Installation And Operation

Installation and Operation /

%

Manual

ComputeNode4U cPSB

-w

1-800912

Revision E

This manual describes GNP part # 1-901381-x (DC) 1-901380-x (AC)

<'-5%

© 2002, 2003 GNP Computers, Inc. GNP is a trademark of GNP Computers, Inc. All other trademarks or registered trademarks are property of their respective owners.

GNP

ComputeNode4U cPSB

1-800912

Table of Contents Chapter 1

Product Overview

System Features and Capabilities System Alarm Card cPSB Ethernet Switches

1-2

Processor Options

1-2

Power

1-3

Media Drives

1-3

Software

1-4

Product Support Rapid Product RealizationServices

1-4

Intended Use

Chapter 2

1-4

1-4

Site Requirements

Operating Conditions

2-1

Temperature Humidity

2-1

Altitude

2-2

2-1

Power and Grounding j0ito\

1-1 1-1

2-2

Input Supply Grounding

2-3 2-3

Additional Requirements

2-3

ESD

2-3

Dimensions

2-4

Rack Mounting Electromagnetic Interference

2-4

Shock and Vibration

2-4

Chapter 3

2-4

System Inventory & Layout

Inventory

3-1

Features

3-1

Front Panel

3-2

Rear Panel

3-3

GNP Custom Cards

3-4

Installation and Operation Manual

Revision E

TOC-i

ComputeNode4U cPSB

1-800912 Table of Contents

Chapter 4

GNP

Installation & Maintenance

BackplaneSettings

'*5% 4-1

VIO Select(+3.3V/+5V signalling voltage)

Mounting

4-2

4-3

RackMounting/ Front ESD Lug

4-3

Air Flow

4-4

Fan Maintenance

4-4

cPCI Card Installation

4-5

Card Alignment

4-5

Card Latches

4-6

Card Installation

4-8

cPCI Card Removal

4-9

Power SupplyReplacement

4-10

Chapter 5

Operation

Powering Up

5-1

Powering Down

5-1

System Monitoring & Alarming

5-1

Appendix A

Specifications

ComputeNode4U cPSBSpecifications

A-l

3U cPSB 9-Port Ethernet Switch Specifications (per switch) A-4 3U cPSB 8+2G Ethernet SwitchSpecifications (per switch) A-5

Appendix B

Backplane Jumper Configuration

ComputeNode4U cPSBBackplane

Backplane Settings

B-l

B-l

VIO Select (+3.3/+5 V signalling voltage)

Jumper Settings

B-l

B-2

I C Configuration Jumpers (Alarm CardCommunication) Chassis & Digital Ground Connection

B-2

Push-Button Reset

B-2

Remote Voltage Sense

B-3

SCSI ID Header

B-3

SCSI Auxiliary Header

B-3

B-2

H.l 10 Shelf Address

B-3

Fabric Geographic Address

B-4

Minimum Load

B-4

Test Points / FactoryUse Only

B-4

-^

TOC-ii

Revision E

Installation and Operation Manual

GNP Jjfsfcu.

ComputeNode4U cPSB Appendix C

1-800912 Table of Contents

Standard Alarm Card

Overview

C-l

Alarm Card Pinouts

C-l

Alarm Card Command Interface

C-2

Error Message Equations for 3.3V, 5V, 12V, and -12V Thermistor Equations

Appendix D

C-4 C-4 C-5

AlertlNode (Smart Node Alarm Card)

Overview

D-l

User Commands and Interface for the AlertlNode

D-3

Serial Console Login Telnet Login Main Menu Commands and Syntax System Monitoring Commands Alarm Indicators and Settings Network Menu Commands and Syntax AlertlNode Connector Pinouts

D-12

Ethernet RJ-45 Connector — J3000 RS-232Serial uDB-9 Connector — J3001 System Alarm uDB-9 Dry Contact Connector —J0106 18-Pin Molex Connector — J0100

Appendix E

D-3 D-3 D-3 D-4 D-6 D-10 D-12 D-12 D-12 D-13

3U cPSB 9-Port Ethernet Switch

Overview

E-l

Backplane Interface Pinouts

E-3

SwitchJumper Settings

E-5

JP6100-802.1p enable J6300 - Port 9 Programming J7000 - Program Strips

Appendix F

E-5 E-5 E-6

3U cPSB 8+2G Ethernet Switch

Overview

F-l

Functional Overview

F-l

Faceplate Features

F-3

User Interface for the cPSB 8+2G Ethernet Switch

F-4

Starting a Session Main Menu Commands and Syntax

F-4 F-4

"Get" and "Set" Commands

F-4

cPSB 8+2G Ethernet Switch Pinouts

Faceplate Port Pinouts BackplaneConnector Pinouts

Installation and Operation Manual

F-8

F-8 F-9

Revision E

TOC-iii

1-800912 List of Figures

ComputeNode4U cPSB

GNP

List of Figures

Chapter 3

^^\

System Inventory & Layout

Figure 3-1 Figure 3-2 Figure 3-3

Chapter 4

FrontPanel of ComputeNode4U cPSB 3-2 Rear Panel of ComputeNode4U cPSB (DC) 3-3 Rear Panel of ComputeNode4U cPSB (AC) 3-4

Installation & Maintenance

Figure 4-1 Figure 4-2

ComputeNode4U cPSB Backplane (rear view) 4-1 Front Grounding Lug 4-3

Figure 4-3 Figure 4-4 Figure 4-5 Figure 4-6 Figure 4-7 Figure 4-8 Figure 4-9 Figure4-10 Figure 4-11 Figure4-12

Replacing a Fan Tray Backplane Connectors (Front) Examples of cPCI Card Connectors (Front) Backplane Connectors (Rear) Examples of cPCI RTM Connectors (Rear) Standard Latch (nolocking mechanism) Latch withCompression Catch Latches with Lock Release Buttons CardInstallation Details Power Supply Keying (AC shown)

Appendix B Figure B-l

Appendix C Figure C-l FigureC-2

Appendix D Figure D-l FigureD-2 FigureD-3

Appendix E FigureE-l FigureE-2 Figure E-3

4-4 4-5 4-5 4-6 4-6 4-6 4-7 4-7 4-8 4-10

Backplane Jumper Configuration ComputeNode4U cPSB Backplane (rear view) B-l

Standard Alarm Card Alarm Card RearFaceplate Data FlowDiagram for the Software

C-l C-2

AlertlNode (Smart Node Alarm Card) AlertlNode Block Diagram: AlertlNode as Chassis Management Controller D-l AlertlNode BlockDiagram: System Controller as Chassis Management Controller D-2 AlertlNode Faceplate D-2

3U cPSB 9-Port Ethernet Switch cPSB 9-Port Ethernet Switch BlockDiagram E-l cPSB 9-Port Ethernet Switch Faceplates E-2 cPSB 9-Port Ethernet Switch Card E-5 -\

TOC-iv

Revision E

Installation and Operation Manual

GNP

ComputeNode4U cPSB Appendix F

1-800912 List of Figures

3U cPSB 8+2G Ethernet Switch

FigureF-l Figure F-2

cPSB 8+2G Ethernet Switch Block Diagram F-l System Logical Diagram F-2

Figure F-3

cPSB 8+2G Ethernet Switch Faceplates

Installation and Operation Manual

Revision E

F-3

TOC-v

ComputeNode4U cPSB

1-800912 List of Tables

GNP

List of Tables Chapter 2

^

Site Requirements

Table 2-1

Temperature Requirements

2-1

Table 2-2

HumidityLimits

2-1

Table 2-3

Altitude Limits

2-2

Table 2-4

Power Requirements (Input/Primary) Output/Secondary Side Power (per Power Supply)

2-2

Chassis Dimensions

2-4

Table 2-5

Table 2-6

Appendix C

Standard Alarm Card

Table C-l

Alarm Port Pinout (|iDB9 - male)

C-l

Table C-2

Serial Port Pinout (DB9 - female)

C-2

Table C-3

"Get" Commands

C-3

Table C-4

"Set" Commands

C-4

Table C-5

Values for Thermistor Equations

C-5

Appendix D

AlertlNode (Smart Node Alarm Card)

Table D-l

Main Menu Commands

D-3

Table D-2

PowerParameters Monitored ("Get" only)

D-4

Table D-3 Table D-4

Power Supply Inhibit ("Get" or "Set") Temperature Sensor ("Get" only)

D-5 D-5

Table D-5

Fan Health ("Get" only)

D-5

Table D-6

Dry Contact Status ("Get" or "Set")

D-5

Table D-7 Table D-8

LED Settings ("Set" only) Clearing Alarms

D-6 D-6

Table D-9

Get AlarmThresholds and ResponseActions D-7

Table D-10

SetAlarm Thresholds and ResponseActions D-8

Table D-l 1

AlarmResponse Actions

D-8

Table D-12

AlarmDefaultSettings

D-9

Table D-l3

General Commands

D-10

Table D-l4

Diagnostic Commands

D-ll

Table D-l5

Telnet Commands

D-ll

Table D-l 6

Ethernet RJ-45 Connector Host Pinout

D-12

Table D-17

RS-232 Serial ^lDB-9 Connector DCE Pinout D-12

Table D-l8

System Alarm (xDB-9 Dry Contact Connector Pinout

Table D-19

TOC-vi

Revision E

2-2

18-Pin Molex Connector Pinout

D-12

D-13

Installation and Operation Manual

GNP

ComputeNode4U cPSB

Appendix E

1-800912 List of Tables

3U cPSB 9-Port Ethernet Switch

Table E-l

Jl Connector Pinouts

E-3

Table E-2

J2 Connector Pinouts

E-4

Table E-3

Port #9 Programming - Jumper Settings Program Strips-Jumper Setting Options

E-5 E-6

Table E-4

Appendix F

3U cPSB 8+2G Ethernet Switch

Table F-l

Main Menu Commands

F-4

Table F-2

Port SettingSummary ("Get" only)

F-4

Table F-3

Link Information ("Get" only)

F-5

Table F-4

Receive/Transmit Options ("Get" or "Set") F-5

Table F-5

Auto-Negotiation Options ("Get" or "Set")

F-5

Table F-6

Data Rate Settings ("Get" or "Set")

F-5

Table F-7

Duplex Mode ("Get" or "Set")

F-6

Table F-8

Flow Control Options ("Get" or "Set")

F-6

Table F-9

Autocast Settings ("Get" or "Set")

F-6

Table F-10

Port Mirroring Options ("Get" or "Set")

F-7

Table F-11

Ingress/Egress Filtering Options ("Set" only) F-7

Table F-12

RS-232 Console Port (RJ-45 Pinout)

Table F-13

10/100Base-Tx Ethernet Port (RJ-45 Pinout) F-8

Table F-14

10/100/1000Base-Tx Ethernet Port

(RJ-45 Pinout)

F-8

F-8

Table F-l 5

J1 Connector Pinout

F-9

Table F-l 6

J2 Connector Pinout

F-10

/^\

Installation and Operation Manual

Revision E

TOC-vii

1-800912 List of Tables

TOC-vih

Revision E

ComputeNode4U cPSB

GNP

Installation and Operation Manual

1-800912

GNP

Chapter

Product Overview ComputeNode4U cPSB

System Features and Capabilities (JO

The ComputcNode4U cPSB is a carrier-grade CompactPCI solution developed for die communications and embedded controls marketplace. Likeall of GNP's products, the ComputeNode4U cPSB has been designed to be compliant with Telcordia GR-1089-CORE Level 3 and Telcordia GR-63-CORE Level 3, for installation in the

Central Office. The ComputeNode4U cPSB can be customized with a wide range of options to meet your specific needs, so the features and capabilities of units van'. The ComputeNode4U cPSB is available with either AC or DC input voltages, with a load-sharing 2+1 redundant power supply configuration. It features GNP's unique compact horizontal design, with a full eight-slot custom cPSB (cPCI Packet Switched Backplane), for use with both front and rear transition cards. Of the eight slots, one is used for dual redundant 3U cPSB Ethernet switches and one is reserved as a system

slot, leaving six cPSB I/O slots for customizing the chassis. A hot-swappable SCSI hard drive provides boot and data storage capability within the chassis, without requiring the use of a card slot. The ComputcNode4U cPSB is designed with a system alarm card that provides monitoring, control status, and alarming features. System Alarm Card

There are two types of alarmcard available for the ComputcNodc4U cPSB— GNP's standard alarm card and the AlertlNode.

The standard alarm card communicates with the system CPU through an RS-232 serial port, and monitors die status of die fans, power supply input & output voltages, temperature, watchdog status, and two dry contact outputs. Status is indicated by a

faceplate tri-color LED, whose current state may be queried remotely. For more information, please see Appendix C. The Smart Node Alarm Card, or AlerdNodc, provides remote connectivity dirough either a serial console or Ethernet. It monitors the status of the fans, power supply input & output voltages, temperature,and three dry contacts. The power supplies, drycontacts, and four faceplate LEDs may be controlled remotely. The AlertlNode also monitors and controls PICMG 2.9-compliant CompactPCI devices. For more information, please see Appendix D. Because neither alarm card requires the use of a cPCI slot, all eight cPCI slots remain available for processors, cPSB Ethernet switches, and I/O. Both alarm cards arc designed to be FRUs (Field-Replaceable Units).

Installation and Operation Manual

Revision E

1-1

1-800912 Chapter 1-Product Overview

ComputeNode4U cPSB

GNP

cPSB Ethernet Switches

GNP's cPSB design features two 3U, layer 2 Ethernet switches, offering HA redundancy in a single 6U cPCI slot There are two types of switch available for the ComputeNode4U cPSB— the 3U cPSB 9-port Ethernet Switch, and the 3U cPSB 8+2G Ethernet Switch.

The 3U cPSB 9-portEthernetSwitch is unmanaged, and provides nine 10/100 Mbps Fast Ethernet ports in a fully non-blocking switching configuration. Two ports are available through rear cPCI connectors,with the backplanerouted such that the other sevenports on eachswitch providea 10/100Base-Tx connection to each of the other cPCI slotsin the system. For moreinformation, please seeAppendix E. GNP's 3U cPSB 8+2G Ethernet Switch provides eight 10/100 Mbps Fast Ethernet ports and two 10/100/1000 Ethernet ports in a fully non-blocking switching configuration. The switch provides a management interface to monitor the statusand control the functions of each port, and has the ability to configure advanced capabilities suchasport mirroring. Threeports areavailable throughthe front and rear faceplates, with the backplane routed such that the other seven ports on eachswitch

provide a 10/100Base-Tx connection to each of the other cPCI slots in the system. For more information,pleasesee Appendix F.

Both switches are designed for usewith GNP's customcPSB systems. Processor Options

Depending on the user's requirements, the ComputeNode4U cPSB may come equipped witha processor. GNP is experienced in providing system integration using SunMicrosystems' processors, Intel-based processors, and Motorola processors. Sun

Processors

GNP's custom rear transition modules allow Sun's CP2040, CP2060, CP2080,

CP2140, and CP2160 processors to be used in a cPSB system. Sun's CP2040, CP2060, and CP2080 family are available with a 500 MHz

UltraSPARC -He processor and memory from 256MB to 2 GB, depending on the processor used. The CP2140 and CP2160 are available with a 650 MHz

UltraSPARC-IIi processor and memory from 512MB to 3 GB, depending on the processor used. The CP2040 and CP2140 may be used as system slot or satellite processors. The CP2060, CP2080, and CP2160 are dedicated satellite processors. These processors contain either oneor twoPMC (PCI Mezzanine Card) slots, though one PMC slot becomes non-functional when the processor is installed in a cPSB system, due to a conflict of connector signals. Refer to the GNP website (www.gnp.com) or the Sunwebsite (www.sun.com) for complete details. For more information on GNP's rear transition modules, refer to 1-800925 for the CP2x40 cPCI/cPSB RTM, and 1-800926 for the CP2060/CP2080 cPCI/cPSB RTM.

1 -2

Revision E

Installation and Operation Manual

-*^\

GNP

ComputeNode4U cPSB

0m\

1-800912 Chapter1-Product Overview

Intel® Processors (Intel/PTI) Intel's NetStructure productlineincludes the ZT5504, and ZT5524System Master Processor Boards. The ZT5504 uses a 1 GHz Pentium III with memory from 512 MB to 1 GB and an on-board EIDE hard drive. The ZT5524 offers single or dual 993

MHz PentiumIII processors with 1 GB of memory. Intel's ZT5515 Compute Processor Boarduses a 1.2 GHz Pentium 4 processorwith 256 MB to 2 GB of DDR ECC SDRAM.

Allthree of these processors arePICMG 2.16 -compliant, and maybe used as system slotor satellite processors. A variety of reartransition modules are available, providing additional interfaces. Refer to the GNP website (www.gnp.com), Intel's website (www.intel.com), or the PTI website (www.pt.com) for additional information. Motorola

Processors

The Motorola CPIP5385 is available with a1.2 GHz Mobile Pentium® III with up to 2 GB of ECC protectedDDR SDRAM, and is PICMG 2.16 -compliant. Referto the GNP website (www.gnp.com) or the Motorola website (www.motorola.com) for more information.

Power

Both DC and AC power versions of the ComputeNode4U cPSB are available. The standard configuration includes three power supplies for 2+1 redundancy. The following power ratings are listed for an individual power supply:

0^

• DC power supply —200 W*,-48 VDC dual feed input • DC power supply (optional) —250 W+, -48VDC dual feed input • AC power supply —200 W*, 90 to 264 VAC PFC (Power Factor Corrected), single feed input

• AC power supply (optional) —250 W+ 90 to 264 VAC PFC, single feed input Media Drives

There is one hot-swappable SCSI hard drivepositionavailable in the chassis, without requiring the use of a cPCI card slot. In its standard configuration, the ComputeNode4U cPSB contains one hot-swappable SCSI harddrive* in thislocation.

The option is available to use cPCI card slots to install additional hard drives in the ComputeNode4U cPSB: • GNP's hot-swappable 3.5" SCSI drive carrier uses two cPCI card slots, and supports one 3.5"LVD hard drivewith 68-pinwide SCSI. • GNP's single cPCI card slot Compact Media Carrier maybe used to providean additional hard drive and PMC slot to the system. The Compact Media Carrier contains a 2.5" IDE hard drive with a SCSI RTM, designed for use with SCSI processors.

• Note: based on a maximum operatingtemperature of 55° C and a 10% margin for high reliability, the maximum output for a 200W-nominal power supply is 140Wfor a single power supply.

r

f Note: basedon a maximum operating temperature of 55° C and a 10% margin for high reliability, the maximum output for a 250W-nominal power supply is 200W for a single power supply. $ Drive capacity is subject to change depending on market advancement.

Installation and Operation Manual

Revision E

1 -3

1-800912 Chapter 1-Product Overview

ComputeNode4U cPSB

GNP

Software

Linux, Windows, VxWorks, and Solaris operating systems are available, depending on the processorselected. ContactGNP for alternate operating system options. Product Support

As with all GNP products, die ComputcNodc4U cPSB is supported by our team of engineers and customersupport staff. Our engineers are available to work with you to ensure that your ComputeNode4U cPSB is built and tested to GNP's highest quality standards.

Rapid Product Realization Services

GNP offers RapidProduct Realization, a process where we work widi OEMs, service

providers, and network equipment manufacturers to architect, design, test, anddeploy products custom-built to your specifications. GNP also provides documentation, materials management, revision control, and technical support tailored to your needs. Some of the benefits of RapidProduct Realization our customers have found include: •

shorter time-to-market

• more efficient management of resources and production •

cost reduction

• single point of contact • ability to focus more on core competencies

Intended Use

The ComputeNode4U cPSB is intended to provide a compact and cost-effective solution for communications and data networking environments. A modular design allows die flexibility to select different configurations of media drives, processor speed, and memory best suited to meet specific requirements, and facilitates board replacement or upgrade. Combined with theavailability of several different processor speeds, this cPCI platform is ready for deployment for a variety of applications. Examples of typical applications include: • Network Management • Intelligent Network Interfaces •

Enhanced Services

•

Virtual Private Network Server

•

SS7 Platform

• Internet Proxy Server

• Security Firewall •

VoIP

• Wireless (BSC, BSM, HLR, VLR) •

DNS

• Log Processing • Web Hosting •

User Authentication

See the GNP website (www.gnp.com) for the latest product offerings.

1 -4

Revision E

Installation and Operation Manual

1-800912 Chapter

Site Requirements ComputeNode4U cPSB

Operating Conditions The operating conditions for the ComputeNodc4U cPSB may vary depending upon the specific configuration, and the requirements of the cards used. Conditions for general use are provided below. Temperature

The recommended operating temperature range is 5° C to 40° C (41° F to 104° F). The site containing the ComputeNodc4U cPSB should not have an ambient temperature which canexceed 55° C (131 ° F) or drop below-5° C (23° F). When not in operation, the unit should be stored between -40° C and 70° C (-40° F to 158° F). If a unit has been at an extreme temperature, it should be allowed to acclimatize to room temperature before it is powered on. In order to aid in the maintenance of optimum ambient temperatures, the ComputeNode4U cPSB contains four front and two rear hot-swappable coolingfans, with air flow dirough the sides of die unit, from left to right. The four front fans total 184 CFM, and die two rear fans total 92 CFM, for a total system value of 274 CFM. TABLE 2-1

Temperature Requirements

Recommended Operating Temperature Range Maximum Operating Temperature Range (short term)

i

Celsius

Fahrenheit

5° to 40° C

41° to 104° F

-5° to 55° C

23° to 131° I-

Caution: To reduce the risk of overheating, the ComputeNode4U cPSB should be installed in a location that allows airflow through the sides of the unit. Never restrict air flow through the vents.

Humidity

The ComputeNodc4U cPSB has been designed to operate within die following range of humidity: TABLE 2-2

Humidity Limits Humidity

Operating Humidity Range at 35° C

5% to 95% R.I I. non-condensing

Non-Operating Humidity Range at 35° C

5%to95%R.II.

Installation and Operation Manual

Revision E

2 -1

1-800912 Chapter 2 -Site Requirements

ComputeNode4U cPSB

GNP

Altitude

The ComputcNode4U cPSB has been designed to operate within die following altitude range: TABLE 2-3

Altitude Limits

Minimum Operating Altitude

Meters

Feet

-60 m

-197 ft.

Maximum Operating Altitude

4,000 m

13,123 ft.

Maximum Non-Operating Altitude

12,190 m

40,000 ft.

Power and Grounding

When installing the ComputcNode4U cPSB, make sure that it is within die length of the power cord from its intended power source.The power requirements for both DC and AC models are as follows:

TABLE 2-4

Power Requirements (Input/Primary) Minimum

Nominal

Maximum

DC Voltage

-36 VDC

-18 VDC

-72 VDC

AC Voltage

90 VAC

AC Frequency

-17 1 I/.

264 VAC

—

50/60 I Iz

63 Hz

There arc twodifferent models of 200W power supply (each in DC andAC) diat may be used depending on the power needs of your specific system configuration. Both are 200W nominal and have the same total output, but have different distributions

of power across die output voltages. Contact GNP at [email protected] or (800) 735-4467 if you have any questions about your system's power. There is only one option for the 250W powersupplies. Note: Please refer to "Minimum Load" on page B-4 for information on the default

backplane jumper settings for the different power supply options. TABLE 2-5

Output/Secondary Side Power (per Power Supply)

GNP part #

+5V

+3.3V

+12V

-12V

Standard 200W power supply

Minimum Load

1.7 A

0A

0A

0A

AC: 1-503167

Maximum Load''

28 A

23 A

4.5 A

1 A

Alternate 200W power supply

Minimum Load

DC: 1-503281

Maximum Load

20 A

20 A

Minimum Load

0A

0A

1.5 A*

0A

Maximum Load^

40 A

40 A

4A

2 A

DC: 1-503031

no minimum load is required 3.5 A

0.5 A

AC: 1-503280

Optional 250W power supply DC: 1-503832 AC: 1-503831

/

* Minimum load is met cither by the use of a passive load resistor or by the equivalent power consumption from processors, cards, or other devices. f The total combined power for all outputs cannot exceed 140W for a single 200W-nominal power supply.

^ Minimum loadon +12V is necessary to maintain regulation with no load on —12V. This requirement is met by equivalentpower consumption by the chassis' fans. § The total combined power for all outputs cannot exceed 200W for a single 250W-nominal power supply.

Ensure that your ComputeNode4U cPSB unit and the frame holding the unit have an isolated grounding connection.

2-2

Revision E

Installation and Operation Manual

GNP ComputeNode4U cPSB

1-800912 Chapter 2-Site Requirements

Caution: Use proper ESD protection to reduce the risk of damage to your equipment.

Input Supply

Check die system nameplatc ratings to ensure diat diere is no overloading of the supply circuits diat could have an effect on overcurrent protection and supply wiring. Grounding

Reliable grounding of the ComputcNodc4U cPSB mustbe maintained. It is especially important to inspect supply connections to power strips, not just the direct connection to die branch circuit. The -48 VDC supply source must be electrically isolated from any AC source. Either the —48 VDC source must be reliably connected to earth, or the equipment should be connected to a -48 VDC (SELV) source.

The protective grounding lug, located on the rear of die unit, is intended to be connected to the supply circuit ground. DC Units

If the protective grounding lug is connected to die supply circuit ground, all of die following must be met in order to comply with UL safety requirements: • The chassis ground circuit must be directly connected to the DC supply circuit earthing conductor.

• If there is any other equipment connected to the earthed ground of the same DC supply circuit, this equipment must all be located in the same immediate area (such as in adjacent racks) as the ComputcNode4U cPSB. • The groundingpoint of the DC systemmust also be located in the same immediate area.

• The DC supply source mustbe located within the same premises as the equipment it supplies.

•

In the DC supply circuit, there must be no switches or disconnecting devices between the DC supply source and the circuit earthed ground.

Additional Requirements ESD

To reduce die risk of damage to equipment, die ComputeNode4U cPSB should be kept in an ESD protected environment. The unit should be properly grounded at all times; it should be plugged in andits grounding lug should be connected to die supply circuit ground. When performing routine maintenance on die unit, a wrist strap should be used and plugged into one of die ESD jacks, located on the rear panel of the chassis and on the right mounting ear on the front of die unit. Refer to Chapter 3 for diagrams showing the locations of the groundinglug and ESD jacks. If the ComputcNodc4U cPSB is installed in a rack, die ESD jack located on the rear of die unit is unreachable for use when removing and installingcards on die front of the unit. In order to comply with ESD standards, a grounding lug is included as part of the mounting bracket kit. Refer to Chapter 4 for installation instructions.

Installation and Operation Manual

Revision E

2-3

1-800912 Chapter 2 -Site Requirements

ComputeNode4U cPSB

GNP

Caution: Use proper ESD protection to reduce the risk of damage to your equipment.

Dimensions

The ComputeNode4U cPSB occupies an area of 17.2" W x 12.5" D x 7" H (437 x 318 x 178 mm). It is recommended thatyou allow foraccess to both frontand backpanels of the unitwhen installing the ComputeNodc4U cPSB. TABLE 2-6

Chassis Dimensions

Dimension

Millimeters

Inches

1[eight

178 mm

7 inches (4U)

Width

437 mm

17.2 inches

Depth

318 mm

12.5 inches

Rack Mounting

If several rack-mounted units are installed in a rack, the ambient temperature within the rack may be higher dian die room temperature. Care should be taken to install the

units such that each has sufficient room for air inflow and exhaust, to allow proper cooling. Air flow in the ComputeNode4U cPSB is from left to right, as viewed from die front.

Rack-mounted units should beinstalled such that their weight is distributed properly in the rack. Otherwise, the rack may be unstable and create a potential hazard. If rack-mounted units are installed in a closed or multi-unit rack assembly, they may require further evaluation by certification agencies. Electromagnetic Interference

The ComputeNode4U cPSB uses, generates, and can radiate electromagnetic energy. In order to avoid electromagnetic interference issues affecting or caused by this unit, be sure to use adequate EMI protection during its installation and operation.

A

EMI Caution: The ComputeNode4U cPSB may cause or be susceptible to electromagnetic interference (EMI) if it is not installed and used with adequate EMI protection. This device complies with part 15 of die FCC Rules. Operation is subject to the following twoconditions: (1) Thisdevice may not cause harmful interference, and (2) this device must accept any interference received, including interference diat may cause undesired operation.

Shock and Vibration

The ComputeNode4U cPSB has been designed to be compliant widi Telcordia GR-1089-CORE Level 3 and GR-63-CORE Level 3.

2-4

Revision E

Installation and Operation Manual

1-800912 Chapter

System Inventory & Layout ComputeNode4U cPSB

Inventory Additional items are included with your unit based on your specific system configuration. These may include: •

Power cables

• Front grounding lug • Customer-requested third-party cPCI card manuals and device drivers •

Software manuals

•

User's manuals

Please make sure that all equipment has been included. If you would like to order spares, or if you have any questions regarding your order, please email [email protected] or contact GNP at (800) 735-4467 and ask for Customer Support. Features The following diagrams show one possible configuration of die ComputeNode4U cPSB. The cards and drives used in each ComputeNodc4U cPSB will vary depending on customer requirements. Slot #1 is populated with dual redundant 3U cPSB Ethernet switches. Slot #2 is the dedicated processor slot; if a processor is present, it must be located here. Slot #2 is a non-H.110 slot. Slots 3-8 are keyed for H.110.

Installation and Operation Manual

Revision E

3 -1

1-800912 Chapter 3 -System Inventory & Layout

ComputeNode4U cPSB

GNP

Front Panel

FIGURE 3-1 Front Panel of ComputeNode4U cPSB

1. 2.

Two 3U cPSB Ethernet switches (GNP 3U cPSB

10. Fan tray

9-Port Ethernet Switches shown) — slot 1 ' Processor slot (CP2040 pictured) — slot 2 v r '

A. 11. 10 12.

3-8. Filler panels/expansion slots —slots 3-8 9.

3-2

,, . ,, 0/-or a jjHot-swappable SCSI hard drive tray TI _ ,, ,. Hot-swappable power supphes

B Locadon of front grounding lug

Fan tray spring latch

Revision E

Installation and Operation Manual

GNP ComputeNode4U cPSB

1-800912 Chapter 3 -System Inventory & Layout

Rear Panel

FIGURE 3-2 Rear Panel of ComputcNodc4U cPSB (DC)

1.

Systemalarm card (standard alarm card shown)

9.

Processor slot (GNP CP2X40 cPCI/cPSB RTM pictured) — slot 2

2.

ESD jack

3.

Chassis grounding lug

10-15.Filler panels/expansion slots — slots 3-8

4.

SCSI in for hard drive

5.

SCSI out for hard drive

16. Circuit breaker (feed A) 17. Circuit breaker (feed B)

6.

Rear fan tray Thumbscrews for securing or removing rear fan tray

8.

Two 3U cPSB Ediernet switches (GNP 3U cPSB 9-Port Ediernet Switch RTMs shown) — slot 1

Installation and Operation Manual

18. Feed A power input (from left to right, the connections are: V+, V—, frame ground) 19. Feed B power input (from left to right, the connections are: V+, V-, frame ground)

Revision E

3 -3

1-800912 Chapter 3-System Inventory & Layout

ComputeNode4U cPSB

GNP

FIGURE 3-3 Rear Panel of ComputeNode4U cPSB (AC) /2

,3

A

,5

,6

,7

,8

,9

10

,11 12 13

14 15

v17 x18

1.

System alarm card (standard alarm card shown)

2.

ESD jack

3.

Chassis grounding lug

4.

SCSI in for hard drive

5.

SCSI out for hard drive

6.

Rear fan tray

_ /.

_,. , . . . . thumbscrews tor securing or removing rear fan

8. 9.

Two 3U cPSB Ethernet switches (GNP 3U cPSB 9-Port Ethernet Switch RTMs shown) — slot 1 Processor slot (GNP CP2X40 cPCI/cPSB RTM pictured) — slot 2

10-15.Filler panels/expansion slots — slots 3-8 16. AC power input (feed A)

tray

17. Power switch (feed A)

18. Fuse (feed A)

GNP Custom Cards 3U cPSB 9-Port Ethernet Switch

For more information on GNP's 3U cPSB 9-Port Ethernet Switch, please refer to Appendix E. 3U cPSB 8+2G Ethernet Switch

For more information on GNP's 3U cPSB 8+2G Ethernet Switch, please refer to Appendix F. cPSB Sun RTMs

GNP's custom rear transition modules for the Sun CP2040/CP2140 and CP2060/

CP2080/CP2160 are described in 1-800925 (CP2X40 cPCI/cPSB RTM) and 1-800926 (CP2060/CP2080 cPCI/cPSB RTM).

3-4

Revision E

Installation and Operation Manual

L-800912 Chapter

Installation & Maintenance ComputeNode4U cPSB

Backplane Settings Important: Read this section before installing the ComputeNode4U

A

cPSB.

In order for die system to operate correctly, the VIO selectmust be set correcdy for the intended configuration of cards and processors. If your ComputeNode4U cPSB was ordered widi cards installed, or if GNP was

informed of your intended configuration, the VIO select will be pre-set for your system. If the ComputcNode4U cPSB was ordered with no cards present (empty chassis), the setting may need to be altered. Before installing the ComputeNode4U cPSB, it is important to check die user's manuals of the cards intended to be used in the system. Be sure to note die requirements for signalling voltage (+3.3V or +5V). For further information on the backplane headers, please refer to Appendix B.

r

FIGURE 4-1 ComputeNode4U cPSB Backplane (rear view) -i!Q(!0Si.::-!O:!..:

i....!....,.,!,

•...!:... 1.. ..!....!„„!. mica

o .OOOOOOOOO

•::::•!

'-,u".ira--,i'[,w".""'i

-iv

•

••••

••••

•- —

I *™

"OOOO OOOOO "18b««.

o

:

»• «!..*

;.w.v.v.w.v.v.v 0 J*™-" C

'; "l6[o "•.....'.

o

saa~ .i o

. 1 o

o

o

o

*£ »">;* •.».•

,-«*«, , :r;--^v»nnp^-5tz^

C'O o

I

k!rg£«

7

L OOOOOOOOO

o

v.

V(I/0) Select

PI connectors; keyed on front of board

Caution: Use proper ESD protection to reduce the risk of damage to your equipment.

Installation and Operation Manual

Revision E

4 -1

1-800912 Chapter 4 -Installation & Maintenance

ComputeNode4U cPSB

GNP

VIO Select (+3.3/H-5 V signalling voltage) VIO (+5V or +3.3V) is indicated by screws present in two of the four holes in the VIO select. The upper two holes correspond to +3.3V, and the lower two holes indicate +5V. Both are marked accordingly. The default setting is +5V.

Note: The PI connectors are keyed to correspond to the signalling voltage of the backplane so that cards intended for use with a different voltage cannot be installed. The connectors must be re-keyed if the VIO select is changed. For this reason, the VIO select is not intended to be user-configurable. Please

consult

the

user's

manuals

of the

cards

intended

for

use in

die

ComputcNode4U cPSB system to verify signalling voltage. If the VIO select is set improperly for your intended configuration, please email [email protected] or contact GNP at (800) 735-4467 and ask for CustomerSupport. Note: If your ComputeNode4U cPSB was ordered with cards installed, or if GNP

was informed of your intended configuration, all jumpers will be pre-set appropriately for your system. For further information on the backplane headers, please refer to Appendix B.

4-2

Revision E

Installation and Operation Manual

GNP ComputeNode4U cPSB

1-800912 Chapter 4 -Installation & Maintenance

Mounting

Mounting points on the ComputeNodc4U cPSB are located at die front on each side of the unit, allowing mounting brackets to be used for front mounting. Caution: To avoid personal injury or damage to equipment, use proper

lifting procedures when moving the ComputeNode4U cPSB.

Rack Mounting / Front ESD Lug If the ComputcNode4U cPSB is installed in a rack, the ESD jack located on the rear of die unit is unreachable for use when removing and installing cards on die front of the unit. In order to comply widiESD standards, a front groundinglug for rackmount use is included with the ComputeNodc4U cPSB. It will be shipped in the samebox as the unit, and is identified as part # 1000-617.

The front ESD lug is intended to be installed on the right side mounting bracket. When installing the ComputeNodc4U cPSB, first locate the unpainted area labelled "ESD" around the mounting holesecond from the top on die right bracket. Align die hole in the grounding lug with the mounting hole on die bracket, and slide the bolt used to mount the chassis to die rack through both holes. Proceed as usual. FIGURE 4-2 Front Grounding Lug

O

O

right

ESD

bracket

Align the hole in the grounding lug with the upper mounting hole

unpainted area to ensure proper

grounding

on the bracket. The bolt used to affix the

grounding lug

unit to the frame will

go through both holes.

O

o Caution: Use proper ESD protection to reduce the risk of damage to your equipment.

*The size and type of bolts used to mount the chassis to the frame is dependent upon the frame being used. For this reason, these bolts are not included with the unit. Typically, the bolts used will be #10 or the nearest equivalent. Installation and Operation Manual

Revision E

4-3

1-800912 Chapter 4-Installation & Maintenance

ComputeNode4U cPSB

GNP

Air Flow

When installing the ComputeNode4U cPSB, it is important to allow sufficient room for air flow through die unit, to ensure proper cooling. Air flow in the ComputeNode4U cPSB is through the vents on the sides of the unit, from left to right, as viewed from the front. Avoid blocking the air flow through these vents.

Caution: To reduce the risk of overheating, the ComputeNode4U cPSB should be installed in a location that allows air flow through the sides of the unit. Never restrict air flow through the vents.

I

Fan Maintenance

For ease of maintenance, the fan trays in the ComputeNode4U cPSB are designed to be FRUs (Field-Replaceable Units). If a fan in the system has failed, die whole tray must be replaced. When replacing a fan tray, install the spare witliin one minute of removing the faulty tray, to avoid overheating and possible damage to components. FIGURE 4-3 Replacing a Fan Tray Front Fan Tray:

To replace the front fan tray, you willneed: • ESD-protective equipment • replacement fan tray (GNP part # 1-503242)

fan tray knob 1.

Turn the knob '/4 turn counter-clockwise to release the spring-loaded latch.

2.

3.

4.

Holding the knob in this position, pull die whole fan tray out gendy. Slide the new fan tray straight in. When the fan tray is almost fully in place, turn die knob l/A turn counter-clockwise to release die latch. Holding the knob in this position, slide die fan tray the rest of the wayin, dien turn the knob l/4 turn clockwise to seat the latch. Rear Fan Tray:

thumbscrews

To replace die rear fan tray, you will need: • ESD-protective equipment • replacement fan tray (GNP part # 1-503243)

1. 2. 3. 4.

Unfasten the two thumbscrews to die left of the fan tray, (counter-clockwise) Grasping the fan tray by these two thumbscrews, pull the fan tray out gendy. Slide die new fan tray straightin, seating die connectors gendy. Tighten die two thumbscrews to fasten the fan tray in place, (clockwise)

Caution: To avoid possible damage to components, install a new fan tray within one minute of removing the faulty fan tray.

4-4

Revision E

Installation and Operation Manual

GNP ComputeNode4U cPSB

1-800912 Chapter 4 -Installation & Maintenance

cPCI Card Installation Card Alignment

a

Caution: cPCI backplane connector pins are fragile and are easily bent. Proper alignment of cPCI cards is crucial in order to avoid bending backplane pins when inserting cards. All GNP backplanes are designed with A/B shroud connectors. These aid in die proper alignment of cPCI cards. Many (but not all) cPCI cards have alignment features on their connectors that are designed to fit into the A/B shrouds. This helps to maintain propercard alignment during insertion, helping to preventdamage to die backplane pins.

Note: Bent backplane pins are not covered under warranty. FIGURE 4-4 Backplane Connectors (Front)

Before inserting a cPCI card into the ComputcNode4U cPSB, examine the card's connectors and note whether the connectors have alignment features. Because die

placement of alignment features (ifany) varies among manufacturers, a few examples of card connectors are shown in the following figures.

If the connectors have multiple alignment features, be sure to ahgndiem carefully widi the A/B shrouds on the backplane connectors when inserting the card.

If no alignment features are present, or if die card has only one alignment feature, extreme care is needed in aligning the card connectors with the backplane connectors.

Always hold a cPCI card level and keep the card's faceplate parallel with the front of the chassis when inserting and removing die card. FIGURE 4-5 Examples of cPCI Card Connectors (Front)

Alignment features

Single alignment

M\iii^\M^ffffiBffl\ ffirrffifl

featureuse extra caution

££=?.

Installation and Operation Manual

Revision E

4 -5

1-800912 Chapter 4 -Installation & Maintenance

ComputeNode4U cPSB

GNP

FIGURE 4-6 Backplane Connectors (Rear)

<^_A/B shrouds^)

• •• \

"i •

». »

{/

:<*"A*M I I n>IIiIII' lit W W I

FIGURE 4-7 Examples of cPCI RTM Connectors (Rear)

Alignment features

Single alignment feature — use extra caution

No alignment features —

use extra caution

Card Latches

There are several types of card latches commonly used. They all fit to the extrusions at the edges of the card slots in the same way, and each has a captive screwtoward the outside edgeof the latch, to hold the card firmly in place in the chassis. Somelatches arc designed with an additional locking mechanism, with various types of lock releases. Some of the more common types arc shown below. The following scries of diagrams showcard latches as the card is being removed from the chassis. The first of the pair of images shows die closed latch, with the card in the

unit. The second shows die open latch, when the card is unseated and is ready to be removed from die slot.

Before removing a card, always ensure that the screw has been loosened and is completely free from the chassis.

When installing or removing a card, the latches must always be in die open position. FIGURE 4-8 Standard Latch (no locking mechanism) To remove the

Closed:

card, first

Open:

ensure that the

11 IS 1 ££ 1

screws arc

completely free from the

chassis, then

press out on the latches to

release the card.

4-6

Revision E

II

m

Installation and Operation Manual

GNP ComputeNode4U cPSB

1-800912 Chapter 4 -Installation & Maintenance

FIGURE 4-9 Latch with Compression Catch compression

Closed

catch

To open the latch, first ensure that the

screw is completely free from the

chassis, then squeeze the latch and press out to release the catch.

FIGURE 4-10 Latches with Lock Release Buttons

Closed:

lock release button

To open this latch, first ensure that the

screw is completely free from the

chassis, then push the lock release

button. There will be an audible click as the lock is released.

lock release button screw

location

(not shown)

To open this latch, first ensure that the

screw is completely free from the

chassis, then push the lock release

button. There will be an audible click as

the lock is released.

lock release button screw

To open this type of latch, first ensure that the screws are

completely free from the chassis. Push the lock release buttons towards the outside

edges of the card while pulling out on the latches.

Installation and Operation Manual

Revision E

4-7

1-800912 Chapter 4 -Installation & Maintenance

ComputeNode4U cPSB

GNP

Card Installation

For proper insertion of cards into the ComputcNode4U cPSB, the following guide is recommended:

1.

Inspect die card. If it is new, it may come with protective plastic covers on die latches' captive screws. These will need to be removed before the card can be installed.

A

2.

Ensure that the card's latches arc open. The latches may have a locking mechanism that will need to be released in order to open die latches. For information on common latch lockingmechanisms,refer to "Card Latches" on page 4-6.

3.

Holding the card by its latches, align the card in the ComputeNode4U cPSB's card guides. For information on proper card alignment, please see "Card Alignment" on page 4-5. It is a good idea to double-check at this point that the latches are open.

Caution: Inserting a cPCI card without verifying its correct alignment with the backplane connectors will result in permanent damage to the backplane pins. 4.

Slide the card gendy straight into the slot, maintainingproper card alignment. Keep the card level and its faceplate parallel with the front of die chassis. Do not apply too much pressure, particularly if you feel resistance. You should feel die pin connectors on the rear of the card meet the backplane.

5.

Continue to slide die card into the slot until the latches touch the extrusions on eidier side of die slot.

6.

Press in on the latches to guide the card the rest of the way into the slot and

7.

lock it into place. After insertion, tighten the captive screws on the latches.

FIGURE 4-11 Card Installation Details extrusion

captive screw

The notch in the latch will

butt up against the extrusion when the card is fully seated.

Once the card is fully seated, press in on the latches to

guide the card the rest of the way into the slot

4-8

Revision E

Installation and Operation Manual

GNP ComputeNode4U cPSB

1-800912 Chapter 4 -Installation & Maintenance

cPCI Card Removal To remove a card from the ComputeNode4U cPSB:

1.

Unscrew the captive screws on the latches. Ensuringthat these screws are completely free before trying to remove the cardmay preventdamage to the card and the ComputeNode4U cPSB chassis.

2.

If the latches have a locking mechanism, pressit to unlockthe latches. Refer to "CardLatches" on page 4-6,for information on common latchlocking mechanisms.

3.

Press the latches open.This will unseatthe card from the pin connectors at the rear of the card slot.

4.

Holding the cardbyits latches, pullthe cardgendy straight out of the slot, keeping the cardlevel and its faceplate parallel with the front of the chassis.

j0^\

/f*V

Installation and Operation Manual

Revision E

4-9

1-800912 Chapter 4 -Installation & Maintenance

ComputeNode4U cPSB

GNP

Power Supply Replacement To replace a power supply, you will need: • flathcad screwdriver (3.5 mm or equivalent) • replacement power supply (refer to Table 2-5 for the GNP part numbers of the available power supplies)

1.

Using a flathead screwdriver, unscrew die screws on the upper right and upper left corners of die power supply to be replaced. Make sure that the screws are completely free from the chassis.

2.

Pressing the latch's lock release button to the left, pull out on the latch to unseat die power supply from the chassis.

3.

Holding the sides of the power supply, pull it gendy straight out of the chassis.

4.

Verify that the replacement powersupply is of die correct type for the unit. The chassis has power supply keys installed at the front of die left card guides. The power supplies have keys located behind dieir latches. DC units and power supplies have gray keys installed horizontally. AC units and power supplies have red keys installed vertically. If you accidentally try to insert an incorrect type of power supplyinto die unit, the keys willnot mesh, preventing the latches from being closed. Do not force.

FIGURE 4-12 Power Supply Keying (AC shown) Chassis keys (at front of left card guide)

Keying:

gray (horizontal) = DC red (vertical) = AC

Power supply keys (located behind latch)

5.

Holding the sides of the replacement power supply, align its card (green) in die card guides on eidier side of die slot.

6.

Keeping the replacement power supply level, slideit gendy straight into the unit. If you feel resistance, do not force the power supply into the chassis. Push in on the latch to seat the power supply into die chassis. Fasten the screws on the upper right and upper left corners of the power supply.

7.

8.

4-10

Revision E

Installation and Operation Manual

1-800912

GNP

Chapter

Operation ComputeNode4U cPSB

Powering Up To power up the ComputeNode4U cPSB, first ensure diat power is supplied to the unit and that all cabling is installed. For DC units, press the circuit breakers for Feed A and Feed B, located on die rear

panel of die ComputeNode4U cPSB. The circuit breakers may be turned on in any order.

For AC units, press the power rocker switch, located on die rear panel of the ComputeNodc4U cPSB.

The boot-up process will differdepending on the type of processor used.

If the system is running Linux, a temporary password will be assigned. Unless a specific password is requested, die pre-set password willbe 123456. Powering Down To force a hard shutdown of die ComputcNode4U cPSB, first make sure no applicadons are running, in order to prevent loss of data. For DC units, press the circuit breakers for Feed A and Feed B to turn off die unit. The circuit breakers maybe turned off in any order. These circuit breakers are located on the rear panel of die ComputeNodc4U cPSB.

For AC units, press die power rocker switch to turn off the unit. The power rocker switches are located on the rear panel of the ComputeNode4U cPSB. System Monitoring & Alarming Depending upon what configuration was ordered, the ComputcNode4U cPSB will contain eidier the standard alarm card or the AlertlNode (Smart Node Alarm Card).

The standard alarm card monitors die status of die fans, powersupply input & output voltages, temperature, watchdog, and two dry contact outputs. Status is indicated by a faceplate tri-color LED, whose current state may be queried remotely. The alarm card communicates with die system CPU through an external serial port. For more informadon on the standard alarm card, please refer to Appendix C.

The AlertlNode monitors die status of the fans, power supply input & output voltages, temperature, and diree dry contacts. The power supplies, dry contacts, and four faceplate LEDs may be controlled remotely. The AlertlNode has the ability to monitor and control IPMI-compliant devices. It provides remote connectivity through eidier a serial console or Ethernet. For more information, please refer to Appendix D.

Installation and Operation Manual

Revision E

5 -1

1-800912 Chapter 5-Operation

ComputeNode4U cPSB

GNP -""^isX

/,S!%

5-2

Revision E

Installation and Operation Manual

1-800912 Appendix

Specifications ComputeNode4U cPSB

ComputeNode4U cPSB Specifications Processor Options — Sun Microsystems-''* SPARCengine™ CP2040 with UltraSparc™ lie® 500 MHz • 1.2 Integrated 4-way 256 KB cache

• Minimum memory 256 MB. Memoryavailable from 256 MB to 2 GB. When used in a cPSB system, no PMC slot available.

• • • •

USB: two rear ports Serial: two rear RS-232 I/O outputs Ethernet: two rear panel 10/100 Kthernct ports, one with front panel access SCSI: two rear panel ultra-wide SCSI-2 single-ended, 40 MB/s

• Mouse/Keyboard: rearpanel — PS/2 compatible SPARCengine™ CP2060 with UltraSparc™ IIc@ 500 MHz • 1,2 Integrated 4-way 256 KB cache • 512 MB on-board memory. When used in a cPSB system, allows one PMC card. • USB: one rear port, optional second port with PIM installed • Serial: two rear RS-232 I/O outputs • Kthernct: two rear panel 10/100 Kthernct ports SPARCengine™ CP2080 with UltraSparc™ IIe@ 500 MHz • L2 Integrated 4-way 256 KB cache • Minimum memory 256 MB. Memory available from 256 MB to 2 GB. When used in a cPSB system, no PMC slot available.

• USB: one rear port, optional second port with PIM installed • Serial: two rear RS-232 I/O outputs • Kthernct: two rear panel 10/100 Kthernct ports SPARCengine™ CP2140 with UltraSparc™ IIi@ 650 MHz • L2 Integrated 4-way 512 KB cache

• Minimum memory 512MB. Memory available from 512 MB to 2 GB. When used in a cPSB system, no PMC slot available.

• USB: two rear ports • Serial: two RS-232 I/O outputs with front or rear panel access • Kthernct: two rear panel 10/100 Ethernet ports, one with front panel access • SCSI: two rear panel ultra-wide SCSI-2 single-ended, 40 MB/s • Mouse/Keyboard: rear panel — PS/2 compatible SPARCengine™ CP2160 with UltraSparc1MIIi@ 650 MHz • L2 Integrated 4-way 512 KB cache • 1 GB on-board memory. When used in a cPSB system,allowsone PMC card. • USB: one rear port, optional second port with PIM installed • Serial: two RS-232 I/O outputs with front or rear panel access • Kthernct: two 10/100 Kthernct ports with front or rear panel access

* Specifications are subject to change. f GNP's custom rear transition modulesallow Sun's CP2040, CP2060, CP2080, CP2140, and CP2160processorsto be usedin a cPSB setting.

^ For the latest processor information, please refer to the manufacturer's website. Installation and Operation Manual

Revision E

A-l

1-800912 Appendix A -Specifications

ComputeNode4U cPSB

GNP

Processor Options —Intel/PTI*

^

ZT5504 System Master Processor Board with 1GHz Pentium® III processor • L2 256KB cache; integrated LI & L2 cache memory • Minimum memory 512MB; up to 1 GB.Contains one on-board EIDE hard drive. Allows one PMC card.

• • • • • •

USB: two front panelports Serial: two rearports, one with front panelaccess Ethernet two front panel10/100 Ethernetports VGA: 15-pinD-shell VGAport Mouse/Keyboard: PS/2-style Floppy: PC/AT compatible (not on panels)

ZT5515 Compute Processor Board with L2 GHz Pentium® 4 processor •

512KB L2 cache

• Minimum memory256MB; up to 2 GB.OptionalEIDE hard drive or PMC site. • USB: one front, one rear

• Serial: two ports; one front, one rear

• • • •

Ethernet: one front panel 10/100/1000Ethernetport VGA:15-pinD-shell VGAport Mouse/Keyboard: PS/2-style Floppy: PC/AT compatible (noton panels)

ZT5524 System Master Processor Board with single or dual 933 MHz Pentium® III processors • 512KB integrated L2 cache

• 1 GB of memory. Optional EIDE harddrive or CompactFlash Type II drive carrier • USB: one front, one rear

• Serial: two ports; one front, one rear

• Ethernet: three front panel Ethernet ports — one10/100port andtwo10/100/1000 ports • VGA: 15-pinD-shellVGA port • Mouse/Keyboard: PS/2-style

• Floppy: PC/AT compatible (not on panels)

^^^

Processor Options — Motorola* CPIP5385 with 1.2 GHz Pentium® III processor - M • 16KB LI cache; 512KB L2 cache

• Memory: up to 2 GB. Allows one PMC card.

• USB: four rear panel ports • Serial: two asynchronous, one front/rear, one rear • Ethernet: one rearpanel 10/100Ethernetport

Other processors are available upon customerrequest. Media Options

Chassis-mounted hot-swappable SCSI hard drive

GNP3.5" SCSI drive carrier Two-slot carrier which supports one 3.5" LVD hard drive with 68-pin wide SCSI; GNP Compact Media

hot-swappable Single-slot 2.5" hard drivecarrierwith PMC slot

Carrier

Software

OperatingSystem

Dependentupon customeroptionschosen. GNP offers Linux, Windows, Solaris, and VxWorks.

* For the latest processor information, please refer to the manufacturer's website.

A-2

Revision E

Installation and Operation Manual

GNP ComputeNode4U cPSB

1-800912 Appendk A -Specifications

Power Supply Options DC Power

200W , hot-swap, 2+1 redundant (withdual feed input)

AC Power

200W , hot-swap, 2+1 redundant(withsingle feed input)

250 W* optional

250 W* optional * Manufacturer rating Regulations

Certification Standard

FCCClass A (DC/AC),cUL1950/60950

Design criteria include but are not limited to:

NEBS, ETSI, CE, TUV, VCCI, CSA

(Optional certification available; consult factory) System Alarm Card Options Standard Alarm Card

• • • • •

Two dry contact relayoutputs on p.DB-9 Power backplane system monitors +3.3V, +5V, +12V,-12V Power input monitoringwith two digital inputs Power supply fail signal in the event of a power fail condition Fan monitoring— three digital inputs for the status of each systemfan

• Status LED output— tri-color LEDon alarm cardfaceplate canbe usedto signal status Smart Node Alarm Card (AlertlNode) • Input feeddetection and CompactPCI voltage monitoring • Power supply monitoring and control • Fan detection and temperature sensor • IPMI-compliant device monitoring and control • User-configurable event control • Protocol support: IPMI v 1.5, Telnet, TFTP, DHCP, RMCP Mechanical Specifications Height 4U (178 mm/7 in.) Width 437 mm (17.2in.) Depth 318 mm (12.5 in.) Enclosure Rack Sizes

Mounting Points

19in. rack-mount (EIA& Telco racksupport)and customrequirements Mounting brackets for front support Custom options available.

Environmental Specifications Temperature Range Operating: -5° C to 55° C Storage: -40° C to 70° C Flammability Rating UL94-V0 System Cooling Lcft-to-right airflow Six system tans providing 274 CFM

MTBF (Mean Time Between Failures) DC chassis AC chassis Warranty and Service Standard Warranty Service Plans

Installation and Operation Manual

68,771 hours (availability = 0.9997092) 74,073 hours (availability = 0.9997300)

One yearparts and labor,return to factory

All permutations of:7x24, 5x24, 5x9 or nextday; on-site and/or phone

Revision E

A-3

ComputeNode4U cPSB

1-800912 Appendk A -Specifications

GNP

3U cPSB 9-Port Ethernet Switch Specifications (per switch)

•^\

Ports

Nine ports, each 10/100TX auto-negotiating Two ports accessible through RTM, via RJ-45 Switching Fully non-blocking

full wire:speed

Layer2 fabric

MAC Address

IK

Packet Buffer

128K

Dimensions Switch

3U (5.25in., (5.25 in., or 133.35mm) 13 3U x 4HP (0.8 in., or 20.32 mm)

designed on a 3U cPCI frontaccess card with the dimensions 100mm (3.94 in.) RTM

x 160 mm (6.30in.) 100 mm (3.94in.) x 80 mm (3.15in.)

LEDs

Front panel

Link and activity LED for eachport Blue hot-swap indicator Green power indicator

Compliance IEEE

PICMG

IEEE 1101.1, IEEE 1101.10, IEEE 1101.11 PICMG 20 R3.0, PICMG 2.1 R2.0, PICMG 2.9 Rl.O, PICMG 216 Switch

Fabric 3U form factor implementation Regulations Certification Standard

FCCClass A (DC/AQ, cUL 1950/60950

Design criteriainclude but are not limited to:

NEBS, ETSI, CE, TUV, VCCI, CSA

(Optional certification available; consult factory) Power

less than 5W power consumption

•*%

A-4

Revision E

Installation and Operation Manual

GNP ComputeNode4U cPSB iftfcv,

1-800912 Appenddc A -Specifications

3U cPSB 8+2G Ethernet Switch Specifications (per switch) Ports

Eight 10/100Base-T/Tx; one rear-panel, sevenrouted to the backplane Two 10/100/lOOOBasc-T/Tx;one front-panel, one rear-panel One RS-232Console port, accessible from the front or rear Switching Fully non-blocking full wire speed Layer2 fabric Management Interface Port Control Interface

Enable/disableport Enable/disable auto-negotiation Selectport speed (10 or 100 or 1000 Mbps) Toggle betweenhalfand fullduplex Enable/disable flow control Enable/disable autocast

Layer 2 Features

Retrieveport statistics Port mirroring

MAC Address Learning

4K Table

Packet Buffer

256K

Dimensions Switch

RTM

3U (5.25in., or 133.35mm) x 4HP (0.8 in., or 20.32 mm) designed on a 3U cPCI front accesscard with the dimensions 100 mm (3.94 in.) x 160 mm (6.30 in.) 100 mm (3.94 in.) x 80 mm (3.15 in.)

LEDs

Front panel

Link/activityLED for each port Blue hot-swap indicator Green power indicator

Compliance IEEE PICMG

IEEE 1101.1, IEEE 1101.10, IEEE 1101.11 PICMG 2.0 R3.0, PICMG 2.1 R2.0, PICMG 2.9 Rl.O, PICMG 216 Switch

Fabric 3U form factor implementation Regulations Certification Standard

FCC ClassA (DC/AQ, cUL 1950/60950

Design criteria include but arc not limited to:

NEBS, ETSI, CE, TUV, VCCI, CSA

(Optional certificationavailable; consult factory)

Power Requirements +3.3V (5) 4A maximum

Installation and Operation Manual

Revision E

A-5

1-800912 Appendk A -Specifications

ComputeNode4U cPSB

GNP

'/0S!%i

A-6

Revision E

Installation and Operation Manual

1-800912 Appendix

Backplane Jumper Configuration ComputeNode4U cPSB

ComputeNode4U cPSB Backplane FIGURE B-l ComputeNode4U cPSB Backplane (rear view) J0001&J0002

J0102

J0203

J0204

J0901

J0900

J0306

II <3$o

jjjjjSo •-•;^ivr£j::;i!i!i:^::u:~

•'^IJIJJSIS

w* JV.M:::::::::^*'^:::::::::?::::?:::

J0003& J0004

J0305

J0304

J0303

V(I/0)

Chassis/Digital

Select

Ground

J9001

J0101

J9000

Backplane Settings

VIO Select (+3.3/+5 V signalling voltage) VIO (+5V or +3.3V) is indicated by screws present in two of the four holes in the VIO select. The upper two holes correspond to +3.3V, and die lower two holes indicate +5V. Both are marked accordingly.

The default setting is +5V.

Note: The PI connector is keyed to correspond to the signalling voltage of the backplane so that cards intended for use with a differentvoltage cannot be installed. The connectors must be rc-keyed if die VIO select is changed. For diis reason, the VIO select is not intended to be user-configurable. Please

consult

die

user's

manuals

of the

cards

intended

for

use

in

the

ComputeNodc4U cPSB system to verify signalling voltage. If the VIO select is set improperly for your intended configuration, email [email protected] or contact GNP at (800) 735-4467 and ask for Customer Support.

Installation and Operation Manual

Revision E

B -1

1-800912 AppendkB -Backplane Jumper

ComputeNode4U cPSB

GNP

Jumper Settings If you would like additional information about thebackplane headers, or if you think you may need to change any of the following jumper settings, please email [email protected] or contact GNP at (800)735-4467 and ask for Customer Support.

I C Configuration Jumpers (Alarm Card Communication) Headers J0001 and J0002 define the setting for the I2C management bus through the system. Bothheaders need aninstalled jumper across the same pairof pinsfor the bus to work.

AlertINode (Smart Node Alarm Card) The AlertlNode (Smart Node Alarm Card) communicates with the system over IPMB. In asystem with anAlertlNode, headersJOOOl andJ0002 should have jumpers installed on pins 1-2to enable IPMB. If a ComputeNode4U cPSB is orderedwith an AlertlNode, this is the default that will be set at GNP. JumperLocation

Description

Pins 1-2

IPMB

Pins 3-4

SMB

Pins 5-6

Processor-specific rC

no jumpers installed

communication through externalserialport

Standard Alarm Card

The standard alarm carddoes not supportIPMB or SMB signals; its communication is through an external serial port. In a system with a standard alarm card, headers JOOOl and J0002 should have no jumpers installed on them, or the alarm card will

not be able to communicate with therestof the system. If a ComputeNode4U cPSB is ordered with a standard alarm card, this is the default that will be set at GNP. Jumper Location

Description

Pins 1-2

IPMB

Pins 3-4

SMB

Pins 5-6

Processor-specific I C

no jumpers installed

communication through external serial port

Chassis & Digital Ground Connection

By default, the chassis and digital grounds are not connected. To connect chassis ground to digital ground, a screw (GNP part #1-400094-10) needsto be installed at locationHI6, marked by a digital ground symbol. Push-Button Reset

J0102 is a 2-pin headerwhere a normally open switch may be installed to perform a reset on the system slotboard,which in turn wouldreset the rest of the system using the PCI RST# signal The defaultsettingis with no switchinstalled.

M2.5xl0mm panhead Phillips stainless steel/zinc B-2

Revision E

Installation and Operation Manual

GNP ComputeNode4U cPSB

1-800912 Appendix B -Backplane Jumper

Remote Voltage Sense

The backplane cansense thevoltage level of 3.3V, 5V, 12V, anddigital ground either remotely or locally at the power supply. To enable remote sensing, a jumper needs to be installed on J0306. Description

Pins

Default

1-2

12V

jumper on (enabled)

3-4

3.3V

jumper on (enabled)

5-6

5V

jumper on (enabled)

7-8

Digital GND

jumper on (enabled)

SCSI ID Header

J0203 allows the backplane to set the SCSI ID[3..0] of the drive. The default setting is with no jumpers present, or SCSI ID 0. Jumper Setting

Jumper Setting

SCSI ID

i

2

3

SCSI ID

• = on,Q = off

• = on, Q = off

2

3

0

0

i

0

•

•

a

a

Q

a

•

•

•

•

•

1

•

•

•

•

9

•

•

•

a

2

•

a

•

•

10

•

•

•

•

3

•

a

•

•

11

•

•

a

a

4

•

•

•

•

12

a

•

•

•

5

•

•

a

•

13

•

•

•

a

6

•

•

•

a

14

•

•

•

•

7

•

•

•

•

15

•

8

SCSI Auxiliary Header

J0204allows the backplane to setcertain auxiliary controls of the SCSI drive. Installing a jumper enables auxiliary control of the function (listed below). With no jumper installed, auxiliary control of the function is disabled. The default setting is with no jumpers installed. Pins

:

Description

Default

Remote Start

jumper off (disabled)

3-4

DelayedStart

jumper off (disabled)

5-6

ActivityLED

jumper off (disabled)

7-8

Not used

1-2

—

H.110 Shelf Address

J0101 is a 10 pin header which allows the backplane to set the shelf address (ADDR[4..0]) of the H.110 bus. Installing a jumper will set the address bit to zero. With no jumper installed, the bit is set to one.The default setting is with no jumpers installed.

Description

Pins

Default

1-2

ADDR4

jumper off

3-4

ADDR3

jumper off

5-6

ADDR2

jumper off

7-8

ADDR1

jumper off

9-10

ADDR0

jumper off

Installation and Operation Manual

Revision E

B-3

ComputeNode4U cPSB

1-800912 Appendix B -Backplane Jumper

GNP

Fabric Geographic Address

J9000is a 10 pin header which allows the backplane to set the geographic address of fabric A (on the left sideasviewed from the front; the rightsideas seen from the rear). The default address is 30 (no jumper installed).

J9001 is a 10pin header which allows the backplane to set the geographic address of fabric B (ontheright side asviewed from the front; theleftside asseen fromtherear). The default addressis 31 (no jumper installed).

Installing a jumper will set the address bit to zero. Withno jumper installed, the bit is set to one. The default settingis with no jumpersinstalled. J9001 (Fabric B Geographic Address)

J9000(Fabric A Geographic Address) Description

Pins

Pins

Description

1-2

1

1-2

1

3-4

GeographicAddress3

3-4

Geographic Address 3

5-6

GeographicAddress2

5-6

Geographic Address 2

7-8

GeographicAddress 1

7-8

Geographic Address 1

9-10

0

9-10

1

Minimum Load

Installing jumpers across J0900 (5V) andJ0901 (3.3V) enables the power supplies to see a minimum load, which is necessary for the standard 200W power supplies to remain regulated. These jumpers are not used in systems with the alternate 200W power supplies or the optional 250W power supplies. The default settingsare as follows: Power Supply Option

Default Setting ofHeaders J0900 and J0901

Standard 200W power supply

jumpers installed on both J0900 (5V) andJ0901 (3.3V)

DC: 1-503031 AC: 1-503167

Alternate 200W power supply DC: 1-503281

jumpers not installed on bothJ0900(5V) andJ0901 (3.3V)

AC: 1-503280

Optional 250W power supply DC: 1-503832

jumpers not installed on bothJ0900(5V) andJ0901 (3.3V)

AC: 1-503831

Test Points / Factory Use Only Headers J0303, J0304, andJ0305 contain backplane testpoints. Theyaredesigned for in-factory testing only and should nevet have any jumpers installed on them. J0003 andJ0004 together form an IPMB power connector which connects 5Vpower to IPMB bus, and is intended for in-factory testinguse only.

B-4

Revision E

Installation and Operation Manual

**%.

1-800912 Appendix

Standard Alarm Card ComputeNode4U cPSB

Overview The standard alarm card monitors the status of die fans, power supply input & output

voltages, temperature, watchdog, and two dry contact outputs. Status is indicated by a faceplate tri-color LED, whosecurrent state may be queried remotely. The alarm card faceplate is locatedon the rear panel of the unit, in the upper left-hand corner, as seen from the rear of the unit. The alarm port provides access to the dry contact signals, and the serial port provides an interface for the host CPU. FIGURE C-l Alarm Card Rear Faceplate

alarm port (uDB-9)

tricolor

status LEI

serial port (DB-9)

Alarm Card Pinouts TABLE C-l

Alarm Port Pinout (uDB-9 — male)

Pin#

Pin Function

1

R ALARM COM

2

R ALARM NO

3

NC

4

I. ALARM NC)

5

L ALARM COM

6

R ALARM NC

7

NC

8

NC

9

1. ALARM NC

12

Installation and Operation Manual

Revision E

3

4

5

C-l

ComputeNode4U cPSB

1-800912 Appendix C -Standard Alarm Card

TABLE C-2

GNP

Serial Port Pinout (DB-9 — female) Pin Function

Pin# 1

DCD

2

TX

3

RX

4

dtr

5

gnd

6

dcr

7

rts

8

CTS

9

NC

Alarm Card Command Interface FIGURE C-2 Data Flow Diagram for the Software

^^r PIC

Commands

^"

from serial port

^^^^ ^>

A/D (voltages & temperatures)

\>

Fans and power supply faults

firmware

x\

i

LEDs

Output status

Dry Contacts

The settings for the serialport are: Bit per second = 9600 Data

bits

=

8

Parity = none

Stop bits = 1 Flow Control

=

xoff/xon

This is a DCE (Data Communications Equipment) device.

C-2

Revision E

Installation and Operation Manual

GNP ComputeNode4U cPSB TABLE C-3

Description

1-800912 Appendix C -Standard Alarm Card "Get" Commands

Expected Result from Alarm board

Command to alarm board

serial port (followed by Enter) Get all the

gsts

[gsts.aa.bb.ccdd.e.f.g.h.i.j.k.l.mm.oo]

status from the

aa: 3.3 V Reading bb: 5 V Reading cc: 12 V Reading dd: -12 V Reading

alarm board

aa,bb, cc,and dd are in hexadecimal (these values will be usedin the voltage equations. Seethe section "Equationsfor 3.3V, 5V, 12V, and -12V"on pageC4 for details of the voltageequations.) e: Fan 1 status

e = 0 (bad),e =1 (good) £ Fan 2 status

f=0(bad),f=l(good) g: Fan 3 status g = 0 (bad),g =1 (good) h: Power Supply Fail 1 h = 0 (good), h = 1 (fail)

i: PowerSupply Fail2 i = 0 (good),i = 1 (fail) j: Power SupplyFail 3 j = 0(good),j = l(fail) k DC Power FcedA

k = 0 (bad), k = 1 (good) 1: DC Power FeedB

1= 0 (bad),1= 1 (good) mm: Temperature Reading mm is in hexadecimal(this value will be used in the temperature equations. See the section'Thermistor Equations" on page C-5 for detailsof the temperature equations.) oo: All Alarm Card output status oo is in hexadecimal.

Bit 0 = dry contact (0 = off; 1 = on) Bit 1 = red LED (0 = off; 1 = on) Bit 2 = green LED (0 = off; 1 = on) Bit 3 = watchdog (0 = off; 1 = on) Bit4 = watchdog (0 = not trigger, 1 = trigger) Get firmware

gver

Reset watchdog

[gver.x.x] x.x = Firmware Version on the alarm board

version rswd

[rswd.l]

Resetthe watchdog. The watchdogstatus bit willset to 0 but it willnot reset the drycontactand the red LED which the watchdog turns on. The watchdog status bit willnot be cleareduntil the rswd is being called

Installation and Operation Manual

Revision E

C-3

ComputeNode4U cPSB

1-800912 Appendix C -Standard Alarm Card TABLE C-4

Description

GNP

"Set" Commands

Expected Result from Alarm board

Command to alarm board

serial pott (followed by Enter) [sl0.0]

sl0.0

Set Red Led off

Set red LED off

[sl0.1]

slO.l

Set Red Led on

Set red LED on

Set Green Led off

[sll.O]

si 1.0

Set greenLED off Set Green Led on

[•11.11 Set green LED on

sll.l

Set Dry off

sdy.O

[sdy-OJ Set dry contactoff

Set Dry on

sdy.l

[sdy.l] Set dry contact on

The dry contactis on by defaultto indicate failure due to powerloss. Set wd off

[swd.0]

swd.O

Set watchdogoff Set wd on

[swd.X]

swd.X

X = 1..6 1 = 1 min 2=2min 3 = 3 min 4 = 4 min 5 = 5 min 6 = 6 min

If the watchdogis triggered by no activity coming from the serial port after X minutes, the dry contact and red LED in the alarm board will be activated.

Error Message

The error message format is: [#Error]

Equations for 3.3V, 5V, 12V, and -12V The aa, bb, cc, and dd values returned by the gsts command are in hexadecimal. These values need to be converted from hexadecimal to decimal in order to find the

results of the voltage readings. The voltage readings areaccurate to ±7%. 3.3V Reading: to find the value for the 3.3V reading, convert the aa value (from Table C-3) to decimal and multiply it by 0.01606 5V Reading: to find the value for the 5V reading, convert the bb value (from Table C-3) to decimal and multiply it by 0.02352

12V Reading: to find the value for the 12V reading, convert the cc value (from Table C-3) to decimaland multiply it by 0.05895

-12V Reading: to find the value for the -12V reading, convert the dd value (from Table C-3) to decimal, multiply it by 0.209,subtract 40.96 from the result, then divide by 3.01 In equation form,

-12Vreadin = ^comeit dd t0 decimal1x0.209) - 40.96

C-4

Revision E

Installation and Operation Manual

GNP

ComputeNode4U cPSB

1-800912 Appendix C -Standard Alarm Card

Thermistor Equations

r

It takes two steps to calculate the temperature.

Step 1: Use the following equation to calculate the actual thermistor resistance (RJ, where mm is the value for the temperature reading returned from the command gsts, listed in Table C-3.

R,- 15^000.(10,000) Step 2: To calculate the actual tliermistor temperature as a function of the thermistor resistance, use the following equation:

1/T = A+Iifln—-I +Clin—M ...where

T = Temperature (in Kelvin)

Rj = Thermistor Resistance at temperature T (calculated in Step 1) R25 = 5000 Ohms A = constant (from Table C-5) B = constant (from Table C-5) C = constant (from Table C-5)

TABLE C-5

Values for Thermistor Equations

Rt/R25 range

A

B

c

72.50 to 3.363

3.3564846 x 10"03

2.4622340 x 101'4

4.0776512 xlO"06

3.363 to 0.3507

3.3540172 x 1003

2.5027462.x 1004

2.4300527 x 10"06

0.3507 to 0.06370

3.3530496 x lO"03

2.4792929 x 10"4

1.0822040 x 10"06

0.06370 to 0.0169

3.3467185 x 10"03

2.4342924 x 10'04

3.3465275 x 10"07

Note: Please refer to Appendix B for information on the default backplane jumper settings for die system alarm card.

Installation and Operation Manual

Revision E

C-5

1-800912 Appendix C-Standard Alarm Card

ComputeNode4U cPSB

GNP

/*%

C-6

Revision E

Installation and Operation Manual

1-800912 Appendix

AlertINode (Smart Node Alarm Card) ComputeNode4U cPSB

D

Overview

GNP's AlertlNode (Smart Node Alarm Card) serves as die alarm aggregation point, or Chassis Management Controller (ChMC), for die GNP ComputeNodeXU family of products. Accessible through the rear of the chassis, it incorporates an IPMIcompliant Baseboard Management Controller (BMC) to monitor PICMG 2.9 compliant CompactPCI devices and the power and cooling subsystems. The AlertlNode provides remote connectivity through either a serial console or Ethernet

supporting Telnet. The following local alarm indications are provided: critical/major/ minor LED indicators and dry relay contact closures.

If a CompactPCI board with BMC functionality is present in the system to act as a ChMC, it can query die AlertlNode for die status of the power and coolingsystems. The AlertlNode is hot-swappable and does not occupy a CompactPCI slot, front or rear. Because it is a passive out-of-band management entity, it will not affect system operation if it fails, allowing it to be safely replaced in a live system. FIGURE D-l AlertlNode Block Diagram: AlertlNode as Chassis Management Controller

CompactPCI Power

CompactPCI Bus

AlertlNode

detect

era

System

Power

System

Peripheral

Fans

Supplies

Controller

Slots

Chassis

Management

detect

Controller

If no other Baseboard Management Controller is present in the system, the AlertlNode acts as the Chassis Management Controller for the system.

Installation and Operation Manual

Revision E

D -1

1-800912 Appendix D -AlertINode (Smart Node Alarm Card) ComputcNode4U

GNP

FIGURE D-2 AlertlNode Block Diagram: System Controller as Chassis Management Controller

CompactPCI Power

IPMB

If another Baseboard Management Controller is present in the system to act as the Chassis Management Controller (ChMC), the AlertlNode reports to the ChMC.

The AlertINode faceplate is located on die rear panel of the unit, in the upper left-hand corner, as seen from die rear of the unit.

FIGURE D-3 AlertlNode Faceplate b

1.

2.

D-2

10-BaseT Ediernet port (RJ-45) with Ethernet Link & Activity LEDs a. Link LED (yellow) b. Activity LED (green) RS-232 asynchronous serial port (p:DB-9)

Revision E

3. 4. 5.

Alarm port (liDB-9) — provides access to the dry contact outputs Critical alarm LED (red) Major alarm LED (red)

6. 7.

Minor alarm LED (yellow) Power LED (green)

Installation and Operation Manual

GNP ComputeNode4U /0^\

1-800912 Appendix D-AlertINode (Smart Node Alarm Card)

User Commands and Interface for the AlertINode A single, unified command lineinterface (CLI) appears on both the serial consoleand telnet interfaces. The available commands and syntaxare described below. Serial Console Login

There are two user profiles presenton the serial consolelogin: User and Debug. The only difference between the two profiles is that the Debug profile has additional commands usefulfor accessing the raw GPIO ports, registers, and memory region of the Zircon micro-controller. These commands are noted in the following sections. The handling of different user profiles is fairly basic, so insteadof enteringa separate username and passwordduringthe loginprocedure, the AlertlNode only looks for the password for a profile at the "Login:" prompt. The default passwords for these profiles are the profile names themselves.

To log in as User, type "User" at the "Login:" prompt To log in as Debug, type "Debug" at the "Login:" prompt. These passwords may be changed from the default by the "passwd" command. Telnet Login

Currendy, only one profile is available on a telnet session. The user profile name is "Debug" and the default passwordis "Debug". Currendy, the telnet login cannot be changed from the default password. Main Menu Commands and Syntax

The following commands are typed direcdy at the prompt; they do not use "get" or "set". All commands are followed by <ENTER> or . TABLE D-l

Main Menu Commands

Description

Command

passwd

Changethe password of the currentlogin profile. To changethe password, input is in the form:

ipmi

Enter the rawdata for an internalIPMI request.This command is meant to emulatethe board receiving an IPMI requeston its IPMBbus. Input is in the form: ipmi A typical IPMI command anddataentrywould be of the form:

passwd [current password]

Main> ipmi \ <requester slave addr> \ <0 or more data bytes>

...whereeach <...> entry is a single-byte hex value, which should prefixedby "Ox"so that it will parseproperly. The checksums are calculated by initializing the checksum value to 0, then adding eachcommand byteto it.Aftereach addition, the checksum is MOD divided by256 (0x100) to ensurethat the checksum remains a single-byte value. After allcommandbytes arc addedin thisway, the currentsumshouldbe negated, and the resulting value is the checksum. The first checksum is the checksum for the responder slaveaddress and the net funcrion/rcspondcr LUNbytes. The secondchecksum is the checksum for the requester slave address all the way to anydata bytesincluded in the command. ipmb

Command format:

ipmb [...] Enter the raw data for an IPMI request. The first argument is the target's IPMI slaveaddress. The second argumentis the networkfunctionof IPMI command, i.e.an application (app), chassis (ch), sensor/event (se), storage (st), or transport (tr) request. The third argument is the command byte. The remainingarguments are optional, depending upon the arguments of the specific IPMI command given. sdrr

To print out the current Sensor Data Record Repository,type: sdrr

Installation and Operation Manual

Revision E

D-3

1-800912 Appendix D -Alert!Node (Smart Node Alarm Card) ComputeNode4U ••';'

Command

,'•>

GNP

Description ";:

To print out the currentSystem Event Log Record, type:

selr

self

To enter the networksub-menu, type:

net

net

Refer to the "Network MenuCommands and Syntax" section for commands available in this sub-menu.

To perform a hard reset on the board, type:

reset

reset

Note that certain parameter settings willonly take effect after a reset of the board.

To print out a briefonlinehelpguide to thesecommands, type:

help

help

quit

To log out of a serial console session, type: quit Note: This command has no effect on a telnet session.

logout

To log out of a telnet session, type: logout

Note: Thiscommand has no effect on a serial console session, except for returning an unknown command error.

powercycle

powercycle

Thiscommand will setallthree power supplies in theComputeNode4U cPSB to be off,in order to resetthe unit. It is the equivalent of typing: "set psil off", "set psi2 off", and "set psi3 off". (Refer to D-3 for information on the psi command.) get mac

Reads the Ethernet MAC address from the onboard serial EEPROM.

System Monitoring Commands

The"get" commands are used to read various settings andsensors on theAlertlNode. The output will also show whether or not an alarm occurred on that sensor. Certain

parameters canbe controlled bytheuser. These aresetusing the"set" commands. All commands are followed by <ENTER> or . These commands are in the form: get

< . . .>

<ENTER>

set

< . . .>

<ENTER>

Power Supply Monitoring

The AlertlNode monitors the health ofthe input power feeds, the power supplies, and the voltage levelson the +3.3V, +5V, +12V, and -12V lines.

TABLE D-2 Power Parameters Monitored ("Get" only) Parameter

Command Syntax

Power feed A

get feeda

Power feed B

get feedb

Power supply #1

get psfl

Power supply #2

get ps£2

Power supply #3

get psO

+3.3V line voltagelevel

get volt33

+5V line voltage level

get volt5

+12V line voltage level

get voltl2

—12V line voltage level

get nvolt!2

D-4

Revision E

Description Reads the raw status of power feed A or B. Possible outputs: "Good" - Receiving power from -48V feed. "Bad" - No power from -48V feed.

Reads the failure status of power supply#1, #2, or #3. Possibleoutputs: "Good" - power supplyis not in a failed state. "Bad" - power supply is in a failure state.

Reads the+3.3V, +5V, +12V, and-12V lines. Returns voltage reading in volts.

Installation and Operation Manual

GNP ComputeNode4U

1-800912 Appendix D -AlertINode(Smart Node Alarm Card)

TABLE D-3 Action

Power Supply Inhibit ("Get" or "Set")

Command Syntax

Read setting of power supply inhibit signals

get psil

Turn powersupplieson or

set psil on set psi off

Read the current inhibit signal setting for power supply #1, #2, or #3. "Inhibited" — the AlertlNode has set the power supply to be off. "Enabled" — the AlertlNode has set the power supply to be on.

get p8i2

get psi3 off

Description

Enable (turn on) or disable(turn off) power supply#1, #2, or #3.

set psi2 on set psi2 off set psi3 on set psi3 off

Temperature Monitoring

The AlertlNode monitors the internal temperature of the ComputeNode4U cPSB. TABLE D-4 Parameter

Internal temperature of the ComputeNode4U

Temperature Sensor ("Get" only) Description

Command Syntax

Retrievesthe current temperature reading in degrees Celsius,accurate to

get temp

±0.5 °C

cPSB

Fan Monitoring

The AlertlNode monitors the health of the fans in the ComputeNode4U cPSB. TABLE D-5 Parameter Fan sensor #1 — 2 of the 4

Fan Health ("Get" only) Read the current status of fan signal #1, #2, or #3. "Good" - Fans are spinningnormally(or not present). "Bad" - Fans are unable to spin.

front fans

Fan sensor #2 — 2 of the 4

Description

Command Syntax get fanl get fan2

front fans

Fan sensor #3 — rear fan

get fan3

bracket

Dry Contacts

The AlertlNode monitors and controls the status of three dry contacts.

TABLE D-6 Parameter

Current settingsof dry contacts #1, #2, #3

Set dry contact #2 Set dry contact #3

Description

Command Syntax get dry 1 getdry2 getdry3

Set dry contact #1

Dry Contact Status ("Get" or "Set") Read the current settingfor dry contact #1, #2, or #3. "On" - dry contact is powered on. "Off" - dry contact is powered off.

set dryl on

Turn dry contact #1 on.

set dryl off

Turn dry contact#1 off. Cancels a set dryl on action.

set dry2 on

Turn dry contact #2 on.

set dry2 off

Turn dry contact#2 off.Cancels a set dry2 on action.

set dry3 on

Turn dry contact #3 on.

set dry3 off

Turn dry contact #3 off. Cancelsa set dry3 on action.

Installation and Operation Manual

Revision E

D-5

1-800912 Appendix D -AlertINode (Smart Node Alarm Card) ComputeNode4U

GNP

LEDs

There are four LEDs on the faceplate of the AlertlNode: critical alarm (red), Major alarm (red), minor alarm(yellow), and powerindicator (green). Each can be set to be on, off, or blinkingslowly or quickly.

TABLE D-7

LED Settings ("Set" only)

Command Syntax

Parameter Critical Alarm LED

(red)

Major Alarm LED (red)

Minor Alarm LED

(yellow)

Power LED (green)

Description

set crit on

Turns the Critical Alarm LED on.

set crit off

Turns the Critical Alarm LED off. Cancels a crit on, crit slow, or crit fast action.

set crit slow

Sets the Critical AlarmLED to blinkslowly.

set crit fast

Sets the Critical Alarm LED to blink quickly.

set maj on

Turns the Major Alarm LED on.

set maj off

Turns the MajorAlarmLED off. Cancels a maj on, maj slow, or maj fast action.

set maj slow

Sets the MajorAlarm LED to blink slowly.

set maj fast

Sets the MajorAlarm LED to blinkquickly.

set min on

Turns the Minor Alarm LED on.

set min off

Turns the Minor Alarm LED off. Cancels a min on, min slow, or min fast action.

set min slow

Sets the MinorAlarmLED to blinkslowly.

set min fast

Sets the MinorAlarmLED to blinkquickly.

set pow on

Turns the Power LED on.

set pow off

Turnsthe Power LED off.Cancels a pow on, pow slow,or pow fast action.

set pow slow

Sets the PowerLED to blinkslowly.

set pow fast

Sets the PowerLED to blinkquickly.

Alarm Indicators and Settings Clearing Alarms

Clearingan alarm willreset the sensors and alarm indicators. If a failure condition is stillpresent, the alarmwillre-assertitself.

TABLE D-8

Clearing Alarms

Command

Clearsall pending alarms on all sensors.

clear feeda

Clears allpendingalarms on power feed A.

clear feedb

Clears allpendingalarmson power feed B.

clear psfl

Clears allpending alarms on powersupply 1. Clears allpending alarms on powersupply 2. Clears allpendingalarmson powersupply3.

clear psf2 clear psf3

D-6

Description

clear all

clear volt33

Clearsall pending alarms for the +3.3V sensor.

clear volt5

Clearsall pending alarms for the +5V sensor.

clear voltl2

Clears all pending alarms for the + 12V sensor.

clear nvoltl2

Clearsall pending alarms for the -12V sensor.

clear temp

Clears allpendingalarms for the temperature sensor.

clear fanl

Clearsallpending alarms for fan sensor #1.

clear fan2

Clears allpendingalarms for fan sensor #2.

clear fan3

Clearsall pending alarms for fan sensor #3.

Revision E

Installation and Operation Manual

GNP ComputeNode4U

1-800912 Appendix D-AlertINode (Smart Node Alarm Card)

Reading Threshold & Action Settings

Voltage and temperature monitoring have tiiree levels of alarm threshold (minor, major, and critical) and response actions associated with those thresholds. The power feeds, power supplies, and fans are monitored for health; they are all either good or in a failed state. For diesc parameters, there isa response action for the failure state only. The possible response actions are to set die dry contacts on/off and to change the status of the faceplate LEDs.

TABLE D-9 Parameter

Get Alarm Thresholds and Response Actions Description

Command

Power feed A

get fceda actions

Power feed B

get feedb actions

Returns the response action for a failure on feed B. (One alarm state only.)

Power supply #1

get psfl actions

Returns the response action fora failure of power supply #1. (Onealarm stateonly.)

Power supply #2

get psf2 actions

Returns the response action for a failure of powersupply #2. (One alarmstate only.)

Power supply #3

get psf3 actions

Returns the response action for a failure of power supply #3. (One alarmstate only.)

Alarm thresholds

get volt33 thresholds

Voltage alarmthresholds are designated by a percentage over or under the nominal

for +3.3V, +5V, + 12V,and-12V

get volt5 thresholds

Returns the response action for a failure on feed A. (One alarm state only.)

voltage.

There are sixalarm thresholds for each voltage: min_under (minorunder-voltage

get voItl2 thresholds get nvoltl2 thresholds

Response actions for over-voltage and under-voltage alarm conditions.

alarm), maj under (major under-voltage alarm), crit under (critical undervoltage alarm), min_ovcr (minor over-voltage alarm), maj_over (major overvoltage alarm), and crit_over (critical over-voltage alarm) get thresholds returns die settings for all six alarm thresholds.

Returns the response actions for all six alarm thresholds for the designated voltage.

get volt33 actions get volt5 actions get voltl2 actions get nvoltl2 actions

get temp thresholds

Returns the minor alarm, major alarm, and critical alarm threshold settings for the temperature sensor, in degrees Celsius.

get temp actions

Returns the response actions for minor, major, and critical over-temperature levels.

Fan sensor #1

get fanl actions

Pan sensor #2

get fan2 actions

Returns the response action for a failure reading on the indicated fan sensor. (One alarm state only.)

Fan sensor #3

get fan3 actions

Current status

get allalarms

Internal

temperature of the ComputcNode4U cPSB

Returns the status of all pending alarms.

Setting Threshold & Action Settings

Voltage and temperature monitoring have three levels of alarm dircshold that maybe set (minor, major, and cridcal) and response acdons associated with those thresholds. The power feeds, powersupplies, and fans are monitored for health; theyare alleither good or in a failed state. For theseparameters, diere is a response acdon for die failure state only. The possible response actions that may be selected are to set the dry contacts on/off and to change the status of the faceplate LEDs. Refer to Table D-ll for a list of all response acdon settings.

& r

Note: Multipleresponse actions maybe set for a given alarm state, but only one action may be set per command. For example, if you wanted to set die power LED to blink slowly, die major alarm LED to be on, and dry contact #3 to trigger if power feed A failed, you would use the commands: set

feeda

failure

action pow_slow

set

feeda

failure

action maj_on

set

feeda

failure

action dry3_on

Installation and Operation Manual

Revision E

D -7

1-800912 Appendix D -AlertINode (Smart Node Alarm Card) ComputeNode4U

GNP

TABLE D-10 Set Alarm Thresholds and Response Actions Power feed A

set feeda failure action

Power feed B

set feedb failure action

Powersupply#1

set psfl failure action

Powersupply#2 Power supply#3

set pa12 failure action

set nvoltl2 <severity>level <setting>

Setsthe given thresholdlevel for the indicated voltage sensor. Possible <severity>levels are min_under, maj_under, crit_under, min_over, maj_over, and crit_over. <setting> is thepercentage overor underthenominal voltage forthe given severity level.

set volt33 <severity> action

Setsthe indicated to perform if the given <severity>level

set volt33 <severity> level <setting>

for +3.3V, +5V, +12V,and-12V

set volt5 <severity> level <setting>

alarm conditions.

Setsthe indicated to perform in the caseof a failure of the indicatedparameter. Refer to TableD-ll for possible options.

set psB failure action

Alarm thresholds

Responseactions for over-voltage and under-voltage

Description

Command

Parameter

set voltl2 <severity>level <setting>

set voltS <severity> action

set voltl2 <severity> action

is reached.

Referto TableD-ll for possible options.

set nvoltl2 <severity> action Internal

set temp <severity> level <setting>

Setsthe given threshold level for the temperature sensor. Possible <sevcrity>levelsarc min_over, maj_over, and crit_over. <sctting> is givenin degrees Celsius.

set temp <severity> action

Sets the indicatedto perform if the given <severity>level

temperature of the ComputeNode4U cPSB

is reached.

Referto TableD-ll for possible options. Fan sensor #1

set fanl failure action

Fan sensor #2

set fan2 failure action

Fan sensor #3

set fan3 failure action

Sets the indicatedto perform in the case of a failure of the indicated fan sensor.

Referto Table D-ll for possible options.

Possible Response Actions

When setting alarm responses, the dry contact and LED settings listed in the table below replace the arguments shown in Table D-10. TABLE D-ll Alarm Response Actions Description

Response Action

Parameter

Dry contact #1

Dry contact #2

dryl_on

Turn dry contact #1 on.

dryl_off

Turn dry contact #1 off.

dry2_on

Turn dry contact #2 on.

dry2_off

Turn dry contact #2 off.

Dry contact #3

dry3_on

Turn dry contact #3 on.

dry3_off

Turn dry contact #3 off.

CriticalAlarm LED (red)

crit_on

Turns the Critical Alarm LED on.

crit_off

Turns the Critical Alarm LED off.

Major Alarm LED (red)

Minor Alarm LED (yellow)

D-8

crit_slow

Sets the Critical Alarm LED to blink slowly.

crit_fast

Sets the CriticalAlarm LED to blink quickly.

maj_on

Turns the Major Alarm LED on.

maj_off

Turns the Major Alarm LED off.

maj_slow

Sets the MajorAlarmLED to blink slowly.

maj_fast

Sets the MajorAlarmLED to blink quickly.

min_on

Turns the Minor Alarm LED on.

min_off

Turns the Minor Alarm LED off.

min_slow

Sets the Minor Alarm LED to blink slowly.

min_fast

Sets the Minor Alarm LED to blink quickly.

Revision E

Installation and Operation Manual

GNP ComputeNode4U Parameter

Power LED (green)

1-800912 Appendix D-AlertINode (Smart Node Alarm Card)

Response Action

Description

pow_on

Turns the Power LED on.

pow_off

Turns the Power LED off.

pow_slow

Sets the Power LED to blink slowly.

pow_fast

Sets the Power LED to blink quickly.

Alarm Threshold & Response Default Settings

TABLE D-12 Alarm Default Settings Parameter

Alarm

Severity Level

Default Setting

DefaultActiqn(s)

Power feed A

feeda

failure

n/a

crit_fest, pow_fest

Power feed B

feedb

failure

n/a

crit_fast, pow_fast

Power supply #1

psfl

failure

n/a

maj_sIow, pow_slow

Power supply#2

psf2

failure

n/a

maj_slow,pow_slow

Power supply #3

psf3

failure

n/a

maj_slow,pow_slow

+3.3V line voltage level

volt33

+5V line voltage level

+12V line voltage level

-12V line voltagelevel

Internal temperature sensor

volt5

voltl2

nvoltl2

temp

min_under

3%

min_on

maj_under

6%

maj_on

crit_under

9%

crit_on

min_over

5%

min_on

maj_over

10%

maj_on

crit_over

15%

crit_on

min_under

3%

min_on

maj_undcr

6%

maj_on

crit_under

9%

crit_on

min_over

5%

min_on

maj_over

10%

maj_on

crit_over

15%

crit_on

min_under

3%

min_on

maj_under

6%

maj_on

crit_under

9%

crit_on

min_over

5%

min_on

maj_over

10%

maj_on

crit_over

15%

crit_on

min_under

3%

min_on

maj_under

6%

maj_on

crit_under

9%

crit_on

min_over

5%

min_on

maj_over

10%

maj_on

crit_over

15%

crit_on min_slow

min_over

40° C

maj_over

45° C

maj_slow

crit_ovcr

50° C

crit_slow

Fan sensor #1

fanl

failure

n/a

min_fast

Fan sensor #2

fan2

failure

n/a

min_fast

Fan sensor #3

fan3

failure

n/a

min_fast

Installation and Operation Manual

Revision E

D-9

1-800912 Appendix D -AlertINode (Smart Node Alarm Card) ComputeNode4U

GNP

Network Menu Commands and Syntax

The help command may be useful for reference. Typing "help general", "help diagnostic" or "help telnet" will have the AlertlNode print out the help menus for the general,diagnostic, or telnet functions of the network. (Typingjust "help" will by default print the general command help screen.) The following commands are categorized according to these function types. General Network Commands and Syntax TABLE D-13 General Commands

Description

Command

To print out the current state of the IP interface,type:

state

state

This command willdisplay the IP address,netmask, default gateway, and the source of the IP address - whether it is configured from NVRAM or via DHCP. delay

delay [milliseconds] Sets the delaybetweenpings.

host

host

Sets the default active IP host

length

length Sets the defaultping packetlength.

rtadd

rtadd

Manually adds an IP route to the table. rtdel

rtdel

Manually deletes an IP route from the table. routes

routes

Displays the current routingtable. serip

setip Sets the IP address and netmask for the Ethernet interface.

setdgw

setdgw Sets the defaultgateway IP for the board.

dhcp

dhcp

Toggles the DHCP function. When enabled, the boardwill try to resolve its IP address viathe DHCP protocol, timingout if necessary. quit

quit Exits the network sub-menu and return to the main menu.

D-10

Revision E

Installation and Operation Manual

GNP ComputeNode4U

1-800912 Appendix D -AlertINode (Smart Node Alarm Card)

Diagnostic Commands and Syntax

TABLE D-14 Diagnostic Commands Syntax

Command

/$^\

Description

arps

arps

Displays ARP stats and table.

buffers

buffers

Displays free q buffer stats.

queues

queues

Dumps packet buffer queues.

dbytes

dbytes

Dumps a block of memory.

debug

debug

Sets IP stack debug tracing.

dtrap

dtrap

Tries to hook debugger.

dump

dump

Hcxdumps incoming packets.

iface

iface

Displays net interface stats.

linkstats

linkstats

Displays link layerspecificstats.

mbuf

mbuf

Displays mbuf stats.

mlist

mlist

Displays mbufs in use.

tcp

tcp

Displays TCP stats.

sockets

sockets

Displays socket list.

tbconn

tbconn

TCP BSD connection stats.

tbsend

tbsend

TCP BSD send stats.

tbrcv

tbrcv

TCP BSD receive stats.

allocsize

allocsize

Sets size for allocO breakpoint.

ipstat

ipstat

Displays IP layerstats.

icmpstat

icmpstat

Displays ICMP layerstats.

udp

udp

Displays UDP layer stats.

upcall

upcall

Traces received packets.

dcstats

dcstats

DHCP Client statistics

Telnet Commands and Syntax TABLE D-15 Telnet Commands

Syntax

Command

Description

tshow

tshow

Shows the options values for all sessions.

tstats

tstats

Shows the statistics of all telnet sessions.

logout

logout

Log out of the telnet session.

/fftfK.

Installation and Operation Manual

Revision E

D-ll

1-800912 Appendix D -AlertINode (Smart Node Alarm Card) ComputeNode4U

GNP

AlertINode Connector Pinouts The Ethernet, serial, and alarmports are located on the faceplate of the AlertiNode. Referto Figure D-3 on pageD-2 for a diagram showing their positions.

Ethernet RJ-45 Connector — J3000 TABLE D-16 Ethernet RJ-45 Connector Host Pinout Signal Description

Pin

Signal

1

TX+

Transmit (positivedifferential pair)

2

TX-

Transmit (negative differentialpair)

3

RX+

Receive(positivedifferentialpair)

nc

no connection

5

nc

no connection

6

RX-

4

Receive(negative differentialpair)

7

nc

no connection

8

nc

no connection

RS-232 Serial liDB-9 Connecto R—J3001 TABLE D-17 RS-232 Serial uDB-9 Connector DCE Pinout Pin

Signal

1

DCD

Signal Description Data Carrier Detect

2

RX

Receive

3

TX

Transmit

4

nc

no connection

5

GND

Signal Ground

6

nc

no connection

7

RTS

Request to Send

8

CTS

Clear to Send

9

RI

System AlLArm

Ring Indicator

liDB-9 Dry Contact Connector —J0106

TABLE D-18 System Alarm uDB-9 Dry Contact Connector Pinout

D-12

Pin

Signal

1

COM1

2

NOl

Relay #1 normally-open lead

3

NC2

Relay #2 normally-dosedlead

4

COM3

Signal Description Rday #1 common lead

Relay#3 common lead

5

NC3

Relay #3 normally-dosed lead

6

NCI

Relay #1 normally-dosedlead

7

N02

Relay #2 normally-open lead

8

COM2

9

N03

Revision E

Relay#2 common lead

Relay #3 normally-openlead

Installation and Operation Manual

GNP

ComputeNode4U

1-800912 Appendix D -AlertINode (Smart Node Alarm Card)

18-Pin Molex Connector —J0100 The 18-pin Molex connector is an internal connectordiat mates to the backplane. Note: For the 18-pin Molex connector, column F pins connect to DGND. TABLE D-19 18-Pin Molex Connector Pinout Pin

Signal

Signal Description

1

FAN 2

Pan Detect Signal 2

2

FAN1

Pan Detect Signal 1

3

IPMB_SDA

4

PS_FAI1.3

5

+5V

6

DGND

7

+3.3V

8

DGND

9

PSJvULl

10

FAN3

IPMB Bus Data Signal

Power Supply I''ail Detect Signal 3 + 5V Power Signal Digital Ground +3.3V Power Signal Digital Ground

PowerSupply Rail Detect Signal 1 Pan Detect Signal 3 IPMB Bus Clock Signal

11

IPMB_SCL

12

FFFDB

Input Power Peed B Detect

13

FFFDA

Input Power Peed A Detect

14

DGND

Digital Ground

15

+ 12V

16

DGND

17

-12Y

18

PSJ-AII.2

+ 12V Power Signal Digital Ground -12V Power Signal

PowerSupply Fail Detect Signal 2

Note: Please refer to Appendix B for information on die default backplane jumper settings for die system alarm card.

For additional information or questions regarding the AlertlNode, please contact GNP at [email protected] or (800) 735-4467.

Installation and Operation Manual

Revision E

D

-13

1-800912 Appendix D -AlertINode (Smart Node Alarm Card) ComputeNode4U

GNP

,-"=%

D -14

Revision E

Installation and Operation Manual

1-800912 Appendix

3U cPSB 9-Port Ethernet Switch ComputeNode4U cPSB

Overview The 3U cPSB 9-Port Ethernet Switchprovides nine 10/100 Mbps Fast Ethernet ports diat provide fully non-blocking layer 2 switcliing capabilities. Two ports are available dirough rear cPCI connectors, widi the backplane routed such diat die other seven ports on each switch providea 10/100Base-Tx connection to each of the otiier cPCI slots in die system. It is designed for use with GNP's custom cPSB systems. FIGURE E-l 3U cPSB 9-Port Ethernet Switch Block Diagram Jl Connector

J2 Connector

t hot-swap power

Q

a

0

9-port integrated ethernet switch

3 H

a. > w

V

i

o

X

Link and

Activity LEDs

M

M

Faceplate

The 3U cPSB 9-Port Ethernet Switchis GNP part # 1-503686, and its corresponding RTM is GNP part # 1-503687.

Installation and Operation Manual

Revision E

E

-1

1-800912 Appendix E -3U cPSB 9-Port Ethernet Switch

ComputeNode4U cPSB GNP

FIGURE E-2 3U cPSB 9-Port Ethernet Switch Faceplates Front Panel:

1.

i

:'»,

s,

/

9,

\\

Rear Panel:

Port 1 activity/link indicator LED - green (monitors slot #2)

7.

2.

Port 2 activity/link indicator LED - green (monitors slot #3)

8.

Port 8 activity/link indicator LED —green

9.

Port 9 link indicator LED - green

3.

Port 3 activity/link indicator LED - green

10. Port 9 activity indicator LED - green

(monitors slot #4)

4.

Port 4 activity/link indicator LED —green (monitors slot #5)

5. 6.

Port 5 activity/link indicator LED - green (monitors slot #6) Port 6 activity/link indicator LED - green (monitors slot #7) * The combined activity/link LEDs indicate a link with a steady lit condition, and indicate activity by blinking.

E-2

Revision E

Port 7 activity/link indicator LED - green (monitors slot #8)

11. Power indicator LED - green 12. Mot-swap indicator LED - blue 13.

Latch

14. Port 8 RJ45 connector

15. Port 9 RJ45 connector^ f Port 9 is labeled "MGT Port". Currently, its only management function is to act as an uplink port, providing the system with an external ethernet connection.

Installation and Operation Manual

GNP ComputeNode4U cPSB /0^\

1-800912 Appendix E -3U cPSB 9-Port Ethernet Switch

Backplane Interface Pinouts Note: For the following tables, columns F and Z are connector shielded and are connected to DGND. Blank spaces indicate no connection (NC). TABLE E-l Pin# 25

A

EARLY_3.3V

16

15

LONG_VIO

DGND

LONG_3.3V

DGND

EARLY_VIO

DGND

EARLY_3.3V

IPMB_SCL

IPMB.SDA

DGND

EARLY_VIO

E

EARLY.5V

LONG_5V

EARLY_3.3V

18 17

EARLY_5V

D

EARLY_3.3V

EARLY_3.3V

20 19

C ENUM#

EARLY_3.3V

22

21

B

EARLY_5V

24 23

Jl Connector Pinouts

DGND

EARLY.3.3V

DGND

BD_SEL#

14 KEY AREA

13 12

11

DGND

10

DGND

EARLY_3.3V

DGND

EARLY_VIO

PCI_PRESENT

LONG_3.3V

PCI_CLK

PCI_RST#

DGND

9

DGND

8 7

DGND

6 5 4

IPMB_PWR

HEALTHY#

EARLY_5V

2

1

LONG_VIO

LONG_5V

3

EARLY_5V

EARLY_N12V

Installation and Operation Manual

EARLY.P12V

Revision E

EARLY.5V

E-3

(ComputeNode4U cPSB

1-800912 Appendix E -3U cPSB 9-Port Ethernet Switch

TABLE E-2 Pin# 22

A

GNP

J2 Connector Pinouts

B

c

D

E

GA4

GA3

GA2

GA1

GAO

19

DGND

DGND

SMB.SDA

SMB.SCL

SMB^ALERT

18

MGT_TX0+

MGT.TXO-

DGND

reserved

reserved

17

MGT_RX0+

MGT_RX0-

DGND

reserved

reserved

16

10/100TX7+

10/100TX7-

DGND

reserved

reserved

21 20

1*

I0/100RX7+

10/100RX7-

DGND

reserved

reserved

14

10/100TX6+

10/100TX6-

DGND

reserved

reserved

13

10/100RX6+

10/100RX6-

DGND

reserved

reserved

12

10/100TX5+

10/100TX5-

DGND

reserved

reserved

11

10/100RX5+

10/100RX5-

DGND

reserved

reserved

10

10/100TX4+

10/100TX4-

DGND

reserved

reserved

9

10/100RX4+

10/100RX4-

DGND

reserved

reserved

8

10/100TX3+

10/100TX3-

DGND

reserved

reserved

7

10/100RX3+

10/100RX3-

DGND

reserved

reserved reserved

6

10/100TX2+

10/100TX2-

DGND

reserved

5

10/100RX2+

10/100RX2-

DGND

reserved

reserved

4

10/I00TX1+

10/lOOTXl-

DGND

reserved

reserved

3

10/I00RX1 +

10/100RX1-

DGND

reserved

reserved

2

10/100TX0+

10/I0OTX0-

SYSTEM#

reserved

reserved

1

10/100RXO+

10/100RX0-

DGND

reserved

reserved

'-s%

•**%

E-4

Revision E

INSTALLATION AND OPERATION MANUAL

GNP ComputeNode4U cPSB

1-800912 Appendix E -3U cPSB 9-Port Ethernet Switch

Switch Jumper Settings FIGURE E-3 cPSB 9-Port Ethernet Switch Card

J6300 port 9 program JP6100 802.1p enable JP1100 reserved for

in-factory testing J7000 program strips

JP6100 — 802.1P ENABLE The 2-pin header at JP6100 enables 802.1p for all ports.

Installing a jumper (closed) will set the ports to use a 802.Ip priority field unless disabled in EEPROM. With no jumper installed (open), 802.Ip is selected by the port in EEPROM. The default settingis with no jumpers installed

J6300 — Port 9 Programming The 8-pin header atJ6300 controls the programming of port #9. TABLE E-3 Pair of Pins

Port #9 Programming — Jumper Settings Function

Open Setting (default)

Closed Setting

7&8

10/100

100 Mbps

10 Mbps

5&6

Duplex

Full duplex

Half duplex

No flow control

Flow control enabled

3&4

Flow Control

1&2

N/A

Installation and Operation Manual

Revision E

E-5

1-800912 Appendix E -3U cPSB 9-Port Ethernet Switch

ComputeNode4U cPSB GNP

J7000 — Program Strips TABLE E-4 Pair of Pins

Function

23&24

Aggressive

21&22

Drop Frame

19&20

Trunking

17&18

Program Strips — Jumper Setting Options Closed Setting;

Open Setting (default) Moreaggressive back-off

Less aggressive back-off

Continue sending frame

Drop frameafter 16 collision

Both pairs open = trunkingdisabled

17&18open, 19&20dosed = ports 1,2 trunked together

19&20open, 17&18 dosed = ports 1,2/ports

Both pairs closed = ports 1,2,3,4trunked

3,4 trunked 15&16

Flow Control

13&14

Broadcast Frame

11&12

Buffer

9&10

{reserved}

Flow control enabled

No flow control

Unlimited broadcast frame

5% broadcast frame allowed

Share up to 512 buffers on single port

Equal113buffer/per port

7&8

Aging

Enable 5 minute aging

Agingdisabled

5&6

VLAN

Max. 1536 byte

MaxVLAN 1522 bytes,W/O VLAN 1518

3&4

Broadcast Frame

Program broadcast flow control enabled

Program broadcast flow control disabled

1&2

Duplex

Half duplex back pressure enabled

No half duplex back pressure

bytes

^*\

E-6

Revision E

Installation and Operation Manual

1-800912 Appendix

3U cPSB 8+2G Ethernet Switch ComputeNode4U cPSB

Overview GNP's 3U cPSB 8+2G Ethernet Switch is a 3U, single-slot CompactPCI card that provides eight 10/100 Mbps Fast Ethernet ports and two 10/100/1000 Ethernet ports in a fully non-blockingswitching configuration designed for use in GNP's cPSB systems. The switch provides a management interface to monitor the status and control the functions of each port, and has the ability to configure advanced capabilities such as port mirroring. A pair of hot-swappable 3U cPSB 8+2G Ethernet Switches provide redundant switching fabrics while occupying only one 6U CompactPCI slot. Three ports are available through the front and rear faceplates, with die backplane routed such diat die odier seven ports on each switch provide a 10/100Basc-Tx connection to each of die other cPCI slots in the system.

The software management interface allows the user to retrieve individualstatistics for each port, and to configure the following attributes: auto-negotiation, port speed, switch half/full duplex, and flow control.

Functional Overview FIGURE F-l cPSB 8+2G Ethernet Switch Block Diagram

Jl Connector

|2 Connector

J u

El power

regulator

hot-swap

2.5V, 1.2V

9FE+2GE port

integrated ethernet switch

management processor

I

Gigabit PHY magnetic

Installation and Operation Manual

Revision E

F -1

1-800912 Appendix F -3U cPSB 8+2G Ethernet Switch

ComputeNode4U cPSB

GNP

FIGURE F-2 System Logical Diagram

M

tit

3UcPSB8+2G

3UcPSB8+2G

Ethernet Switch

Ethernet Switch

RS-232 console (front or rear access)

10/100/1000Mbps links 10/100Mbps links 10/100Mbps links

.**\

F-2

Revision E

Installation and Operation Manual

GNP ComputeNode4U cPSB

1-800912 Appendix F -3U cPSB 8+2G Ethernet Switch

Faceplate Features FIGURE F-3 cPSB 8+2G Ethernet Switch Faceplates Rear Panel

1.

Port 10— 10/100/1 OOOBase-Tx Ediernet port (RJ-45)

2.

3.

8.

Port 6 activity/link indicator LED — green' (monitors slot #7)

Front panel access to RS-232 console port (RJ-45)

9.

Port 1 activity/link indicator LED — green'

10. Port 8 activity/link indicator LED — greenT

(monitors slot #2)

4.

Port 2 activity/lrnk indicator LED — green' (monitors slot #3)

5.

Port 3 activity/link indicator LED — green' (monitors slot #4)

6.

Port 4 activity/link indicator LED — green' (monitors slot #5)

7.

Port 5 activity/link indicator LED — green' (monitors slot #6)

Port 7 activity/link indicator LED — green' (monitors slot #8)

11. Port 9 (rear panel10/100/1000 port) activity/ link indicator LED — green"

12. Port 10 (front panel 10/100/1000 port) activity/ link indicator LED — green"

13. Power indicator LED — green 14. Hot-swap indicator LED — blue* 15. Port 8 — 10/1OOBase-Tx Ethernet port (RJ-45) 16. Port 9 — 10/100/1 OOOBase-Tx Ethernet port (RJ-45)

* The console port may be accessed from the front or the rear panel, but only one of the two RJ-45 connectors may be used at a time. The port settings are 3-wire, 9600-N-8-1.

17. Rear panel access to RS-232 console port (RJ-45)

TThecombined activity/link LEDsindicate a link with a steady lit condition, and indicate activity by blinking.

Installation and Operation Manual

^ The hot-swap LED is on during card insertion and power-up, but is off when the switch is in use.

Revision E

F-3

1-800912 Appendix F -3U cPSB 8+2G Ethernet Switch

ComputeNode4U cPSB

GNP

User Interface for the cPSB 8+2G Ethernet Switch The 3U cPSB 8+2G Ediernet Switch uses a command line interface (CLI). The available commands and syntax are described below. Starting a Session

The user interface for die switch will start up automatically when die switch is powered up. If everything starts normally, you should see a prompt that looks like: BCM

>

Note: If you do not see a prompt or there is an error message, please email [email protected] or contact GNP at (800) 735-4467 and ask for Customer Support. Main Menu Commands and Syntax

The following commands are typed direcdy at the prompt; they do not use "get" or "set". All commands are followed by <ENTER> or . TABLE F-l

Main Menu Commands

Description

Command

Displays firmware version information.

version

help

Displays help information for the switch commands. There are three options: "help get" returns information on the "get" commands. "help set" returns information on the "set" commands. "help" (with no argument) returns information on all switch commands.

counter <port#>

status

hist

Displays real-time transmit/receive statistics for theindicated port.This includes statistics such as TX/RX packet count, packet error count, dropped packet count, and collision count. Displays a real-time screen of all of the parameters for all of the ports. Displays the results of the built-in self test (BIST).

"Get" and "Set" Commands

The "get" commands are used to read various settings of die 3U cPSB 8+2G

Ediernet Switch. The output will show the current port settings and feature options. Certain parameters can be controlled by die user. These are set using die "set" commands. All commands are followed by <ENTER> or . These commands are in the form: get

<...>

<ENTER>

set

<...>

<ENTER>

Note: In the following commands, <port#> is used to indicate the port number (1-10), corresponding to FIGURE F-3, "cPSB 8+2G Ethernet Switch Faceplates". Port Setting Summary

The "all" command is used to check the following status and settings of a given port: link activity, transmit/receive, auto-negotiation, data rate, duplex mode, flow control, autocast, and mirroring. TABLE F-2

Port Setting Summary ("Get" only)

Command Syntax get <port#> all

F-4

Revision E

Description Displays the status and settings of the indicated port.

Installation and Operation Manual

GNP ComputeNode4U cPSB

1-800912 Appendix F -3U cPSB 8+2G Ethernet Switch

Link Activity

The "link" command is used to check the link status (on/off) of a given port. TABLE F-3

Link Information ("Get" only)

Command Syntax

Description

Displays whether the link of the indicated port is on or off.

get <port#> link

Receive/Transmit

The "enable" command is used to configure die receive/transmit capabilities of a

particular port. Each port can be configured to be on, off, receive only (RX), or transmit only (TX). TABLE F-4 Command Syntax get <port#> enable set <port#> enable

Receive/Transmit Options ("Get" or "Set") Description

Options

Displays the current receive/transmit setting of the indicated port.

—

on

Enables both receive and transmit capabilities of the selected port.

off

Disables both receive and transmit capabilities of the selected port.

rx

Sets the selected port to receive only.

tx

Sets the selected port to transmit only.

Auto-Negotiation

The "auto" command is used to enable or disable auto-negotiation for each port.

When auto-negotiation is enabled, a port will compare its data rate and duplex mode with diose of its link partner, and choose the highest level of operation for the link between the two.

TABLE F-5 Command Syntax get <port#> auto set <port#> auto

Auto-Negotiation Options ("Get" or "Set") Description

Options

Displays the current auto-negotiation setting of the indicatedport.

—

on

Enables auto-negotiation for the selected port.

off

Disables auto-negotiation for the selected port.

Port Data Rate

The "rate" command is used to configure the data transfer rate for each port. Ports 1-8 can be configured for either 10Mbps or 100Mbps. Ports 9-10 can be configured for 10Mbps, 100Mbps,or 1000Mbps. Note: Setting the port data rate will disable auto-negotiation. TABLE F-6 Command Syntax get <port#> rate set <port#> rate

Options

Data Rate Settings ("Get" or "Set") Description

Displays the current data rate setting of the indicated port.

—

10 100 1000

Installation and Operation Manual

Sets the data rate for the selected port to 10Mbps. Sets the data rate for the selected port to 100Mbps. Sets the data rate for the selected port to 1000Mbps. (Ports 9 & 10 only)

Revision E

F -5

1-800912 Appendix F-3U cPSB 8+2G Ethernet Switch

ComputeNode4U cPSB

GNP

Duplex Mode

The"duplex" command isused toconfigure duplex mode (half or full) for each port. Note: Setting die duplex mode will disable auto-negotiation. TABLE F-7 Command Syntax

Duplex Mode ("Get" or "Set")

Options

get <port#> duplex

Description

half

Displays the current duplex mode of the indicated port. Sets the duplexmode of the selected port to half duplex.

full

Sets the duplex mode of the selected port to full duplex.

—

set <port#> duplex

Flow Control

The "flow" command is used to enable or disable flow control for each port. Note: The flow control optionis only available when a port is in full duplex mode. TABLE F-8 Command Syntax

Flow Control Options ("Get" or "Set")

Options

get <port#> flow

—

set <port#> flow

on

off

Description

Displays the current flow control setting of the indicatedport. Enables flow control for the selectedport. Disables flowcontrol for the selected port.

Autocast

The "cast" command is used to enable or disable autocast for each port. Autocast is a feature that automatically gathers counter statistics from the Simple Network Management Protocol management information base (SNMP MIB) into "frames" and sends them to designated "capture ports" on die switch. These frames can be viewed by connecting to the capture port(s) and used to monitor die performance of die switch and associated network.

The MIB Autocast frame rate can be set from 0x00 to OxFF, where the values are in

0.1 second increments.This translates to a possible frame rate from 0 to 25.5 seconds (0.1 seconds x 255 (OxFF Hex) = 25.5 seconds). TABLE F-9 Command Syntax

Options

get <port#> cast

—

set <port#> cast

off on

on rate

Autocast Settings ("Get" or "Set") Description

Displays the currentautocast setting of the indicatedport. Disables autocast for the selected port. Enables autocast for the selected port.

Enables autocast for the selected port and sets the MIB autocast frame rate to , where is a hexadecimal value from 00 to FF,

indicatingrate in 0.1 second increments.

F-6

Revision E

Installation and Operation Manual

GNP ComputeNode4U cPSB

1-800912 Appendix F-3U cPSB 8+2G Ethernet Switch

Port Mirroring

j0&\

The "mirror" command is used to configure port mirroring. Port mirroring allows any port's incoming (ingress) or outgoing (egress) traffic to be mirrored to a designated "mirror capture port". Only one port may be designated as the mirror capture port. Multiple ports may be mirrored to the capture port, though this may cause congestion at the capture port. TABLE F-10 Port Mirroring Options ("Get" or "Set") Command Syntax get mirror

Displays mirroringinformation for all 10 ports.

—

get <port#> mirror set <port#> mirror

Displays mirroring information for the indicated port.

—

cap aU

Sets the selectedport to be the designated mirror capture port. Sets the selectedport to have all traffic (ingressand egress) mirrored.

ingress

Sets the selectedport to have ingress mirrored.

egress

Sets the selected port to have egress mirrored.

off

set mirror reset

Description

. Opdons

—

Sets mirroring for the selected port to off.

Resets mirroring options on all ports.

The ingress and egress mirrorfiltering rules can be configured to designate the type of filtering that will be applied to ingress traffic (packets received at the port) and egress traffic (packets transmitted from the port). TABLE F-11 Ingress/Egress Filtering Options ("Set" only) Command Syntax set mirror ingress

dest

or

set mirror egress

Description

Options

source

aU

Mirror all frameswith a specified MAC address (set using the "mac" option, below) as the destination address. Mirror all frames with a specified MAC address (set using the "mac" option, below) as the source address.

Mirrorall of the port's received (ingress) or transmitted(egress) frames.

mac <MAC address>

Enter a MAC address to be used by the "dest" or "source"

options,above. The formatof a MAC address is 12 characters: XXXXXXXXXXXX div

Set a divider, "n", such that every n* frame is sampled, and apply filtering, "n" is input as a hexadecimal value from 000 to 3FF.

Installation and Operation Manual

Revision E

F-7

1-800912 Appendix F -3U cPSB 8+2G Ethernet Switch

ComputeNode4U cPSB GNP

cPSB 8+2G Ethernet Switch Pinouts Faceplate Port Pinouts RS-232 Console Ports

TABLE F-12 RS-232 Console Port (RJ-45 Pinout)* Description

Signal Name

Pin 1

NC

No Connection

No Connection

2

NC

3

NC

No Connection

4

GND

Signal Ground

5

RXD

Receive Signal

6

TXD

Transmit Signal

7

NC

No Connection

8

NC

No Connection

10/100Base-Tx Ethernet Ports

TABLE F-13 10/100Base-Tx Ethernet Port (RJ-45 Pinout) Signal Name

Pin 1

RX+

Description Receive positive lead

2

RX-

Receive negativelead

3

TX+

Transmit positive lead

4

NC

No Connection

5

NC

No Connection

6

TX-

Transmit negativelead

7

NC

No Connection

8

NC

No Connection

10/100/1000Base-Tx Ethernet Ports

TABLE F-14 10/100/1000Base-Tx Ethernet Port (RJ-45 Pinout) Pin

Signal Name

Description

MTRDNO

Transmit-Receive Pair #0 positivelead Transmit-Receive Pair #0 negative lead

MTRDP1

Transmit-Receive Pair #1 positive lead

MTRDPO

MTRDP2

Transmit-Receive Pair #2 positive lead

MTRDN2

Transmit-Receive Pair #2 negativelead

MTRDN1

Transmit-Receive Pair #1 negative lead

MTRDP3

Transmit-Receive Pair #3 positive lead Transmit-Receive Pair #3 negative lead

MTRDN3

The port settings are 3-wire, 9600-N-8-1. F-8

Revision E

Installation and Operation Manual

GNP ComputeNode4U cPSB

1-800912 Appendix F-3U cPSB 8+2G Ethernet Switch

Backplane Connector Pinouts

Jl Connector TABLE F-15 Jl Connector Pinout A 25

24 23

LONG.VIO

DGND

LONG_3.3V

DGND

EARLY.VIO

E

EARLY_5V

LONG_5V

EARLY_3.3V

18 17

EARLY_5V

D

EARLY_3.3V

EARLY_3.3V

20

19

c enum#

EARLY_3-3V

22 21

B

EARLY_5V

EARLY_33V

16 15

EARLY_3.3V

14

KEY AREA

DGND DGND

EARLY_3.3V

IPMB_SCL

IPMB_SDA

DGND

EARLY.VIO

DGND

BD_SEL#

13

12 11

DGND

10

DGND

EARLY_3.3V

9

DGND DGND

8

EARLY_VIO

7

DGND

pci_present

6

5 4

IPMB.PWR

HEALTHY#

3

PCI_CLK

PCI_RST#

DGND

LONG.VIO

LONG_5V EARLY_5V

2 1

LONG_3.3V

EARLY_5V

Installation and Operation Manual

EARLY_N12V

EARLY_P12V

Revision E

EARLY_5V

F-9

1-800912 Appendix F -3U cPSB 8+2G Ethernet Switch

ComputeNode4U cPSB GNP

J2 Connector

TABLE F-16 J2 Connector Pinout A

B

C

D

E

22

GA4

GA3

GA2

GA1

GA0

V25in

Reserved

Reserved

Reserved

21

STXD

20

SRXD

V25in

Reserved

Reserved

Reserved

19

DGND

DGND

SMB_SDA

SMB_SCL

SMB_ALERT

18

TRD0+

TRD0-

DGND

TRD2+

TRD2-

17

TRD1 +

TRD1-

DGND

TRD3+

TRD3-

16

10/100TX7+

10/100TX7-

DGND

Reserved

Reserved

15

10/100RX7+

10/100RX7-

DGND

Reserved

Reserved

14

10/100TX6+

10/100TX6-

DGND

Reserved

Reserved

13

10/100RX6+

10/100RX6-

DGND

Reserved

Reserved

12

10/100TX5+

10/100TX5-

DGND

Reserved

Reserved

11

10/100RX5+

10/100RX5-

DGND

Reserved

Reserved

10

10/100TX4+

10/100TX4-

DGND

Reserved

Reserved

9

10/100RX4+

10/100RX4-

DGND

Reserved

Reserved

8

10/100TX3+

10/100TX3-

DGND

Reserved

Reserved

7

10/100RX3+

10/100RX3-

DGND

Reserved

Reserved

6

10/100TX2+

10/100TX2-

DGND

Reserved

Reserved

5

10/10011X2+

10/100RX2-

DGND

Reserved

Reserved

4

10/100TX1 +

10/100TX1-

DGND

Reserved

Reserved

3

10/100RX1 +

10/100RX1-

DGND

Reserved

Reserved

2

10/100TX0+

10/100TX0-

SYSTEM#

Reserved

Reserved

1

10/100RX0+

10/100RX0-

DGND

Reserved

Reserved

Note: Although the SMB signals are not static, in order to remain compatible with PICMG 2.16 cPSB specifications, SMB_SDA, SMB_SCL, and SMB. ALERT should be bypassed to ground.

If you have any additional requirements, please email or contact GNP at (800) 735-4467 and ask for Customer Support.

F-10

Revision E

Installation and Operation Manual

-1