages.

160

14.4 SCF Error Messages

Power Unit conﬁguration error

If there is any violation of system hardware conﬁguration, such as insufﬁcient power supply or

DC-DC converter required by the processors, the power-on sequence will be halted. In this case,

any of the following error messages will be shown on the LCD panel.

Table 14.3 Power Unit Conﬁguration Error Messages

Message level

(1st line)

Message content

(2nd line)

Description

FEP Config. zxy0

Insufficiency of FEP (Front End Bulk Power)

for the system

SCF:alarm

x : alarmed FEP #, y : installed FEP #

DDC Config. or

0X-DDC Config

Insufficiency or miss configuration of DDC

(DC-DC Converter)

PPU2 Config

Insufficiency or miss configuration of 2.5V

PPU (Power Processing Unit)

PPU3 Config.

Insufficiency or miss configuration of 3.3V PPU

PPU3-io Config

Insufficiency or miss configuration of 3.3V PPU

for IO

PPU5 Config.

PPU12 Config.

BE Config

Insufficiency or miss configuration of 5.0V PPU

Insufficiency or miss configuration of 12.0V PPU

Insufficiency or miss configuration of BE (Back End

Power)

BE(3.3V) Config

Insufficiency or miss configuration of 3.3V BE (Back

End Power)

BE(12V/5V)Config Insufficiency or miss configuration of 5V BE (Back

End Power)

DDC Config

PPU3 Config

PPU3-io Config

PPU5 Config

PPU12 Config

BE Config

Extra DDC is installed

SCF:warning

Extra 3.3V PPU is installed

Extra 3.3V PPU for IO is installed

Extra 5.0V PPU is installed

Extra 12.0V PPU is installed

Extra BE is installed

BE(3.3V) Config

Extra 3.3V BE is installed

BE(12V/5V)Config Extra 5V BE is installed

161

CHAPTER 14 Troubleshooting

Power, fan, environmental alarms

With a redundant conﬁguration, if a power supply unit’s failure occurs while the system is running,

the system will display a message on operating system and will continue to running. However, a

message may not be displayed for a non-redundant conﬁguration, and the system will shut down

immediately. The same applies to the fan failure. To identify the cause of the problem, message log

ﬁle may be useful if the system can restart. The causes of this type of event are therefore

continuously reported on the LCD panel after the system is powered down. However, the messages

on the LCD panel will disappear if the Main Line switch is turned off.

Table 14.4 Power/Fan/Environmental Error Messages

Message level

(1st line)

Message content

(2nd line)

Description

SCF:warning

FAN m-n

FAN m-n (x-y)

Rotation alarm is detected at fan n of fan traym.

(x-y): When a plurality of events is detected

FEP#n

FEP#n (#m)

Abnormality is detected at n-th FEP(Front End Power)

(#m): When a plurality of events is detected

BE#n

SCF:alarm

FAN m-n

Faulty rotation is detected at fan n of fan tray m.

When a plurality of events is detected

FAN m-n (x-y)

Thermal Inlet

Abnormal ambient temperature (exceeding approx.

40(degrees Celsius/104 F) is detected

Thermal CPU

Sensor Inlet

Abnormal in-cabinet temperature detected

Faulty ambient temperature sensor detected

FEP#n

FEP#n (#m)

Abnormality is detected at n-th FEP

(#m): When a plurality of events is detected

DDC#n or 0X-DDC#n Abnormality is detected at n-th DDC

BE#n

Abnormality is detected at n-th BE

PPU2#n

Abnormality is detected at n-th 2.5V PPU (Power

Processing Unit)

PPU3#n

Abnormality is detected at n-th 3.3 V PPU

Abnormality is detected at n-th 5 V PPU

Abnormality is detected at n-th 12.0 V PPU

Failed to power-up 0x FEP

PPU5#n

PPU12#n

FEP DC-ON 0x

DDC DC-ON xx

PPU2 DC-ON 0x

PPU3 DC-ON 0x

PPU5 DC-ON 0x

PPU12 DC-ON 0x

BE DC-ON 0x

Failed to power-up xx DDC

Failed to power-up 0x 2.5V PPU

Failed to power-up 0x 3.3 V PPU

Failed to power-up 0x 5.0 V PPU

Failed to power-up 0x 12.0 V PPU

Failed to power-up 0x BE

162

14.4 SCF Error Messages

Processor Monitoring Error Messages

In the power-on diagnostics, the processors, external caches, memory modules, etc. are diagnosed.

If a fault is detected in the processor during the power-on diagnostics and while the system is

running, the following error messages will be shown on the LCD panel.

Table 14.5 Processor Monitoring Error Messages

Message level

(1st line)

Message content

(2nd line)

Description

SCF:alarm

CPU Hangup nn

Processor hang-up is detected in the power-up

processing phase nn.

CPU Hangup 00nn

Processor hang-up is detected in the operating

system environment.

Lithium Battery

An alarm message notifying the initialization of the calendar will be displayed, when cables to the

battery are temporarily disconnected to replace the lithium battery or when some other maintenance

work is performed. In such a situation, check the cables, then power-on the system with the MODE

switch is set to MANUAL. If the calendar is initialized due to some reason other than maintenance

work but remains some error after replacing the lithium battery, any other unit should be repaired.

Table 14.6 Lithium Battery Error Messages

Message level

(1st line)

Message content

(2nd line)

Description

SCF: warning

Calendar Initial

The calendar information has been cleared for a

moment due to battery replacement or discharge.

During power-up phase, the information may be

restored to reset the calendar automatically.

SCF: alarm

LiBATT

Reduced lithium battery output voltage detected.

163

CHAPTER 14 Troubleshooting

Other Error Messages

An abnormality of the system monitoring feature itself as well as abnormality of main cabinet are

indicated by error messages on the LCD panel.

Table 14.7 Other Error Messages

Message level

(1st line)

Message content

(2nd line)

Description

SCF: idling...

nnn min, POWER

nnn minutes passed after the power was turned on

after restoring the power.

RCI Mainte Mode

I/O Power on

RCI mode has changed for maintenance

The power-on sequence for peripheral units is

continuing.

SCF: warning

SCF: alarm

Please Levelup

Firmware upgrade processing is incomplete.

Re-executing upgrade processing is required.

RCI Timeout

Communication processor time-out detected.

Flush Memory is write-protected

Halt on main cabinet detected.

FMEM Protected

Syshalt nnnnnnnn

BUSerr nnnnnnnn

SCF: stop

Halt due to bus error. Automatically reset. If the

message is still displayed, however, the system

monitoring feature is down.

Error Message

SCF Watchdog

Abnormality is detected within the system monitoring

mechanism. If the message is still displayed,

however, the system monitoring feature is down and

power-on is disabled.

Hang-up due to watchdog detection. Automatically

reset. If the message is still displayed, however,

the system monitoring feature is down.

164

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