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Title: Guide to Novell NetWare 3'x Administration, Enhanced Edition


1
Guide to Novell NetWare 3.x Administration,
Enhanced Edition
  • Chapter 4

2
Chapter 2 - Microcomputer Hardware
  • Identify the hardware components that make up a
    microcomputer system
  • Compare and contrast microprocessors used on
    workstations and NetWare servers
  • Describe the purpose of and use of expansion
    buses, I/O ports, and interrupts in a
    microcomputer system

3
Chapter 2 - Microcomputer Hardware
  • Compare and contrast storage systems used on
    NetWare servers
  • Apply knowledge of computer hardware components
    when developing NetWare server specifications

4
The Microcomputer
  • The microcomputer is commonly called the personal
    computer (PC)
  • People who use PCs are referred to as end users,
    or users
  • PCs used by users are often referred to as PC
    workstations, or workstations
  • The system board is the most important component
    of a microcomputer because it links all of the
    individual system components

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The Microcomputer
  • The system board circuits that connect components
    are called buses
  • The local bus connects the CPU to memory
  • The data bus transfers data to and from the CPU
  • Th address bus carries the memorys byte address
    from the CPU to the memory unit
  • The expansion bus connects the expansion card
    slots to the system boards components
  • A direct memory access (DMA) channel handles data
    transfer from memory to external devices

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The Microcomputer
  • The central processing unit (CPU), or
    micro-processor is the brain of the microcomputer
  • Clock speed measures clock cycles in millions of
    cycles per second (megahertz or gigahertz)
  • Word size is the number of bits each
    microprocessor temporary data register can hold
  • The instruction set is the group of commands that
    the microprocessor chip processes
  • A math coprocessor allows the microprocessor to
    perform more complex arithmetic operations

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The Microcomputer
  • Interrupts and I/O ports monitor input from and
    output to the computer system
  • An interrupt request (IRQ) is a signal that a
    peripheral device or controller card sends to the
    CPU to indicate that it needs attention each
    device needs its own unique interrupt so that the
    processor does not misinterpret the source of the
    interrupt signal
  • An I/O port is a memory location that the CPU
    uses to send control commands to a peripheral
    device and read back status information

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The Microcomputer
  • The parallel port connects the computer to a
    parallel cable, which transfers data to a
    peripheral device 8-bits at a time
  • The parallel port is most often used for printers
  • The serial port connects the computer to a serial
    cable, which transfers data to a peripheral
    device 1 bit at a time
  • Synchronous communication sends data in blocks
  • Asynchronous communication sends only one
    character at a time

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The Microcomputer
  • Expansion slots connect add-in cards through the
    slots connectors
  • ISA Bus 16-bit data / 24-bit address bus at 8MHz
  • Micro Channel 32-bit expansion slots at 33 MHz
  • EISA Extends ISA to 32-bit data / address slots
  • VESA Extended 16-bit ISA slot, enabling use of
    either a VESA device or a 16-bit adapter, 33 MHz
  • PCI Improves VESA by avoiding the standard I/O
    bus and using the system bus, 60 or 66 MHz

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The Microcomputer
  • Computer memory stores software and data so that
    the CPU can access each storage cell directly -
    this allows for faster processing
  • RAM is the computer's primary workspace
  • ROM is used to store boot instructions
  • CMOS contains a built-in setup program used to
    store computer configuration information
  • Cache memory increases the speed of processing by
    allowing the CPU to access data or instructions
    without using wait states

20
The Microcomputer
  • RAM is supplied on memory cards called single
    in-line memory modules (SIMMs)
  • SIMMs are arranged on system boards in banks,
    which contain from one to four SIMM sockets
  • The number of SIMM banks determines the maximum
    amount of computer memory and the ease of memory
    expansion
  • The Pentium II also supports dual in-line memory
    modules (DIMMs), which are a combination of two
    SIMMs that are read alternately in memory-access
    cycles

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The Microcomputer
  • Memory management, for the most part, is handled
    automatically by Microsoft Windows
  • Conventional memory is the first 640 KB used by
    Disk Operating System (DOS) applications
  • Upper memory is between 640 KB and 1 MB and is
    reserved for hardware use
  • Extended memory, above 1 MB, is available to CPUs
    running in protected or virtual mode
  • DOS requires an extended memory manager to take
    advantage of extended memory

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The Microcomputer
  • Disk storage systems hold the data and
    instructions that need to be retrieved and placed
    in RAM before processing can begin
  • The magnetic disk drive is where data is stored
    by means of magnetic fields
  • An access arm allows the recording heads to move
    back and forth across the disk surface in order
    to perform record and playback functions
  • The disk surface is divided into concentric
    circles called tracks, which are divided into
    smaller recording areas called sectors

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The Microcomputer
  • Floppy disk drives used to be available in two
    sizes 5-1/4 inches and 3-1/2 inches
  • 5-1/4-inch disks are obsolete, for the most part
  • 3-1/2 inch is now the standard size due to higher
    densities, more reliability, and easier storage
  • Due to greater storage requirements and capacity
    needs, 3-1/2 inch floppy disk drives are now
    giving way to higher density disks called LS-120s
    (120 MB capacity), Iomega Zip drives (100 MB
    capacity), and CD-ROM (680 MB capacity)

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The Microcomputer
  • Hard disk drives contain rigid aluminum platters,
    each having its own read/write head
  • New hard disks need to be partitioned for use by
    the specific operating system
  • The directory area of the partition contains the
    names and locations of files and other data about
    files stored in the partition
  • Storing an entire file can require many sectors
    scattered throughout the partition and operating
    systems use a file allocation table (FAT) to link
    all the sectors belonging to one file

30
The Microcomputer
  • Disk interfaces, or controller cards, enable a
    systems CPU to control the floppy and hard
    drives and provide a path for data to be
    transferred between the disk and the memory
  • The most common disk controller cards are IDE
    (supports up to two hard disk drives), and EIDE
    (supports up to four hard disk drives)
  • Servers and high-end workstations use SCSI, which
    can support up to seven SCSI devices
  • SCSI-2 and SCSI-3 improve SCSI capabilities

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The Microcomputer
  • Other disk storage devices include
  • RAID systems, which provide fault tolerance by
    backing up, or mirroring existing disk systems
  • CD-ROM drives, which use laser instead of
    magnetic technology, provide over 680 MB of data
    storage and are an excellent way to distribute
    and access large files (such as software
    applications)
  • DVD-ROM drives use the same size disk as CD-ROM,
    but provide 4.7 GB of data storage, and these
    devices represent the merger of computer, audio
    and video

33
The Microcomputer
  • A computers ability to display graphics depends
    on its video adapter card
  • VGA adapters and monitors are typical in older
    computer systems
  • SVGA adapters enhanced VGA and offer better
    resolution and more color combinations
  • XGA is the latest in monitor technology for
    laptops and notebook computers and enhances SVGA
  • Graphics accelerators speed graphics operations
    by building video adapters with a microprocessor

34
The Microcomputer
  • The power system is the most important part of
    any computer system because all components depend
    on electricity to operate
  • Power supplies provide electricity and filter out
    the power irregularities that cause computer
    crashes
  • The NetWare server, should have a separate and
    dedicated power line from the main fuse box
  • Power filters are a necessity and they remove
    power surges and electrical noise
  • A UPS will provide power to the system for up to
    30 minutes after commercial power fails

35
The Workstation
  • Each users workstation should provide network
    connectivity to ensure that the user can handles
    any job responsibilities
  • Microsoft recommends a Pentium 166 MHz
    microprocessor for Windows 2000 Professional and
    a Pentium 300 MHz for XP Professional
  • For either of these operating systems, the
    minimum amount of RAM is 128 MB
  • The workstations hard drive size is determined
    by the number and size of applications, programs
    and data files that will be stored locally

36
The NetWare Server
  • The NetWare server can be enhanced with
    specialized hardware and software to give better
    performance, security and reliability
  • Novell recommends a 386, 8 MHz microprocessor for
    its servers
  • Novell recommends 4 MB RAM memory for optimal
    performance
  • There are many factors that affect server storage
    requirements, such as the operating system needs,
    software packages, application and user data
    storage, and estimated expansion

37
The NetWare Server
  • Performance features include
  • File caching to keep frequently accessed disk
    blocks in memory
  • Directory caching to keep the directory entry,
    and file allocation tables in memory
  • Elevator seeking to minimize the amount of disk
    drive head movement
  • Fault tolerance to ensure that a system is able
    to operate satisfactorily despite errors NetWare
    includes hot fixes, disk mirroring, disk
    duplexing, and server duplexing

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The NetWare Server
  • Additional performance features include
  • File compression to compress files to a smaller
    size in order to conserve storage space
  • Block suballocation also helps conserve hard disk
    space by allowing large file block sizes be
    divided into smaller sub-blocks when necessary
    for better hard disk space management

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Chapter Summary
  • Microprocessor systems are like any other
    computer system, performing four basic processes
    input, processing, storage and output. Input
    devices take information and commands from the
    outside world and convert them into the binary
    one and zero system used in digital computers.
    The system unit of the computer, made up of
    several components, enables the computer to
    process input data and produce information. The
    computers system board ties all the system unit
    components together.

45
Chapter Summary
  • The most important component on the system board
    is the brain of the system unit, the
    microprocessor chip, also know as the central
    processing unit (CPU). The CPU fetches
    instructions and data from memory and then
    performs the requested function. IBM-compatible
    computers are based on the Intel line of
    microprocessors.
  • The power of a microprocessor chip is based on
    several factors, including clock speed, word
    size, instruction set, and bus size. The
    IBM-compatible computers today use the Pentium,
    Pentium Pro or Pentium II microprocessor.

46
Chapter Summary
  • The system board components are tied together by
    a bus structure. The local bus supports the data
    and address buses, and the expansion bus supports
    the expansion slots. The ISA expansion bus was
    designed with 16-bit data and 24-bit address
    buses running at 8 MHz. The EISA bus allowed
    32-bit buses and higher clock speeds. IBM used a
    proprietary bus, called the Micro Channel, that
    provided 32-bit bus access at high clock speeds
    and an automatic configuration utility that made
    installing cards easier. PCI is called a local
    bus because it provides direct access to the CPU
    and memory at much higher speeds than either EISA
    or Micro Channel.

47
Chapter Summary
  • The system board uses I/O ports and interrupts to
    communicate with the peripherals devices such as
    keyboards, video monitors, modems, disk drives,
    and network cards. Parallel ports are most
    frequently used to connect printers, whereas
    serial ports provide longer distance
    communication.
  • Memory is the primary storage area for the
    microprocessor system. All instructions and data
    must be stored in memory before they can be
    processed by the CPU. RAM is the computers work
    area, used primarily to contain instructions and
    data that are being processed.

48
Chapter Summary
  • Hard disk storage consists of the controller card
    and drive. Hard drives are based on either
    IDE/EIDE/ATA or SCSI controller cards. IDE is
    popular for Windows workstations and small to
    medium NetWare servers. EIDE or ATA controllers
    provide higher speed and increased storage (up to
    8.5 GB) and support up to four devices. SCSI-2
    controller cards can be used to attach up to
    seven different types of devices, such as disk
    drives, CD-ROM drives and tape drives. They allow
    for higher capacity and faster drives than IDE
    and are used for larger NetWare servers requiring
    multiple devices and more than 10 GB of disk
    space.

49
Chapter Summary
  • CD-ROMs allow 680 MB of data storage. CD-ROMs are
    used to store sound, text, graphics, and video.
    Because so much material is available on CD-ROM,
    sharing them on a network has become an important
    function controlled by the network administrator.
    DVD-ROM is an improvement of the CD-ROM
    technology and holds up to 4.7 GB of data.
  • The power system of the computer is critical to
    proper operation. Insufficient or faulty power
    supplies can cause computers to lock up or give
    parity error messages. A UPS provides continuous
    power for a short time after a commercial power
    failure.

50
Chapter Summary
  • User workstations using Windows 2000 Professional
    or Windows XP Professional need at least a
    Pentium 166 MHz CPU or 233 MHz CPU, respectively,
    and 64 MB of RAM. Hard drive storage of at least
    2 GB is preferred if applications and data are
    stored locally.
  • Novell designed the NetWare NOS specifically as a
    LAN server operating system, with performance
    features such as high-volume file caching,
    directory caching and hashing, and elevator
    seeking. NetWare also includes such
    fault-tolerant features as hot fixes, disk
    mirroring, disk and server duplexing. NetWare
    provides file compression and block suballocation.

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Chapter Summary
  • NetWare 6 requires a Pentium III 700 MHz or
    better CPU. The NetWare server uses its RAM to
    run the operating system and cache information
    from the hard disk for faster access. Although a
    NetWare server with a small disk drive can run
    with as little as 256 MB of RAM, this is the
    absolute minimum. A large server running multiple
    protocols might need up to 2 GB of RAM. Although
    placing additional RAM on a NetWare server does
    not directly affect which applications can be run
    on the workstation, it does affect the network
    performance. A shortage of memory can cause it to
    crash or lock up the network.
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