IBM Z10 BUISNESS CLASS Z10 BC User Manual

FCP – increased performance for small block sizes

The Fibre Channel Protocol (FCP) Licensed Internal

Code has been modifi ed to help provide increased I/O

operations per second for small block sizes. With FICON

Express4, there may be up to 57,000 I/O operations

per second (all reads, all writes, or a mix of reads and

writes), an 80% increase compared to System z9. These

results are achieved in a laboratory environment using

one channel confi gured as CHPID type FCP with no other

processing occurring and do not represent actual fi eld

measurements. A signifi cant increase in I/O operations per

second for small block sizes can also be expected with

FICON Express2.

This FCP performance improvement is transparent to oper-

ating systems that support FCP, and applies to all the

FICON Express4 and FICON Express2 features when con-

fi gured as CHPID type FCP, communicating with SCSI

devices.

SCSI IPL now a base function

The SCSI Initial Program Load (IPL) enablement feature,

fi rst introduced on z990 in October of 2003, is no longer

required. The function is now delivered as a part of the

server Licensed Internal Code. SCSI IPL allows an IPL of

an operating system from an FCP-attached SCSI disk.

FCP Full fabric connectivity

FCP full fabric support means that any number of (single

vendor) FCP directors/ switches can be placed between

the server and an FCP/SCSI device, thereby allowing

many “hops” through a Storage Area Network (SAN) for

I/O connectivity. FCP full fabric connectivity enables mul-

tiple FCP switches/directors on a fabric to share links and

therefore provides improved utilization of inter-site con-

nected resources and infrastructure.

FICON and FCP for connectivity to disk, tape, and printers

High Performance FICON – improvement in performance and

RAS

Enhancements have been made to the z/Architecture

and the FICON interface architecture to deliver optimiza-

tions for online transaction processing (OLTP) workloads.

When exploited by the FICON channel, the z/OS operating

system, and the control unit, High Performance FICON for

System z (zHPF) is designed to help reduce overhead and

improve performance.

Additionally, the changes to the architectures offer end-

to-end system enhancements to improve reliability, avail-

ability, and serviceability (RAS).

zHPF channel programs can be exploited by the OLTP

I/O workloads – DB2, VSAM, PDSE, and zFS – which

transfer small blocks of fi xed size data (4K blocks). zHPF

implementation by the DS8000 is exclusively for I/Os that

transfer less than a single track of data.

The maximum number of I/Os is designed to be improved

up to 100% for small data transfers that can exploit zHPF.

Realistic production workloads with a mix of data transfer

sizes can see up to 30 to 70% of FICON I/Os utilizing zHPF

resulting in up to a 10 to 30% savings in channel utilization.

Sequential I/Os transferring less than a single track size

(for example, 12x4k bytes/IO) may also benefi t.

The FICON Express4 and FICON Express2 features will

support both the existing FICON protocol and the zHPF

protocol concurrently in the server Licensed Internal Code.

High performance FICON is supported by z/OS for DB2,

VSAM, PDSE, and zFS applications. zHPF applies to all

FICON Express4 and FICON Express2 features (CHPID

type FC) and is exclusive to System z10. Exploitation is

required by the control unit.

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