CompTIA A+ Cert Exam Guide Ch. 11 - Hard Drive Technologies

Question 1

What does a traditional hard drive consist of?

Answer 1

Individual disks, or platters, with read/write heads on actuator arms controlled by a servo motor-all contained within an airtight case.

Question 2

What is a flux?

Answer 2

A small magnetic field on the hard drive disk used for the storage of data. The polarity of the field can be switched between north and south polarity.

Question 3

What is flux reversal?

Answer 3

The process of shifting the magnetic field of a flux from north to south or vice versa.

Question 4

What is a run?

Answer 4

A group of fluxes read by a HDD

Question 5

What is Run Limited Length?

Answer 5

RLL; An encoding system of any combination of ones and zeros stored in a preset combination of about 15 runs on a HDD

Question 6

What is Partial Response Maximum Likelihood encoding?

Answer 6

PRML; Powerful, intelligent circuitry used to analyze flux reversal to make a “best guess” as to what type of flux reversal it has just read. The maximum run length is up to 16-20 fluxes vs. the 7 of RLL.

Question 7

What is perpendicular recording?

Answer 7

The vertical storage of fluxes on a HDD vs. storing them longitudinally. This allows for a much more densely packed HDD.

Question 8

What are actuator arms/head actuators?

Answer 8

The piece(s) that are attached to the read/write heads that allow them to move across the platters

Question 9

What are the two types of motors used to move the actuator arms?

Answer 9

• Stepper motor

* Voice coil/linear motor

Question 10

How does the stepper motor function?

Answer 10

It moved the arms in fixed increments or steps across the platters.

Question 11

What were the limitations of the stepper motor?

Answer 11

• It required minimal slippage to maintain accuracy. Over time, the position of the arms could change with wear, causing data transfer errors
• Heat deformation created problems with stepper motors
• The stepper motor needed to be parked when off. If the read/write heads were not parked when handling the drive, they could cause damage to the platters.

Question 12

How does the linear motor function?

Answer 12

Voice Coil Motor; Uses a permanent magnet surrounding a coil on the actuator arm. When an electrical current passes, the coil generates a magnetic field that moves the actuator arm. The direction of the movement depends on the polarity of the electrical current.

Question 13

What are the advantages of the linear motor over the stepper motor?

Answer 13

• Because the coil and the actuator arm never touch, there is no degradation of positional accuracy
• The linear motor automatically parks the read/write heads

Question 14

What is the geometry of a disk?

Answer 14

The magnetized pattern in which a hard drive disk stores data. Ever model (brand?) of HDD uses a different pattern.
The geometry is describes with a set of numbers representing 3 things: heads, cylinders, and sectors per track

Question 15

What are heads?

Answer 15

The read/write heads used to store data. Every platter requires two.

Question 16

What is a cylinder?

Answer 16

A group of tracks with the same diameter

Question 17

What are sectors per track?

Answer 17

The number of sectors per track on a HDD

Question 18

What is a sector?

Answer 18

A specific piece of track on a HDD platter.

Question 19

What is the write precompensation cylinder?

Answer 19

Older drives had trouble reconciling the smaller sectors towards the inside of the platter. To compensate for this, the drive would spread data on the inside of the platter a bit farther apart. The drive would need to know where this began.

Question 20

What is a landing zone?

Answer 20

An unused cylinder used as a “parking space” for the read/write heads. When not in use, the read/write heads were parked in the landing zone so as to prevent damage to the platters when the disk was moved.

Question 21

How is the speed of a drive measured?

Answer 21

The speed of a drive is measured in revolutions per minute (RPM). Common drive speeds are 5400, 7200, 10,000, and 15,000 RPM. Faster drives means better performance, but also the possibility of overheating your computer.

Question 22

What is a Solid State Drive?

Answer 22

SSD; A hard drive that uses a series of memory chips rather than platters, etc. to store data. As a result, SSDs have no moving parts. Instead, they use current flow and negative/positive electron charges to store and retrieve data.
Some facts:
• Form factors - 1.8-inch, 2.5-inch, and 3.5-inch
• Can be PATA, SATA, eSATA, SCSI, or USB
• SSDs that use SDRAM will lose data when powered off. SSDs that use nonvolatile memory, such as NAND, retain data when powered off
• Less expensive SSDs utility multi-level cell (MLC) memory technology whereas more expensive SSDs use single-level cell (SLC) technology

Question 23

ATA

Answer 23

Advanced Technology Attachment

Question 24

IDE

Answer 24

Integrated Drive Electronics; Any hdd with a built-in controller is considered an IDE hdd.

Question 25

SCSI

Answer 25

Small Computer System Interface

Question 26

PATA

Answer 26

Parallel ATA; Data is sent in parallel on a 40- or 80-wire data cable

Question 27

SATA

Answer 27

Serial ATA; data is sent in serial on a single wire

Question 28

What are the two types of ATA drives?

Answer 28

• Parallel ATA (PATA)

* Serial ATA (SATA)

Question 29

What is an external enclosure?

Answer 29

The name used to describe the casing of an external hard drive

Question 30

How did the early ATA drives connect to the motherboard?

Answer 30

A 40-pin cable with a colored stripe down one side that denotes pin 1 on the drive and controller.

Question 31

What does the drive controller on the motherboard do?

Answer 31

Nothing. It acts as an intermediary between the drive and the motherboard, but the BIOS speaks with the controller on the drive itself.

Question 32

How many drives could you connect to a single IDE connector on a single ribbon cable?

Answer 32

Two drives, a master and a slave drive.

Question 33

How do you distinguish between a master and a slave drive?

Answer 33

The jumpers on the back of the drive indicate whether the drive is a master or slave

Question 34

What things must you define to make a hard drive standard?

Answer 34

The method and the speed at which the data is going to move

Question 35

PIO

Answer 35

Programmed I/O; the CPU talks directly with the HDD via the BIOS to send and receive data
Speeds:
• PIO mode 0: 3.3 MBps
• PIO mode 1: 5.2 MBps
• PIO mode 2: 8.3 MBps
• PIO mode 3: 11.1 MBps (ATA-2)
• PIO mode 4: 16.6 MBps (ATA-2)

Question 36

DMA

Answer 36

Direct Memory Access; enabled the HDDs to talk to RAM directly using old-style DMA commands.
Speeds:
• Single-word DMA mode 0: 2.1 MBps
• Single-word DMA mode 1: 4.2 MBps
• Singe-word DMA mode 2: 8.3 MBps
• Multi-word DMA mode 0: 4.2 MBps
• Multi-word DMA mode 1: 13.3 MBps
• Multi-word DMA mode 2: 16.6 MBps

Question 37

EIDE

Answer 37

Enhanced IDE; a marketing term referring to the second manifestation of the ATA form factor

Question 38

What advancements did the ATA-2 form factor provide?

Answer 38

• Higher capacities
• Support for non-hard drive storage devices
• Support for two or more ATA devices for a maximum of 4
• Improved throughput

Question 39

What was the largest supported hard drive disk under the original AT standard?

Answer 39

504 MB
• 528 million bytes
• 1024 cylinders, 16 heads, and 63 sectors/track

Question 40

LBA

Answer 40

Logical Block Addressing

Question 41

What two drive geometries did the ATA specification have?

Answer 41

• Physical Geometry - the actual physical layout of the CHS inside the drive
• Logical Geometry - the layout the drive communicated to CMOS

Question 42

What is sector translation?

Answer 42

The translation of the physical drive layout to the logical drive layout that the drive communicates to the CMOS

Question 43

What is ATAPI?

Answer 43

Advanced Technology Attachment Packet Interface; Allows non-hard drive devices such as CD-ROM drives and tape drives to connect to the PC via the ATA controllers. Non-hard drives require the OS to load software drivers for BIOS support.

Question 44

What feature did ATA-3 add?

Answer 44

S.M.A.R.T.; Self-monitoring, Analysis, and Reporting Technology

Question 45

What function doe S.M.A.R.T. serve?

Answer 45

It helps predict when a hard drive is going to fail by monitoring the hard drive’s mechanical components

Question 46

Ultra DMA modes as defined by ATA-4

Answer 46

• Ultra DMA mode 0: 16.7 MBps
• Ultra DMA mode 1: 25 MBps
• Ultra DMA mode 2: 33.3 MBps

Question 47

What is INT13?

Answer 47

Interrupt 13 extensions; A new set of BIOS commands that ignored the Cylinder - Head - Sector (CHS) values and instead fed the LBA a stream of addressable sectors.

Question 48

Ultra DMA modes added by ATA-5

Answer 48

• Ultra DMA mode 3: 44.4 MBps

* Ultra DMA mode 4: 66.6 MBps

Question 49

How did ATA-5 change the cable to allow for the higher speeds of Ultra DMA modes 3 and 4?

Answer 49

It added an 80 wire cable that consists of 40 wires and pins with 40 ground wires. It also set specific connectors for each device:
Blue - HDD controller on the motherboard
Grey - Slave drive
Black - Master drive

Question 50

What is ATA/33?

Answer 50

Another name for ATA-4 Ultra DMA mode 2: 33.3 MBps

Question 51

What is ATA/66?

Answer 51

Another name for ATA-4 Ultra DMA mode 4: 66.6 MBps

Question 52

What changes did the ATA-6 standard bring?

Answer 52

• Big Drive, otherwise known as ATA/ATAPI-6 or ATA-6
• A drive size limit of 144 petabytes
• 48-bit LBA
• Enhanced block mode, enabling drives to transfer up to 65,536 sectors in one chuck, vs. the previous limit of 256 sectors
• Ultra DMA mode 5: 100 MBps

Question 53

What changes did ATA-7 bring?

Answer 53

• Serial ATA

* Ultra DMA mode 6: 133 MBps

Question 54

What were the disadvantages of parallel ATA?

Answer 54

• The ribbon cabled impede airflow and are difficult to install
• The cables are limited to 18 inches in length
• PATA drives are not hot swappable
• The technology has reached its limit where throughput is concerned

Question 55

HBA

Answer 55

Host Bus Adapter

Question 56

What advantages does SATA have over PATA?

Answer 56

• Because data is transferred serially, the cable only requires 7 wires, making it significantly thinner.
• The maximum length of the cable is 40” rather than 18”
• SATA does not use the master/slave setup and has eliminated the maximum number of drives

Question 57

What three varieties do SATA drives come in?

Answer 57

• SATA 1.0: 1.5 Gbps - throughput of 150 MBps
• SATA 2.0: 3 Gbps - throughput of 300 MBps
• SATA 3.0: 6 Gbps - throughput of 600 MBps

Question 58

Can a PATA drive be plugged into a SATA controller?

Answer 58

Yes. You can use a SATA bridge to use a PATA drive. The bridge requires its own power source.

Question 59

AHCI

Answer 59

Advanced Host Controller Interface; ACHI enables the advanced features of SATA drives, such as the hot swappable feature. It is implemented at the CMOS level. It needs to be enabled before installing the OS.

Question 60

How do you add a HDD on a computer that isn’t running AHCI?

Answer 60

• Windows XP/Vista: Control Panel > Add New Hardware

* Windows 7: Start Menu Search > hdwwiz.exe

Question 61

NCQ

Answer 61

Native Command Queuing; a disk optimization feature for SATA drives that enables faster read/write speeds