itec 1011 introduction to information technologies 9. computer peripherals – part i chapt. 10
TRANSCRIPT
ITEC 1011 Introduction to Information Technologies
9. Computer Peripherals – Part I
Chapt. 10
ITEC 1011 Introduction to Information Technologies
Plan
• Storage (hierarchy and terminology)
• Magnetic disks
ITEC 1011 Introduction to Information Technologies
Storage
• Terminology• Medium
• The technology or product type that holds the data
• Access time• The time to get to the data
• Specified as an average in seconds (e.g., s, ms, µs, ns, etc.)
• Throughput• The rate of transfer for consecutive bytes of data
• Specified in bytes/s (e.g., Kbytes/s, Mbytes/s)
ITEC 1011 Introduction to Information Technologies
Offlinestorage
Secondarystorage
Primarystorage
Storage Hierarchy
MediumCPU registersCache memoryConventional memoryExpanded memoryHard diskFloppy diskCD-ROMTape
Access Time-15-30 ns50-100 ns75-500 ns10-50 ms95 ms100-600 ms0.5+ s
Throughput----600-6000 Kbytes/s100-200 Kbytes/s150-1000 Kbytes/s5-20 Kbytes/s (cartridge)200-3000 Kbytes/s (reel-to-reel)
ITEC 1011 Introduction to Information Technologies
Terminology
• Online storage• Memory that is accessible to programs without human
intervention• Primary storage and secondary storage are “online”
• Primary storage• Semiconductor technology (e.g., RAM)• Volatile (contents are loss when powered off)
• Secondary storage• Magnetic technology (e.g., disk drives)• Non-volatile (contents are retained in the absence of power)
ITEC 1011 Introduction to Information Technologies
Terminology
• Offline storage• Memory that requires human intervention in order for it to be
accessed by a program (e.g., loading a tape)• Sometimes called “archival storage”
• Direct Access Storage Device (DASD)• Pronounced “dazz-dee”• Term coinded by IBM• Distinguishes disks (disk head moves “directly” to the data) from
tapes (see below)
• Sequential access storage devices• Tape drives• Tape reel must wind forward or backward to the data
ITEC 1011 Introduction to Information Technologies
Plan
• Storage (hierarchy and terminology)
• Magnetic disks
ITEC 1011 Introduction to Information Technologies
Magnetic Disks
• A magnetic substance is coated on a round surface• The magnetic substance can be polarized in one of
two directions with an electromagnet (“writing data”)
• The electromagnet can also sense the direction of magnetic polarization (“reading data”)
• Similar to a read/write head on a tape recorder (except the information is digital rather than analogue)
ITEC 1011 Introduction to Information Technologies
Floppy Disks
• Also called “flexible disks” or “diskettes”• The platter is “floppy”, or flexible (e.g.,
mylar)• Most floppy disk drives can hold one
diskette (two surfaces)• The diskette is removable• Typical rpm: 300, 360• Capacities: 700 KB to 1.4 MB (& up to 100
MB “zip” disks)
ITEC 1011 Introduction to Information Technologies
Floppy Disk Example
Writeprotect tab
Spindle
ShutterAccess window
Cutawayshowing disk
Case
ITEC 1011 Introduction to Information Technologies
Hard Disks
• The platter is “hard” (e.g., aluminum)• Most hard disk drives contain more than one
platter• On most hard disk drives, the disks are “fixed”
(i.e., not removable)• On some hard disk drives, the disks are in a
removable pack (hence, “disk pack”)• Typical speed of rotation: 3600, 5400, 7200 rpm
(rpm = “revolutions per minute”)• Capacities: 500 MB to 1+ TB (terabyte = 240
bytes)
ITEC 1011 Introduction to Information Technologies
Hard Disk Example
ITEC 1011 Introduction to Information Technologies
Winchester Disks
• Invented by IBM• A type of hard disk drive• The disk is contained within a sealed unit• No dust particles• When powered off, the head is “parked” at the outer edge of
the platter and rests on the platter surface• When powered on, the aerodynamics of the head and enclosure
create a cushion of air between the head and the disk surface• The head floats above the surface (very close!) and does not
touch the surface• Thus, “head crash” (the head touches the surface, with damage
resulting)
ITEC 1011 Introduction to Information Technologies
Hard Disk Layout
Platter
Track
Cylinder
Drivemotor
Headmotor
Head, onmoving arm
Block
Sector
Track
Head
Head assembly
ITEC 1011 Introduction to Information Technologies
Terminology
• Platter• A round surface – the disk – containing a magnetic coating
• Track• A circle on the disk surface on which data are contained
• Head• A transducer attached to an arm for writing/reading data to/from the
disk surface
• Head assembly• A mechanical unit holding the heads and arms• All the head/arm units move together, via the head assembly
• Cylinder• A set of tracks simultaneously accessible from the heads on the head
assembly
ITEC 1011 Introduction to Information Technologies
Terminology
• Drive motor• The motor that rotates the platters• Typically a DC motor (DC = direct current)• The disk rotates at a fixed speed (e.g., 3600 rpm,
revolutions per minute)
• Head motion• A mechanism is required to move the head assembly in/out• Two possibilities:
• A stepper motor (digital, head moves in steps, no feedback)• A servo motor (analogue, very precision positioning, but requires
feedback)
ITEC 1011 Introduction to Information Technologies
Terminology
• Sector• That portion of a track falling along a predefined pie-shaped
portion of the disk surface• The number of bytes stored in a sector is the same, regardless
of where the sector is located; thus, the density of bits is greater for sectors near the centre of the disk
• The rotational speed is constant; i.e., constant angular velocity• Thus, the transfer rate is the same for inner sectors and outer
sectors
• Block• The smallest unit of data that can be written or read to/from
the disk (typically 512 bytes)
ITEC 1011 Introduction to Information Technologies
Locating a Block of Data
Seek Time Latency Time Transfer Rate
Desiredtrack
Seek
Head
TransferLatency
Note: Access time = seek time + latency
ITEC 1011 Introduction to Information Technologies
Terminology
• Seek time• The time for the head to move to the correct track• Specified as an average for all tracks on the disk surface
• Latency time• The time for the correct block to arrive at the head once the head
is positioned at the correct track• Specified as an average, in other words, ½ the period of rotation• Also called “rotational delay”
• Access time is the time “to get to” the data (remember!)• Access time = seek time + latency
• Transfer rate• Same as throughput
ITEC 1011 Introduction to Information Technologies
Latency Example
• A hard disk rotates at 3600 rpm
• What is the average latency?
Period of rotation = (1 / 3600) minutes= (1 / 3600) 60 seconds= 0.01667 s= 16.67 ms
Average latency = 16.67 / 2 ms= 8.33 ms
ITEC 1011 Introduction to Information Technologies
Factors Determining Transfer Rate
• Transfer rate can be determined, given…• Rotational speed of the disk platters • Number of sectors per track• Number of bytes per sector
ITEC 1011 Introduction to Information Technologies
Transfer Rate Example
• Q: Determine the transfer rate, in Mbytes/s, for a hard disk drive, given• Rotational speed = 7200 rpm• Sectors per track = 30• Data per sector = 512 bytes = 0.5 Kbytes
• A: Transfer rate = 7200 x 30 = 216,000 sectors/min
= 216,000 x 0.5 = 108,000 Kbytes/min= 108,000 / 60 = 1,800 Kbytes/s= 1,800 / 210 = 1.76 Mbytes/s
ITEC 1011 Introduction to Information Technologies
Exercise - Transfer Rate
• Q: Determine the transfer rate, in Mbytes/s, for a hard disk drive, given
• Rotational speed = 7000 rpm• Sectors per track = 32• Data per sector = 1024 bytes
Skip answer Answer
ITEC 1011 Introduction to Information Technologies
Exercise - Transfer Rate
• Q: Determine the transfer rate, in Mbytes/s, for a hard disk drive, given
• Rotational speed = 7000 rpm• Sectors per track = 32• Data per sector = 1024 bytes
A: Transfer rate = 7000 x 32 = 224,000 sectors/min
= 224,000 x 1 = 224,000 Kbytes/min= 224,000 / 60 = 3,733 Kbytes/s= 3,733 / 210
= 3.65 Mbytes/s
Answer
ITEC 1011 Introduction to Information Technologies
Typical Spec’s
Specification 3 ½” Floppy 2 GB Hard Disk
Platters/heads 1 / 2 5 / 9
Cylinders 80 4160
Sectors/track 18 Varies
Block size 512 512
Capacity 1.44 MB 2.1 GB
Rotation speed 360 rpm 7200 rpm
Avg. seek time 95 ms 8.5 ms
Latency 83 ms 4.2 ms
Transfer rate 54 Kbyte/s 10 Mbyte/s
ITEC 1011 Introduction to Information Technologies
Track Format
• Format of each track:
dataheadergap gapCRC
SectorPrevious sector Next sector
Inter-blockgap
Inter-blockgap
Note:
CRC stands for “cyclic redundancy code”. It’s the “footer” at the end of each sector. CRC is a sophisticated form of parity for checking that the data read are accurate.
ITEC 1011 Introduction to Information Technologies
Disk Formatting
• The track positions, blocks, headers, and gaps must be established before a disk can be used
• The process for doing this is called “formatting”
• The header, at the beginning of each sector, uniquely identifies the sector, e.g., by track number and sector number
ITEC 1011 Introduction to Information Technologies
Disk Controller
• Interface between the disk drive and the system is known as a “disk controller”
• A primary function is to ensure data read/write operations are from/to the correct sector
• Since data rate to/from the disk is different than data rate to/from system memory, “buffering” is needed
ITEC 1011 Introduction to Information Technologies
Buffering
System Diskcontroller
DiskRAM Buffer
(RAM)
1. Read data from disk into a buffer in the disk controller
2. Transfer data from buffer to system RAM (Note: this is a DMA operation)
Example: Reading data from a disk
ITEC 1011 Introduction to Information Technologies
Multi-block Transfers (1 of 2)
• The smallest transfer is one block (e.g., 512 bytes)• However, often multi-block transfers are required• The inter-block gap provides “time” for the controller
electronics to adjust from the end of one sector to the beginning of the next
• “time” may be needed for a few reasons:• Compute and/or verify the CRC bytes• Switch circuits from read mode to write mode
• During a write operation the header is “read” but the data are “written”• (Remember, the header is only “written” during formatting.)
• Perform a DMA operation
ITEC 1011 Introduction to Information Technologies
Multi-block Transfers (2 of 2)
• Sometimes, sectors simply cannot be read or written consecutively
• There is not enough time (see preceding slide)
• The result is lost performance because the disk must undergo a full revolution to read the next sector
• The solution: interleaving
ITEC 1011 Introduction to Information Technologies
Interleaving
• Rather than numbering blocks consecutively, the system skips one or more blocks in its numbering
• This allows multi-block transfers to occur as fast as possible
• Interleaving minimizes lost time due to latency• Interleaving “factor” (see next slide) is established
when the disk is formatted• Can have a major impact on system performance
ITEC 1011 Introduction to Information Technologies
Interleaving Examples
21 3 54 6 87 9
1 2 3 4 5
1 2 3
1:1 etc.
etc.
etc.
2:1
3:1
Factor
ITEC 1011 Introduction to Information Technologies
2:1 Interleaving
1
2 6
7
3
84
9
5
ITEC 1011 Introduction to Information Technologies
File System Considerations
• There is no direct relationship between the size and physical layout of blocks on a disk drive and the size and organization of files on a system
• File system• Determines the organization of information on a computer• Performs logical-to-physical mapping of information• A file system is part of each and every operating system
• Logical mapping• The way information is perceived to be stored
• Physical mapping• The way information is actually stored
ITEC 1011 Introduction to Information Technologies
Disks Capacity in Windows
• To determine the capacity of the C: hard disk on Windows• From the Desktop, double click on My
Computer• Right click on C: and select Properties
Next slide
ITEC 1011 Introduction to Information Technologies
Note:Varies on different systems Demo
ITEC 1011 Introduction to Information Technologies
Alternative Technologies (1 of 3)
• Removable hard disks• Also called “disk packs”• A stack of hard disks enclosed in a metal or plastic removable cartridge• Advantages
• High capacity and fast, like hard disk drives• Portable, like floppy disks
• Disadvantage• Expensive
ITEC 1011 Introduction to Information Technologies
Alternative Technologies (2 of 3)
• Fixed heads• Fewer tracks but eliminates seek time
Disk Spindle Moving head
Fixed heads
ITEC 1011 Introduction to Information Technologies
Alternative Technologies (3 of 3)
• R.A.I.D. = Redundant array of inexpensive disks• A category of disk drive that employs two or
more drives in combination for fault tolerance and performance
• Frequently used on servers, but not generally used on PCs
• There are a number of different R.A.I.D. “levels” (next slide)
ITEC 1011 Introduction to Information Technologies
R.A.I.D. Levels (1 of 2)
• Level 0• Provides “data striping” (spreading out blocks of each file
across multiple disks)• No redundancy• Improves performance, but does not deliver “fault tolerance”
• Level 1• Provides “data mirroring”• Data are written to two duplicate disks simultaneously• If one drive fails, the system can switch to the other without
loss of data or service• Delivers fault tolerance
ITEC 1011 Introduction to Information Technologies
R.A.I.D. Levels (2 of 2)
• Level 3• Same as level 0, but also reserves one dedicated
disk for error correction data• Good performance, and some level of fault
tolerance
• Level 5• Data striping at the byte level and stripe error
correction information• Excellent performance, good fault tolerance
ITEC 1011 Introduction to Information Technologies
Terminology
• Fault tolerance• The ability of a computer system to respond gracefully
to unexpected hardware or software failure
• Many levels of fault tolerance• E.g., the ability to continue operating in the event of a power
failure
• Some systems “mirror” all operations• Every operation is performed on two or more duplicate
systems, so if one fails, another can take over
ITEC 1011 Introduction to Information Technologies
Terminology
• Data mirroring• A technique in which data are written to two
duplicate disks simultaneously• If one disk fails, the system can instantly switch
to the other disk without loss of data or service• Used commonly in on-line database systems
where it is critical that data are accessible at all times
ITEC 1011 Introduction to Information Technologies
Terminology
• Data striping• A technique for spreading data over multiple
disks• Speeds operations that retrieve data from disk
storage• Data are broken into units (blocks) and these
are spread across the available disks• Implementations allow selection of data units
size, or stripe width
ITEC 1011 Introduction to Information Technologies
Thank you