IBM Z10 EC User Manual

In order of introduction:

The Internal Coupling Facility (ICF) processor was intro-

duced to help cut the cost of Coupling Facility functions

by reducing the need for an external Coupling Facility.

IBM System z Parallel Sysplex

®

technology allows for

greater scalability and availability by coupling mainframes

together. Using Parallel Sysplex clustering, System z serv-

ers are designed for up to 99.999% availability.

The Integrated Facility for Linux (IFL) processor offers sup-

port for Linux

®

and brings a wealth of available applications

that can be run in a real or virtual environment on the z10

EC. An example is the z/VSE

™

strategy which supports

integration between the IFL, z/VSE and Linux on System z

to help customers integrate timely production of z/VSE data

into new Linux applications, such as data warehouse envi-

ronments built upon a DB2

®

data server. To consolidate dis-

tributed servers onto System z, the IFL with Linux and the

System z virtualization technologies fulfi ll the qualifi cations

for business-critical workloads as well as for infrastructure

workloads. For customers interested to use a z10 EC only

for Linux workload, the z10 EC can be confi gured as a

server with IFLs only.

Available on System z since 2004, the System z10 Applica-

tion Assist Processor (zAAP) is designed to help enable

strategic integration of new application technologies

such as Java

™

technology-based Web applications and

XML-based data interchange services with core business

database environments. This helps provide a more cost-

effective, specialized z/OS application Java execution envi-

ronment. Workloads 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 select data and transaction process-

ing and network workloads and thereby make the consoli-

dation of these workloads on to the System z platform more

cost effective. Workloads eligible for the zIIP (with z/OS

V1.7 or later) include remote connectivity to DB2 to help

support these workloads: Business Intelligence (BI), Enter-

prise Relationship Management (ERP), Customer Relation-

ship Management (CRM) and Extensible Markup Language

(XML) applications. In addition to supporting remote

connectivity to DB2 (via DRDA

®

over TCP/IP) the zIIP also

supports DB2 long running parallel queries—a workload

integral to Business Intelligence and Data Warehousing

solutions. The zIIP (with z/OS V1.8) also supports IPSec

processing, making the zIIP an IPSec encryption engine

helpful in creating highly secure connections in an enter-

prise. In addition, zIIP (with z/OS V1.10) supports select

z/OS Global Mirror (formerly called Extended Remote

Copy, XRC) disk copy service functions. z/OS V1.10 also

introduces zIIP-Assisted HiperSockets

™

for large messages

(available on System z10 servers only).

The new capability provided with z/VM

®

-Mode partitions

increases fl exibility and simplifi es systems management by

allowing z/VM 5.4 to manage guests to operate Linux on

System z on IFLs, to operate z/VSE and z/OS on CPs,

to offl oad z/OS system software overhead, such as DB2

workloads on zIIPs, and to offer an economical Java exe-

cution environment under z/OS on zAAPs, all in the same

z/VM LPAR.

Numerical computing on the chip

Integrated on the z10 EC processor unit is a Hardware

Decimal Floating Point unit to accelerate decimal fl oating

point transactions. This function is designed to markedly

improve performance for decimal fl oating point operations

which offer increased precision compared to binary fl oating

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