DOCSLIB.ORG

A Look at System I Integrated DASD Configuration and Performance Under I5/OS

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
A Look at System I Integrated DASD Configuration and Performance Under I5/OS Front cover A Look at System i Integrated DASD Configuration and Performance under i5/OS Integrated disk configuration from a performance view Lots of disk performance considerations and tips Featuring the large read/write controllers Jim Cook Sue Baker Brian Podrow Chris Place ibm.com/redbooks Redpaper International Technical Support Organization A Look at System i Integrated DASD Configuration and Performance under i5/OS April 2008 REDP-3919-00 Note: Before using this information and the product it supports, read the information in “Notices” on page v. First Edition (April 2008) This edition applies to Version 5, Release 3, Modification 0 and Version 5, Release 4, Modification 0 of i5/OS. This document created or updated on April 8, 2008. © Copyright International Business Machines Corporation 2008. All rights reserved. Note to U.S. Government Users Restricted Rights -- Use, duplication or disclosure restricted by GSA ADP Schedule Contract with IBM Corp. Contents Notices . .v Trademarks . vi Preface . vii The team that wrote this IBM Redpaper . viii Become a published author . ix Comments welcome. ix Chapter 1. The importance of disk subsystems to system performance . 1 1.1 Understanding the key components of overall system performance. 2 1.2 Configuration factors affecting disk subsystem performance . 4 1.2.1 Key observations affecting disk performance . 5 Chapter 2. Understanding disk performance . 7 2.1 Some definitions . 8 2.2 Disk drive considerations . 12 2.3 Disk controller considerations . 14 2.4 Other considerations affecting disk sizing, performance, and availability . 15 2.4.1 Overall disk sizing considerations. 15 2.4.2 Mirroring compared to RAID-5 or RAID-6 . 19 2.4.3 The importance of auxiliary write cache . 20 2.4.4 Other disk subsystem functions affecting performance . 21 Chapter 3. Large read and write cache disk controllers and enclosures . 23 3.1 New disk controllers used with existing (#5094/5294) disk towers . 24 3.1.1 Auxiliary write cache features for new #5738/5777 IOAs and older #2757/2780 IOAs . 24 3.1.2 Positioning the February 2007 disk controllers used in #5094/5294 towers. 25 3.2 TotalStorage EXP24 disk enclosure features and capabilities . 26 3.3 Disk controllers that support the EXP24 disk drawer and tower . 29 3.4 Positioning the new disk controllers and EXP24 disk enclosures . 32 Chapter 4. Planning and installation considerations for large cache disk controllers 35 4.1 Minimum code levels. 36 4.2 Feature code to CCIN cross reference . 38 4.3 Card placement rules . 39 4.3.1 5094, 5294, 9094, 9194, and 8294 PCI-X expansion units . 39 4.3.2 5096, 5296 PCI-X expansion units . 42 4.3.3 5790 PCI-X expansion units . 43 4.3.4 5088, 0588 PCI-X expansion units . 43 4.3.5 5095, 0595 PCI-X expansion units . 45 4.3.6 520 POWER5 system units. 47 4.3.7 520 POWER5+ system units . 47 4.3.8 550 POWER5 system units. 48 4.3.9 550 POWER5+ system units . 48 4.3.10 570 POWER5 system units. 49 4.3.11 570 POWER5+ system units . 49 4.3.12 5074, 5079, and 9094 expansion units . 50 © Copyright IBM Corp. 2008. All rights reserved. iii 4.4 Parity set planning. 51 4.4.1 RAID-5 . 51 4.4.2 RAID-6 . 52 4.5 EXP24 disk enclosure and CCIN 571F IOA . 52 4.5.1 EXP24 disk enclosure front and rear views . 54 4.5.2 Feature 5741/5742 Disk Slot Enabler placement and cabling recommendations. 55 4.5.3 Load source drive considerations in #5786/#5787 . 56 Chapter 5. Performance considerations . 59 5.1 Review of performance test results. 60 5.1.1 2780 versus new IOAs . 61 5.1.2 RAID-6 versus RAID-5 . 61 5.1.3 RAID-5 versus mirroring . 62 5.2 Disk controller I/O performance guidelines . 63 Appendix A. System i integrated disk capabilities that require a SAN on other systems . 65 SAN and native System i capabilities. 66 Conclusion . 68 Appendix B. Understanding disk write cache . 69 Appendix C. Understanding RAID-5, RAID-6, and associated performance considerations . 73 A brief history of RAID . 74 The various RAID levels. 74 Appendix D. Mirroring. 85 Mirroring overview . 86 Disk activity and performance during normal mirrored operations. 86 Mirroring performance during disk outage operations . 88 Mirroring performance during disk drive rebuild operations . 89 Recovery from a controller failure with mirrored disk controllers . 90 Using double capacity disks in a mirrored environment. 91 Some conclusions about mirroring implementations on the System i . 92 Appendix E. Additional examples of situations using mixed capacity disk drives . 95 Example 1 . 96 Example 2a . 96 Example 2b . 97 Appendix F. References to articles on future disk technologies and replacements . 99 Appendix G. A real-world approach to sizing disks for adequate performance . 101 Related publications . 111 IBM Redbooks Publications . 111 Online resources . 111 How to get IBM Redbooks Publications . ..
Load more

Recommended publications
  • North Star MDS Micro Disk System Double Density
    NorthSbrCompumlnc 2547 Ninth Street Berkeley, Co. 94710 MICRO-DISK SYSTEM MDS-A-D DOUBLE DENSITY Table of Contents Introduction. ..... • 2 Cautions ...... 2 Limited Hardware Warranty 3 Out of Warranty Repair .. 3 Limited Software Warranty 4 Software License ...•. 4 Parts List ........ 5 Assembly Information ••. 8 ,< Figure lA: Identification of Components 10 Assembly and Check-out Instructions 11 l System Integration .•••.... 22 , Theory of Operation ••••• 27 ! Appendix 1: Pulse Signal Detection 35 I Schematic Drawings ••.•••.• 36 -~ I ; Copyright 1978, North star Computers, Inc. MDS-D REVISION 2 25010 INTRODUCTION The North Star Micro-Disk System (MDS-A-O) is a complete floppy disk system for use with 5-100 bus computers. The system .• includes the disk controller board, one floppy disk drive, power regulation, cables, software and documentation. The software is provided on diskette and includes the North Star Disk Operating System, BASIC Language System, Monitor, and various utility programs. The system is capable of controlling up to four disk drives. Each disk drive can record 179,200 bytes of information on a diskette, thus allowing up to 716,800 bytes of on-line disk storage. Addition disk drives, AC power supplies, and cabinets are available as options If you have purchased the MDS-A-D as a kit, then first skim the entire manual. Be sure to carefully read the Assembly Information section before beginning assembly. If you have purchased the MDS-A-D in assembled form, you may skip the A Assembly section. ., CAUTIONS .- 1. Correct this document from the errata before doing anything else. 2. Do NOT insert or remove the MDS controller from the computer while the power is turned on.
    [Show full text]
  • The Title Title: Subtitle March 2007
    sub title The Title Title: Subtitle March 2007 Copyright c 2006-2007 BSD Certification Group, Inc. Permission to use, copy, modify, and distribute this documentation for any purpose with or without fee is hereby granted, provided that the above copyright notice and this permission notice appear in all copies. THE DOCUMENTATION IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS DOCUMENTATION INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CON- SEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEG- LIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS DOCUMENTATION. NetBSD and pkgsrc are registered trademarks of the NetBSD Foundation, Inc. FreeBSD is a registered trademark of the FreeBSD Foundation. Contents Introduction vii 1 Installing and Upgrading the OS and Software 1 1.1 Recognize the installation program used by each operating system . 2 1.2 Recognize which commands are available for upgrading the operating system 6 1.3 Understand the difference between a pre-compiled binary and compiling from source . 8 1.4 Understand when it is preferable to install a pre-compiled binary and how to doso ...................................... 9 1.5 Recognize the available methods for compiling a customized binary . 10 1.6 Determine what software is installed on a system . 11 1.7 Determine which software requires upgrading . 12 1.8 Upgrade installed software . 12 1.9 Determine which software have outstanding security advisories .
    [Show full text]
  • Installing Windows NT 4.0 (Clean) on a Fasttrak/Fasttrak66ide RAID Controller
    Installing Windows NT 4.0 (Clean) on a FastTrak/FastTrak66IDE RAID Controller * READ THIS FIRST! If you have not created any arrays using your FastTrak IDE RAID Controller, STOP and setup your array/s in the FastTrak/FastTrak66 IDE RAID Controllers Bios first before creating any Dos Partition on your boot drive, or if you plan to boot with the FastTrak/FastTrak66 like you would a Standard Hard Disk Controller create a single drive array then proceed to step #1. -Setup Procedure 1.) We STRONGLY RECOMMEND that you create a Dos Partition (no larger than 4 GB in size) before installing Windows NT 4.0 with our FastTrak IDE RAID Controller card. If possible boot up with a real dos boot disk, then execute Microsoft's FDISK to partition and format the hard disk drive. This will help to eliminate potential problems during the install process. 2.) Being the Installation process by booting up the computer with CD ROM support. Change to the CD ROM Drive letter (yours may vary) by typing "D:" (without quotations) and then pressing "enter". Then type "cd I386" and then press the "enter" key. Next type (without quotations) "winnt" or "winnt /x" (if you already have the 3 startup diskettes. After the file copying process is complete, restart your computer with the NT 4.0 boot diskette labeled "Disk1 Setup Boot disk" when prompted. 3.) Proceed with the setup process until your reach the "Mass Storage Controller auto detect screen". 4.) Next a screen will appear showing a list of Mass Storage Devices (IDE Controllers, SCSI cards, Etc.) that have been recognized by the setup program.
    [Show full text]
  • Disk Array Data Organizations and RAID
    Guest Lecture for 15-440 Disk Array Data Organizations and RAID October 2010, Greg Ganger © 1 Plan for today Why have multiple disks? Storage capacity, performance capacity, reliability Load distribution problem and approaches disk striping Fault tolerance replication parity-based protection “RAID” and the Disk Array Matrix Rebuild October 2010, Greg Ganger © 2 Why multi-disk systems? A single storage device may not provide enough storage capacity, performance capacity, reliability So, what is the simplest arrangement? October 2010, Greg Ganger © 3 Just a bunch of disks (JBOD) A0 B0 C0 D0 A1 B1 C1 D1 A2 B2 C2 D2 A3 B3 C3 D3 Yes, it’s a goofy name industry really does sell “JBOD enclosures” October 2010, Greg Ganger © 4 Disk Subsystem Load Balancing I/O requests are almost never evenly distributed Some data is requested more than other data Depends on the apps, usage, time, … October 2010, Greg Ganger © 5 Disk Subsystem Load Balancing I/O requests are almost never evenly distributed Some data is requested more than other data Depends on the apps, usage, time, … What is the right data-to-disk assignment policy? Common approach: Fixed data placement Your data is on disk X, period! For good reasons too: you bought it or you’re paying more … Fancy: Dynamic data placement If some of your files are accessed a lot, the admin (or even system) may separate the “hot” files across multiple disks In this scenario, entire files systems (or even files) are manually moved by the system admin to specific disks October 2010, Greg
    [Show full text]
  • Identify Storage Technologies and Understand RAID
    LESSON 4.1_4.2 98-365 Windows Server Administration Fundamentals IdentifyIdentify StorageStorage TechnologiesTechnologies andand UnderstandUnderstand RAIDRAID LESSON 4.1_4.2 98-365 Windows Server Administration Fundamentals Lesson Overview In this lesson, you will learn: Local storage options Network storage options Redundant Array of Independent Disk (RAID) options LESSON 4.1_4.2 98-365 Windows Server Administration Fundamentals Anticipatory Set List three different RAID configurations. Which of these three bus types has the fastest transfer speed? o Parallel ATA (PATA) o Serial ATA (SATA) o USB 2.0 LESSON 4.1_4.2 98-365 Windows Server Administration Fundamentals Local Storage Options Local storage options can range from a simple single disk to a Redundant Array of Independent Disks (RAID). Local storage options can be broken down into bus types: o Serial Advanced Technology Attachment (SATA) o Integrated Drive Electronics (IDE, now called Parallel ATA or PATA) o Small Computer System Interface (SCSI) o Serial Attached SCSI (SAS) LESSON 4.1_4.2 98-365 Windows Server Administration Fundamentals Local Storage Options SATA drives have taken the place of the tradition PATA drives. SATA have several advantages over PATA: o Reduced cable bulk and cost o Faster and more efficient data transfer o Hot-swapping technology LESSON 4.1_4.2 98-365 Windows Server Administration Fundamentals Local Storage Options (continued) SAS drives have taken the place of the traditional SCSI and Ultra SCSI drives in server class machines. SAS have several
    [Show full text]
  • • RAID, an Acronym for Redundant Array of Independent Disks Was Invented to Address Problems of Disk Reliability, Cost, and Performance
    RAID • RAID, an acronym for Redundant Array of Independent Disks was invented to address problems of disk reliability, cost, and performance. • In RAID, data is stored across many disks, with extra disks added to the array to provide error correction (redundancy). • The inventors of RAID, David Patterson, Garth Gibson, and Randy Katz, provided a RAID taxonomy that has persisted for a quarter of a century, despite many efforts to redefine it. 1 RAID 0: Striped Disk Array • RAID Level 0 is also known as drive spanning – Data is written in blocks across the entire array . 2 RAID 0 • Recommended Uses: – Video/image production/edition – Any app requiring high bandwidth – Good for non-critical storage of data that needs to be accessed at high speed • Good performance on reads and writes • Simple design, easy to implement • No fault tolerance (no redundancy) • Not reliable 3 RAID 1: Mirroring • RAID Level 1, also known as disk mirroring , provides 100% redundancy, and good performance. – Two matched sets of disks contain the same data. 4 RAID 1 • Recommended Uses: – Accounting, payroll, financial – Any app requiring high reliability (mission critical storage) • For best performance, controller should be able to do concurrent reads/writes per mirrored pair • Very simple technology • Storage capacity cut in half • S/W solutions often do not allow “hot swap” • High disk overhead, high cost 5 RAID 2: Bit-level Hamming Code ECC Parity • A RAID Level 2 configuration consists of a set of data drives, and a set of Hamming code drives. – Hamming code drives provide error correction for the data drives.
    [Show full text]
  • 6 O--C/?__I RAID-II: Design and Implementation Of
    f r : NASA-CR-192911 I I /N --6 o--c/?__i _ /f( RAID-II: Design and Implementation of a/t 't Large Scale Disk Array Controller R.H. Katz, P.M. Chen, A.L. Drapeau, E.K. Lee, K. Lutz, E.L. Miller, S. Seshan, D.A. Patterson r u i (NASA-CR-192911) RAID-Z: DESIGN N93-25233 AND IMPLEMENTATION OF A LARGE SCALE u DISK ARRAY CONTROLLER (California i Univ.) 18 p Unclas J II ! G3160 0158657 ! I i I \ i O"-_ Y'O J i!i111 ,= -, • • ,°. °.° o.o I I Report No. UCB/CSD-92-705 "-----! I October 1992 _,'_-_,_ i i I , " Computer Science Division (EECS) University of California, Berkeley Berkeley, California 94720 RAID-II: Design and Implementation of a Large Scale Disk Array Controller 1 R. H. Katz P. M. Chen, A. L Drapeau, E. K. Lee, K. Lutz, E. L Miller, S. Seshan, D. A. Patterson Computer Science Division Electrical Engineering and Computer Science Department University of California, Berkeley Berkeley, CA 94720 Abstract: We describe the implementation of a large scale disk array controller and subsystem incorporating over 100 high performance 3.5" disk chives. It is designed to provide 40 MB/s sustained performance and 40 GB capacity in three 19" racks. The array controller forms an integral part of a file server that attaches to a Gb/s local area network. The controller implements a high bandwidth interconnect between an interleaved memory, an XOR calculation engine, the network interface (HIPPI), and the disk interfaces (SCSI). The system is now functionally operational, and we are tuning its performance.
    [Show full text]
  • Compaq/Conner CP341 IDE/ATA Drive
    Compaq/Conner CP341 IDE/ATA Drive 1987 Compaq/Conner CP341 IDE/ATA Drive Emergence of IDE/ATA as widely used interface. Why it's important The IDE/ATA (Integrated Drive Electronics/AT Attachment) interface, now known as PATA (Parallel ATA) and SATA (Serial ATA), became the dominant hard disk drive (HDD) interface for IBM compatible PCs, initially because of its low cost and simplicity of integration. Today it is supported by most operating systems and hardware platforms and is incorporated into several other peripheral devices in addition to HDDs. As an intelligent drive interface universally adopted on personal computers, IDE/ATA was an enabler of the acceleration of disk drive capacity that began in the early 1990s. Discussion: The IDE interface development was initially conceived by Bill Frank of Western Digital (WD) in the fall of 1984 as a means of combining the disk controller and disk drive electronics, while maintaining compatibility with the AT and XT controller attachments to a PC without changes to the BIOS or drivers. WD floated that idea by its largest customers, IBM, DEC, and Compaq in the winter and spring of 1985. Compaq showed interest, so Bill Frank collaborated with Ralph Perry and Ken Bush of Compaq to develop the initial specification. WD formed a Tiger team in the spring of 1985 to build such a drive, using externally purchased 3.5” HDAs (Head Disk Assemblies), but initially just provided IDE to ST506 controller boards that Compaq hard-mounted to 10MB and 20MB 3.5” Miniscribe ST506 drives for their Portable II computer line, announced in February 1986 [3, 15, 20].
    [Show full text]
  • Architectures and Algorithms for On-Line Failure Recovery in Redundant Disk Arrays
    Architectures and Algorithms for On-Line Failure Recovery in Redundant Disk Arrays Draft copy submitted to the Journal of Distributed and Parallel Databases. A revised copy is published in this journal, vol. 2 no. 3, July 1994.. Mark Holland Department of Electrical and Computer Engineering Carnegie Mellon University 5000 Forbes Ave. Pittsburgh, PA 15213-3890 (412) 268-5237 [email protected] Garth A. Gibson School of Computer Science Carnegie Mellon University 5000 Forbes Ave. Pittsburgh, PA 15213-3890 (412) 268-5890 [email protected] Daniel P. Siewiorek School of Computer Science Carnegie Mellon University 5000 Forbes Ave. Pittsburgh, PA 15213-3890 (412) 268-2570 [email protected] Architectures and Algorithms for On-Line Failure Recovery In Redundant Disk Arrays1 Abstract The performance of traditional RAID Level 5 arrays is, for many applications, unacceptably poor while one of its constituent disks is non-functional. This paper describes and evaluates mechanisms by which this disk array failure-recovery performance can be improved. The two key issues addressed are the data layout, the mapping by which data and parity blocks are assigned to physical disk blocks in an array, and the reconstruction algorithm, which is the technique used to recover data that is lost when a component disk fails. The data layout techniques this paper investigates are variations on the declustered parity organiza- tion, a derivative of RAID Level 5 that allows a system to trade some of its data capacity for improved failure-recovery performance. Parity declustering improves the failure-mode performance of an array significantly, and a parity-declustered architecture is preferable to an equivalent-size multiple-group RAID Level 5 organization in environments where failure-recovery performance is important.
    [Show full text]
  • Onboard SCSI RAID User's Guide B7FH-3761-01ENZ0-00 Issued on September, 2005 Issued by FUJITSU LIMITED
    PRIMERGY RX600 S2 Onboard SCSI RAID User’s Guide Areas Covered Before Reading This Manual This section explains the notes for your safety and conventions used in this manual. Chapter 1 Overview (Features / Note) Explains the overview of the disk array and features of the SCSI array controller. Chapter 2 How to Use WebBIOS Explains WebBIOS setup procedures. WebBIOS is a basic utility to set up and manage the onboard SCSI array controller. Read this chapter carefully before using WebBIOS. Chapter 3 Installing Global Array Manager (GAM) Explains how to install Global Array Manager (GAM) to use a SCSI array controller in a Windows Server 2003, Windows 2000 Server, or Linux environment. Chapter 4 How to Use GAM GAM is a basic utility to manage the disk array. Read this chapter carefully before use. Chapter 5 Replacing a Hard Disk Explains maintenance related issues, such as hard disk replacement. Appendix Explains RAID level and list of GAM error codes. 1 Before Reading This Manual Remarks ■ Symbols Symbols used in this manual have the following meanings. These sections explain prohibited actions and points to note when using this device. Make sure to read these sections. These sections explain information needed to operate the hardware and software properly. Make sure to read these sections. → This mark indicates reference pages or manuals. ■ Key Descriptions / Operations Keys are represented throughout this manual in the following manner. E.g.: [Ctrl] key, [Enter] key, [→] key, etc. The following indicate pressing several keys at once: E.g.: [Ctrl] + [F3] key, [Shift] + [↑] key, etc. ■ Entering Commands (Keys) Command entries are displayed in the following way.
    [Show full text]
  • Speed Negotiation Improvement for Hard Disk Drive Serial ATA Interface by Considering Host Compatibility
    Speed Negotiation Improvement for Hard Disk Drive Serial ATA Interface by Considering Host Compatibility by Apisak Srihamat A thesis submitted in partial fulfillment of the requirements for the degree of Master of Science in Microelectronics and Embedded Systems Examination Committee: Dr.Mongkol Ekpanyapong (Chairperson) Dr.Metthew N. Dailey Mak Chee Wai (External Expert) Nationality: Thai Previous Degree: Bachelor in Computer Engineering King Mongkut’s Institute of Technology, Ladkrabang, Thailand Scholarship Donor: Western Digital – AIT Fellowship Asian Institute of Technology School of Engineering and Technology Thailand December 2014 ACKNOWLEDGEMENTS First of all, I would like to thankful to Dr. Mongkol Ekpanyapong and Dr. Matthew N. Dailey who gave a very good guidance and support encouraged me to study and understand the objective, scope and limitations of this thesis. Then continue provide technical discussion to make me have clearer picture. I’m heartily thankful to Dr.Matthew N. Dailey, Dr.Manukid Parnichkun, and Dr.Metha Jeeradit who gave a very good suggestion during I study in AIT. I also would like to show my gratitude to Western Digital who gives me a time, support and job while I am studying master degree. Special appreciation goes to my supervisor at work, Mr. Petrus Hu, shouldering some of the responsibilities on my behalf in order to allow time for me to be away to complete my Masters study. The person I cannot forget, Mr. Mak Chee Wai as the external expert on the committee panel. He provided invaluable feedback, constant encouragement and support during my Masters study. I would like to thanks to my parents and family, who understand and allowed me to have extra time to work on this thesis.
    [Show full text]
  • Acceleraid 170LP
    AcceleRAID 170LP Installation Guide DB11-000024-00 First Edition 08P5513 Electromagnetic Compatibility Notices This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: 1. This device may not cause harmful interference, and 2. This device must accept any interference received, including interference that may cause undesired operation. This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures: •Reorient or relocate the receiving antenna. •Increase the separation between the equipment and the receiver. •Connect the equipment into an outlet on a circuit different from that to which the receiver is connected. •Consult the dealer or an experienced radio/TV technician for help. Shielded cables for SCSI connection external to the cabinet are used in the compliance testing of this Product. LSI Logic is not responsible for any radio or television interference caused by unauthorized modification of this equipment or the substitution or attachment of connecting cables and equipment other than those specified by LSI Logic.
    [Show full text]