Specifications
Table Of Contents
- IBM PC Server and Novell NetWare Integration Guide
- Abstract
- Contents
- Figures
- Tables
- Special Notices
- Preface
- Chapter 1. IBM PC Server Technologies
- Processors
- Clock Rate
- External Interfaces
- Processor Types
- Multiprocessing
- Memory
- Caches
- Memory Interleaving
- Dual Path Buses
- SynchroStream Technology
- Memory Error Detection and Correction
- Standard (Parity) Memory
- Error Correcting Code (ECC)
- Error Correcting Code- Parity Memory (ECC- P)
- ECC on SIMMs (EOS) Memory
- Performance Impact
- Memory Options and Speed
- Bus Architectures
- ISA Bus
- EISA Bus
- Micro Channel Bus
- PCI Bus
- Disk Subsystem
- Hard Disk Interfaces
- SCSI Technology
- SCSI Adapters
- Hard Disk Drives
- RAID Technology
- RAID Classifications
- Recommendations
- LAN Subsystem
- Shared RAM Adapters
- Bus Master Adapters
- PeerMaster Technology
- Security Features
- Tamper- Evident Cover
- Secure I/ O Cables
- Passwords
- Secure Removable Media
- Selectable Drive Startup
- Unattended Start Mode
- Systems Management
- DMI
- SNMP
- NetFinity
- SystemView
- Fault Tolerance
- NetWare SFT III
- Uninterruptible Power Supply (UPS)
- APC PowerChute
- Chapter 2. IBM PC Server Family Overview
- Chapter 3. Hardware Configuration
- The Setup Program
- Main Menu
- Advanced Menu
- Security
- EISA Configuration Utility
- SCSI Select Utility Program
- System Programs
- Starting From the System Partition
- Starting From the Reference Diskette
- Main Menu Options
- Backup/ Restore System Programs Menu
- Set Configuration Menu
- Set Features Menu
- Test the Computer
- More Utilities Menu
- Advanced Diagnostic Program
- RAID Controller Utility
- Drive Information
- Formatting the Disks
- Defining a Hot- Spare Disk
- Creating a Disk Array
- Defining Logical Drives
- Setting the Write Policy
- Initializing the Array
- Backup/ Restoring the Configuration
- Chapter 4. Novell NetWare Installation
- ServerGuide Overview
- Starting ServerGuide
- Installing NetWare 4.1 with ServerGuide
- Installing NetWare 3.12 with Diskettes
- Hardware Requirements
- Software Requirements
- Information Requested at Time of Installation
- Installation Files
- Installation Procedure
- Installing NetWare 4.1 with the Original CD- ROM
- Hardware Requirements
- Software Requirements
- Installation Procedure
- NetFinity Services for NetWare
- System Requirements
- Installing NetFinity Services for NetWare
- The RAID Administration for NetWare Utility
- Installing the Utility
- Hard Disk Failure Simulation
- Simulating with a Hot Spare Drive
- Simulating without a Hot Spare Drive
- Chapter 5. Performance Tuning
- Appendix A. EISA Configuration File
- Appendix B. Hardware Compatibility, Device Driver, and Software Patch Information
- Appendix C. Configuring DOS CD-ROM Support
- List of Abbreviations
- Index
- Special Characters C
- Numerics
- A
- B
- D
- E
- F
- H
- M
- I
- N
- K
- L
- O
- P
- S
- Q
- R
- T
- U
- V
- W
- Z
- ITSO Technical Bulletin Evaluation RED000
1.6.6.5 RAID-3 - Bit Interleave Data Striping with Parity Disk
The use of additional disks to redundantly encode customer′s data and guard
against loss is referred to as check sum, disk parity or error correction code
(ECC). The principle is the same as memory parity, where the data is guarded
against the loss of a single bit.
Figure 17 shows an example of RAID-3. Four of the disks hold data, and can be
accessed independently by the processor, while the fifth is hidden from the
processor and stores the parity of the other four. Writing data to any of the disks
(1, 2, 3 or 4) causes the parity to be recomputed and written to disk 5. If any of
the data disks subsequently fail, the data can still be accessed by using the
information from the other data disks along with the parity disk which is used to
reconstruct the data on the failed disk.
Since the files are held on individually addressable disks, this design offers a
high I/O rate. Compared to a single disk of similar capacity, this array has more
actuators for the same amount of storage. These actuators will work in parallel,
as opposed to the sequential operation of the single actuator, thus reducing
average access times.
Disk
Controller
Bit 0 Bit 1 Bit 2 Bit 3 Parity
Bit 4 Bit 5 Bit 6 Bit 7 Parity
Parity
Disk 1 Disk 2 Disk 3 Disk 4 Disk 5
Figure 17. RAID-3 (Bit Interleave Data Striping with Parity Disk)
Multiple disks are used with the data scattered across them. One disk is used
for parity checking for increased fault tolerance.
1.6.6.6 RAID-4 - Block Interleave Data Striping with One Parity Disk
The performance of bit-interleaved arrays in a transaction processing
environment, where small records are being simultaneously read and written, is
very poor. This can be compensated for by altering the striping technique, such
that files are striped in block sizes that correspond to the record size being read.
This will vary in different environments. Super-computer type applications may
require a block size of 64KB, while 4KB will suffice for most DOS applications.
28 NetWare Integration Guide