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User Guide Integrity Superdome 9000 Superdome
Sixth Edition
Manufacturing Part Number: A5201-96044 February 2005
Legal Notices
Copyright 2005 Hewlett-Packard Development Company, L.P. information contained herein subject change without notice. only warranties products services forth express warranty statements accompanying such products services. Nothing herein should construed constituting additional warranty. shall liable technical editorial errors omissions contained herein.
Contents
Overview
Basic System Building Blocks Configuration Rules Utilities Subsystem UGUY SBCH HUCB Cell Board Cell Controller. Processors Front-Side Interfaces. Crossbar Link Remote Link Memory Interface-Memory Multiplexer Processor Dependent Hardware. Cell Power Board PCI-X PCI-X Backplane. PCI-X Power Board PCI-X Transfer Board. Core System Backplane Front Panel Display Cell Firmware User Interface Event Errors Events
Installing System
Introduction Communications Interference Electrostatic Discharge Unpacking Inspecting Verifying Site Preparation Checking Inventory Inspecting Shipping Containers Damage Unpacking Inspecting Hardware Components Unpacking PDCA Returning Equipment. Setting Integrity Superdome 9000 Superdome. Moving System Related Equipment Installation Site Unpacking Installing Blower Housings Blowers Attaching Side Skins Blower Side Bezels Attaching Leveling Feet Leveling cabinet Installing Front Door Bezels Front Back Blower Bezels Installing Verifying PDCA Removing Panels
Contents
Connecting Cables Routing Cables Connecting Customer Connecting Network Setting Customer Address. Turning Housekeeping Power Booting Verifying System. Connecting Management Processor Powering System Volts Booting Integrity Superdome Shell Booting 9000 Shell Verifying System Running Software Power Cycling After Using Attaching Rear Kick Plates Performing Visual Inspection Completing Installation. Post-System-Installation Check
Removing Replacing Components
Powering Down Powering System Removing Replacing Cabinet Side Skins Removing Cabinet Side Skins Replacing Cabinet Side Skins Removing Replacing Front Electromagnetic Interference (EMI) Cover Removing Front Cover Replacing Front Cover Removing Replacing Rear Electromagnetic Interference (EMI) Cover. Removing Rear Cover Replacing Rear Cover Removing Replacing Side Covers (for cabinet system) Removing Side Covers Replacing Side Covers Removing Replacing Bulk Power Supply (BPS) Removing Bulk Power Supply Replacing Bulk Power Supply Installing Additional Power Distribution Control Assembly. Adding Option Option PDCAs Removing Replacing Front-End Power Supply. Removing Power From Cabinet Removing FEPS from Cabinet Replacing FEPS Removing Replacing Module Removing Module Replacing Module Removing Replacing Mounting Frame Removing Mounting Frame
Contents
Replacing Mounting Frame Removing Replacing Filter Removing Filters Replacing Filters Removing Replacing Blower Side Bezels Removing Blower Side Bezels Replacing Blower Side Bezel Removing Replacing Rear Blower Bezel Removing Rear Blower Bezel. Replacing Rear Blower Bezel. Removing Replacing Blower Module Removing Blower Module Replacing Blower Module
System Specifications
Dimensions Weights Component Dimensions Component Weights Shipping Dimensions Weights Electrical Specifications. Grounding Circuit Breaker Power Options System Power Requirements Component Power Requirements. Expansion Cabinet Power Requirements Expansion Cabinet Power Cords Environmental Requirements Temperature Humidity Specifications Power Dissipation Acoustic Noise Specification. Flow
Site Preparation
Electrical Environmental Guidelines Electrical Factors Environmental Elements Facility Guidelines Facility Characteristics. Space Requirements Power Options Power Cords Pre-Installation Survey Pre-Installation Survey Content Typical Installation Schedule. Site Inspection
Contents
Delivery Survey.
Operating System Boot Shutdown
System Boot Configuration Options Booting HP-UX. HP-UX Booting Single-User Mode HP-UX Booting. LVM-Maintenance Mode HP-UX Booting Booting Microsoft Windows Operating System Booting Linux Operating System Booting SuSE Linux Enterprise Server Operating System Shutting Down HP-UX Shutting Down Microsoft Windows. Shutting Down Linux
Powering System
Shutting Down System Checking System Configuration Shutting Down Operating System Preparing Partitions Shutdown Powering System Using Command Turning Housekeeping Power Powering System Using Command
Boot Maintenance Manager Integrity Superdome
Boot From File. Boot Option Delete Boot Option Change Boot Order Manage BootNext Setting Auto Boot Timeout Select Active Console Output/Input Devices Select Active Standard Error Devices. Cold Reset.
Configuration
Configuration Guidelines. Memory Population. Cell Population Partition Size Chassis Allocation System Planner
Replaceable Parts
Contents
Management Processor Commands
Command: Command: Command: Command: Command: Command: DATE Command: Command: Command: Command: Command: Command: Command: Command: Command: Command: Command: Command: Command: Command: Command: Command: Command: Command: Command: Command: Command: Command: Command:
JUST Exploration Tool
Set-Up Utility (for Only) Command Line Arguments Interactive Mode Menu Current Configuration Display Menu Update Configuration Menu Help Menu Data Files Input Data Files Input Data File Locations Configuration Files Architecture Files Output Data Files Error Conditions
Contents
Templates
Equipment Footprint Templates Computer Room Layout Plan
Declarations Conformity Similarity
viii
Preface
Scope
This document intended viewing customers covering Integrity Superdome 9000 Superdome systems. This document does describe system software partition configuration operations detail. detailed information concerning those topics refer System Partitions Guide (5990-8170A).
Book Layout
This document contains following chapters appendices: Chapter Overview-Brief introduction Integrity Superdome Chapter Installing System-Unpacking, installation, preparation booting operating system Chapter Removing Replacing Components-Changing field-replaceable units (FRUs) Chapter System Specifications-Details Integrity Superdome Chapter Site Preparation-Preparation customer's site before installation Integrity Superdome
addition, following appendices provide supplemental material. Appendix Operating System Boot Shutdown-Describes power down power server. Appendix Powering System-Describes power system, tasks required several section this document. Appendix Boot Maintenance Manager Integrity Superdome-Describes boot manager. Appendix Configuration-Provides allowable configurations. Appendix Replaceable Parts-A list available field replaceable units (FRUs) Appendix Management Processor Commands-Details each commands Appendix JUST Exploration Tooll-Useful troubleshooting, installations, upgrades Appendix Templates-Useful planning customer installations.
Revision History
Table
Part Number A5201-10025 A5201-96025
Revisions
Edition First Second Summary Changes Initial Release. September 2003 Released March, 2004. Includes updates PA-8800, PA-RISC processor hp9000 Superdome, plus numerous additions corrections. Moved power procedures Appendix Released June, 2004. Includes updates dual-core processor forhp Integrity Superdome. Released September, 2004. Added general corrections updates. Removed troubleshooting chapter. Released November 2004. Updated upgrade chapter. Released February 2005. Updated remove replace chapter list.
A5201-96029
Third
A5201-96034 A5201-96039 A5201-96044
Fourth Fifth Sixth
Overview
Superdome family high-end computers members: Integrity Superdome 9000 Superdome. Improvements over Superdome predecessors include higher processor performance, increased local cell board memory bandwidth, increased scalability. Integrity Superdome uses Itanium® single- dual-core processors, 9000 Superdome uses dual-core PA-8800.
Chapter
Overview
biggest differences between Integrity Superdome servers 9000 Superdome servers earlier Superdome family products include (but limited to): Cell board design using either following processors: Itanium® single- dual-core Integrity Superdome PA-8800 PA-RISC dual processor 9000 Superdome Firmware packages. Management Processor CLU-clocks, bus, (Environmental monitors) Core (Console chassis) System Integrity Superdome (IPF cell board) System 9000 Superdome cell board) PDHC (SINC comes cell board) Event dictionary (ED) 12-slot PCI-X card cage 2-GB DIMMS optional support Management Stations Windows-based Proliant ML350 (PC-SMS) HP-UX based Server rx2600 (HP-UX SMS) Integrity Superdome supports HP-UX 11.23 Windows Server 2003, Datacenter. 9000 Superdome supports HP-UX 11.11.
Chapter
Overview Basic System Building Blocks
Basic System Building Blocks
basic system building blocks used configure Integrity Superdome system follows: Server cabinet Support Management Station
Figure page illustrates typical SD16 SD32 installation. Figure page illustrates typical SD64 installation. Figure page illustrates typical SD64 expansion cabinet installation. Server Cabinet server cabinet main building block. SD64 comprises server cabinets interconnected. single cabinet SD32 contain eight cell boards processors), four card cages, five fans, four system cooling fans, bulk power supplies, PDCAs. Figure illustrates location these components. single cabinet SD16 contain four cell boards, four card cages, five fans, four system cooling fans, four bulk power supplies (BPS), Power Distribution Control Assemblies (PDCA). Additionally, above, backplane power supplies provides SD16.
Chapter
Overview Basic System Building Blocks
Figure
Server Cabinet Components
Fans
Cell Boards
Chassis Fans
PDCA
Chapter
Overview Basic System Building Blocks
Figure
Typical SD32 Installation
Chapter
Overview Basic System Building Blocks
Figure
Typical SD64 Installation
Chapter
Overview Basic System Building Blocks
Figure
Typical Installation with
Support Management Station Proliant M350-G3 rack-mount version, which includes TFT-5600 rack-mount display keyboard.
Chapter
Overview Configuration Rules
Configuration Rules
Integrity Superdome and/or 9000 Superdome rules configuration follows: Single-cabinet system: CPUs complex with single-core processors Four cores complex with dual-core processors Minimum cell Maximum eight cells Dual-cabinet system: cores complex with single core processors Twelve cores complex with dual-core processors Minimum three cells Maximum cells master/checker support dual-core processors mixing processor types within partition Processors running different frequencies allowed within same partition. Processors with different steppings allowed depending stepping changes. Each family Itanium® Processor Family Itanium® processors must different partitions. Homogeneous cell board population; mixing older PA-RISC Superdome cell boards (PA-8700+, PA-8700, PA-8600) with Itanium® PA-8800 cell boards mixing Itanium® PA-8800 cell boards same complex Maximum DIMMs cell. 16-GB memory cell with 128-Mb SDRAMs (512-MB DIMMs). 32-GB memory cell with 256-Mb SDRAMs (1-GB DIMMs). 64-GB memory cell with 512-Mb SDRAMs (2-GB DIMMs). DIMM mixing allowed support. Supported subsystems with System Adaptor (SBA) Local Adaptor (LBA)
Chapter
Overview Utilities Subsystem
Utilities Subsystem
Both types servers contain group boards that together form Utilities subsystem. These include: UGUY SBCH-Single Board Computer SBC-Single Board Computer HUCB-HalfDome Utility Connector Board
UGUY
UGUY board major component utility subsystem. provides following functions: System clocks Cabinet power monitor Cabinet utility circuits providing scan, reset, driver functions Cabinet number switch
Every cabinet contains UGUY. UGUY plugs into HUCB. swappable. microprocessor controls power monitor functions, executing power monitor (PM3) firmware cabinet-level utility (CLU) firmware.
SBCH
SBCH, along with SBC, forms part function. provides physical electrical interface SBC, fanning Universal Serial (USB) internal external subsystems, 10/100BT Ethernet connection. plugs into HUCB swappable. Every cabinet contains SBCH board, only SBCH contains board used complex. remaining SBCH boards hubs.
board embedded running System Utility Board (SUB) firmware. core Management Processor plugs into SBCH board through PC104 interface.The provides three external interfaces Utility Subsystem: (10/100BT Ethernet) customer console access RS232 port remote access from response center through modem RS232 port local console access manufacturing field support personnel
modem function included must external cabinet.
HUCB
HUCB backplane Utility Subsystem. provides cable distribution utility signals except clocks. also provides customer interface serial ports. connects HUCB. system "type" switch located HUCB. There active circuits this board. swappable.
Chapter
Overview Cell Board
Cell Board
cell board with firmware biggest change Superdome family. provides processing memory resources required each Integrity Superdome system configuration. Each cell board uses four Itanium® processor modules Integrity Superdome) four PA-8800, dual-core, PA-RISC processor modules 9000 Superdome), single cell coherency) controller (CC), high-speed crossbar interface, high-speed interface, eight memory controller CCs, capacity high-density DIMMs, high-speed clock-distribution circuitry, utility subsystem interface, scan (JTAG) circuitry manufacturing test, low-voltage power interface. system backplane accommodates eight cell boards allowing processor modules DIMMs single system cabinet. cell power board (OCPB) separate from cell board. OCPB attach cell board.
Figure
Integrity Superdome Cell Board
Power Board Attaches Cell Board
Cell Board
heart cell board, coherency controller (CC), provides Front Side (FSB) interface each processor module pairs. communication bandwidth (6.4 GB/s MHz) both interfaces therefore, split between processor modules. Interfaces external cell board provided constitute crossbar interface, referred fabric, remote subsystem link. fabric interface allows multiple cell boards communicate with each other across self-correcting, high-speed GB/s) communication pathway. remote link provides self-correcting, high-speed GB/s) communication pathway between cell board subsystem through pair cables. addition, also provides cell board with interface cell board's local memory subsystem.
Chapter
Overview Cell Board
Figure
Cell Board Functional Block Diagram
Cell Controller
five major interfaces: Processor (two independent FSBs) Crossbar (cell interconnect fabric) Remote link Memory subsystem Platform-dependant hardware (PDH)
Using internal, centralized data path, maintains cache coherency throughout system with memory tags. also internal that helps simplify clock distribution within confines ASIC source additional clocks memory subsystems.
Processors Front-Side Interfaces
Each FSBs connected processor modules standard three-drop configuration. minimizes total routing delay without sacrificing timing skew between address data control signals achieve frequency transmitting data both edges interface clock. With 128-bit capable achieving MT/s, MB/s burst data transfer rate realized.
Crossbar Link
crossbar link self-correcting, high-speed interface between crossbar backplane. comprises eight data "bundles," each with differential strobe synchronization, designed achieve peak data transfer rate GB/s. Four eight bundles used input data, each bundle contains
Chapter
Overview Cell Board either bits. other four bundles used output data also either bits width. crossbar link built-in link presence detect capability that effectively prevents either crossbar from driving signals into unpowered device opposite side link.
Remote Link
remote link self-correcting, high-speed interface that connects between through pair differential cables. This differential link input differential data "bundle" output differential data "bundle," each with differential strobe synchronization. link achieves peak data transfer rate GB/s. Embedded inside each cables differential signal pair that sends utility subsystem information through cables from core card plugged remote Backplane. This utility information allows diagnosis various cable interconnect problems that might encountered during system installation, maintenance, normal operation. differential link built-in presence detect capability that effectively prevents either SBA/LBA from driving signals into unpowered device opposite side link.
Memory Interface-Memory Multiplexer
memory interface Memory Multiplexer (MM-shown Figure JAB) multiplexes demultiplexes data between SDRAM memory subsystem. data portion memory subsystem enters exits four 72-bit wide Memory Interface Data (MID) buses, each running MT/s. provides independent access path memory, with address bus, control bus, data bus, MMs, DIMMs. Only data portions memory subsystem routed through devices. address control signals DIMMs generated sent directly DIMMs memory interface address control buses. This results lower memory latency.
Processor Dependent Hardware
uses Intel 80C251 embedded micro controller interface chip provide hardware resources required both system utility firmware. utility subsystem employs intelligent interface that capable passing multiple forms information between system firmware PDHC. Features provided hardware include: Flash EPROM PDHC boot-strap code storage PDHC SRAM operational instruction data storage Disposal CPLD provides memory-mapped Cars control cell board multiple utility subsystem needs System Management (Snubs) reading processor EEPROM, scratch EEPROM, thermal sensing device reading PDH, cell board, cell power board identification information Control monitoring cell board local power Timing control cell board reset signals Logic analyzer port accessing signals Arbitration between processors (system firmware) utility subsystem allow utility subsystem access peripheral components, which include:
Chapter
Overview Cell Board 12-MB FLASH EPROM system firmware boot-strap code storage 1-MB system firmware scratch SRAM operation instruction data storage 512-KB battery backed Non-Volatile (NVRAM) Wall-clock information provided battery-backed real-time clock (RTC) chip Marshal FPGA provides memory-mapped registers configuration-related information Serial Presence Detect (SPD) detection investigation loaded DIMMs Low-level debug general purpose debug port (UART)
Cell Power Board
Cell Power Board (OCPB) attaches cell board provides redundant 12v, 3.3v, 1.5v power (cell board. There OCPB cell board. contains DC-DC converters, linear regulator, input protection filter components, in-rush current limiting circuitry, five indicators, various status control logic devices. OCPB swappable itself.
Figure
Cell Power Board
Chapter
Overview PCI-X
PCI-X
PCI-X chassis holds PCI-X type cards systems. Older Superdome systems used only cards card cages. chassis consists following three printed circuit assemblies: PCI-X Backplane PCI-X Power Board PCI-X Transfer Board also contains necessary mechanical components required support PCI-X card slots. system architecture shown Figure 1-8. This figure depicts path between system backplane PCX-X card slots. each cell board communicates with System Adaptor (SBA) PCI-X card cage over link. link consists both inbound outbound link with effective bandwidth approximately GB/sec. each direction. converts link protocol into enhanced "ropes." support these high-speed bidirectional enhanced rope links total aggregate bandwidth approximately GB/sec. Local Adaptors (LBA) connected either single dual enhanced ropes.
PCI-X Backplane
heart PCI-X card cage backplane ASIC plus ASICs (one PCI-X slot). communicates directly with host cell board high bandwidth link. spawns enhanced ropes that communicate with chips. Each LBA, then, produces single 64-bit PCI-X bus, which supports single PCI/PCI-X card. enhanced ropes generated routed LBAs chips. PCI-X card slots support PCI-X 133. Each slot keyed 3.3-volt signaling accept universal 3.3-Volt only PCI-X add-in card. Associated with each PCI-X slot swap controller, which enables online addition, replacement, deletion individual PCI-X cards without disturbing operation other cards system. provides control/status signals internal registers necessary firmware control monitor power status PCI-X slot. also provides firmware control Attention indicator LED. Slot State indicator driven directly swap controller.
Chapter
Overview PCI-X
Figure
Subsystem Architecture
PCI-X Power Board
PCI-X power board (PCI-X contains DC-DC converters, over-voltage protection, filter components, in-rush current limiting circuitry, local power monitor (GIOLPM) CPLD, various status control logic devices. provides power (+1.5,+1.8V, +3.3V, +5V, +12V, -12V +5V_HK) PCI-X backplane boards. PCI-X mounts under backplane board connected transfer board secured frame form hot-swappable assembly. electrical connections between boards made transfer board. Each power board contains power monitor, which enables monitors power converters reports status utilities subsystem. power monitor also contains reset delay circuit transmitter circuit cable exploration.
Chapter
Overview PCI-X
PCI-X Transfer Board
PCI-X transfer board connects several power sources utilities signals from PCI-X PCI-X backplane.
Core
Core refers base functions required every partition. core card uses standard full-length PCI-X form factor adds secondary edge connector line with PCI-X connector. PCI-X slot backplane been designed accommodate Core requirements without impeding that slot's ability support standard PCI-X add-in cards. Each partition must have least core card order boot. Multiple core cards present within partition (one core card supported backplane). Only card's partition interface, however, will active time. Notice that this does apply Ethernet portion board, which active multiple boards same time. communicates with Core through interface that internal cabinet. microprocessor Core runs Partition Interface firmware. External interfaces provided system 10/100BT LAN. external port added support mouse. Windows Server 2003, Datatcenter requires Windows-based card does capability provided standard Core card.
Chapter
Overview System Backplane
System Backplane
There backplane boards: HLSB (Left Backplane) HRSB (Right Backplane). single-cabinet system determination relevant, two-cabinet system Whether system either left right backplane depends location system SD64 complex. Each backplane "flex" connection side other. flex interconnect allows connecting cabinets across crossbar link. order create cabinet system using this flex interconnect, cabinet must contain HLSB other must contain HRSB. Flex goes between backplanes. backplane supports eight cell boards four crossbar ASICs. contains clock circuits, Local Power Monitor (LPM), link exploration logic, various JTAG reset logic devices. swappable system power must removed replace backplane. backplane also contains three Backplane Power Boards (HBPB) backplane that located opposite side from cell boards. There maximum three HBPBs backplane. HBPB supplies (N=2) redundant +1.8 power (N=1) redundant +3.3 power. Each HBPB contains DC-to-DC brick converter each these voltages. These converters support current sharing with other HBPBs system. They accessible from rear cabinet swappable.
NOTE
When swapping failed HBPB, some Superdome systems upgraded either Integrity Superdome 9000 Superdome system could lose power down complex. system backplane engineering date code 4310 greater possibility does exist.
Chapter
Overview Front Panel Display Cell
Front Panel Display Cell
Front Panel board (FPB) located front skins accessible user. contains power ON/OFF switch, decimal display cabinet numbers between LED's Power Good, Power Good, Present, Remote, Attention. Each cabinet contains Front Panel board. This assembly swappable. Cell (HCOLB) unit located front cabinet making LEDs visible from front cabinet. contains LEDs, each cell board. This assembly swappable.
Chapter
Overview Firmware
Firmware
firmware consists many components loosely coupled single framework. These components individually linked binary images that bound together time. Internally, firmware employs software database called device tree represent structure hardware platform provide means associating software elements with hardware functionality. firmware incorporates following main interfaces: Processor Abstraction Layer (PAL)-Provides seamless firmware abstraction between processor system software platform firmware. System Abstraction Layer (SAL)-Provides uniform firmware interface initializes configures platform. Extensible Firmware Interface (EFI)-Provides interface between operating system platform firmware. uses data tables that contain platform-related information; boot runtime service calls that available operating system loader provide standard environment booting. Advanced Configuration Power Interface (ACPI)-Provides standard environment configuring managing server systems. moves system configuration management from BIOS operating system abstracts interface between platform hardware operating system software, thereby allowing each evolve independently other. firmware supports HP-UX Linux, Windows through Itanium® Processor Family standards extensions operating systems specific functionality included. operating systems presented same interface system firmware, features available operating system. exception this that Windows Server 2003, Datacenter does support latest ACPI specification (2.0). firmware must provide legacy (1.0b) ACPI tables that operating system. Using acpiconfig command, ACPI tables presented operating system different. firmware implements standard Itanium® Processor Family interfaces with some implementation-specific enhancements that operating system required use, such Page Deallocation Table reporting, through enhanced SAL_GET_STATE_INFO behavior.
User Interface
Itanium® Processor Family Firmware employs user interfaces called Pre-OS System Startup Environment (POSSE). POSSE shell based standard shell. Several commands have been added standard shell support Hewlett-Packard value-added functionality. commands encompass functionality similar commands PA-RISC machines. However, POSSE shell designed encompass functionality. They separate distinct interfaces. Please POSSE specifications further details.
Event Errors Events
system firmware generates event IDs, similar chassis codes, errors, events, forward progress through common shared memory. interprets, stores, reflects these event back running partitions. This helps troubleshooting process.
Chapter
Overview Firmware
Chapter
Installing System
This chapter describes installation Integrity Superdome 9000 Superdome systems. assumed that installer received adequate training knowledgeable with product good, overall background electronics customer hardware installation.
Chapter
Installing System Introduction
Introduction
instructions this guide written Customer Engineers (CEs) experienced installing complex systems. installing Integrity Superdome 9000 Superdome first time, read this manual. provides details about each step installation process. Some steps must performed before others completed successfully. avoid having undo redo installation step, follow installation sequence outlined this guide.
Communications Interference
system compliance tests conducted with supported peripheral devices shielded cables, such those received with system. system meets interference requirements countries which sold. These requirements provide reasonable protection against interference with radio television communications. Installing using system strict accordance with instructions provided minimizes chances that system will cause radio television interference. However, does guarantee that system will interfere with radio television reception. Take these precautions: only shielded cables. Install route cables instructions provided. Ensure that cable connector screws firmly tightened. only supported peripheral devices. Ensure that panels cover plates place secure before system operation.
Electrostatic Discharge
systems peripherals contain assemblies components that sensitive electrostatic discharge (ESD). Carefully observe precautions recommended procedures this manual prevent component damage from static electricity. Take these precautions: Always wear grounded wrist strap when working around system components. Treat assemblies, components, interface connections static-sensitive. When unpacking cards, interfaces, other accessories that packaged separately from system, keep accessories their conductive plastic bags until they ready installed. Before removing replacing components installing accessories system, select work area where potential static sources minimized, preferably anti-static work station. Avoid working carpeted areas, keep body movement minimum while installing accessories.
Chapter
Installing System Unpacking Inspecting
Unpacking Inspecting
This section describes what before unpacking server unpack system itself.
WARNING
attempt move cabinet, either packed unpacked, down incline more than 15o.
Verifying Site Preparation
Verifying site preparation includes tasks: gathering information verifying electrical requirements. Gathering Information connects customer's LAN. Determine appropriate address. Verifying Electrical Requirements site should have been verified proper grounding electrical requirements prior system being shipped customer part site preparation. Before unpacking installing system, verify with customer that grounding specifications power requirements have been met.
Checking Inventory
sales order packing slip lists equipment shipped from this packing slip verify that equipment arrived customer site.
NOTE
identify each item part number, refer sales order packing slip.
large overpack containers labeled "Open First." This contains Solution Information Manual DDCAs. unpacking instructions plastic taped cabinet. following items other containers should checked against packing list: Power Distribution Control Assembly (PDCA) power cord blower housings cabinet Four blowers cabinet Four side skins with related attachment hardware Cabinet blower bezels front door assemblies Support Management Station Cables Optional equipment Boot device with HP-UX, Windows, and/or Linux installed.
Chapter
Installing System Unpacking Inspecting
Inspecting Shipping Containers Damage
shipping containers designed protect their contents under normal shipping conditions. After equipment arrives customer site, carefully inspect each carton signs shipping damage.
WARNING
attempt move cabinet, either packed unpacked, down incline more than 15o.
Chapter
Installing System Unpacking Inspecting tilt indicator installed back side cabinet shipping container. container been tilted angle that could cause equipment damage, beads indicator shift positions. carton received physical shock tilt indicator abnormal condition, visually inspect unit signs damage. damage found, document damage with photographs, contact transport carrier immediately.
Figure
Tilt Indicator (Normal)
Tilt Indicator
Retaining Bands
Retaining Bands
Figure
Tilt Indicator (Abnormal)
Chapter
Installing System Unpacking Inspecting
NOTE
tilt indicator shows that abnormal shipping condition occurred, write "possible hidden damage" bill lading, keep packaging.
Inspection Precautions When shipment arrives, check each container against carrier's bill lading. Inspect exterior each container immediately mishandling damage during transit. containers damaged, request carrier's agent present when container opened. When unpacking container(s), inspect each item external damage. Look broken controls connectors, dented corners, scratches, bent panels, loose components.
NOTE
Hewlett-Packard recommends keeping shipping container packaging material. becomes necessary repackage cabinet, original packing material will needed. discarding shipping container packaging material, please dispose them environmentally responsible manner (recycle, possible).
Claims Procedures shipment incomplete, equipment damaged, fails meet specifications, notify nearest Hewlett-Packard Sales Service Office. damage occurred transit, notify carrier well. Hewlett-Packard will arrange replacement repair without waiting settlement claims against carrier. event damage transit, retain packing container packaging materials inspection.
Unpacking Inspecting Hardware Components
Tools Required following tools required install system: Standard hand tools (such adjustable-end wrench) grounding strap Digital Ohm-Voltmeter VOM) capable reading AC/DC voltages 1/2-inch wrench/socket 9/16-inch wrench Phillips screwdriver Flathead screwdriver Wire cutters utility knife Safety goggles glasses T10, T15, T20, T25, Torx drivers 9-pin 25-pin serial cable (Hewlett-Packard Part Number 24542G) 9-pin 9-pin Null modem cable (Hewlett-Packard Part Number F1047-80002)
Chapter
Installing System Unpacking Inspecting Unpacking Cabinet
CAUTION
three people unpack cabinet safely.
Hewlett-Packard recommends removing cardboard shipping container before moving cabinet into computer room.
NOTE
unpacking cabinet computer room, sure position that moved into final position easily. Notice that front cabinet side with label showing align ramps.
unpack cabinet, perform following steps: Step Position packaged cabinet that clear area about three times length package (about feet) available front unit, least feet available sides.
Figure 2-3Front Cabinet Container
Label
Step plastic Polystraps bands around shipping container.
WARNING
stand directly front strapping while cutting Hold band above intended wear protective glasses. These bands under tension. When cut, they spring back could cause serious injury.
Chapter
Installing System Unpacking Inspecting
Figure 2-4Cutting Polystrap Bands
Hold Here
Here
Polystrap Bands
Step Lift cardboard corrugated shipping box. Step Remove corrugated sleeves surrounding cabinet. Step Remove stretch wrap, front rear foam inserts, four corner inserts from cabinet. Step Remove ramps from pallet them aside.
Chapter
Installing System Unpacking Inspecting
Figure 2-5Removing Ramps from Pallet
Ramps
Chapter
Installing System Unpacking Inspecting Step Remove plastic anti-static lifting straight cabinet, check damage. damaged, follow claims procedure. Some damage repaired replacing damaged part. extensive damage found, necessary repack return entire cabinet Hewlett-Packard. Check cabinet exterior signs shipping damage. Step Look sides dents, warpage, scratches. Step Check that power supply mounting screws place locked.
Figure 2-6Check Power Supply Mounting Screws
Power Supply Mounting Screws
Power Supplies
Chapter
Installing System Unpacking Inspecting Step Check that chassis mounting screws place secure.
Figure 2-7I/O Chassis Mounting Screws
Mounting Screws
Chassis
chassis
Check components signs shifting during shipment signs damage. Step Remove shipping strap that holds BPSs place during shipping.
Chapter
Installing System Unpacking Inspecting
Figure 2-8Remove Shipping Strap
Remove Shipping Strap
Step Remove pallet mounting brackets pads side pallet where ramp slots located.
Figure 2-9Removing Mounting Brackets
Chapter
Installing System Unpacking Inspecting Step other side pallet, remove only bolt each mounting bracket that attached cabinet.
WARNING
remove bolts mounting brackets that attach pallet. These bolts prevent cabinet from rolling back pallet.
Step Insert ramps into slots pallet.
CAUTION
Make sure ramps parallel aligned.
casters cabinet should roll unobstructed onto ramp.
Figure 2-10Positioning Ramps
WARNING
attempt roll cabinet without help. cabinet weigh much 1400 lbs. Three people required roll cabinet pallet. Position person rear cabinet person each side.
Chapter
Installing System Unpacking Inspecting Step Carefully roll cabinet down ramp.
Figure 2-11Rolling cabinet Down Ramp
WARNING
attempt move cabinet, either packed unpacked, down incline more than 15o.
Step Unpack other cabinet(s) that shipped.
Unpacking PDCA
least Power Distribution Control Assembly (PDCA) shipped with system. some cases, customer have ordered PDCAs, second used backup power source. Unpack PDCA ensure power cord option this installation. There several power cord options available PDCAs. Only options currently available system configurations. Table details options
Chapter
Installing System Unpacking Inspecting
Table
Available Power Options
Source Type 3-phase Source Voltage (nominal) Voltage range 200-240 VAC, phase-to-phase, 50/60 Voltage range 200-240 VAC, phase-to-neutral, 50/60 PDCA Required four-wire Input Current Phase 200-240 Maximum phase Power Receptacle Required Connector plug provided with 2.5-meter power cable. Electrician must hard-wire receptacle site power.b,d Connector plug provided with 2.5-meter power cable. Electrician must hard-wire receptacle site power.b,d
Option
3-phase
five-wire
Maximum phase
dedicated branch circuit required each PDCA installed.
Table
PDCA Part Number A5201-69023 (Option
Option Specifics
Attached Power Cord OLFLEX 600804) meter multi conductor, volt, degree approved, resistant flexible cable. capacity) H07RN-F (OLFLEX 1600130) meter heavy duty neoprene jacketed harmonized European flexible cable. capacity) Attached Plug Mennekes 460P9 capacity) Receptacle Required Mennekes 460R9 capacity)
A5201-69024 (Option
Mennekes 532P6-14 (32A capacity)
Mennekes 532R6-1500 capacity)
Returning Equipment
equipment found damaged, original packing material repackage cabinet shipment. packing material available, contact local Hewlett-Packard Sales Support Office regarding shipment. Before shipping, place container equipment) identify owner service performed. Include equipment model number full serial number, applicable. model number full serial number printed System Information Labels located bottom front cabinet.
WARNING
attempt push loaded cabinet ramp onto pallet. Three people required push cabinet ramp position pallet. Check condition loading/unloading ramp before use.
Chapter
Installing System Unpacking Inspecting Repackaging: Step Assemble Hewlett-Packard packing materials that came with cabinet. Step Carefully roll cabinet ramp. Step Attach pallet mounting brackets pallet cabinet. Step Reattach ramps pallet. Step Replace plastic anti-static foam inserts. Step Replace cardboard surrounding cabinet. Step Replace cardboard caps. Step Secure assembly pallet with straps. cabinet ready shipment.
Chapter
Installing System Setting Integrity Superdome 9000 Superdome
Setting Integrity Superdome 9000 Superdome
After site been prepared, system been unpacked, components have been inspected, system prepared booting.
Moving System Related Equipment Installation Site
Carefully move cabinet(s) related equipment installation site into final location. system placed row, side bezels must added before positioning cabinet final location. Check path from where system unpacked final destination make sure clear free obstructions. cabinet must moved ramps, sure maneuver using three people.
Unpacking Installing Blower Housings Blowers
There blower housings four blowers each cabinet. Although similar size, blower housings each cabinet same; connector which other attaches. following procedure unpack install housings blowers: Step Unpack housings from cardboard them aside. rear housing labeled Blower Blower front housing labeled Blower Blower
CAUTION
lift housing stiffener.
Figure 2-12Blower Housing Stiffener
Blower Housing Stiffener
Handles
Step Remove cardboard from blower housing.
Chapter
Installing System Setting Integrity Superdome 9000 Superdome This cardboard protects housing baffle during shipping. removed, fans will work properly.
Figure 2-13Removing Protective Cardboard from Housing
NOTE
Double-check that protective cardboard been removed.
Step Using handles housing labeled Blower Blower part number A5201-62029, align edge housing over edge rear cabinet, slide into place, tighten thumbscrews front housing.
Figure 2-14Installing Rear Blower Housing
Chapter
Installing System Setting Integrity Superdome 9000 Superdome Step Using handles housing labeled Blower Blower part number A5201-62030, align edge housing over edge front cabinet, slide into place until connectors back each housing fully mated; then tighten thumbscrews front housing.
Figure 2-15Installing Front Blower Housing
Step Unpack each four blowers. Step Insert each four blowers into place blower housings with thumbscrews bottom.
Figure 2-16Installing Blowers
Chapter
Installing System Setting Integrity Superdome 9000 Superdome Step Tighten thumbscrews front each blower. Step required, install housings other cabinets that were shipped with system.
Attaching Side Skins Blower Side Bezels
There cosmetic side panels that affix left right sides system. addition, there bezels that cover sides blowers.
IMPORTANT sure attach side skins this time installation sequence, especially cabinet positioned cabinets between cabinets. Attaching Side Skins There four side skins: front-side skins rear-side skins.
NOTE
Attach side skins left side Cabinet right side Cabinet applicable).
attach side skins: Step already done, remove side skins from their boxes protective coverings. Step From brackets back cabinet, position side skin with joint (rear) over bracket under bottom bracket, gently slide into position. skins installed each side cabinet, joint (rear) does (front). side skins with joint marked Rear side skins without joint marked Front.
Figure 2-17Attaching Rear Side Skin
Chapter
Installing System Setting Integrity Superdome 9000 Superdome Step Attach skin without joint (front) over bracket under bottom bracket gently slide skin into position.
Figure 2-18Attaching Front Side Skins
Step Push side skins together, making sure skins overlap joint. Attaching Blower Side Bezels bezels held bezel lip, which fits over blower housing frame, secured bottom tabs that into slots cabinet side panels. right left blower side bezels attached using same procedure.
Chapter
Installing System Setting Integrity Superdome 9000 Superdome Step Place side bezel slightly above blower housing frame.
Figure 2-19 Attaching Side Bezels Blower Bracket Locks
Brackets
Blower Side Bessel Detail
Notches
Brackets Step Align lower bezel tabs slots side panels. Step Lower bezel bezel fits securely blower housing frame lower tabs fully inserted into side panel slots. Step Using Torx drive, attach screws (Hewlett-Packard 0515-4271) secure skins brackets.
NOTE
four screws attach side skins bottom brackets, except bracket right side (facing front cabinet). attach rear screw that bracket. Insert screws tighten until side skins aligned.
Chapter
Installing System Setting Integrity Superdome 9000 Superdome Step Repeat Step through Step skins other side cabinet. Step secure side bezels side skins, attach blower bracket locks (Hewlett-Packard A5201-00268) front back blowers using Torx driver. There blower bracket locks front blowers rear. Refer Figure 2-19.
Attaching Leveling Feet Leveling cabinet
After positioning cabinet final position, attach adjust leveling feet using following procedure: Step Remove leveling feet from their packages. Step Attach leveling feet cabinet using four (T25 Torx) screws.
Figure 2-20Attaching Leveling Feet
Step Screw down each leveling foot clockwise, until firm contact with floor. Adjust each foot until cabinet level.
Installing Front Door Bezels Front Back Blower Bezels
There doors: front back. back door shipped chassis requires assembly. front door, which also shipped chassis, requires assembly plastic bezels front surface cable from door upper front bezel. addition, there bezels that over blowers front back cabinet. Installing Front Door Bezels front door assembly includes cosmetic covers, control panel, lock. Installing front door three-step process: connecting control panel ribbon cable from chassis control panel, mounting plastic bezels onto metal chassis door.
Chapter
Installing System Setting Integrity Superdome 9000 Superdome
NOTE
procedure this section requires people must performed with front metal chassis door open.
install front door assembly: Step Open door, unsnap screen, remove filters held place with Velcro. Step Remove cabinet keys that taped inside front door bezel. Step Insert shoulder studs lower door bezel into holes front door metal chassis.
Figure 2-21Installing Lower Front Door Assembly
Step Using Torx driver, secure lower door bezel front door chassis with screws provided (Hewlett-Packard 0515-0372). Insert screws loosely, then torque them after bezel aligned. Step While person holds upper door bezel near door chassis, attach ribbon cable back control panel bezel tighten flathead screws.
Chapter
Installing System Setting Integrity Superdome 9000 Superdome
Figure 2-22Installing Upper Front Door Assembly
Front Panel Display Cable
Step Feed grounding strap through door attach cabinet. Step Insert shoulder studs upper door bezel into holes front door metal chassis. Step Using Torx driver, secure upper door bezel metal door with eight screws provided, part number 0515-0372. sure hold down hinge side bezel while tightening screws prevent misalignment bezel. Step Reattach filters removed Step Installing Rear Blower Bezel rear blower bezel cosmetic cover blowers located above rear door. install rear blower bezel: Step Open rear cabinet door. latch located right side door. Step Slide bezel over blower housing frame, hooking bezel onto cross support blower housing, hold bottom bezel. Rotate bezel from until bottom snaps place.
Chapter
Installing System Setting Integrity Superdome 9000 Superdome
Figure 2-23Installing Rear Blower Bezel
Step Align bezel over nuts that attached bracket rear cabinet. Step Using Torx driver, tighten captive screws lower flange bezel.
NOTE
Tighten screws securely, otherwise screw interfere with door.
Step Close cabinet rear door. Installing Front Blower Bezel front blower bezel cosmetic cover blowers located above front door. install following procedure: Step Open front door. latch located right side front door. Step Position bezel over blower housing frame, hooking bezel onto cross support blower housing.
Chapter
Installing System Setting Integrity Superdome 9000 Superdome
Figure 2-24Installing Front Blower Bezel
Step Align bezel over nuts that attached bracket front cabinet. Step Using Torx driver, tighten captive screws lower flange bezel.
NOTE
Tighten screws securely, otherwise screw interfere with door.
Step Close front door.
Installing Verifying PDCA
systems delivered with appropriate cable plug Options Check voltages receptacle prior plugging PDCA plug. Refer Figure 2-26 Figure 2-27 locations. verify proper wiring four-wire PDCA, measure voltage receptacle. Voltage should read phase-to-phase measured between receptacle pins follows: verify proper wiring five-wire PDCA, measure voltage receptacle. Voltage should read phase-to-neutral measured between receptacle pins follows:
Chapter
Installing System Setting Integrity Superdome 9000 Superdome
Figure 2-25
PDCA Assembly Options
Figure 2-26
Four-Wire Connector
Chapter
Installing System Setting Integrity Superdome 9000 Superdome
Figure 2-27
Five-Wire Connector
following procedure install PDCA: Step Make sure circuit breaker PDCA Off. Step Remove rear PDCA bezel removing four retaining screws. Step power cord down through appropriate opening floor tile. Step Insert PDCA into slot secure with four screws.
Chapter
Installing System Setting Integrity Superdome 9000 Superdome
Figure 2-28Installing PDCA
Step Using Torx driver, attach four screws that hold PDCA place. Step required, repeat Step through Step second PDCA. Step Re-install rear PDCA bezel.
CAUTION
check voltages with PDCA breaker Make sure electrical panel breaker PDCA breaker Off.
Step Plug PDCA connector. Step Check voltage PDCA. Using Torx driver, remove screw hinged panel PDCA. Refer Figure 2-29. Using Volt-Ohm meter (VOM), check following test points make sure they conform specifications PDCA local electrical specifications: voltage values match specifications, have customer contact electrician troubleshoot problem.
Chapter
Installing System Setting Integrity Superdome 9000 Superdome
Figure 2-29
Checking PDCA Test Points (5-Wire)
Detail Detail Detail
Test Points Retaining Screw
Table
4-Wire
5-Wire Voltage Ranges
5-Wire 200-240 200-240 200-240 Ground:
200-240 200-240 200-240
Neutral ground voltage vary from millivolts several volts depending distance ground/neutral bond transformer. Anything over should investigated site prep power specialists.
Chapter
Installing System Setting Integrity Superdome 9000 Superdome
Removing Panels
Remove front back electromagnetic interference (EMI) panels access ports visually check whether components place LEDs properly illuminated when power applied system. remove front back panels: Step Using Torx driver, loosen captive screw center front panel.
Figure 2-30Removing Front Panel Screw
Front Panel Screw
Step handle provided remove panel aside. When position, panels (front back) tightly place. Removing them takes controlled, firm, exertion. Step Loosen captive screw lower center back panel.
Chapter
Installing System Setting Integrity Superdome 9000 Superdome
Figure 2-31Removing Back Panel
Back Panel Screw
Step handle provided gently remove panel; then, aside.
Connecting Cables
cables attached tied inside cabinet. When system installed, these cables must untied, routed, connected cabinets where other cables terminate. following guidelines Figure 2-32 route connect cables. more information cable routing, refer "Routing Cables" page Each cabinet identified with unique color. cabinet color label located cabinet. colored label closest cable connector corresponds color cabinet which attached. colored label farther away from cable connector corresponds color cabinet where other cable attached. Figure 2-32, dotted lines show where label located where cable terminates. Each cable also labeled with unique number. This number label applied both ends cable near port where cable connected. Figure 2-32, cable number labels indicated circled numbers cabinet port numbers indicated with boxed numbers.
Chapter
Installing System Setting Integrity Superdome 9000 Superdome
Figure 2-32
Cable Labeling
Routing Cables
Routing cables significant task installation process. important only immediate need completing installation, efficient cable routing important when future service calls made. Neatness counts. most efficient space route cables that they crossed tangled.
Chapter
Installing System Setting Integrity Superdome 9000 Superdome
Figure 2-33
Routing Cables
following procedure guidelines route cables through cable groomer bottom rear cabinet. Step Remove cable access plate bottom groomer. Step Beginning front cabinet, route cables using following pattern: Route first cable left side left-most card cage first. Route under PCI-X card cage toward back cabinet down through first slot right cable groomer. Route second cable left side left-most card cage right first cable, until routing cables card cage complete. number width cables vary from system system. judgement customer's present estimated future needs determine many cables should routed through each cable groomer slot. After routing left most card cage front cabinet, route cables right-most card cage back cabinet. Begin with right cable card cage work toward left. After routing cables right-most card cage rear cabinet, return front system route cables next card cage right.
Chapter
Installing System Setting Integrity Superdome 9000 Superdome Repeat above pattern until cables routed. Step Connect Management Processor (MP) cables last. Step Reattach cable access plate bottom cable groomer. Step Reattach cable groomer kick plate back cabinet. Step Slip bracket(s) under power cord rear PDCA. Step While holding bracket place, insert PDCA completely into cabinet secure bracket with screw.
Chapter
Installing System Connecting Customer
Connecting Customer
This section discusses connect, verify Superdome customer LAN. information includes network name (host name), address, subnet mask, gateway address. This information provided customer.
Connecting Network
NOTE Unlike earlier Superdome systems, which required connected private LAN, system connects customer's through appropriate hub, switch, router, other customer-provide device. some cases, customer want connect private management LAN. This done, customer must informed that they will able access remotely will have "local" device. Connect customer's LAN: Step Connect RJ-45 cable port
Figure 2-34MP Connection Location
MP-to-Customer Connection
Step Connect other cable customer-designated port. Obtain address from customer. Connect dial-up modem cable between modem customer's phone line connection.
Chapter
Installing System Connecting Customer
Setting Customer Address
NOTE default address Customer port 192.168.1.1.
customer address: Step From Command Menu prompt (MP:CM>), enter (for Configuration). screen displays default values asks want modify them. good idea write down information, required future troubleshooting. already Command Menu, enter return Main Menu, then enter When enter following screen appears:
Figure 2-35LAN Configuration Screen
software working properly, should message: "LAN status: RUNNING." value address" field been factory. will need customer addresses from customer.
NOTE
customer address designated Port
Step prompt will want modify port enter current Customer address shown; then following prompt appears: want modify (Y/[N]) Step Enter Step Enter address. customer should provide this address Port Step Confirm address. Step Enter Network Name.
Chapter
Installing System Connecting Customer This host name customer LAN. name like. name many characters, include alpha numerics, (dash), (under bar), (period), space. recommended that name derivative complex name. example, Acme.com_MP. Step Enter parameters Subnet mask Gateway address. This information should come from customer. Step check parameters status, enter command Command Menu prompt (MP:CM>). screen similar following appears:
Figure 2-36The Command Screen
return main menu, enter exit enter main menu.
Chapter
Installing System Turning Housekeeping Power
Turning Housekeeping Power
Step Verify that voltage input source within specifications each cabinet being installed. Step Ensure that: breakers position. Figure 2-37. cabinet power switch front cabinet position. breakers cabinet switches Expansion Cabinet present) position.
Step complex cabinet, power this cabinet first. Step Turn breakers PDCA(s) back each cabinet. large complex cabinets should powered following orders: front back panel, Present lights should illuminate. cabinet Present lights illuminate, only illuminates cabinet (the right cabinet).
NOTE
48-volt switch front panel should this time.
Chapter
Installing System Turning Housekeeping Power
Figure 2-37Front Panel Display with Housekeeping (HKP) Power Present Indicators
HKP, Present, Attention Lights
Step Check LEDs. When breakers PDCA distribute power BPSs. power present BPSs when: amber light next label Present breakers PDCA left side back cabinet) amber light next label Present breakers PDCA right side back cabinet)
Chapter
Installing System Turning Housekeeping Power
Figure 2-38BPS LEDs
LEDs
Chapter
Installing System Booting Verifying System
Booting Verifying System
After system been installed, should verified that proper hardware installed booted. This section describes power cabinet; boot test each partition. console window must open each partition. additional windows should also open: window initiating reset partitions other monitoring system partition status. each window initiated.
NOTE
should 48-volt switch front panel should this time. Refer section "Turning Housekeeping Power" page turning HKP.
Connecting Management Processor
Before powering cabinet, several windows must open connected Then volts switched each partition booted prompt. Step SMS, open required number command-prompt windows: "console" window each partition option) initializing command from monitoring partition status option)
each window connect entering: telnet hostname> telnet address> Step Enter appropriate login password prompt.
Figure 2-39Connecting Host
Chapter
Installing System Booting Verifying System main menu appears shown Figure 2-40.
Figure 2-40Main Menu
Step Repeat first steps each partition required. Step window, bring command prompt entering prompt, shown Figure 2-41.
Figure 2-41MP Command Option
Step another window, bring virtual front panel entering vfp, shown Figure 2-42. this window observe partition status.
Chapter
Installing System Booting Verifying System
Figure 2-42MP Virtual Front Panel
Step From menu, enter select whole system partition number select particular partition. output similar that shown Figure 2-43 should appear. this example, status should listed, because system volts been switched
Figure 2-43Example Partition State-Cabinet Powered
Step each remaining windows, bring partition console each partition enter prompt, shown Figure 2-44. These windows should blank. not, information them means nothing this point, because cabinet powered off.
Chapter
Installing System Booting Verifying System
Figure 2-44MP Console Option
Powering System Volts
Step Switch 48-volt supply from each cabinet front panel. complex cabinet, power this cabinet first. large complex cabinets should powered following orders:
IMPORTANT should running each window. cabinet boots, partition(s) activity observed window displaying VFP. Step Integrity Superdome systems, follow procedure "Booting Integrity Superdome Shell" page 9000 Superdome systems, follow procedure "Booting 9000 Shell" page
Chapter
Installing System Booting Verifying System
Booting Integrity Superdome Shell
After powering using command), partition console windows will show activity while firmware initialized will stop momentarily Boot Manager menu.
Figure 2-45hp Integrity Superdome Boot Manager
up-down arrows keyboard highlight Shell (Built-in) press enter. this partitions. partitions, after selecting Shell pressing enter, much activity viewed console window, will cease shell prompt appears shown Figure 2-46.
Chapter
Installing System Booting Verifying System
Figure 2-46
Shell Prompt
NOTE
autoboot enabled nPartition, must interrupted stop boot process firmware console: Integrity Superdome 9000 Superdome.
this point, virtual front panel indicates that each partition system firmware console indicated Figure 2-47.
Chapter
Installing System Booting Verifying System
Figure 2-47
Integrity Superdome Partitions System Firmware Console
Booting 9000 Shell
After powering using command), partition console windows will show activity while firmware initialized will stop menu shown Figure 2-48.
Figure 2-48hp 9000 Superdome Main Menu
Chapter
Installing System Booting Verifying System this point, virtual front panel indicates that each partition system firmware console indicated Figure 2-49.
Figure 2-49
9000 Superdome Virtual Front Panel
Verifying System
Step From prompt, enter observe power status. status screen shown Figure 2-50 should appear.
Figure 2-50Power Status First Window
Chapter
Installing System Booting Verifying System Step "Select Device" prompt, enter then cabinet number check power status cabinet. Observe that Power Switch: Power: enabled shown Figure 2-51.
Figure 2-51Power Status Window
Figure 2-51 shows that cells installed slots cabinet, there should cells physically located slots Step Enter from Command Menu, proceeding from Step 2.in previous section, simply press <CR> more time observe status shown Figure 2-52.
Figure 2-52Power Status Showing State UGUY LEDs (and other status)
Chapter
Installing System Booting Verifying System Step Verify that there columns marked CLU,
IMPORTANT appears column only cabinet that cabinet containing There only cabinet that contains that cabinet Verify that there each cells installed cabinet, comparing what Cells column with cells located inside cabinet.
Chapter
Installing System Running Software
Running Software
JTAG Utility Scan Tests (JUST) Exploration Tool, JET, collects system information each system network places files other scan tools. gathers configuration data executing series queries targeted portion UGUY board. described Appendix "JUST Exploration Tool," page 275.
IMPORTANT problems encountered must resolved before booting operating system.
Power Cycling After Using
Whenever JUST been run, system power must recycled, because off-line diagnostic deallocate CPUs. Remove Volts command, then cycle breakers rear cabinet(s). Appendix Powering System, details power cycling system complex cabinet(s), very important power cycle these cabinet(s) proper sequence.
Chapter
Installing System Attaching Rear Kick Plates
Attaching Rear Kick Plates
Kick plates serve practical purpose protecting cables from accidentally being disconnected damaged, well attractive cosmetic touch cabinet. There three metal pieces attach bottom rear cabinet. install kick plates: Step Hold left kick plate (A5201-0671) position attach clip (0590-2318) cabinet column next hole flange kick plate. Step Using screw (0515-0671) Torx driver, attach flange kick plate clip. Step Using Torx driver screw (0515-4271), attach bottom kick plate center hole leveling foot.
Figure 2-53Attaching Rear Kick Plates
Step Perform steps right kick plate (A5201-00281). Step Position upper flange center kick plate (A5201-00261) under tray's complementary mounting bracket (A5201-00402) retain center kick plate flanges. screws needed center kick plate bracket A5201-00402. This unsymmetrical bracket must orientated with hole located nearest edge position. Step Using Torx driver, tighten thumbscrews bottom center kick plate.
Chapter
Installing System Performing Visual Inspection Completing Installation
Performing Visual Inspection Completing Installation
After booting system, carefully inspect reinstall covers. Here steps required perform final inspection complete installation: Step Visually inspect system verify that components place secure. Step Check that cables secured routed properly. Step Check that cell board ejectors secure. ejectors broken open, cell board disconnected.
Figure 2-54Cell Board Ejectors7
Cell Board Ejector Cell Board Ejectors Detail Step Reinstall front panel. Hook flange lower corners panel into holes cabinet.
Chapter
Installing System Performing Visual Inspection Completing Installation
Figure 2-55Front Panel Flange cabinet Holes
Hole Flange
Detail
Position panel lift panel while pushing bottom into position. gasket have compressed panel seat properly. Reattach screw panel.
Chapter
Installing System Performing Visual Inspection Completing Installation
Figure 2-56Attaching Front Panel
Front Panel Screw
Step Check that cables inside rear enclosure secure. Step Reinstall back panel. Align inside cabinet with Panel.
Chapter
Installing System Performing Visual Inspection Completing Installation
Figure 2-57Reinstalling Back Panel
Cabinet Panel
Panel
Push panel gasket have compressed enclosure panel seat properly. Reattach screw bottom panel.
Chapter
Installing System Post-System-Installation Check
Post-System-Installation Check
After system been installed computer room verified, conduct post installation check. Before turning system over customer, important inspect system visually clean installation area. following: Inspect circuit boards. Check that circuit boards installed properly seated that circuit board retainers reinstalled. Inspect cabling. Check that cables installed, secured, properly routed. Inspect test points. Check that test leads removed from test points, that test points properly covered. Clean dispose debris. Remove debris from area, dispose properly. Perform final check. Inspect area ensure that parts, tools, other items used install system disposed properly. Then close lock doors. Enter information Gold Book. When installation cleanup complete, make appropriate notations Gold Book, which should have been shipped with system. Obtain customer acceptance required). This includes thanking customer choosing Hewlett-Packard.
Chapter
Installing System Post-System-Installation Check
Chapter
Removing Replacing Components
Chapter
Removing Replacing Components Powering Down Powering System
Powering Down Powering System
Throughout this chapter, well other places this book, there steps that require powering down power system. instructions these task covered Appendix "Powering System," page 199.
Chapter
Removing Replacing Components Removing Replacing Cabinet Side Skins
Removing Replacing Cabinet Side Skins
cabinet side skins identical right left sides. There four side skins, each side. These skins easily replaced.
Figure
Cabinet Side Skins location
Side Skins
Side Skins
Chapter
Removing Replacing Components Removing Replacing Cabinet Side Skins
Removing Cabinet Side Skins
Figure Cabinet Side Skins Detail
Slide first cabinet side skin forward cabinet rail. both skins removed from side, repeat this step.
Replacing Cabinet Side Skins
Position side skin rail skin aligns with rail cabinet. Gently slide skin into position until seated cabinet.
Chapter
Removing Replacing Components Removing Replacing Front Electromagnetic Interference (EMI) Cover
Removing Replacing Front Electromagnetic Interference (EMI) Cover
There (Electromagnetic Interference) cover front cabinet. This cover secured with captive screw lower center cover.
Removing Front Cover
Step Open front cabinet door. Step Loosen single slotted T-25 captive screw lower center cover. Step Using handle cover, tilt cover away from chassis captive screw edge. Step Remove cover from chassis.
Replacing Front Cover
Step Place cover onto chassis, leaving cover tilted outward from chassis captive side. Step Rotate cover into position flush with chassis frame. Step Tighten single captive screw lower center cover. Step Close front cabinet door.
Chapter
Removing Replacing Components Removing Replacing Rear Electromagnetic Interference (EMI) Cover
Removing Replacing Rear Electromagnetic Interference (EMI) Cover
There (Electromagnetic Interference) cover rear cabinet. This cover secured with captive screw lower center cover. screw seen through hole lower center cover. Care should taken damage gasket cover. This cover easily removed.
Figure
Rear Cover Location
Cover
Removing Rear Cover
Step Open rear cabinet door. Step Loosen single slotted T-25 captive screw lower center cover. Step Using handle panel, tilt cover away from chassis captive screw edge. Step Remove cover from chassis.
Chapter
Removing Replacing Components Removing Replacing Rear Electromagnetic Interference (EMI) Cover
Figure
Rear Cover Detail
Replacing Rear Cover
rear cover held place channel cover that slides into chassis. Step Push cover into rotate cover into position flush with chassis frame. Step Tighten single captive screw lower center cover. Step Close rear cabinet door.
CAUTION
Take care damage gasket cover.
Chapter
Removing Replacing Components Removing Replacing Rear Electromagnetic Interference (EMI) Cover
Figure
Rear Cover Installation
Chapter
Removing Replacing Components Removing Replacing Side Covers (for cabinet system)
Removing Replacing Side Covers (for cabinet system)
There covers sides cabinet. These covers place cable configuration cabinet system. Side covers secured with screws rear side cover. Care should taken damage gasket covers. These covers easily removed.
Removing Side Covers
Step Remove front rear blower bezels. Step Remove side bezel bracket from front rear. Step Lift side blower bezel off. This allows side skin removed. Step Remove rear cell panel. Step Release side skin removing screws from bottom skin. Step Remove side skins sliding forward along rails. Step Remove screws holding side panel place sliding shield forward.
Replacing Side Covers
Step Slide cover into slot rear chassis. Make sure fully seated flush with chassis frame. Step Secure shield place with screws bottom. Step Transfer door latch panel using T-20 screws. Step Install side skins. Step Install blower bezels. Step Close latch rear cabinet door.
CAUTION
damage gasket cover.
Chapter
Removing Replacing Components Removing Replacing Bulk Power Supply (BPS)
Removing Replacing Bulk Power Supply (BPS)
Bulk Power Supply (BPS) located front power system (FEPS). component easily replaced.
Removing Bulk Power Supply
This section contains information removing BPS.
Figure
detail
Step Loosen single captive thumbscrew lower front center portion BPS. Step Slide power supply forward using handle remove from FEPS. Step Make note that defective future reference.
Chapter
Removing Replacing Components Removing Replacing Bulk Power Supply (BPS)
Replacing Bulk Power Supply
Step Grip handle with hand while supporting rear other hand insert into same slot from which removed. Step easily slides into FEPS; however, slow firm pressure properly seat connection. Step Tighten single captive thumbscrew lower center BPS.
NOTE
over tighten captive thumbscrew.
Chapter
Removing Replacing Components Installing Additional Power Distribution Control Assembly
Installing Additional Power Distribution Control Assembly
Adding additional capacity existing system requires careful consideration planning. Solution Implementation Plan (SIP) should developed before visiting customer site. Figure shows cabinet with both PDCAs installed. PDCA first PDCA. PDCA position additional PDCA.
Figure
PDCA Locations
Bezel PDCA0 Rear PDCA Bezel
PDCA1 Bezel
Adding Option Option PDCAs
Option Option PDCA: Step Shut down server. Step Power supply server. Step Remove power plug from power source. Step Install PDCA into server.
Chapter
Removing Replacing Components Installing Additional Power Distribution Control Assembly power cord down through appropriate opening floor tile. Partially insert PDCA into slot. Slip bracket under power cord rear PDCA. While holding bracket place, insert PDCA completely into cabinet secure bracket with screw.
Figure Installing PDCA
Using Torx driver, attach four screws that hold PDCA place. Step Plug power cord into power source. Step Power supply server. Step Power boot server.
Chapter
Removing Replacing Components Removing Replacing Front-End Power Supply
Removing Replacing Front-End Power Supply
remove Front-End Power Supply (FEPS), turn breakers remove power from wall panel. Remove PDCAs BPSs. Mark remove cables from FEPS. Slide FEPS replace with one.
Removing Power From Cabinet
Step Power down partitions operating systems following procedures Appendix "Powering System." Step Power housekeeping voltage turning cabinet breakers. Step Turn breakers wall panel associated with cabinet.
WARNING
Ensure that electrical circuits cabinet have been opened.
Removing FEPS from Cabinet
Step Make proper electrostatic discharge (ESD) connections. Step Open front rear cabinet doors. Step Remove BPSs from front FEPS. Perform following steps each BPS: Loosen single captive thumbscrew lower front center portion BPS. Slide power supply forward using handle remove from FEPS.
Chapter
Removing Replacing Components Removing Replacing Front-End Power Supply
Figure 3-9Removing BPSs
Step Remove rear PDCA Bezel. This exposes cable groomer.
Chapter
Removing Replacing Components Removing Replacing Front-End Power Supply
Figure 3-10PDCA Locations
Bezel PDCA0
Rear PDCA Bezel
PDCA1
Bezel
Step Remove PDCAs using following procedure each. Remove bezel. Using Torx driver, loosen four captive screws that hold PDCA place. Pull PDCA from FEPS chassis carefully tile beside cabinet.
Chapter
Removing Replacing Components Removing Replacing Front-End Power Supply
Figure 3-11Removing PDCAs
Chapter
Removing Replacing Components Removing Replacing Front-End Power Supply Step Remove cable groomer removing four Torx screws that secure cabinet.
Figure 3-12Removing Cable Groomer
Step Unplug cables from FEPS.
Chapter
Removing Replacing Components Removing Replacing Front-End Power Supply
Figure 3-13Removing Cables Hardware from FEPS
Remove cables from these connectors Remove 3/8-inch nuts remove power cables
Rear View Cabinet
Step Remove 3/8-inch nuts washers securing heavy leads onto power busbar mark remove leads (four heavy leads sense lines).
Chapter
Removing Replacing Components Removing Replacing Front-End Power Supply Step Remove four Torx screws securing FEPS front cabinet.
Figure 3-14Removing FEPS
Step Grasp FEPS chassis remove from cabinet Step failed FEPS chassis aside boxed retuned nearest service center.
Replacing FEPS
Step Place FEPS into appropriate opening cabinet carefully slide toward back cabinet align four studs with holes power busbar.
IMPORTANT careful butt against power busbar risk bending breaking Step Once studs holes aligned correctly, slide FEPS into cabinet until front flanges flush with cabinet rack. Step Secure FEPS with four Torx screws. Figure 3-14 details. Step Replace BPSs. Push power supply into FEPS tighten single captive thumbscrew lower front center portion BPS.
Chapter
Removing Replacing Components Removing Replacing Front-End Power Supply
Figure 3-15Removing BPSs
Chapter
Removing Replacing Components Removing Replacing Front-End Power Supply Step Re-attach four heavy cables sense wires previously marked appropriate studs FEPS.
Figure 3-16Re-attaching Power Leads Cables
Attach cables these connectors Attach power cables tighten 3/8-inch nuts
Rear View Cabinet
Step Slide PDCA(s) into FEPS secure them tightening four captive screws each one. Step Re-attach cable groomer left right brackets. Restoring Power Cabinet Step Turn breakers wall panel associated with cabinet. Step Power housekeeping voltage turning cabinet breakers. Step Boot partitions following procedures Appendix "Powering System."
Chapter
Removing Replacing Components Removing Replacing Module
Removing Replacing Module
There five individual Modules located center each SD32000 cabinet. They labeled easily replaced from front cabinet. Figure 3-17. failures detected logic (UGUY) within cabinet. chassis code generated with error data identifying type blower) physical location within cabinet (fan number). This event relayed reflected partitions within complex their console interface.
Figure 3-17
Module Location
Module
Chapter
Removing Replacing Components Removing Replacing Module
Removing Module
This Section contains information removing Module
Figure 3-18
Module Detail
Step Locate failed module. modules numbered left right. failed will have "fan operating" off. Step Loosen thumbscrew located front center module. Step Slide module straight mounting frame.
Replacing Module
Step Slide replacement module into housing. electrical connection "blind mate" connector. Step Tighten thumbscrew located front center module.
NOTE
Take care disturb cable connections peripheral component interconnect (PCI-X) card cages when making repairs modules.
Chapter
Removing Replacing Components Removing Replacing Mounting Frame
Removing Replacing Mounting Frame
mounting frame holds five fans located front server. server must shut down perform this task.
Removing Mounting Frame
Step Open front rear cabinet doors. Step remove cables from card cages. Step Remove card cages blank panel present. Step Remove dividers from front rear bays. Step Remove fans. Step Loosen thumbscrews that secure front rear MIOB mounting frame. Step Rotate front rear MIOBs downward. Step Loosen four T-20 captive screws that hold mounting frame position. There screws front rear. Step Disconnect connectors from front rear MIOBS. Step From rear, lift mounting frame remove from cabinet. careful snag cables.
Replacing Mounting Frame
Step Place mounting frame into position secure with four T-20 captive screws. Step Rotate front rear MIOBs upward into position. Step Secure front rear MIOBs mounting bracket tightening thumbscrews each. Step Replace fans. Step Replace dividers front rear bays. Step Replace card cages blank panel present. Step Reconnect cables card cages. Step Close front rear cabinet doors.
Chapter
Removing Replacing Components Removing Replacing Filter
Removing Replacing Filter
SuperDome filters located inside front rear door assemblies. These filters easily replaced.
Figure 3-19
Front Filter Location
Front Door Filters
Chapter
Removing Replacing Components Removing Replacing Filter
Figure 3-20
Rear Filter Location
Rear Door Filter
Removing Filters
Step Remove filter media from housing. Step Using proper procedures, vacuum clean filter media area.
Replacing Filters
Step Install filter media into housing. Step Close media retainer tightly against media. Step Latch media retainer securely. Step Close latch front rear doors.
NOTE
Make sure filter media flat against door assembly.
Chapter
Removing Replacing Components Removing Replacing Blower Side Bezels
Removing Replacing Blower Side Bezels
cabinet blower side bezels. These cosmetic covers blowers located right left side blower module housing. blower side bezels easily replaced.
Figure 3-21
Blower Side Bezel Locations
Side Bezels
Removing Blower Side Bezels
bezel held bezel fitting over blower housing frame secured bottom tabs that into slots cabinet side panels.
Chapter
Removing Replacing Components Removing Replacing Blower Side Bezels right left blower side bezels removed using same procedure.
Figure 3-22
Blower Side Bezel Detail
Step Remove front rear blower bezels. Step Remove side blower bezel brackets from front rear release side blower bezel. Step Lift bezel blower housing frame.
Replacing Blower Side Bezel
right left blower side bezels installed using same procedure Step Place side bezel slightly above blower housing frame. Step Align lower bezel tabs slots side panels. Step Lower bezel bezel fits securely blower housing frame lower tabs fully inserted into side panel slots. Step Attach side Blower bezel brackets front rear secure bezel place. Step Install front rear blower bezels. front bezel curved.
Chapter
Removing Replacing Components Removing Replacing Rear Blower Bezel
Removing Replacing Rear Blower Bezel
Rear Blower Bezel cosmetic cover blowers located above rear door. Rear Blower bezel easily replaced.
Figure 3-23
Rear Blower Bezel Location
Rear Blower Bezel
Chapter
Removing Replacing Components Removing Replacing Rear Blower Bezel
Removing Rear Blower Bezel
Figure 3-24 Rear Blower Bezel Detail
Step Loosen captive T-20 screws lower flange bezel. Step Lift bezel blower housing frame. Step Place bezel location where will damaged.
Replacing Rear Blower Bezel
Step Slide bezel over blower housing frame, hooking bezel onto cross support blower housing. Step Tighten captive screws lower flange bezel.
Chapter
Removing Replacing Components Removing Replacing Blower Module
Removing Replacing Blower Module
SuperDome cabinets have four blower modules located cabinet. Blowers located front cabinet Blowers located rear. These modules configuration "hot swapped."
Figure 3-25
Blower Module Location
Blowers
Chapter
Removing Replacing Components Removing Replacing Blower Module
Removing Blower Module
This section contains information removing blower module.
Figure 3-26
Blower Removal Detail
Step Remove blower bezel front rear server. Step Notice blower operating status. Confirm that off. Step Loosen thumbscrews bottom blower module. Step Grasp module handle pull towards you. Step Slide module completely housing solid surface.
NOTE
blower module very heavy, long bulky.
Replacing Blower Module
Step Grasp blower handle while supporting rear blower insert into blower housing. Step connectors "blind mate connectors" with guide pins. This allows simply slide unit tighten thumbscrews. Step should start turning when module connected. Step Attach blower bezel previously removed.
NOTE
careful drop blower this will cause misalignment metal housing.
Chapter
Removing Replacing Components Removing Replacing Blower Module
Chapter
System Specifications
following specifications based Environmental Class Class controlled computer room environment where products subject only controlled temperature humidity extremes. Throughout this chapter each specification defined thoroughly possible ensure that data considered ensure successful site preparation system installation.
Chapter
System Specifications Dimensions Weights
Dimensions Weights
Component Dimensions
Table lists dimensions cabinet components. Table list dimensions optional cabinets.
Table
Server Component Dimensions
Width (in. 76.2 16.5 41.9 16.5 41.9 27.9 3.25 12.0 30.5 19.0 Depth (in. 121.9 20.0 50.2 10.125 25.7 17.6 44.7 23.75 60.3 17.5 44.4 11.0 27.9 8.38 21.3 9.75 24.3 Height (in. 77.2 195.6 Maximum Quantity Cabinet
Component Cabinet Cell board Cell board power board (OCPB) backplane Master backplane cardcage PDCA
SD16 limited maximum
Table
Cabinet Type
Expansion Cabinet Component Dimensions
Height (in. 63.5 77.5 Width (in. 23.5 59.7 23.5 59.7 Depth (in. 77.3 196.0 36.5 92.7
Chapter
System Specifications Dimensions Weights
Component Weights
Table lists server component weights.
NOTE
Refer appropriate documents determine weight console that will used with this server.
Table
System Component Weights
Weight Unit (lb. 745.17 338.1 17.23 7.81 8.05 3.65 0.20 0.09 3.83 1.74 26.00 11.80 36.50 16.56 0.45 0.20
Component
Quantity
Weight (lb. 745.17 338.10 137.84 62.54 64.40 29.20 51.20 23.04 23.00 10.44 52.00 23.59 146.00 66.24 21.60 9.80 1241.21 563.16b
Chassisa Cell Board Power Board DIMMs Cell Power Board DIMMs Bulk Power Supply (BPS) PDCA cardcage Cards Fully configured server (SD32 cabinet)
listed weight chassis includes weight components listed Table 4-3. listed weight fully configured cabinet includes components quantities listed Table 4-3.
Table
Expansion Cabinet Weights
Component Weighta (lb. 1104.9 502.2 36.50 16.56
Fully configured cabinet cardcage Chassis
listed weight fully configured cabinet includes items installed meter cabinet. approximately when using meter cabinet.
Chapter
System Specifications Dimensions Weights
Shipping Dimensions Weights
Table lists dimensions weights Support Management Station single cabinet with shipping pallet.
Table
Equipment
Miscellaneous Dimensions Weights
Width (in. 39.00 99.06 Depth/Length (in. 48.63 123.5 Height (in. 73.25 186.7) Weight (lb. 1360.8lbs 618.54)
System shipping pallet
Blowers/Frame shipping pallet Expansion cabinet shipping pallet
40.00 101.6 38.00 96.52
48.00 121.9 48.00 121.9
62.00 157.5 88.25 224.1
99.2 45.01 1115 505.8
Shipping box, pallet, ramp, container adds approximately (52.63 total system weight. Blowers/Frame shipped separate pallet. Size number miscellaneous pallets determined equipment ordered customer. Assumes cards cables installed. shipping pallet cards adds approximately total weight.
Chapter
System Specifications Electrical Specifications
Electrical Specifications
following specifications based Environmental Class Class controlled computer room environment where products subject only controlled temperature humidity extremes. Throughout this chapter each specification defined thoroughly possible ensure that data considered ensure successful site preparation system installation.
Grounding
site building shall provide safety ground/protective earth each service entrance cabinets. This equipment CLASS requires full implementation grounding scheme equipment connections. Failure attach Protective Earth results loss regulatory compliance creates possible safety hazard.
Circuit Breaker
Each cabinet using three-phase, four-wire input requires dedicated circuit breaker support Marked Electrical current phase. facility electrician local service codes will determine proper circuit breaker selection. Each cabinet using three-phase five-wire input requires dedicated circuit breaker support Marked Electrical current phase. facility electrician local service codes will determine proper circuit breaker selection.
NOTE
When using minimum sized breaker, always choose circuit breakers with maximum allowed trip delay avoid nuisance tripping.
Power Options
Table describes available power options. unusual list Options options listed consistent with previous options earlier Superdome systems.
Table
Available Power Options
Source Type 3-phase Source Voltage (nominal) Voltage range 200-240 VAC, phase-to-phase, Voltage range 200-240 VAC, phase-to-neutral, PDCA Required four-wire Input Current Phase 200-240 Maximum phase Power Receptacle Required Connector plug provided with 2.5-meter power cable. Electrician must hard-wire receptacle site power. Connector plug provided with 2.5-meter power cable. Electrician must hard-wire receptacle site power.
Option
3-phase
five-wire
Maximum phase
Chapter
System Specifications Electrical Specifications
dedicated branch circuit required each PDCA installed.
Table
PDCA Part Number A5201-69023 (Option
Option Specifics
Attached Power Cord OLFLEX 600804) meter multi conductor, volt, degree approved, resistant flexible cable. capacity) H07RN-F (OLFLEX 1600130) meter heavy duty neoprene jacketed harmonized European flexible cable. capacity) Attached Plug Mennekes 460P9 capacity) Mennekes 532P6-14 (32A capacity) Receptacle Required Mennekes 460R9 capacity) Mennekes 532R6-1500 capacity)
A5201-69024 (Option
NOTE
qualified electrician must wire PDCA receptacle site power using copper wire compliance with local codes.
Each branch circuit used within complex must connected together form common ground. When only PDCA installed system cabinet, must installed PDCA0. Refer Figure PDCA0 location.
NOTE
When wiring PDCA, phase rotation unimportant. When using PDCAs, however, rotation must consistent both.
Chapter
System Specifications Electrical Specifications
Figure
PDCA Locations
System Power Requirements
Table Table list power requirements Integrity Superdome 9000 Superdome systems. These tables provide information help determine amount power needed your computer room.
Table
Power Requirements (without Support Management Station)
Requirements Value 200/208/220/230/240 (VAC rms) (VAC rms) 50/60 (Hz) peak) rms) phase 200-240VAC Autoselecting (measured input terminals) Comments
Nominal input voltage Input voltage range (minimum maximum) Frequency range (minimum maximum) Number phases Maximum inrush current Product Label maximum current, three-phase, four-wire
Chapter
System Specifications Electrical Specifications
Table
Power Requirements (without Support Management Station)
Requirements Value rms) 0.95 minimum WARNING below. Comments phase 200-240VAC
Product Label maximum current, three-phase, five-wire Power factor correction Ground leakage current (mA)
WARNING
Beware shock hazard. When connecting removing input power wiring, always connect ground wire first disconnect wire last.
Component Power Requirements
Table Table list power requirements Integrity Superdome 9000 Superdome systems. These tables provide information help determine amount power needed your computer room.
Table
Component Power Requirements (without Support Management Station)
8,200 12,196
Power Required 50Hz Maximum configuration SD16 Maximum configuration SD32 Cell Board Cardcage
number that should used planning allow enough power upgrade through life system.
Expansion Cabinet Power Requirements
expansion cabinet requires single phase 200-240VAC input. Table 4-10 lists power requirements expansion cabinet.
NOTE
accommodates inputs redundancy
Chapter
System Specifications Electrical Specifications
Table 4-10
Expansion Cabinet Power Requirements (without Support Management Station)
Requirements Value 200/208/220/230/240 (VAC rms) 200-240 (VAC rms) 50/60 (Hz) peak) 0.95 minimum
Nominal input voltage Input voltage range (minimum-maximum) Frequency range (minimum-maximum) Number phases Marked Electrical input current Maximum inrush current Power factor correction
Table 4-11
Expansion Cabinet Component Power Requirements
3200
Power Required Fully configured cabinet cardcage
Expansion Cabinet Power Cords
Table 4-12 lists power cords expansion cabinet.
Table 4-12
Part Number A5499AZ -001 -002
Expansion Cabinet Power Cords
Where Used North America International Connector Type L6-20
Chapter
System Specifications Environmental Requirements
Environmental Requirements
This section provides environmental, power dissipation, noise emission, flow specifications.
Temperature Humidity Specifications
Table 4-13 Controlled Computer Room Environment Specifications
Relative Humidity Noncondensing Allowabled Recommendede Pointb Rate (°C/hr, max)
Temperature (dry bulb Allowablec,d Recommendede
bulb temperature regular ambient temperature. Derate maximum bulb temperature 1°C/300 above Must noncondensing environment. With installed media, minimum temperature 10°C maximum relative humidity limited 80%. Specific media requirements vary. Allowable: equipment design extremes measured equipment inlet. Recommended: target facility design operational range.
Table 4-14
Power-Off Storage Shipping Requirements
Storage Powered (installed) point (max) Temp (°C, bulb regular ambient temp.) Non-condensing point (max)
Temp (°C, bulb regular ambient temp.)
Non-condensing
Power Dissipation
Table 4-15 Table 4-16 show power requirements configuration (i.e. number cell boards, amount memory cell, number chassis) Integrity Superdome 9000 Superdome, respectively. There columns power numbers (Watts). Power Breaker column shows power used size wall breaker installation site. Typical Power column shows typical power. Typical power numbers used assess average utility cost cooling electrical power. These tables also show recommended breaker sizes 4-wire 5-wire sources
Chapter
System Specifications Environmental Requirements
Table 4-15
Typical Integrity Superdome Configurations
Typical (Watts) 9790 8450 8680 8170 8400 7700 7370 6660 7010 6300 6800 6100 5880 5170 5340 4630 5200 4500 3800 3500 3400 Cooling (BTU/Hr.) 33406 28834 29619 27878 28663 26275 25149 22726 23920 21497 23204 20815 20064 17642 18222 15799 17744 15355 12967 11943 11602 Breaker Power (Watts)a 12335 10647 10937 10294 10584 9702 9286 8392 8833 7938 8568 7686 7409 6514 6728 5834 6552 5670 4788 4410 4284 3-Pole Breaker Size (Amperes)a,b 4-Pole Breaker Size (Amperes)a,c,d
Cell
Memory
These numbers valid only specific configurations shown. upgrades require change breaker size. 5-wire source utilizes pole breaker 4-wire source utilizes pole breaker. (Protective Earth) ground wire switched. input power source supplied from 3-pole plus protective earth (PE), 4-wire system will always wired volts phase-to-phase, neutral common, plus ground. Three phase input voltage (240VAC) equipment connected phase-to-phase. Examples wire: 200-volt phase-to-phase, 208-volt phase-to-phase, 220-volt phase-to-phase, 230-volt phase-to-phase, 240-volt phase-to-phase.
Chapter
System Specifications Environmental Requirements input power source supplied from three-pole plus four-wire system wired either: 200VAC phase-to-phase, plus ground. three phase input voltage equipment connected phase-to-phase. neutral terminal PDCA connected. 208VAC phase-to-phase, plus ground. three phase input voltage equipment connected phase-to-phase. neutral terminal PDCA connected. 220VAC phase-to-phase, plus ground, plus ground. Three phase input voltage equipment connected phase-to-phase. neutral terminal PDCA connected. 230VAC phase-to-phase, plus ground. three phase input voltage equipment connected phase-to-phase. neutral terminal PDCA connected. 240VAC phase-to-phase, plus ground. three phase input voltage equipment connected phase-to-phase. neutral terminal PDCA connected. input power source supplied from four-pole plus neutral plus five-wire system wired either: 200VAC phase-to-neutral, plus ground. three phase input voltage equipment connected phase-to-neutral. neutral wire connected PDCA neutral terminal. 208VAC phase-to-neutral, with neutral return, plus ground. Three phase input voltage equipment connected phase-to-neutral. neutral wire connected PDCA neutral terminal. 220VAC phase-to-neutral, plus ground. three phase input voltage equipment connected phase-to-neutral. neutral wire connected PDCA neutral terminal. 230VAC phase-to-neutral, plus ground. three phase input voltage equipment connected phase-to-neutral. neutral wire connected PDCA neutral terminal. 240VAC phase-to-neutral, plus ground. three phase input voltage equipment connected phase-to-neutral. neutral wire connected PDCA neutral terminal. 415VAC phase-to-neutral, plus ground. three phase input voltage equipment connected phase-to-neutral. neutral wire connected PDCA neutral terminal. connect 415VAC supply four-wire PDCA. This safety hazard will result damage product. Line-to-line phase-to-phase voltage measured 415VAC must always connected using 5-wire PDCA.
Chapter
System Specifications Environmental Requirements
Table 4-16
Typical 9000 Superdome Configurations
Typical (Watts) 9038 7698 7928 7418 7648 6948 6806 6096 6446 5736 6236 5536 5504 4794 4964 4254 4824 4124 3612 3312 3212 Cooling (BTU/Hr.) 30840 26268 27053 25312 26097 23709 23224 20801 21996 19573 21279 18890 18781 16359 16939 14516 16461 14072 12325 11302 10960 Breaker Power (Watts)a 11388 9699 9989 9347 9636 8754 8576 7681 8122 7227 7857 6975 6935 6040 6255 5360 6078 5196 4551 4173 4047 3-Pole Breaker Size (Amperes)a,b 4-Pole Breaker Size (Amperes)a,c,d
Cell
Memory
These numbers valid only specific configurations shown. upgrades require change breaker size. 5-wire source utilizes pole breaker 4-wire source utilizes pole breaker. (Protective Earth) ground wire switched. input power source supplied from 3-pole plus protective earth (PE), 4-wire system will always wired volts phase-to-phase, neutral common, plus ground. Three phase input voltage (240VAC) equipment connected phase-to-phase. Examples wire: 200-volt phase-to-phase, 208-volt phase-to-phase, 220-volt phase-to-phase, 230-volt phase-to-phase, 240-volt phase-to-phase.
Chapter
System Specifications Environmental Requirements input power source supplied from three-pole plus four-wire system wired either: 200VAC phase-to-phase, plus ground. three phase input voltage equipment connected phase-to-phase. neutral terminal PDCA connected. 208VAC phase-to-phase, plus ground. three phase input voltage equipment connected phase-to-phase. neutral terminal PDCA connected. 220VAC phase-to-phase, plus ground, plus ground. Three phase input voltage equipment connected phase-to-phase. neutral terminal PDCA connected. 230VAC phase-to-phase, plus ground. three phase input voltage equipment connected phase-to-phase. neutral terminal PDCA connected. 240VAC phase-to-phase, plus ground. three phase input voltage equipment connected phase-to-phase. neutral terminal PDCA connected. input power source supplied from four-pole plus neutral plus five-wire system wired either: 200VAC phase-to-neutral, plus ground. three phase input voltage equipment connected phase-to-neutral. neutral wire connected PDCA neutral terminal. 208VAC phase-to-neutral, with neutral return, plus ground. Three phase input voltage equipment connected phase-to-neutral. neutral wire connected PDCA neutral terminal. 220VAC phase-to-neutral, plus ground. three phase input voltage equipment connected phase-to-neutral. neutral wire connected PDCA neutral terminal. 230VAC phase-to-neutral, plus ground. three phase input voltage equipment connected phase-to-neutral. neutral wire connected PDCA neutral terminal. 240VAC phase-to-neutral, plus ground. three phase input voltage equipment connected phase-to-neutral. neutral wire connected PDCA neutral terminal. 415VAC phase-to-neutral, plus ground. three phase input voltage equipment connected phase-to-neutral. neutral wire connected PDCA neutral terminal. connect 415VAC supply four-wire PDCA. This safety hazard will result damage product. Line-to-line phase-to-phase voltage measured 415VAC must always connected using 5-wire PDCA.
Chapter
System Specifications Environmental Requirements
Acoustic Noise Specification
acoustic noise specifications follows: (sound power level) 65.1 (sound pressure level operator position)
above levels appropriate dedicated computer room environments, office environments. Care should taken understand acoustic noise specifications relative operator positions within computer room when adding Integrity Superdome 9000 Superdome systems computer rooms with existing noise sources.
Chapter
System Specifications Environmental Requirements
Flow
Integrity Superdome 9000 Superdome systems require cabinet intake temperature between 2400 CFM. cooling system layouts described Chapter adapted cool system. Figure page illustrates location inlet outlet airducts single cabinet.
Figure
Airflow Diagram
Flows Front
Chapter
Site Preparation
Chapter
Site Preparation Electrical Environmental Guidelines
Electrical Environmental Guidelines
Electrical Factors
Proper design installation power distribution system server requires specialized skills. Those responsible this task must have thorough knowledge understanding appropriate electrical codes limitations power systems computer data processing equipment. general, well-designed power distribution system exceeds requirements most electrical codes. good design, when coupled with proper installation practices, produces most trouble-free operation. detailed discussion power distribution system design installation beyond scope this document. However, electrical factors relating power distribution system design installation must considered during site preparation process. electrical factors discussed this section are: Computer room safety Electrical load requirements (circuit breaker sizing) Power quality Distribution hardware System installation guidelines
Computer Room Safety Inside computer room, fire protection adequate lighting (for equipment servicing) important safety considerations. Federal local safety codes govern computer installations. Fire Protection National Fire Protection Association's Standard Protection Electronic Computer Data Processing Equipment, NFPA contains information safety monitoring equipment computer rooms. Most computer room installations equipped with following fire protection devices: Smoke detectors Fire temperature alarms Fire extinguishing system
Additional safety devices are: Circuit breakers emergency power cutoff switch Devices specific geographic location, i.e., earthquake protection
Lighting Requirements Equipment Servicing Adequate lighting utility outlets computer room reduce possibility accidents during equipment servicing. Safer servicing also more efficient and, therefore, less costly. example, difficult cable connection points hardware there enough light. Adequate lighting reduces chances connector damage when cables installed removed.
Chapter
Site Preparation Electrical Environmental Guidelines minimum recommended illumination level foot-candles (756 lumens square meter) when light level measured inches (76.2 above floor. Power Quality This equipment designed operate over wide range voltages frequencies. been tested shown comply with Specification EN50082. However, damage occur these ranges exceeded. Severe electrical disturbances exceed design specifications equipment. Sources Electrical Disturbances Electrical disturbances, glitches, affect quality electrical power. Common sources these disturbances are: Fluctuations occurring within facility's distribution system Utility service low-voltage conditions (such sags brownouts) Wide rapid variations input voltage levels Wide rapid variations input power frequency Electrical storms Large inductive sources (such motors welders) Faults distribution system wiring (such loose connections) Microwave, radar, radio, cell phone transmissions
Power System Protection Computer systems protected from sources many these electrical disturbances using: Protective Earth (PE) connection with wire diameter least equal current carrying conductors. neutral conductor must used connection. (The wire GREEN with YELLOW stripe.) dedicated power distribution system Power conditioning equipment Over- under-voltage detection protection circuits Screening cancel effects undesirable transmissions Lightning arresters power cables protect equipment against electrical storms
Every precaution been taken during power distribution system design provide immunity power outages less than cycle. However, testing cannot conclusively rule loss service. Therefore, adherence following guidelines provides best possible performance power distribution systems server equipment: Dedicated power source-Isolates server power distribution system from other circuits facility. Missing-phase low-voltage detectors-Shuts equipment down automatically when severe power disruption occurs. peripheral equipment, these devices recommended optional. Online uninterruptable power supply (UPS)-Keeps input voltage devices constant should considered outages one-half cycle more common. Refer qualified contractors consultants each situation.
Distribution Hardware This section describes wire selection types raceways (electrical conduits) used distribution system. Wire size dictated circuit breaker sizing local safety codes.
Chapter
Site Preparation Electrical Environmental Guidelines Wire Selection copper conductors instead aluminum, aluminum's coefficient expansion differs significantly from that other metals used power hardware. Because this difference, aluminum conductors cause connector hardware work loose, overheat, fail. Raceway Systems (Electrical Conduits) Raceways (electrical conduits) form part protective ground path personnel equipment. Raceways protect wiring from accidental damage also provide heat sink wires. following types used: Electrical metallic tubing (EMT) thin-wall tubing Rigid (metal) conduit Liquidtight with strain relief (most commonly used with raised floors) Plenum-grade cables
Building Distribution building feeders branch circuitry should rigid metallic conduit with proper connectors provide ground continuity). Conduit that exposed subject damage should constructed rigid galvanized steel. Integrity Superdome 9000 Superdome safety grounded through green/yellow (ground) wire each power cord. IOX, this ground passes through power cord entry into connects internally chassis. chassis each chassis grounded through their respective power cords from XPC. Additional safety grounding must provided networking equipment. Power Routing Power drops interface cables from equipment routed down from power panel, through grommet-protected opening (beneath floor level), under floor panels. Grounding Systems Superdome servers require methods grounding: Power distribution safety grounding High frequency intercabinet grounding
Power Distribution Safety Grounding power distribution safety grounding system consists connecting various points power distribution system earth ground using green (green/yellow) wire ground conductors. Having these ground connections tied metal chassis parts that touched protects computer room personnel against shock hazard from current leakage fault conditions. Power distribution systems consist several parts. Hewlett-Packard recommends that these parts solidly interconnected provide equipotential ground points.
Main Building Electrical Ground main electrical service entrance equipment should have earth ground connection, required applicable codes. Connections such grounding rod, building steel, conductive type cold water service pipe provide earth ground. Electrical Conduit Ground provide continuous grounding system, electrical conduits should made rigid metallic conduit that securely connected together bonded panels electrical boxes. Power Panel Ground Each power panel should grounded electrical service entrance with green (green/yellow) wire ground conductors. green (green/yellow) wire ground conductors should sized applicable codes (based circuit over current device ratings).
Chapter
Site Preparation Electrical Environmental Guidelines
NOTE
green wire ground conductor mentioned above black wire marked with green tape.
Computer Safety Ground Ground computer equipment with green (green/yellow) wire included branch circuitry. green (green/yellow) wire ground conductors should connected appropriate power panel should sized applicable codes (based circuit over current device ratings). Superdome approved regulatory agencies around world, therefore requires ground/protective earth. there exclusions this regulatory approval. High-frequency grounding between Superdome provided cabinet-to-cabinet signal cabling. Whenever connected Superdome cabinet, low-frequency grounding between these cabinets provided ground strap. This ground strap shipped with each IOX. Refer Expansion Cabinet Guide more detail. Newtwo
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