Product Information Announcement o New Release • Revision o Update o New Mail Code Title ClearPath HMP Enterprise Servers NX5820 and NX5820 K Hardware Configuration Guide (7017 6300–005) This guide is intended to assist individuals responsible for defining and configuring a Unisys ClearPath HMP Enterprise Servers NX5820 and NX5820 K product with future expansion in mind.
white text to force blank page on duplex printerthese characters as “white” to force printing of blank page.
ClearPath HMP Enterprise Servers NX5820 and NX5820 K Hardware Configuration Guide June 2000 Printed in USA 7017 6300–005
Format these characters as “white” to force printing of blank page.
ClearPath HMP Enterprise Servers NX5820 and NX5820 K Hardware Configuration Guide Unisys û 2000 Unisys Corporation. All rights reserved.
NO WARRANTIES OF ANY NATURE ARE EXTENDED BY THIS DOCUMENT. Any product or related information described herein is only furnished pursuant and subject to the terms and conditions of a duly executed agreement to purchase or lease equipment or to license software. The only warranties made by Unisys, if any, with respect to the products described in this document are set forth in such agreement.
ClearPath HMP Enterprise Servers NX5820 and NX5820 K Hardware Configuration Guide 7017 6300–005 ClearPath HMP Enterprise Servers NX5820 and NX5820 K Hardware Configuration Guide 7017 6300–005 Bend here, peel upwards and apply to spine.
Format these characters as “white” to force printing of blank page.
Contents About This Guide ....................................................................................... Section 1. Introduction How to Use This Guide ........................................................... What Product Models Are Covered ....................................... System Architecture .............................................................. Features ................................................................. Technology Enhancements .....................................
Contents ClearPath Enterprise Server NX5822 Dual-Domain, Multi-Processor (DDMP) Configurations Models 32 through 78 .......................................................... NX5820 Companion Package Style ........................... NX5820 K Products ............................................................... Single-Domain, Single-Processor (SDSP) NX5821 – BAS Models ......................................................... Dual-Domain, Dual Processor (DDDP) NX5822 – BAS Models .......................
Contents Section 5. Configuring the Input/Output Module Introduction ........................................................................... How This Section Is Organized .............................................. How the IOM Is Organized ..................................................... IOM Logical Organization .......................................... IOM Physical Organization ........................................ IOM Options ............................................................
Contents Configuration Guidelines ES5085R ............................ ES2024R Servers .................................................................. Basic Features ......................................................... Server Components ................................................. Processors .............................................................. Memory Packages ................................................... Connection Packages and Optional PCI ......................
Figures 1–1. 1–2. 1–3. 1–4. 1–5. 1–6. 2–1. Typical View of ClearPath Enterprise Server NX5820 and NX5820 K with VX1505 (7U) Servers ........................................................................ System Cabinet PCA Locations for NX5820 ............................................ System Cabinet PCA Locations for NX5820 K ......................................... Block Diagram of ClearPath Enterprise Server NX5820 and NX5820 K Single-Domain, Single-Console Configuration ...........................
Figures 5–8. viii 5–9. Dual Domain Typical PCITHRU Card Location in the Internal and External Channel Racks .................................................................................. PCITHRU Slot Versus PCI Bridge Jumper Positions ................................... 5–15 5–16 6–1. 6–2. 6–3. 6–4. 6–5. 6–6. 6–7. 6–8. 6–9. 6–10. 6–11. 6–12. 6–13. 6–14. Road Map for Ordering VX1305 Servers ................................................. VX1305 Server CS Bus Cable Connection ....................
Tables 1–1. 1–2. ClearPath Enterprise Server NX Product Models Covered in This Guide ..... Acronyms for System Components ........................................................ 1–2 1–7 2–1. 2–2. ClearPath Enterprise Server NX5820 Product Models .............................. ClearPath Enterprise Server NX5821 Single-Domain, Single-Processor Configurations, Models 31 through 71 ...............................................
Tables x 4–5. Configuring Power Net in Channel Racks ................................................. 4–6 5–1. 5–2. 5–3. 5–4. 5–5. CMF External Connectivity Options .......................................................... Supported Channel Adapter Types .......................................................... CIOM CS-Bus Channel Loading ............................................................... Guidelines for Configuring Channels ........................................................
About This Guide Purpose This guide provides: • Guidelines and recommendations to assist the individuals responsible for defining and configuring a Unisys ClearPath Enterprise Server NX5820 and NX5820 K server • Guidelines to ensure ease of future expansion and maximum throughput Scope This guide provides: • A brief description of the system with major emphasis on presenting the guidelines for configuring system components • System limitations and restrictions with the focus on maximizing throughput
About This Guide How to Use This Guide • Read the entire guide to familiarize yourself with the basic concepts it presents • Use it as a reference for configuring system components and system options • Use it to facilitate the ordering of system components Organization This guide consists of the following sections. In addition, an index appears at the end of this guide. Section 1. Introduction Provides a system overview that describes the system components. Section 2.
About This Guide Section 5.
About This Guide ClearPath Enterprise Server NX5600, NX5800, NX5820, and NX5820 K Site Planning Checklist (7016 7028) Provides checklists and procedures required to prepare the site for system installation. ClearPath Enterprise Server NX Series with Windows NT Implementation and Operations Guide (8807 6542) Provides instructions to install software products and software configurations for the Operator Display Workstations (ODW) in a Windows NT environment.
Section 1 Introduction How to Use This Guide This guide provides the guidelines, procedures, and examples necessary to configure a ClearPath Enterprise Server NX5820 and NX5820 K products.
What Product Models Are Covered What Product Models Are Covered Table 1–1 lists the ClearPath Enterprise Server NX product models covered in this guide. Table 1–1.
System Partitioning System Partitioning Single Domain • Cannot be partitioned. • A single-domain system contains: − Its own power, cooling, and maintenance interface − Its own master clock Dual Domain Single Monolithic Partition • The combined domains function as a monolithic system. • Each domain contains a separate power subsystem and maintenance interface. • Cooling is shared between domains. • Although each domain contains a master clock, only one master clock is used by the partition.
Hardware Overview Hardware Overview Type of Computing System The ClearPath NX5820 and NX5820 K Server is a general-purpose, medium-to-highperformance system running under Level Delta compatible MCP. The System Cabinet The system cabinet includes: • A central equipment complex (CEC) section • An expansion section for additional servers, consoles, and peripherals The SVGA monitor with keyboard and mouse are placed on a table or other surface near the system cabinet.
Hardware Overview Expansion Sections The expansion sections house the following units: − Server A − Optional servers (up to five maximum per domain) − Up to two Maintenance LAN Hubs, unlimited switching (Public) Hubs, and up to two Apex Selector ST Switches − An OSS7000 rack containing system peripheral units, including: ο CD-ROM drive ο QIC tape drive ο Two disk drives − Optional Uninterruptible Power Supply (UPS) − COMMPOD SVGA Monitor and Keyboard with Mouse • Provides the operator int
System Cabinet Organization Other I/O Devices The I/O subsystem accommodates any other device that connects via a CS-bus interface and is qualified for use on the system, such as: • Standalone disks and tapes • Devices housed in migratory I/O cabinets • Devices attached via Direct Access Channels (DACs) to Fiber Distributed Data Interface (FDDI) Local Area Network (LAN)s, 802.
System Components Table 1–2.
System Components Windows NT Server C Windows NT Server B Windows NT Server D Windows NT Server A * * * * Central Equipment Section * The servers shown are typical of the servers that can be configured. 0670 Figure 1–1.
System Components Front View 35 30 A06 25 20 15 10 Impeller Impeller Impeller Impeller Domain 0 Domain 1 Domain 1 Domain 0 AC Inlet AC Inlet AC Inlet D C / D C Power A04 Operator Panel A05 A03 A01 P M / M S U M O D U L E A07 Rear View P D C / D C C D C / D C D C / D C D C / D C D C / D C D C / D C D C / D C D C / D C D C / D C B u l k B u l k M M M P P I S S S M MO O MM S S S U U U B B U U U 0 I P P B u l k 1 2 M M M 2 1 0 P C D C / D C D C / D C D C
System Components Front View A06 Impeller Impeller Impeller Impeller Domain 0 Domain 1 Domain 1 Domain 0 AC Inlet AC Inlet AC Inlet D C / D C Power A04 Operator Panel A05 A03 A01 P M / M S U Rear View P D C / D C C D C / D C D C / D C D C / D C D C / D C D C / D C D C / D C D C / D C D C / D C B u l k B u l k B u l k M M M P P I I P P M M M S S S M MO O MM S S S U U U B B U U U 2 1 0 1 2 M O D U L E 0 P C D C / D C D C / D C D C / D C D C / D C D C / D C D
System Components System Terminal 10/100 BaseT NT A PCI Bridge 10 BaseT MCP Environment Domain 0 ST Switch POWERNET SCP A 802.3 Ch Direct CS Bus CS Bus 10 BaseT CSE TAPE Ch COMMPOD3 Public Switch APC Remote Support DISK Ch Maintenance LAN Hub OSS7000 MAINTLAN CD Tape Disk Disk T27's FEEDTHRU FEEDTHRU MAINTLAN DISK Ch TAPE Ch CS Bus Direct CS Bus 802.3 Ch Domain 1 MCP Environment PCI Bridge 10 BaseT 10/100 BaseT NT B 0702 Figure 1–5.
System Components System Terminal Public Switch A 10/100 BaseT PCI Bridge MCP Environment Domain 0 ST Switch NT A 10 BaseT POWERNET Direct CS Bus CS Bus 10 BaseT COMMPOD3 SCP A 802.3 Ch CSE TAPE Ch APC Remote Support DISK Ch Maintenance LAN Hub OSS7000 MAINTLAN CD Tape Disk Disk T27's FEEDTHRU FEEDTHRU Maintenance LAN Hub MAINTLAN DISK Ch TAPE Ch Direct CS Bus 802.
Section 2 Configuring System Hardware How This Section Is Organized This section contains the following information for the ClearPath HMP Enterprise Servers NX5820 and NX5820 K products: • Provides a summary list of hardware components, by model • Provides an overview of each model, including the system cabinet card profile and a list of components included with the model NX5820 Products Table 2–1 lists the basic hardware components associated with each NX5820 product model.
NX5820 Products • One to two memory storage units with 192 MB or 384 MB storage per domain depending on model • Single server containing its own processing modules, memory, and peripheral subsystem, with a dual-server per domain option Notes: 1. The CEC contains two distinct and independent power and maintenance domains to support the functional hardware in the respective domain. 2. Cooling is shared between domains. 3. Redundant power is optional. Table 2–1.
NX5820 Product Configurations NX5820 Product Configurations This subsection describes the NX5820 product configurations. ClearPath Enterprise Server NX5821 Single-Domain, SingleProcessor (SDSP) Configurations Models 31 through 71 • Table 2–2 lists component styles for these models. • Figure 2–1 and Figure 2–2 show the hardware configurations for system cabinets containing VX1305- and VX1505-based servers, respectively. • Companion styles are listed later in this section.
NX5820 Product Configurations Table 2–2.
NX5820 Product Configurations 35 APC2 APC2 30 OSS7000 Peripheral Rack CEC 25 20 VX1305-BSU Server Position 5 15 VX1305-BSU Server Position 4 VX1305-BSU Server Position 3 10 Console (Primary) 5 VX1305-BSU Server Position 2 VX1305-BSE Server Position 1 0 Central Equipment Section Server Expansion Section 0704 Figure 2–1.
NX5820 Product Configurations 35 APC2 APC2 30 OSS7000 Peripheral Rack CEC 25 20 VX1505-BSU Server Position 3 15 VX1505-BSU 10 5 VX1505-BSU Server Position 5 VX1505-BSU Server Position 2 Console (Primary) VX1505-BSE Server Position 4 Server Position 1 0 Server Expansion Section Central Equipment Section Server Expansion Section 0705 Figure 2–2.
NX5820 Product Configurations Table 2–3.
NX5820 Product Configurations Table 2–3.
NX5820 Product Configurations Table 2–4.
NX5820 Product Configurations 35 APC2 APC2 APC2 APC2 30 OSS7000 Peripheral Rack 25 CEC 20 VX1305-BSU Server Position 5 VX1305-BSU Server Position 10 15 10 5 VX1305-BSU Server Position 4 VX1305-BSU Server Position 9 VX1305-BSU Server Position 8 VX1305-BSU Server Position 3 Console (Primary) VX1305-BSU Server Position 7 VX1305-BSU Server Position 2 Console (Redundant) VX1305-BSU Server Position 6 VX1305-BSE Server Position 1 0 Central Equipment Section Server Expansion Section Server
NX5820 Product Configurations NX5820 Companion Package Style Table 2–5 summarizes the companion package styles required for the various NX5820 models. As noted in the component style charts, these package styles must be ordered separately from the system package style. Additional components may be added through system upgrades (see "System Upgrades") or through system options (see Section 3). Table 2–5.
NX5820 K Products NX5820 K Products Table 2–6 lists the basic hardware components associated with each NX5820 K product model.
NX5820 K Products Dual-Domain, Multiple-Processor (DDMP) NX5822 – BAS Models • Requires one of the following styles NX5822-2D3 to NX5822-2DA • Minimum system performance level – NX5823–PL7 (w/PROM NX58273-PRK) Maximum system performance level – NX58210–PL7 (w/PROM NX582710-PRK) • Three to ten processor modules (PM) depending on model • Two to twelve I/O modules (CIOM). One to five per domain for CS-Bus connectivity with up to four channel service bus (CS-Bus) interfaces per CIOM.
NX5820 K Products Table 2–6. ClearPath Enterprise Server NX5820 K Product Models Model (Performance Level) Processor Modules Memory Storage Units 1 CIOM Modules 2 Std/Max Servers3 Std/Max System (SCP) Console Std/Max SCSI-2W Channels 4 802.
NX5820 K Product Configurations Table 2–6. ClearPath Enterprise Server NX5820 K Product Models Model (Performance Level) Processor Modules Memory Storage Units 1 CIOM Modules 2 Std/Max Servers3 Std/Max System (SCP) Console Std/Max SCSI-2W Channels 4 802.
NX5820 K Product Configurations Table 2–7. ClearPath Enterprise Server NX5821–BAS Single-Domain, Single-Processor Configurations Package Style NX5821–BAS Component Style Description Qty. ADP68501-FTF 68F/50F SCSI ADAPTER 2 B25-LC POWER CORD:LINE CORD 1 BRM36-O BRM36-O2 BASIC 36U CAB ASSEMBLY, STAND ALONE BASIC 36U CAB ASSEMBLY, STAND ALONE 1 CA322-SCI SCSI-2W CHANNEL ADAPTER 1 CA600-OMC CA600 OPERATIONAL MICROCODE 1 CA626-BAS CTRL:HIG PERFORMANCE 802.
NX5820 K Product Configurations Table 2–7. ClearPath Enterprise Server NX5821–BAS Single-Domain, Single-Processor Configurations Package Style NX5821–BAS Component Style Description Qty. PCK104-SKB KEYBOARD PCK1-EXT CABLE, M TO F PS2 1 2 PCT1200-INT 1.
NX5820 K Product Configurations 35 APC2 APC2 30 OSS7000 Peripheral Rack CEC 25 20 VX1305-BSU Server Position 5 15 VX1305-BSU Server Position 4 VX1305-BSU Server Position 3 10 Console (Primary) 5 VX1305-BSU Server Position 2 VX1305-BSE Server Position 1 0 Central Equipment Section Server Expansion Section 0704 Figure 2–5.
NX5820 K Product Configurations APC2 35 APC2 30 OSS7000 Peripheral Rack CEC 25 20 VX1505-BSU Server Position 3 15 VX1505-BSU 10 VX1505-BSU Server Position 5 VX1505-BSU 5 Server Position 2 Console (Primary) VX1505-BSE Server Position 4 Server Position 1 0 Server Expansion Section Central Equipment Section Server Expansion Section 0705 Figure 2–6.
NX5820 K Product Configurations Table 2–8.
NX5820 K Product Configurations Table 2–8.
NX5820 K Product Configurations 35 APC2 APC2 APC2 APC2 30 OSS7000 Peripheral Rack 25 CEC 20 VX1305-BSU Server Position 5 VX1305-BSU Server Position 10 15 10 5 VX1305-BSU Server Position 4 VX1305-BSU Server Position 9 VX1305-BSU Server Position 8 VX1305-BSU Server Position 3 Console (Primary) VX1305-BSU Server Position 7 VX1305-BSU Server Position 2 Console (Redundant) VX1305-BSU Server Position 6 VX1305-BSE Server Position 1 0 Central Equipment Section Server Expansion Section Serve
NX5820 K Product Configurations NX5820 K Processor Package Style Table 2–9 summarizes the processor with various performance levels package styles required for the various NX5820 K models. As noted in the component style charts, these package styles must be ordered separately from the system package style. Additional components may be added through system upgrades (see "System Upgrades") or through system options (see Section 3). Table 2–9.
NX5820 K Product Configurations Table 2–9.
Cables Cables Refer to the I/O Configuration Guide for a comprehensive list of cable options available with ClearPath Enterprise Server NX5820 and NX5820 K products. Power Layout and Requirements See Figure 2–9 for the power layout (represents power layout for each domain) for basic, redundant, and additional power (no additional power supplies are required if adding MSUA memory board with 4 requestor card to this domain) when required. Slot 13 12 Pow. +5V Cntl.
NX5820 System Upgrades NX5820 System Upgrades Table 2–10 lists the NX5820 System upgrades options. Figure 2–10 shows the upgrade paths for the NX5820 product models listed in Table 2–10. Table 2–11 through Table 2–13 list the components included within the upgrade package styles. Table 2–10.
NX5820 System Upgrades Dual Domain Multi Processor Single Domain Single Processor NX5821-31 NX582131-232 NX5822-32 System Package Style NX582131-141 NX582232-242 NXM582272-273 NX5822-42 NX5822-73 NX582242-252 NX582273-274 Upgrade Package Style NX5821-41 NX582141-242 NX582141-151 NX5821-51 NX582151-252 NX582151-161 NX5821-61 NX582161-262 NX582171-272 NX5822-74 NX582252-262 NX582274-275 NX5822-62 NX5822-75 NX562262-272 NX582161-171 NX5821-71 NX5822-52 NX5822-72 NX582275-276 NX5
NX5820 System Upgrades Table 2–11.
NX5820 K System Upgrades Table 2–13. NX5820 Dual Domain Multi Processor Upgrades (DDMP to DDMP) Package Converts Style From NX582232-242 NX5822-32 To NX5822-42 Component Component Style Style Description NX582242-UDE FUNCTIONAL S/W, IP EMULATION NX5822-42 NX58412-PRM PROM, NX5820-41/42 (Min. Qty.2) Functional S/W, IP EMULATION NX5822-52 NX582242-252 NX5822-42 NX5822-52 NX582252-UDE NX58512-PRM PROM, NX5820-51/52 (Min. Qty.
NX5820 K System Upgrades Upgrade Package Style Hardware Single Domain Single Processor NXD58211-2D2 NX5821-1D1 System Package Style Hardware Dual Domain Multi Processor Dual Domain Dual Processor NX5822-2D2 Order one of the following Performance Styles to match level of present Systems: NX5821-PL3 NX5821-PL4 NX5821-PL5 NX5821-PL6 NX5821-PL7 NXU58222-2D3 Note: NX5822-2D2 must be at Performance Level NX5822-PL7 before upgrading to the NX5822-2D3.
NX5820 K System Upgrades Table 2–14.
NX5820 K System Upgrades Table 2–16. NX5820 K Single-Domain, Single-Processor to Dual Domain, DualProcessor Upgrade (SDSP to DDDP) Component Style Description Qty.
NX5820 K System Upgrades Table 2–17. NX5820 K Performance Upgrades for Dual Domain, Dual-Processor Systems Package Component Component Qty. Style Style Style Description NXU58223-PL4 NX5822-PL4 FUNCTIONAL SW/STYLE PROM PL4 LEVEL 1 NXU58224-PL5 NX5822-PL5 FUNCTIONAL SW/STYLE PROM PL5 LEVEL 1 NXU58225-PL6 NX5822-PL6 FUNCTIONAL SW/STYLE PROM PL6 LEVEL 1 NXU58226-PL7 NX5822-PL7 FUNCTIONAL SW/STYLE PROM PL7 LEVEL 1 Table 2–18.
NX5820 K System Upgrades Table 2–19. NX5820 K Dual Domain, Dual-Processor Multi-Processor Upgrades (DDMP) Component Style Description Qty.
Section 3 Configuring System Options How This Section Is Organized This section discusses how system options are configured.
NX5820 and NX5820 K Memory Table 3–1.
NX5820 and NX5820 K Memory Table 3–2. NX5820 and NX5820 K Memory Styles and Upgrade Components (cont.) Style Description MSK208 Style Memory MSK208-384 MEM298384-ADD MOD384-DM2 Provides a basic eight requestor MSK memory board with two chip sets (four DRAMs) for a memory capacity of 384 megabytes of storage. Up to three boards, each orderable under style MEM298384-ADD, can be configured per domain. Provides one additional MSK208-384 memory board, plus an additional 3.3 V DC Power Supply.
MSA104 Style Memory MSA104 Style Memory The minimum memory capacity per domain utilizing the MSA style memory board is 192 megabytes. Memory capacity may be expanded to 1152 megabytes per domain in increments of 192 megabytes by adding up to two additional MSA104-192 boards and an additional MOD192−DM2 per memory board. MSA memory modules are 6U high cards. Figure 3-1 depicts the board layout showing the location of the major components of the MSA memory board.
MSK208 Style Memory MSK208 Style Memory The minimum memory capacity per domain utilizing the MSK208 memory board is 384 megabytes. Memory capacity may be expanded to 2304 megabytes per domain in increments of 384 megabytes by adding up to two additional MSK208 memory boards and by adding two chip sets (four DIMMs) per memory board. Figure 3–2 depicts the board layout showing the location of the major components of the MSK208 memory board.
MSK208 Style Memory Connector Connector DRAM DRAM DRAM LVT16240 Buffers RAMPUP Circuit Connector DIMM 03 DIMM 02 ASIC number DIMM 01 DIMM 00 Binary Value of Bank/Segment Connector DRAM DRAM RAMPUP Circuit Connector DRAM LVT16240 Buffers Connector DIMM 13 DIMM 12 ASIC number DIMM 11 DIMM 10 Binary Value of Bank/Segment JTAG MSUX ASIC Number MSK208 Memory Increments Storage Quads Mwords MBytes 0 Bank 0 Seg 0 Seg 1 1 64 384 16Mx64 1/4 Quad 2 128 768 16Mx64 1/4Quad DIMM
MSK412 Style Memory MSK412 Style Memory The minimum memory capacity per domain utilizing the MSK412 memory board is 384 megabytes. Memory capacity may be expanded to 4608 megabytes per domain in increments of 384 megabytes by adding up to two additional MSK412 memory boards and by adding six chip sets (twelve DIMMs) per memory board. Figure 3–3 depicts the board layout showing the location of the major components of the MSK412 memory board.
MSK412 Style Memory DRAM U1 U3 U6 U0 U2 U9 384 Bank 0 Seg 0 Seg 1 Bank 1 Seg 0 Seg 1 16Mx64 1/4 Quad 3 192 256 1536 DIMM No.
Memory Slot Locations Memory Slot Locations A maximum of three MSA, MSK208 or MSK412 memory cards per domain can be configured. The maximum system capacity is 9216 megabytes using MSK412 memory cards. The memory card slot locations are listed in Table 3–3. Table 3–3.
IOM Channel Expansion IOM Channel Expansion See Section 5 for details on IOM options and guidelines for configuring these options. Configuring Redundant SCP for the NX5820 and NX5820 K The redundant SCP option enhances system redundancy and resiliency by providing a backup SCP capability to assume the system console role if the primary SCP becomes inoperable. It is only available on dual domain models. See Table 3–4 for optional redundant system console package style and it’s associated component styles.
Configuring Redundant Switching Hubs Configuring Redundant Switching Hubs Redundant switching hubs enhance system redundancy and resiliency by providing a backup capability to the primary public switching hub.
Configuring Additional Displays Configuring Operator Display Workstations ODWs are a client responsibility. The following minimum requirements apply: • • 120 Mhz Pentium processor that: − Is capable of running Windows NT workstation at 3.
Configuring Additional Displays Table 3–5. Guidelines for Configuring SCP Monitors and ODW Displays Configuration Guideline Single-Domain/NonRedundant Dual Domain One monitor with keyboard and mouse is supplied with the system. It is shared with all other servers (up to 7 servers total) via the eight-way ST selector. Up to six ODWs can be connected via the maintenance hub (Private LAN) and the switching hub (Public LAN).
Work Space Work Space An optional console table is available for operator work space and/or placement of the monitor/keyboard/mouse shared by the SCP, the server, and the ST selector. • Package style: TAB40-048, Console Table (40 inches by 48 inches by 40 inches high) Redundant Power for the NX5820 and NX5820 K • Component Style: NX5800-RPW (NX5820 and NX5820 K redundant power). • One NX5800-RPW is optional per domain and must be ordered separately.
Converting From NX5820 to NX5820 K Systems Table 3–6. Conversion Package Styles for NX5820 to NX5820 K Systems Conversion Package Style Converts From Consists of Component Style Qty.
Converting From NX5820 to NX5820 K Systems Table 3–6. Conversion Package Styles for NX5820 to NX5820 K Systems Conversion Package Style Converts From NXM582272-72K NXM582273-73K NXM582274-74K NXM582275-75K NXM582276-76K NXM582277-77K NXM582278-78K 3–16 NX5822-72 NX5822-73 NX5822-74 NX5822-75 NX5822-76 NX5822-77 NX5822-78 Consists of Component Style Qty.
Section 4 Configuring I/O Cabinets and Channel Racks How to Use This Section This section provides guidelines for configuring universal cabinet (UC) style rack-mount (RM) cabinets: • "Configuring I/O Cabinets" describes cabinet components and provides guidelines for configuring the cabinets. • "Configuring Channel Racks" describes channel rack components and provides guidelines for configuring channel racks.
Configuring I/O Cabinets Table 4–1. Cabinet Styles Status Orderable Migration Style Description BRM36-O First or only open-front style cabinet in a row. 36U high. BRM36-O2 Second and additional open-front style cabinets in a row. 36U high. RM36-1 First or only louvered-door style cabinet in a row. 36U high. RM36-2 Second and additional louvered-door style cabinets in a row. 36U high. Table 4–2.
Configuring Channel Racks Configuring Channel Racks Channel racks expand IOM connectivity beyond the channel slots provided in the system cabinet.
Configuring Channel Racks Table 4–3. Channel Rack Components Style RM5-CA4 and RM5-CA5 CSB3-E3U Description • These are modular channel racks used with RM-style open-front I/O cabinets to house external channel cards. • • RM5-CA4 is with fascia, for BRM36-0 and BRM36-02 cabinets. • Each rack contains four bays with four 3U slots each and accommodates up to sixteen 3U channel cards.
Configuring Channel Racks Table 4–4. Guidelines for Configuring Channel Racks Area 3U configurations Rule/Recommendation Consists of four bays with four 3U channel slots each: 3U Bay (3rd) 3U Bay (4th) 3U Bay (1st) 3U Bay (2nd) A22 Vertically adjacent bays can be electrically and logically configured so that one CSbus can service two bays with up to eight channels.
Configuring Channel Racks Table 4–5. Configuring Power Net in Channel Racks Area Configuration Recommendation For NX5820 systems, if the channel racks are daisy chained to one another and the CEC section, use 9 Pin D to 9 Pin D Power Net cables (Style CBL8820-xxx, cable assembly 3446 6110-xxx). The 9 Pin “Power Net In” connector (J5) is located on the left side in the rear of the channel rack. The 9 Pin “Power Net Out” connector (J4) is next to it.
Section 5 Configuring the Input/Output Module Introduction This section explains how to configure the I/O module (IOM) and its components. • It covers that portion of the Input/Output system considered part of the central system; that is, from the IOB for the NX5820 or the KIUB for the NX5820 K to the Common Input/Output Module (CIOM) and including the channel interface. • It does not cover from the channel interface outward.
How the IOM Is Organized How the IOM Is Organized The IOM manages the I/O channels connected via the channel service (CS) busses and transfers data and control information to and from main storage via the memory interface. Each domain contains an IOM system. IOM Logical Organization Each IOM consists of two board types: • Input/Output Bridge (IOB) for NX5820 or KIUB for NX5820 K which provides connectivity between the system memory and the I/O bus.
How the IOM Is Organized Domain 1 Domain 0 MSM MSM IOM IOM KIUB CIOM CIOM * 4 CSBs 4 CSBs ** CIOM KIUB CIOM CIOM CIOM 4 CSBs 4 CSBs 4 CSBs CIOM CIOM ** * CIOM * 4 CSBs 4 CSBs CIOM CIOM CIOM 4 CSBs 4 CSBs 4 CSBs * 2 of 4 busses can drive Internal and External Channels. * * Optionally dedicated for Multi-IOU functionality 0710A ** * Optionally dedicated for TCU functionality Figure 5–2.
How the IOM Is Organized First CIOM Per Domain • CMF# Used for channels Channel Loads CMF0 External CMF0 and CMF4 are combined for 16 loads CMF4 Internal CMF1 External CMF5 Internal CMF2 External 16 loads CMF3 External 16 loads CMF1 and CMF5 are combined for 16 loads With optional CS Bus connectivity CIOMs installed (Style CIM9-ADD), an additional four CS busses are available per CIOM (CMF0, 1, 2, 3), all being external CS busses with 16 channel loads each.
How the IOM Is Organized Domain 0 Domain 1 Domain 1 Cooling Module Cooling Module Operator Operator Panel Panel Power Module A0 A1 A2 A3 A4 A5 B5 B4B3 B2 B1 B0 L o g i c Domain 0 M M M P P K K P P M M M S S S M M I I MM S S S U U U 4 2 U U 3 5 U U U 0 1 2 B B 2 1 0 AC Inlet AC Inlet Power Module B0 B9 A9 A0 Channels Channels C C C CCC I I I I I I Channels O O O O O O M M M MMM CC I I OO MM CC C C I I I I O O O O Channels MM M M * * * * Channels * * * P P P P P P R a c k Ch
How the IOM Is Organized Table 5–1. CMF External Connectivity Options Package Style Name Component Style Name Qty. CSB3–E3U Description/Content CS Bus 3 External CMF with 3U Feedthru. CSB35000–3U 1 CS Bus 3 Feedthru/Terminator card, 3U. CSB3–20C 1 Cable assembly, CSB 3, 20 feet. CSB3–E6U CS Bus 3 External CMF with 6U Feedthru. CSB35000–6U 1 CS Bus 3 Feedthru/Terminator card, 6U. RM5–6UF 4 6U Slot filler, channel rack. CSB3–20C 1 Cable assembly, CSB 3, 20 feet.
Configuring Channels Configuring Channels This subsection: • Identifies channel adapter styles supported on the system • Provides channel loading for supported styles • Provides guidelines for configuring channels • Provides typical channel configuration diagrams Styles Offered Table 5–2 identifies the channel adapter styles supported on the system. Channel adapters listed as "new" can be purchased with the system. Channel adapters listed as "migration" can be migrated from existing systems.
Configuring Channels Assigning Channel Loads Table 5–3 provides CS-bus loading guidelines for the various channel configurations. CS-bus loading is dependent on bus demand factor (BDF), which provides a gauge of CSbus availability when the channel requires service. When there are many channels on the CS-bus vying for service simultaneously, there is a low probability of any one of the channels being granted instantaneous access to the bus.
Configuring Channels Configuration Guidelines Figure 5–5 is a CIOM/CMF/CS-Bus and channel diagram. Table 5–4 provides guidelines for configuring channels.
Configuring Channels Table 5–4. Guidelines for Configuring Channels Rule Number of CMFs per CIOM Description Standard: 4 CMFs per CIOM (CMF 0, 1, 2, 3 per CIOM) Maximum: Up to a maximum of 16 external CMFs per domain (32 CMFs per system) for NX5820. Up to a maximum of 20 external CMFs per domain (40 CMFs per system)for NX5820 K. CS-bus interfaces A minimum of four CS-bus interfaces per CIOM are provided.
Configuring Channels Table 5–4. Guidelines for Configuring Channels Rule Channels Description Total Channels for NX5820 System: A total of 254 logical channels are available per system. For Domain 0, 130 physical channel connections are available (15 external CMFs x 8 = 120 channels plus 10 internal channels. One CMF use for dedicated server. Of the 10 internal channels, 4 are required for reserved channels, leaving 6 available for internal channels).
Configuring Channels Configuration Diagrams Figure 5–6 and Figure 5–7 are examples of typical channel configurations. Actual configurations may vary depending on the number and types of channels configured. Figure 5–8 shows the typical locations of the PCI thru card when used optionally to connect a server via the internal channel rack or remote channel rack.
Configuring Channels CIOM #0 Card Note: For NX5820 systems, this CIOM is for IOU functionality only. For NX5820 K, use for Multi-IOU functionality only.
Configuring Channels Remote Channel Rack B8 BT B7 B6 B5 B0 AT A4 A3 A2 A1 A0 * * * * * Feedthru D8 DT D7 D6 D5 D0 CT C4 C3 C2 C1 C0 Terminator Jumper CSB3-20C Cable Assembly Domain 1 Domain 0 B0 B1 B2 B3 B4 CS-4 R1 CS-4 R2 CS-4 R3 CS-4 R4 CMF0 B5 B6 B7 B8 B9 A9 A8 A7 CMF0 A6 CMF0 A5 A4 A2 A3 CS-4 R4 CMF0 A1 A0 CS-4 CS-4 CS-4 R3 R2 R1 P1 P1 CS-0 CS-5 R1 CMF1 CS-0 CMF1 CMF1 CMF1 CS-5 R4 CS-5 R3 CS-5 CS-5 R2 R1 M A A I N CMF2 CS-5 CS-5 R8 R7 CMF3 CMF3 CMF
PCITHRU Feature Card PCITHRU Feature Card The PCITHRU card (style PCI3-FTH) permits expanded use of a server connected CSBus by allowing the server to be connected to a channel rack slot (internal or external), thus enabling connection of additional channels to the same CSBus. See Figure 5–8 for a representative example. Note the PCITHRU card in the internal CS-4/R3 slot used is to connect Server A to Domain 0.
PCITHRU Feature Card 0795 Jumper position 1 2 3 4 PCITHRU Channel Slot No. PCI Bridge Jumper Position 1 2 2 3 3 4 1 1 1 Default jumper position Figure 5–9.
Configuring QIC Tape and CD-ROM Configuring QIC Tape and CD-ROM Standard system models include both quarter-inch cartridge (QIC) tape and CD-ROM. Refer to the Unisys e-@ction ClearPath Enterprise Servers A Series and NX Systems I/O Configuration Guide (7008 6087) for guidelines on configuring these devices.
Information Contained in the NX Systems I/O Configuration Guide • • • 5–18 Peripheral devices supported on the system: − Comprehensive listing of device styles − Migration/new qualification status − Channel types − PCD control names − PCD/MCP names Peripheral configuration and power control addressing: − Peripheral configuration diagram (PCD) − Power control net (PCN) − Automatic power control (APC) Cables 7017 6300–005
Section 6 Configuring the Servers How This Section Is Organized This section contains the following information: • Describes the features provided with − VX1305-BSE/-BSU servers − VX1505-BSE/ -BSU servers − ES2024R servers (Package Style ESR202141-GZN) − ES5044R servers (Package Style ESR504141-GZN) − ES5085R servers (Package Style ESR508151-GZN) • Identifies components included with each server • Identifies required and optional package styles • Lists configuration guidelines • Configurin
VX1305 Servers VX1305 Servers Note: This configuration guide lists the basic features and options offered with VX1305 servers. The VX1305 server supports Windows NT. Your Unisys representative can provide details on server options available beyond those documented here.
VX1305 Servers Table 6–1. Basic Features, VX1305 Servers VX1305 Servers Processors Per Server 1,6,7 Memory 4 2,3 1 to 2 10/100 Mbps LAN Interface 3.5-Inch 1.44-MB Floppy Disk Drive CD-ROM Drive DAT Tape Drive7 RAID 9-GB Hard Disk Drives 5 Min. Max. Std. Std. Std. Std. Std. Max. 256-MB 1-GB 2 1 1 0 2 3 Notes: 1. VX1305-BSE includes the basic components listed in Table 6–2. VX1305-BSU contains the same basic components. 2.
VX1305 Servers Server B (Optional) Server A (Required) QTY. 1 Server A QTY. 1 VX1305-BSE VX1305-BSU * QTY. 0 - 1 QTY. 0 - 1 Additional Processors DSR2450-512 or DSR3500-512 (Currently available) DSR200081-P2U DSR2450-512 or DSR3500-512 (Currently available) DSR200081-P2U Additional Storage option Connection Package PCI Thru Card User Access Components DIM10072-256 DIM10072-256 QTY. 0 - 1 QTY.
VX1305 Servers Server Components This subsection provides ordering information for VX1305-BSE/-BSU server components Orders for server A (server position 1) must include the following: • VX1305-BSE (Table 6-2) • Additional processor, if any (Table 6–3) • Additional memory, if any (Table 6–4) • Connection package (Table 6–5) and optional PCI Thru card • Optional: User access components (Table 6–6) Orders for server B to J (server positions 2 to 10) must include: • VX1305-BSU (Same contents as VX1
VX1305 Servers Table 6–2.
VX1305 Servers Additional Memory Packages Table 6–4 lists the additional memory packages available for use with VX1305 servers at time of initial system order. Table 6–4. Memory Packages, VX1305 Servers Style Number Qty. Description Additional Memory DIM10072-256 1 1 PC 100 MHz SDRAM, 256MB Notes: 1. Up to three (3) additional memory DIMMs can be installed in the server. Memory styles can be intermixed..
VX1305 Servers Optional User Access Components Table 6–6 lists components included with the optional user access components package, style VX4000-CP3. Table 6–6. VX4000-CP3 Optional User Access Components, VX1305 Servers Style Number Qty. Description B25-LC 1 Line Cord (Note 1) EVG2100-P 1 15-Inch Monitor, Color PCK1-EXT 2 Cable M to F PS2 Keyboard EXT PCK104-SKB 1 Keyboard (Note 2) PWM1-PS2 1 2-Button Mouse SVG100-EXT 1 M to F SVGA Extension Cable Notes: 1.
VX1305 Servers Configuration Guidelines VX1305 Table 6–7 lists guidelines for configuring VX1305 servers. Figure 6–2 shows the connection from a VX1305 server to the CIOM card in the CEC module or to the PCI Thru card in channel racks. Table 6–7. Configuration Guidelines, VX1305 Servers Area Rule/Recommendation Windows NT Connection Packages See Table 6–5 for details. Processor Addition One additional processor may be added to a maximum of two per server. See Table 6–3 for details.
VX1505 Servers VX1505 Servers Note: This configuration guide lists the basic features and options offered with VX1505 servers. The VX1505 servers supports Windows NT. Your Unisys representative can provide details on server options available beyond those documented here.
VX1505 Servers Table 6–8. Basic Features, VX1505 Servers VX1505 Servers4 Per Server Processors 1,6,7 Memory 4 2,3,8 1 to 4 10/100 Mbps LAN Interface 3.5-Inch 1.44-MB Floppy Disk Drive CD-ROM Drive DAT Tape Drive7 RAID 9-GB Hard Disk Drives 5 Min. Max. Std. Std. Std. Std. Std. Max. 0.5-MB 8-GB 2 1 1 0 2 2 Notes: 1. VX1505-BSE includes the basic components listed in Table 6–10. VX1505-BSU contains the same basic components. 2.
VX1505 Servers Table 6–9. VX1505-BSE Processor Requirements No. of Installed Processors VRMs Required Terminators Required Notes 1 2 3 1st processor requires 2 VRMs. 3 terminators are required (XER2400-TRM) 2 3 2 2nd processor requires 1 additional VRM. 2 terminators are required (XER2400-TRM) 3 5 1 3rd processor requires 2 additional VRMs. 1 terminator is required (XER2400-TRM) 4 6 0 4th processor requires 1 additional VRM.
VX1505 Servers Server A (Required) Server A Server B (Optional) QTY. 1 QTY. 1 VX1505-BSE VX1505-BSU Server B Qty. 1 - 4 Qty.
VX1505 Servers From Previous Page From Previous Page Select Connection Package PCI Thru Card User Access Component Select NX5820-1NT NXU5810-NT Optional: Qty 1 Optional: Qty 1 PCI3-FTH PCI3-FTH Optional: Qty 1 Optional: Qty 1 VX4000-CP3 VX4000-CP3 Select one NXS840-EEX NT Software Connection Package PCI Thru Card User Access Component Select one US/Canada (contains NTE4008-L) NXS840-EEU NXS840-ESX International Single byte (contains NTE4008-LIS, 8-bit) NXS840-ESU International Sin
VX1505 Servers Processors Table 6–11 lists the processor boards available for use with VX1505 servers. Table 6–11. Processors, VX1505 Servers Component Style Number Description Processors Qty.
VX1505 Servers Connection Packages and Optional PCI Thru Card Table 6–13 list components included with the connection packages for VX1505 servers. Table 6–13.
VX1505 Servers Optional User Access Components Table 6–14 lists components included with the optional user access components package, style VX4000-CP3. Table 6–14. VX4000-CP3 Optional User Access Components, VX1505 Servers Style Number Qty. Description B25-LC 1 Line Cord (Note 1) EVG2100-P 1 15-Inch Monitor, Color PCK1-EXT 2 Cable M to F PS2 Keyboard EXT PCK104-SKB 1 Keyboard (Note 2) PWM1-PS2 1 2-Button Mouse SVG100-EXT 1 M to F SVGA Extension Cable Notes: 1.
VX1505 Servers Configuration Guidelines VX1505 Table 6–15 lists guidelines for configuring VX1505 servers. Figure 6–4 shows the connection from a VX1505 server to the CIOM card in the CEC module or to the PCI Thru card in channel racks. Table 6–15. Configuration Guidelines, VX1505 Servers Area Rule/Recommendation Windows NT Connection Packages See Table 6–13 for details. Processor Addition Up to three CPUs may be added to a maximum of four per server. See Table 6–11 for details.
ES5085R Servers ES5085R Servers Basic Features • One to ten (Five maximum per domain) − ES5085R servers (Package Style ESR508151-GZN) • One to eight 550-Mhz processors per server (all processor within a server must be the same style) • One or two memory card per server − Up to maximum 8-GB per memory card depending on memory style used (16-GB per server with two memory cards). Select from 128-MB, 256-MB or 512-MB DIMM sets. Memory styles can not be intermixed. • Requires NX Companion Package.
ES5085R Servers Table 6–16. Basic Features, ES5085R Servers ES5085R Servers Per Server 1,5,6,8 Processors 2,3 1 to 8 Memory 4 3.5-Inch 1.44-MB Floppy Disk Drive CD-ROM Drive DAT Tape Drive7 RAID Hard Disk Drives Min. Max. Std. Std. Std. Std. Max. 0.5-MB 16-GB 1 1 0 0 2 Notes: 1. Order one (1) ES5085R (Package style ESR508151-GZN) which includes a basic component style ESR508151-Z server. 2.
ES5085R Servers Server Components This subsection provides ordering information for ES5085R server components Orders for initial server A (server position 1) must include the following: • Package style ESR508151-GZN • Processors, if any (Table 6–17) • Memory packages (Table 6–18) • Connection package (Table 6–19) and optional PCI Thru card • Optional: User access components (Table 6–20) Orders for additional servers B to J (server positions 2 to 10) must include: • Package style ESR508151-GZN •
ES5085R Servers Initial Server Additional Server QTY. 1 QTY. 1 ES5085R Package Style (ESR508151-GZN) ES5085R Package Style (ESR508151-GZN) Qty. 1 - 8 Qty. 1 - 8 XEO3550-512 Processors 550 MHZ, 512K Cache XEO3550-512 550 MHZ, 512K Cache XEO3550-1MB 550 MHZ, 1MB Cache XEO3550-1MB 550 MHZ, 1MB Cache XEO3550-2MB 550 MHZ, 2MB Cache XEO3550-2MB 550 MHZ, 2MB Cache Qty. 1 - 32 Must be same type Qty.
ES5085R Servers Processors Table 6–17 lists the processor boards available for use with ES5085R servers. Table 6–17. Processors, ES5085R Servers Component Style Number Description Processors Qty. 1 XEO3550-512 Pentium III Xeon CPU, 550-Mhz, 512KB cache 1 to 8 XEO3550-1MB Pentium III Xeon CPU, 550-Mhz, 1MB cache 1 to 8 XEO3550-2MB Pentium III Xeon CPU, 550-Mhz, 2MB cache 1 to 8 Notes: 1. A total of 8 processors can be ordered. All processors within the ES5085R server must be the same style.
ES5085R Servers Connection Packages and Optional PCI Table 6–19 list components included with the connection packages for ES5085R servers. Table 6–19.
ES5085R Servers Optional User Access Components Table 6–20 lists components included with the optional user access components package, style VX4000-CP3. Table 6–20. VX4000-CP3 Optional User Access Components, ES5085R Servers Style Number Qty. Description B25-LC 1 Line Cord (Note 1) EVG2100-P 1 15-Inch Monitor, Color PCK1-EXT 2 Cable M to F PS2 Keyboard EXT PCK104-SKB 1 Keyboard (Note 2) PWM1-PS2 1 2-Button Mouse SVG100-EXT 1 M to F SVGA Extension Cable Notes: 1.
ES2024R Servers ES2024R Servers Basic Features • One to ten (Five maximum per domain) − ES2024R servers (Package Style ESR202141-GZN) • One or two processors per server (all processor within a server must be the same style) • One or two memory card per server − Up to maximum 8-GB per memory card depending on memory style used (16-GB per server with two memory cards). Select from 128-MB, 256-MB or 512-MB DIMM sets.
ES2024R Servers Table 6–21. Basic Features, ES2024R Servers ES2024R Servers Processors 2 Per Server 1,4,6 1 to 2 Memory 3 3.5-Inch 1.44-MB Floppy Disk Drive CD-ROM Drive DAT Tape Drive5 RAID Hard Disk Drives Min. Max. Std. Std. Std. Std. Max. 0.5-MB 16-GB 1 1 0 2 6 Notes: 1. Order one (1) ES2024R (Package style ESR202141-GZN). 2.
ES2024R Servers Server Components This subsection provides ordering information for ES2024R server components Orders for initial server A (server position 1) must include the following: • Package style ESR502141-GZN • Processors, if any (Table 6–22) • Memory packages (Table 6–23) • Connection package (Table 6–24) and optional PCI Thru card • Optional: User access components (Table 6–25) Orders for additional servers B to J (server positions 2 to 10) must include: • Package style ESR202141-GZN •
ES2024R Servers Initial Server Additional Server QTY. 1 QTY. 1 ES2024R Package Style (ESR202141-GZN) ES2024R Package Style (ESR202141-GZN) Qty. 1 - 2 Processors Qty. 1 - 2 CPU3667133-256 667 MHZ, 256OD/133FSB CPU3667133-256 667 MHZ, 256OD/133FSB CPU3733133-256 733 MHZ, 256OD/133FSB CPU3733133-256 733 MHZ, 256OD/133FSB CPU3800133-256 800 MHZ, 256OD/133FSB CPU3800133-256 800 MHZ, 256OD/133FSB CPU3866133-256 866 MHZ, 256OD/133FSB CPU3866133-256 866 MHZ, 256OD/133FSB Processors Qty.
ES2024R Servers Processors Table 6–22 lists the processor boards available for use with ES2024R servers. Table 6–22. Processors, ES2024R Servers Component Style Number Description Processors Qty. 1 CPU3667133-256 Pentium III CPU, 667-Mhz, 256 OD/133 FSB 1 to 2 CPU3733133-256 Pentium III CPU, 733-Mhz, 256 OD/133 FSB 1 to 2 CPU3800133-256 Pentium III CPU, 800-Mhz, 256 OD/133 FSB 1 to 2 CPU3866133-256 Pentium III CPU, 866-Mhz, 256 OD/133 FSB 1 to 2 Notes: 1.
ES2024R Servers Connection Packages and Optional PCI Table 6–24 list components included with the connection packages for ES2024R servers. Table 6–24.
ES2024R Servers Optional User Access Components Table 6–25 lists components included with the optional user access components package, style VX4000-CP3. Table 6–25. VX4000-CP3 Optional User Access Components, ES2024R Servers Style Number Qty. Description B25-LC 1 Line Cord (Note 1) EVG2100-P 1 15-Inch Monitor, Color PCK1-EXT 2 Cable M to F PS2 Keyboard EXT PCK104-SKB 1 Keyboard (Note 2) PWM1-PS2 1 2-Button Mouse SVG100-EXT 1 M to F SVGA Extension Cable Notes: 1.
ES5044R Servers ES5044R Servers Basic Features • One to ten (Five maximum per domain) − ES5044R servers (Package Style ESR504141-GZN) • One or four processors per server (all processor within a server must be the same style) • One or two memory card per server − Up to maximum 8-GB per memory card depending on memory style used (16-GB per server with two memory cards). Select from 128-MB, 256-MB or 512-MB DIMM sets.
ES5044R Servers Table 6–26. Basic Features, ES5044R Servers ES5044R Servers Per Server 1,5,6,8 Processors 2,3 Memory 4 1 to 4 3.5-Inch 1.44-MB Floppy Disk Drive CD-ROM Drive DAT Tape Drive7 RAID Hard Disk Drives Min. Max. Std. Std. Std. Std. Max. 256-MB 8-GB 1 1 0 2 2 Notes: 1. Order one (1) ES5044R (Package style ESR504141-GZN). 2.
ES5044R Servers Server Components This subsection provides ordering information for ES5044R server components Orders for initial server A (server position 1) must include the following: • Package style ESR504141-GZN • Processors, if any (Table 6–27) • Memory packages (Table 6–28) • Connection package (Table 6–29) and optional PCI Thru card • Optional: User access components (Table 6–30) Orders for additional servers B to J (server positions 2 to 10) must include: • Package style ESR504141-GZN •
ES5044R Servers Initial Server Additional Server QTY. 1 QTY. 1 ES5044R Package Style (ESR504141-GZN) ES5044R Package Style (ESR504141-GZN) Qty. 1 - 4 Qty. 1 - 4 Processors XEO37001-1MB 700 MHZ, 1MB Cache XEO37001-1MB 700 MHZ, 1MB Cache XEO37001-2MB 700 MHZ, 2MB Cache XEO37001-2MB 700 MHZ, 2MB Cache XEO38001-2MB 800 MHZ, 2MB Cache XEO38001-2MB 800 MHZ, 2MB Cache Voltage Regulator QTY. 0 - 3 QTY. 0 - 3 XEO37001-VRM XEO37001-VRM QTY. 0 - 3 QTY.
ES5044R Servers Processors Table 6–27 lists the processor boards available for use with ES5044R servers. Table 6–27. Processors, ES5044R Servers Component Style Number Description Processors Qty. 1,2 XEO37001-1MB Pentium III Xeon 700 MHz, 1MB cache 1 to 4 XEO37001-2MB Pentium III Xeon 700 MHz, 2MB, cache 1 to 4 XEO38001-2MB Pentium III Xeon 800 MHz, 2MB, cache 1 to 4 Notes: 1. A total of 4 processors can be ordered. All processors within the ES5044R server must be the same style. 2.
ES5044R Servers Connection Packages and Optional PCI Table 6–29 list components included with the connection packages for ES5044R servers. Table 6–29.
ES5044R Servers Optional User Access Components Table 6–30 lists components included with the optional user access components package, style VX4000-CP3. Table 6–30. VX4000-CP3 Optional User Access Components, ES5044R Servers Style Number Qty. Description B25-LC 1 Line Cord (Note 1) EVG2100-P 1 15-Inch Monitor, Color PCK1-EXT 2 Cable M to F PS2 Keyboard EXT PCK104-SKB 1 Keyboard (Note 2) PWM1-PS2 1 2-Button Mouse SVG100-EXT 1 M to F SVGA Extension Cable Notes: 1.
Configuring the Private Maintenance Hub and Public Switching LAN Configuring the Private Maintenance Hub and Public Switching LAN Tables 6–31 and 6–32 show the assignment for a single domain system with one or two switching LANs, respectively. Table 6–31.
Configuring the Private Maintenance Hub and Public Switching LAN Table 6–31. Configuring Single Domain Maintenance Hub and One Switching LAN Using Public Switching LAN A (Cisco 2924 XL) Port 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 7017 6300–005 Destination Comments NT Server A NT Server C Optional NT Server E Optional NT Server G Optional NT Server I Optional 802.3 Domain 0 – LAN 0 802.
Configuring the Private Maintenance Hub and Public Switching LAN Table 6–32.
Configuring the Private Maintenance Hub and Public Switching LAN Table 6–32. Configuring Single Domain Maintenance Hub and Two Switching LANs Using Public Switching LAN B (Bay Network 350 T) Port 10 11 12 13 14 15 16 Destination Comments 802.
Configuring the Private Maintenance Hub and Public Switching LAN Table 6–32. Configuring Single Domain Maintenance Hub and Two Switching LANs Using Public Switching LAN B (Cisco 2924 XL) Port 12 13 14 15 16 17 18 19 20 21 22 23 24 6–44 Destination Comments 802.
Configuring the Private Maintenance Hub and Public Switching LAN Table 6–33 shows the assignment for a dual domain systems with one Public Switching LAN. Table 6–33.
Configuring the Private Maintenance Hub and Public Switching LAN Table 6–33. Configuring Dual Domain Maintenance Hub and One Public Switching LAN (Cont.) Using Public Switching LAN A (Bay Network 350 T) Port 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 Destination NT Server A NT Server B NT Server C NT Server D NT Server E NT Server F NT Server G NT Server H NT Server I NT Server J 802.3 Domain 0 – LAN 0 Comments Optional Optional Optional Optional Optional Optional Optional Optional Optional 802.
Configuring the Private Maintenance Hub and Public Switching LAN Table 6–34 shows the assignment for a dual domain systems with two Public Switching LAN. Table 6–34.
Configuring the Private Maintenance Hub and Public Switching LAN Table 6–34. Configuring Dual Domain Maintenance Hub and Two Public Switching LANs Using Public Switching LAN A (Bay Network 350 T) Port 5 6 7 8 9 10 11 12 13 14 15 16 Destination NT Server I Comments Optional 802.3 Domain 0 – LAN 0 802.
Configuring the Private Maintenance Hub and Public Switching LAN Table 6–34. Configuring Dual Domain Maintenance Hub and Two Public Switching LANs Using Public Switch LAN A (Cisco 2924 XL) Port 13 14 15 16 17 18 19 20 21 22 23 24 Destination Comments 802.3 Domain 0 – LAN 0 802.
Configuring Optional and Recommended UPS Configuring Optional and Recommended UPS The Uninterruptible Power Supply (UPS) option enables the system to gracefully shut down in the event of a power interruption on the main supply line. The available styles are listed in Table 6–35. If the site UPS does not provide power and status to the entire system (CEC, APC, etc), it should provide power and status connections for the SCP’s and all servers.
Configuring Optional and Recommended UPS Table 6–35. UPS Options Component Style Name UPS915-WC6 Interconnect Configuration and Cable Part No.
Configuring Optional and Recommended UPS Table 6–36.
Configuring Optional and Recommended UPS Jumper cable for NT server (Part of style UPS111-EXP) 7015 7789-000 Last Server P1 J5 J4 J3 J2 Interconnect Box 7016 0619-001 (Part of style UPS111-EXP) J1 P1 Jumper cable for NT server (Part of style UPS111-EXP) 7015 7789-000 First Server P1 J5 J4 J3 J2 Interconnect Box 7016 0619-001 (Part of style UPS111-EXP) J1 P1 SCP Ser2 U U K M LPT Ser1 V i d e o C S E L A N S C S I C S E J u m p e r P C C O M M 1 Interconnect Cable 7015 5403 (See Not
Configuring Optional and Recommended UPS LPT Ser 1 Ser 2 M K Jumper cable 7015 7789-000 (Note 3) U Vid U LAN Last Server P1 SER 2 (COM 2) Interconnect Box 7016 0609 (Note 3) J5 J3 J4 J2 J1 P1 LPT Ser 1 Ser 2 M K Jumper cable 7015 7789-000 (Note 3) U Vid U LAN First Server P1 Interconnect Box 7016 0609 (Note 3) J5 SER 2 (COM 2) J4 J3 J2 J1 P1 SCP B Interconnect Cable 7015 5403-XXX (See Note 2) P1 J5 SER 1/COM 1 Jumper cable 7015 7789-001 (Provided with system) J4 SCP A
Configuring Optional and Recommended UPS If a site UPS is not used, Unisys highly recommends at a minimum that a small individual UPS’s provided power and status connections to each SCP in the system (2 UPS for redundant SCP). For this application, a small UPS can be obtained from Unisys Direct (Model PRC1000i) to supply power and status for each SCP. The interconnect box/power and status cable is provided with the SCP. See Figure 6–13 and Figure 6–14 for SCP to UPS cabling.
Configuring Optional and Recommended UPS 6–56 7017 6300–005
Section 7 Connecting Other Host Systems Table 7–1 lists guidelines for connecting other host systems via the I/O subsystem. Table 7–1. Guidelines for Connecting Other Host Systems Area Rule/Recommendation Software level The system software must be at or higher than the level specified in the I/O Configuration Guide for the specific I/O subsystem being configured. Shared components • Must be configured, strapped, and named in accordance with the most restrictive requirements of any connected system.
Connecting Other Host Systems 7–2 7017 6300–005
Glossary A APC Automatic Power Control ASIC Application specific integrated circuit ATM Asynchronous transfer mode C CSE Common scan engine central processing module (CPM) The computer hardware unit that controls and executes the instructions contained in object code files. Also called processing module (PM) and instruction processor (IP).
Glossary D DAC Direct access channel DDMP Dual-domain, multiple-processor DIMM Dual inline memory module data transfer unit (DTU) The subunit of an I/O module (IOM) that provides memory-to-memory data transfers for use in disk caching. data transfer facility (DTF) enhanced DTU dual domain adapter (DDA) Required for dual-domain models. Enables the SCP to communicate with and synchronize the operations of dual-domain systems.
Glossary I IOCB Input/Output Control Block I/O module (IOM) (1) A hardware module that interfaces with the I/O subsystem and schedules tasks by using a message protocol. (2) A group of units that control input/output on a system, including the task control unit (TCU), input/output unit (IOU), channel manager facility (CMF), and interface adapters (IAs). I/O unit (IOU) A component of the I/O module that provides input/output support functions for the master control program (MCP).
Glossary MSUA Memory storage unit A style MSUK Memory storage unit K style memory storage unit (MSU) One of up to three storage modules in each domain of the NX5820 that contains a 96-MB expansion module (MEM96-MOD) and can be expanded to 384 MB in 96-MB increments using MEM96-MOD and/or MEM96-DCM memory expansion modules. O OSKAR Oscillator card (clock) P PCI Peripheral connect interface Processor Module (PM) See Central Processor Module (CPM).
Glossary U UPS Uninterruptible power supply USD Unity storage device 7017 6300–005 Glossary–5
Glossary Glossary–6 7017 6300–005
Index A acronyms, system components, 1-7 Additional Memory Packages, 6-7 Add-On Processor Board, 6-6 Add-On Processor Board, VX1305 Servers, 6-6 array processing, 1-2 B Basic Features, ES2024R Servers, 6-27 Basic Features, ES5044R Servers, 6-34 Basic Server Components, 6-14 bus demand factor (BDF), 5-8 C Cables, 2-25 CD-ROM configuration guidelines reference, 5-17 Central Equipment Complex (CEC) Section, 1-4 channel adapters assigning channel loads, 5-8 channel loading bus demand factor (BDF), 5-8 connect
Index Connection Package Components, ES5044R Servers, 6-38 Connection Package Components, ES5085R Servers, 6-24 Connection Package Components, VX1305 Servers, 6-7 Connection Packages, 6-7, 6-16 D DDDP to DDMP upgrades, 2-31 DDMP to DDMP upgrades, 2-26 displays configuration guidelines, 3-11 maintenance terminals, 3-11 ODT terminals, 3-11 Dual Domain, 1-3 E ES2024R Basic Features, 6-26 ES2024R Server Components, 6-28 ES2024R Servers, 6-26 ES2024R Servers, Connection Packages and Optional PCI, 6-31 ES2024R
Index NX5820 Memory, 3-1 NX5820 Product Configurations, 2-3 NX5820 Products, 2-1 NX5820 System Upgrades, 2-26 O operator display terminal (ODT), 3-11 operator display workstation (ODW), 3-11 Operator Work Space, 3-14 Optional User Access Components, 6-8, 6-17 Other I/O Devices, 1-6 P PCITHRU Feature Card, 5-15 performance and reliability, 1-2 peripheral support, 1-6 Power Layout and Requirements, 2-25 Processor Board, 6-15 Processors, ES5085R Servers, 6-23 Standalone (PRC1000i) UPS to SCP Cabling, 6-55
Index VX1505 Servers, 6-10 VX1505 Single-Server to Multi-Server Upgrades, 6-17 VX1505-BSE Processor Requirements.
*70176300-005* 7 0 1 7 6 3 0 0 –0 0 5