IBM Z10 BC manual Dynamic Oscillator Switchover, Transparent Sparing, Concurrent Memory Upgrade

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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 transparently, with no system outage. Previously, in the event of a failure of the active oscillator, a system outage would occur, the subsequent system Power On Reset (POR) would select the backup, and the system would resume operation. Dynamic Oscillator Switchover is exclusive to System z10 and System z9.

Transparent Sparing

The z10 BC offers 12 PUs, two are designated as System Assist Processors (SAPs). In the event of processor failure, if there are spare processor units available (undefi ned), these PUs are used for transparent sparing.

Concurrent Memory Upgrade

Memory can be upgraded concurrently using LIC-CC if physical memory is available on the machine either through the Plan Ahead Memory feature or by having more physical memory installed in the machine that has not been activated.

Plan Ahead Memory

Future memory upgrades can now be preplanned to be nondisruptive. The preplanned memory feature will add the necessary physical memory required to support target memory sizes. The granularity of physical memory in the System z10 design is more closely associated with the granularity of logical, entitled memory, leaving little room for growth. If you anticipate an increase in memory require- ments, a “target” logical memory size can now be speci-

ed in the confi guration tool along with a “starting” logical memory size. The confi guration tool will then calculate the physical memory required to satisfy this target memory.

Should additional physical memory be required, it will be fulfi lled with the preplanned memory features.

The preplanned memory feature is offered in 4 gigabyte (GB) increments. The quantity assigned by the confi gu- ration tool is the number of 4 GB blocks necessary to increase the physical memory from that required for the “starting” logical memory to the physical memory required for the “target” logical confi guration. Activation of any preplanned memory requires the purchase of preplanned memory activation features. One preplanned memory acti- vation feature is required for each preplanned memory fea- ture. You now have the fl exibility to activate memory to any logical size offered between the starting and target size.

Service Enhancements

z10 BC service enhancements designed to avoid sched- uled outages include:

Concurrent fi rmware fi xes

Concurrent driver upgrades

Concurrent parts replacement

Concurrent hardware upgrades

DIMM FRU indicators

Single processor core checkstop

Single processor core sparing

Rebalance PSIFB and I/O Fanouts

Redundant 100 Mb Ethernet service network with VLAN

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Contents IBM System z10 Business Class z10 BC Reference Guide Table of Contents Think Big, Virtually Limitless IBM System z10 Business Class z10 BC OverviewSpecial workloads, Specialty engines, affordable technology More Solutions, More AffordableNew Face Of System z Architecture operating system support ArchitectureZ10 BC Architecture Page Commitment to system integrity TPF VSEOperating System ESA/390 Linux on System zZ10 BC Page Page Z10 BC Design and Technology Memory Dimm sizes 2 GB and 4 GB Z10 BC ModelZ10 BC capacity identifiers Z10 BC Model Capacity IDs Z10 BC model upgradesCPU Measurement Facility Z10 BC PerformanceLarge System Performance Reference System I/O Configuration Analyzer Z10 BC I/O SubsystemZ10 BC Channels and I/O Connectivity Modes of Operation Concurrent UpdateSupport of Spanned Channels and Logical Partitions FCP Channels Ficon Support for Cascaded DirectorsHigh Performance Ficon improvement in performance FCP increased performance for small block sizesScsi IPL now a base function FCP Full fabric connectivityPlatform and name server registration in Ficon channel Preplanning and setup of SAN for a System z10 environmentProgram Directed re-IPL DistanceFicon Express enhancements for Storage Area Networks NPort ID VirtualizationOSA-Express3 the newest family of LAN adapters Serviceability EnhancementsFeature Infrastructure Ports per Ficon Link Incident ReportingOSA-Express2 availability OSA-Express3 Ethernet features Summary of benefitsOSA-Express3 10 Gigabit Ethernet LR FeaturesPurpose/Traffic TypeOSA-Express3-2P 1000BASE-T Ethernet OSA-Express3-2P Gigabit Ethernet SXFour-port exploitation on OSA-Express3 GbE SX and LX OSA-Express3 1000BASE-T EthernetNetwork Traffic Analyzer Dynamic LAN idle for z/OS Link aggregation for z/VM in Layer 2 modeOSA Layer 3 Virtual MAC for z/OS Layer 2 transport mode When would it be used?OSA-Express3 and OSA-Express2 OSN OSA for NCP Direct Memory Access DMAHardware data router IBM Communication Controller for Linux CCLOSA/SF Virtual MAC and Vlan id Display Capability OSA Integrated Console ControllerRemove L2/L3 LPAR-to-LPAR Restriction HiperSockets HiperSockets Enhancement for zIIP Exploitation CP Assist for Cryptographic Function Cpacf Security CryptographyCan Do IT securely Crypto Express2-1P Enhancements to CP Assist for Cryptographic Func Tion CpacfConfigurable Crypto Express2 Secure Key AES Support for ISOSupport for RSA keys up to 4096 bits Dynamically add crypto to a logical partitionSmart Card Reader Support for 13- thru 19-digit Personal Account NumbersTKE 5.3 workstation Enhancement with TKE 5.3 LICRemote Key Loading Benefits TKE additional smart cards new featureSystem z10 BC cryptographic migration Remote Loading of Initial ATM KeysCapacity on Demand Temporary Capacity On Demand CapabilitiesAmendment for CBU Tests Capacity Provisioning System z9 System z10 OS Capacity provisioning allows you to set up rulesRAS Design Focus Reliability, Availability, and Serviceability RASRedundant I/O Interconnect Enhanced Driver MaintenanceAvailability Functions Hardware System Area HSATransparent Sparing Dynamic Oscillator SwitchoverConcurrent Memory Upgrade Service EnhancementsIBM Systems Director Active Energy Manager Power MonitoringPower Estimation Tool Environmental EnhancementsCoupling Facility Control Code Cfcc Level Improved service time with Coupling Facility DuplexParallel Sysplex Cluster Technology System-Managed CF Structure Duplexing Coupling Facility Configuration AlternativesIntroducing long reach InfiniBand coupling links Parallel Sysplex Coupling ConnectivityCoupling Connectivity for Parallel Sysplex Server Time Protocol enhancements Z10 Coupling Link OptionsTime synchronization and time accuracy on z10 BC Server Time Protocol STPPreview Improved STP System Management with Continuous Availability of NTP servers used as Exter Enhanced STP recovery when Internal Battery FeatureApplication Programming Interface API to automate Internal Battery Feature RecommendationHMC/SE Console Messenger HMC System SupportFamily Machine Type Internet Protocol, Version 6 IPv6HMC z/VM Tower System Management Enhancements Enhanced installation support for z/VM using the HMCImplementation Services for Parallel Sysplex Gdps Fiber Quick Connect for Ficon LX EnvironmentsPhysical Planning Z10 BC Physical CharacteristicsZ10 BC System Power Z10 BC Highlights and Physical Dimensions Z9 BCZ10 BC Concurrent PU Conversions Z10 BC Configuration DetailZ10 BC IBF hold uptime Drawer Drawers Z10 BC Model StructureZ10 BC Minimum Maximum IBFZ890 Coupling Facility CF Level of SupportStatement of Direction Resource Link PublicationsFollowing Redbook publications are available now Available in the Library section of Resource LinkZSO03021-USEN-02
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