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Table of contents for the manual
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Page 1
April 2009 IBM System z10 Business Class (z10 BC) Reference Guide The New Face of Enterprise Computing[...]
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2 T able of Contents IBM System z10 Business Class (z10 BC) Overview page 3 z/Ar chitectur e page 6 z10 BC page 1 1 z10 BC Design and T echnology page 14 z10 BC Model page 15 z10 BC Performance page 17 z10 BC I/O Subsystem page 18 z10 BC Channels and I/O Connectivity page 19 HiperSockets page 34 Security page 36 Cryptography page 36 On Demand Capab[...]
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IBM System z10 Business Class (z10 BC) Overview In today’ s world, IT is woven in to almost everything that a business does and consequently is pivotal to a busi- ness. Y et technology leaders are challenged to manage sprawling, complex distributed infrastructures and the ever growing fl ow of data while remaining highly r esponsive to the deman[...]
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More Solutions, More Affordable T oday’ s businesses with extensive investments in hardwar e assets and core applications ar e demanding more fr om IT—more value, mor e transactions, more for the money . Above all, they are looking for business solutions that can help enable business growth while driving costs out of the business. System z has [...]
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provide a mor e cost-effective, specialized z/OS ® applica- tion Java execution environment. W orkloads eligible for the zAAP (with z/OS V1.8) include all Java processed via the IBM Solution Developers Kit (SDK) and XML processed locally via z/OS XML System Services. The System z10 Integrated Information Processor (zIIP) is designed to support sel[...]
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The z10 BC continues the line of upward compatible main- frame processors and r etains application compatibility since 1964. The z10 BC supports all z/Architecture ® -com- pliant Operating Systems. The heart of the processor unit is the IBM z10 Enterprise Quad Core pr ocessor chip run- ning at 3.5 GHz, designed to help improve CPU intensive worklo[...]
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• Intelligent and optimized dispatching of workloads. HiperDispatch can help provide incr eased scalability and perfor mance of higher n-way System z10 systems by improving the way workload is dispatched within the server . • Low-cost, high-availability disk solution. The Basic HyperSwap ™ capability (enabled by T otalStorage ® Productivity [...]
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• Improved availability with Parallel Sysplex and Coupling Facility improvement • Enhanced application development and integration with new System REXX ™ facility , Metal C facility , and z/OS UNIX ® System Services commands • Enhanced Workload Manager in managing discr etionary work and zIIP and zAAP workloads Commitment to system integri[...]
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The z/VM hypervisor is designed to help clients extend the business value of mainframe technology across the enter - prise by integrating applications and data while providing exceptional levels of availability , security , and operational ease. z/VM virtualization technology is designed to provide the capability for clients to run hundreds to thou[...]
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enhanced access to open code libraries, both of which can be used to lower development costs. Large memory spaces can be used to increase both system and appli- cation effi ciency as I/Os or memory management can be eliminated. z/TPF is designed to support: • 64-bit mode • Linux development environment (GCC and HLASM for Linux) • 32 processo[...]
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The IBM System z10 Business Class (z10 BC) delivers innovative technologies for small and medium enter - prises that give you a whole new world of capabilities to run modern applications. Ideally suited in a Dynamic Infratructure, this competitively priced server delivers unparalleled qualities of service to help manage growth and reduce cost and r[...]
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PUs defi ned as Internal Coupling Facilities (ICFs), Inte- grated Facility for Linux (IFLs), System z10 Application Assist Processor (zAAPs) and System z10 Integrated Infor - mation Processor (zIIPs) ar e no longer grouped together in one pool as on the IBM eServer ™ zSeries ® 890 (z890), but are gr ouped together in their own pool, where they [...]
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Page 13
Additionally , several service enhancements have also been designed to avoid unscheduled outages and include continued focus on fi rmware quality , r educed chip count on Single Chip Module (SCM) and memory subsystem improvements. In the ar ea of scheduled outage enhance- ments include redundant 100Mb Ethernet service network with VLAN, rebalance [...]
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Page 14
The System z10 BC is designed to provide balanced system perfor mance. From pr ocessor storage to the system’ s I/O and network channels, end-to-end bandwidth is provided and designed to deliver data wher e and when it is needed. The processor subsystem is comprised of one CPC, which houses the processor units (PUs), Storage Contr ollers (SCs), m[...]
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Timed Interconnect Multiplexer (STI-MP) car d. There ar e two types of HCA fanout cards: HCA2-C is copper and is always used to connect to I/O (IFB-MP card) and the HCA2-O which is optical and used for customer Infi niBand coupling. The z10 BC has been designed to offer high performance and effi cient I/O structure. The z10 BC ships with a single[...]
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z10 BC model upgrades The z10 BC provides for the dynamic and fl exible capac- ity growth for mainframe servers. Ther e are full upgrades within the z10 BC and upgrades from any z9 BC or z890 to any z10 BC. T emporary capacity upgrades are available through On/Of f Capacity on Demand (CoD). For the z10 BC models, there ar e twenty-six capacity set[...]
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z10 BC P erf ormance The perfor mance design of the z/Architectur e can enable the server to support a new standard of perfor mance for applications through expanding upon a balanced system approach. As CMOS technology has been enhanced to support not only additional processing power , but also more PUs, the entir e server is modifi ed to support [...]
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Page 18
A new host bus interface using Infi niBand with a link data rate of 6 GBps, was introduced on the z10 BC. It pr ovides enough throughput to support the full capacity and pro- cessing power of the CPC. The z10 BC contains an I/O subsystem infrastructure which uses up to four I/O drawers that provides eight I/O slots in each drawer . There ar e two [...]
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Page 19
ESCON Channels The z10 BC supports up to 480 ESCON channels. The high density ESCON feature has 16 ports, 15 of which can be activated for customer use. One port is always reserved as a spar e which is activated in the event of a failure of one of the other ports. For high availability the initial order of ESCON featur es will deliver two 16-port E[...]
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FICON Express Channels The z10 BC also supports carr ying forward FICON Express LX and SX channels fr om z9 BC and z990 each channel operating at 1 or 2 Gb/sec auto-negotiated. Each FICON Express featur e has two independent channels (ports). The System z10 BC Model E10 is limited to 32 features – any combination of FICON Express4, FICON Expr ess[...]
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The FICON Express4, FICON Expr ess2 and FICON Express channels support native FICON and FICON Channel-to-Channel (CTC) traffi c for attachment to servers, disks, tapes, and printers that comply with the FICON architectur e. Native FICON is supported by all of the z10 BC operating systems. Native FICON and FICON CTC are defi ned as CHPID type FC. [...]
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FCP – increased performance for small block sizes The Fibre Channel Pr otocol (FCP) Licensed Internal Code has been modifi ed to help pr ovide increased I/O operations per second for small block sizes. With FICON Express4, ther e may be up to 57,000 I/O operations per second (all reads, all writes, or a mix of r eads and writes), an 80% increase[...]
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IBM System Storage DS8000 Release 4.1 delivers new capabilities to support High Per formance FICON for System z, which can improve FICON I/O thr oughput on a DS8000 port by up to 100%. The DS8000 series Licensed Machine Code (LMC) level 5.4.2xx.xx (bundle version 64.2.xx.xx), or later , is required. Platform and name server registration in FICON ch[...]
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Extended distance FICON – improved performance at extended distance An enhancement to the industry standard FICON architec- ture (FC-SB-3) helps avoid degradation of performance at extended distances by implementing a new protocol for “persistent” Information Unit (IU) pacing. Control units that exploit the enhancement to the architectur e ca[...]
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FICON Link Incident Reporting FICON Link Incident Reporting is designed to allow an operating system image (without operating intervention) to register for link incident r eports, which can improve the ability to capture data for link err or analysis. The informa- tion can be displayed and is saved in the system log. Serviceability Enhancements Req[...]
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Page 26
The OSA-Express3 featur es are exclusive to System z10. There ar e operating system dependencies for exploitation of two ports in OSD mode per PCI-E adapter . Whether it is a 2-port or a 4-por t feature, only one of the ports will be visible on a PCI-E adapter if operating system exploitation updates are not installed. OSA-Express3 Ethernet feature[...]
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The OSA-Express3 and OSA-Expr ess2 Ethernet features support the following CHPID types: CHPID OSA-Express3, Purpose/T raffi c T ype OSA-Express2 Features OSC 1000BASE-T OSA-Integrated Console Controller (OSA-ICC) TN3270E, non-SNA DFT , IPL to CPC and LPARs Operating system console operations OSD 1000BASE-T Queued Direct Input/Output (QDIO) GbE TCP[...]
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OSA-Express3-2P Gigabit Ethernet SX The OSA-Express3-2P Gigabit Ethernet (GbE) short wavelength (SX) feature has two ports which reside on a single PCIe adapter and share one channel path identifi er (CHPID). Each port suppor ts attachment to a one Gigabit per second (Gbps) Ethernet Local Area Network (LAN). OSA-Express3 GbE SX supports CHPID type[...]
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When confi gured at 1 Gbps, the 1000BASE-T Ethernet feature operates in full duplex mode only and supports jumbo frames when in QDIO mode (CHPID type OSD). OSA-Express QDIO data connection isolation for the z/VM environment Multi-tier security zones are fast becoming the network confi guration standard for new workloads. Therefor e, it is essenti[...]
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Page 30
OSA-Express Network T raffi c Analyzer is exclusive to the z10 BC, z9 BC, z10 EC, and z9 EC, and is applicable to the OSA-Express3 and OSA-Expr ess2 features when confi gured as CHPID type OSD (QDIO), and is supported by z/OS. Dynamic LAN idle for z/OS Dynamic LAN idle is designed to reduce latency and improve network performance by dynamically a[...]
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Layer 2 transport mode: When would it be used? If you have an environment with an abundance of Linux images in a guest LAN environment, or you need to defi ne router guests to pr ovide the connection between these guest LANs and the OSA-Express3 featur es, then using the Layer 2 transport mode may be the solution. If you have Internetwork Packet E[...]
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Direct Memory Access (DMA) OSA-Express3 and the operating systems shar e a common storage area for memory-to-memory communi- cation, reducing system overhead and impr oving perfor - mance. There ar e no read or write channel pr ograms for data exchange. For write processing, no I/O interrupts have to be handled. For read pr ocessing, the number of [...]
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Page 33
T oken-Ring networks and ESCON channels with an Ether - net network and integrated LAN adapters on System z10, OSA-Express3 or OSA-Expr ess2 GbE or 1000BASE-T . OSA-Express for NCP is supported in the z/OS, z/VM, z/VSE, TPF , z/TPF , and Linux on System z environments. OSA Integrated Console Controller The OSA-Express Integrated Console Contr oller[...]
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Page 34
The HiperSockets function, also known as internal Queued Direct Input/Output (iDQIO) or internal QDIO, is an inte- grated function of the z10 BC server that provides users with attachments to up to sixteen high-speed “virtual” Local Area Networks (LANs) with minimal system and network overhead. HiperSockets eliminates the need to utilize I/O su[...]
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interrupt. This enhancement is transparent to the operating system in the receiving LP AR. HiperSockets Multiple Write Facility , with fewer I/O interrupts, is designed to reduce CPU utilization of the sending and receiving LP AR. The HiperSockets Multiple Write solution moves multiple output data buffers in one write operation. If the function is [...]
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Page 36
T oday’ s world mandates that your systems are secur e and available 24/7. The z10 BC employs some of the most advanced security technologies in the industry—helping you to meet rigid regulatory requir ements that include encryption solutions, access control management, and extensive auditing features. It also pr ovides disaster recov- ery con?[...]
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Page 37
Enhancements to CP Assist for Cryptographic Func- tion (CP A CF): CP ACF has been enhanced to include support of the fol- lowing on CPs and IFLs: • Advanced Encryption Standard (AES) for 192-bit keys and 256-bit keys • SHA-384 and SHA-512 bit for message digest SHA-1, SHA-256, and SHA-512 are shipped enabled and do not requir e the enablement f[...]
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Impro ved key e xchange – Added Improved key exchange with non-CCA cryptographic systems. New fea- tures added to IBM Common Cryptographic Architectur e (CCA) are designed to enhance the ability to exchange keys between CCA systems, and systems that do not use control vectors by allowing the CCA system owner to defi ne permitted types of key imp[...]
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Support for AES encr yption algorithm includes the master key management functions requir ed to load or generate AES master keys, update those keys, and re-encipher key tokens under a new master key . Support for 13- thru 19-digit Personal Account Numbers Credit car d companies sometimes perfor m card security code computations based on Personal Ac[...]
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Page 40
TKE additional smart cards – new f eature Y ou have the capability to order Java-based blank smart cards which of fers a highly effi cient cryptographic and data management application built-in to read-only memory for storage of keys, certifi cates, passwords, applications, and data. The TKE blank smart cards are compliant with FIPS 140-2 Level[...]
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Page 41
It may sound revolutionary , but it’ s really quite simple. In the highly unpredictable world of On Demand business, you should get what you need, when you need it. And you should pay for only what you use. Radical? Not to IBM. It’ s the basic principle underlying IBM capacity on demand for the IBM System z10. The z10 BC also introduces a ar ch[...]
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can be added up to what the physical hardwar e model can contain for up to 10 days for a test activation or 90 days for a true disaster recovery . On system z10 the CBU entitlement recor ds contain an expiration date that is established at the time of order and is dependent upon the quantity of CBU years. Y ou will now have the capability to extend[...]
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• The quantity of temporary CP capacity ordered is limited by the quantity of purchased CP capacity (permanently active plus unassigned) • The quantity of temporary IFLs ordered is limited by quantity of purchased IFLs (permanently active plus unassigned) • T emporary use of unassigned CP capacity or unas- signed IFLs will not incur a hardwar[...]
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Page 44
z/OS Capacity provisioning allows you to set up rules defi ning the circumstances under which additional capac- ity should be provisioned in or der to fulfi ll a specifi c busi- ness need. The rules are based on criteria, such as: a specifi c application, the maximum additional capacity that should be activated, time and workload conditions. Th[...]
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In today’ s on demand environment, downtime is not only unwelcome—it’ s costly . If your applications aren’t consis- tently available, your business suffers. The damage can extend well beyond the fi nancial r ealm into key areas of customer loyalty , market competitiveness and regulatory compliance. High on the list of critical business re[...]
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Page 46
With the z10 BC, signifi cant steps have been taken in the area of server availability with a focus on r educing pre- planning requir ements. Pre-planning r equirements ar e minimized by delivering and reserving 8 GB for HSA so the maximum confi guration capabilities can be exploited. And with the introduction of the ability to seamlessly include[...]
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Dynamic Oscillator Switchover The z10 BC has two oscillator cards, a primary and a backup. For most cases, should a failure occur on the pri- mary oscillator card, the backup can detect it, switch over , and provide the clock signal to the system transpar ently , with no system outage. Previously , in the event of a failure of the active oscillator[...]
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Page 48
Power and cooling discussions have entered the budget planning of every IT environment. As energy prices have risen and utilities have restricted the amount of power usage, it is important to review the role of the server in bal- ancing IT spending. Power Monitoring The “mainframe gas gauge” feature intr oduced on the System z9 servers, provide[...]
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IBM System z servers stand alone against competition and have stood the test of time with our business resiliency solutions. Our coupling solutions with Parallel Sysplex technology allow for greater scalability and availability . Parallel Sysplex clustering is designed to bring the power of parallel processing to business-critical System z10, Syste[...]
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Page 50
16 allows one of these protocol exchanges to complete asynchronously . This allows faster duplexed request ser - vice time, with more benefi ts when the Coupling Facilities are further apart, such as in a multi-site Parallel Sysplex environment. List notifi cation impr ovements : Prior to CFCC Level 16, when a shared queue (subsidiary list) chang[...]
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Parallel Sysplex Coupling Connectivity The Coupling Facilities communicate with z/OS images in the Parallel Sysplex environment over specialized high- speed links. As processor performance increases, it is important to also use faster links so that link per formance does not become constrained. The perfor mance, avail- ability and distance requir e[...]
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Page 52
The IBM System z10 BC also takes advantage of Infi niBand as a higher -bandwidth replacement for the Self- Timed Interconnect (STI) I/O interface features found in prior System z servers. Infi niBand coupling links are CHPID type CIB. Coupling Connectivity for Parallel Sysplex Five coupling link options: The z10 BC supports Inter nal Coupling cha[...]
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z10 Coupling Link Options T ype Description Use Link Distance z10 BC z10 d ata rate z10 EC Max Max PSIFB 1x IB-DDR LR z10 to z10 5 Gbps 10 km unrepeated 12*/32* (6.2 miles) 100 km repeated PSIFB 12x IB-DDR z10 to z10 6 GBps 150 meters 12*/32* z10 to z9 3 GBps ** (492 ft)*** IC Internal Internal Internal N/A 32/32 Coupling Communi- Speeds Channel ca[...]
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join the two server CTN. Previously , if both the Preferr ed Time Server (PTS) and the Backup Time Server (BTS) experienced a simultaneous power outage (site failure), or both experienced a POR, reinitialization of time, and special roles (PTS, BTS, and CTS) was r equired. With this enhancement, you will no longer need to reinitialize the time or r[...]
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Page 55
Continuous A vailability of NTP servers used as Exter- nal Time Source : Improved External Time Source (ETS) availability can now be provided if you confi gure dif ferent NTP servers for the Preferr ed Time Server (PTS) and the Backup Time Server (BTS). Only the PTS or the BTS can be the Current Time Server (CTS) in an STP-only CTN. Prior to this [...]
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Page 56
Application Programming Interface (API) to automate STP CTN reconfi guration : The concept of “a pair and a spare” has been ar ound since the original Sysplex Couple Data Sets (CDSs). If the primary CDS becomes unavailable, the backup CDS would take over . Many sites have had automation routines bring a new backup CDS online to avoid a single [...]
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Page 57
The new functions available on the Hardwar e Management Console (HMC) version 2.10.1 as described apply exclu- sively to System z10. However , the HMC version 2.10.1 will continue to support the systems as shown. The 2.10.1 HMC will continue to support up to two 10/100 Mbps Ethernet LANs. T oken Ring LANs are not supported. The 2.10.1 HMC applicati[...]
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Page 58
There is now a new Console Manager task that of fers basic messaging capabilities to allow system operators or administrators to coordinate their activities. The new task may be invoked directly , or via a new option in Users and T asks. This capability is available for HMC and SE local and remote users permitting interactive plain-text com- munica[...]
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Page 59
IBM Implementation Services for Parallel Sysplex CICS and WAS Enablement IBM Implementation Services for Parallel Sysplex Middle- ware – CICS enablement consists of fi ve fi xed-price and fi xed-scope selectable modules: 1) CICS application review 2) z/OS CICS infrastructure r eview (module 1 is a prer equi- site for this module) 3) CICS imple[...]
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Page 60
GDPS Geographically Dispersed Parallel Sysplex (GDPS) is designed to provide a compr ehensive end-to-end con- tinuous availability and/or disaster recovery solution for System z servers, Geographically Dispersed Open Clusters (GDOC) is designed to address this need for open systems. When available, GDPS 3.5 will support GDOC for coordinated disaste[...]
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Page 61
Physical Planning A System z10 BC feature may be or dered to allow use of the z10 BC in a non-raised fl oor environment. This capabil- ity may help ease the cost of entry into the z10 BC; a raised fl oor may not be necessary for some infrastructures. The non-raised fl oor z10 BC implementation is designed to meet all electromagnetic compatibilit[...]
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Page 62
Features Min # Max # Max Increments Purchase Features Features Connections per Feature Increments 16-port 0 (1) 32 480 channels 16 channels 4 channels ESCON 1reserved as as a spare FICON 0 (1) 32 64/128* 2/4* 2/4* Express4* channels channels channels FICON 0 (1) 20 80 channels 4 channels 4 channels Express2 ** FICON 0 (1) 20 40 channels 2 channels [...]
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z10 BC Model Structure Model PU PUs for Max Avail Standard Standard CP/IFL/ Max Max Customer Subcapacity SAPs Spares ICF/zAAP/ Customer Chan. CPs zIIP** Memor y E10 4 10 5 2 0 5/10/10/5/5 248 GB 480 * * Max is for ESCON channels. ** For each zAAP and/or zIIP installed there must be a corr esponding CP . The CP may satisfy the requir ement for both [...]
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CF Level Function z10 EC z9 EC z990 z10 BC z9 BC z890 16 CF Duplexing Enhancements X List Notifi cation Improvements Structure Size increment increase from 512 MB –> 1 MB 15 Increasing the allowable tasks in the CF from 48 to 112 X X 14 CFCC Dispatcher Enhancements X X 13 DB2 Castout Performance X X 12 z990 Compatibility 64-bit CFCC X X Addre[...]
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Page 65
The System z10 will be the last server to support connec- tions to the Sysplex Timer (9037). Servers that requir e time synchronization, such as to support a base or Parallel Sys- plex, will requir e Server Time Protocol (STP). STP has been available since January 2007 and is offered on the System z10, System z9, and zSeries 990 and 890 servers. ES[...]
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The following Redbook publications are available now: z10 BC T echnical Overview SG24-7632 z10 BC T echnical Guide SG24-7516 System z Connectivity Handbook SG24-5444 Server Time Protocol Planning Guide SG24-7280 Server Time Protocol Implementation Guide SG24-7281 The following publications are shipped with the product and available in the Library s[...]
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© Copyright IBM Corporation 2009 IBM Systems and T echnology Group Route 100 Somers, NY 10589 U.S.A Produced in the United States of America, 04-09 All Rights Reserved References in this publication to IBM pr oducts or services do not imply that IBM intends to make them available in every countr y in which IBM operates. Consult your local IBM busi[...]