Storage Devices

Question 1

Optical Drives

Answer 1

• Use a laser to read and/or write data to an optical disk.

Question 2

Compact Disc-Read Only Memory (CD-ROM)

Answer 2

• Stores data, but you cannot write to it.

- CDs store up to 700 MB of data.

Question 3

Compact Disc-ReWritable (CR-RW)

Answer 3

• Is rewritable, so you can write data to it multiple times

- CDs store up to 700 MB of data.

Question 4

Digital Versatile Disc-Read Only Memory (DVD-ROM)

Answer 4

• Stores data, but you cannot write to it.

- have a capacity of 4.7 GB.

Question 5

Digital Versatile Disc-ReWritable (DVD-RW)

Answer 5

• Is rewritable, so you can write data to it multiple times.

- Has a capacity of 4.7 GB.

Question 6

Digital Versatile Disc-ReWritable Double Layer (DVD-RW DL)

Answer 6

• A dual-layer version of DVD-RW, nearly doubling the capacity to 8.5 GB.

Question 7

Blu-ray disc-recordable (BD-R)

Answer 7

• A Blu-ray disc that you can write to only once

- Has a capacity of 25 GB.

Question 8

Blu-ray disc - rewritable (BD-RE)

Answer 8

• A Blu-ray disc that you can write to multiple times

- Has a capacity of 25 GB.

Question 9

Solid-state drives (SSD)

Answer 9

• Use non-volatile RAM to store data
• There is no disk and no moving parts, so SSD tends to be more reliable than disk drives
• Access times are faster than disk drives.

Question 10

M.2 Drives

Answer 10

• M.2 is a form factor for SSD
• Is 22 mm wide and can vary in length
• Most common lengths are 80 mm and 60 mm
• Is referred to as “gumstick memory” because its size is similar to a stick of gum
• M.2 drives plug into an M.2 slot on a motherboard.

Question 11

Non-Volatile Memory Express (NVME)

Answer 11

• Is a form of memory that uses the M.2 form factor

- Is the fastest SSD available today.

Question 12

SATA 2.5 SSD

Answer 12

• Designed to** replace a 2.5-inch magnetic hard drive**

- Is solid-state memory in the same size case as a 2.5 inch magnetic hard drive.

Question 13

Magnetic Hard Drives

Answer 13

• Use magnetic media on rotating platters to store data
• Speeds vary among different drives, but generally, the faster the rpm, the faster response time in reading and retrieving data
• Common speeds for hard drives are:
• 5,400 rpm
• 7,200 rpm
• 10,000 rpm
• 15,000 rpm
• Come in different sizes, sometimes referred to as form factor
• A 2.5-inch form factor means that the disc inside the drive has a diameter of 2.5 inches
• The most common sizes are 2.5 and 3.5 inches.

Question 14

Hybrid Drives

Answer 14

• Combine magnetic disk and SSD drives in one hard drive case
• It uses the disk for high capacity storage and the SSD for lower capacity fast access, providing the best of both storage types.

Question 15

Flash Memory

Answer 15

• A form of nonvolatile read/write memory
• Nonvolatile memory retains data when power is removed
• Flash erases data in blocks, rather than at the byte level
• This makes it less expensive but slower than other forms of nonvolatile memory.

Question 16

Secure Digital (SD) Cards

Answer 16

• Designed for use in portable devices

- They are able to withstand higher impact without damage than other types of memory cards.

Question 17

CompactFlash (CF) Cards

Answer 17

• Primarily used in cameras, but are being replaced by SD cards.

Question 18

Micro-SD Cards

Answer 18

• A smaller form factor SD card.

Question 19

Mini-SD Cards

Answer 19

• A smaller form factor SD card that has been made obsolete by micro-SD.

Question 20

xD Cards

Answer 20

• Also referred to as xD-picture cards, is a proprietary memory card for Olympus and Fujifilm cameras
• Is now obsolete, as both brands now use SD cards.

Question 21

Configurations

Answer 21

• Storage devices can be configured for high availability so that if one disk in an array of disks fails, data is not lost
• The most common configuration is known as Redundant Array of Inexpensive Disks (RAID).

Question 22

Striping

Answer 22

• A method of storing part of the data on each drive in an array

Question 23

Mirroring

Answer 23

• Keeping a full copy of a disk on another disk.

Question 24

RAID 0

Answer 24

• Offers striping of data only; no redundancy; good performance

Question 25

RAID 1

Answer 25

• Offers mirroring of data only; requires more storage space to store full copies of data

Question 26

RAID 5

Answer 26

• Offers striping with parity; minimum of three drives; ability to calculate missing data and rebuild

Question 27

RAID 10

Answer 27

• Offers striping and mirroring for full redundancy; minimum of four drives

Question 28

HOT Swappable Drives

Answer 28

• Can be inserted or removed in real time while the system is powered on
• A common type of drive of this type is a USB flash drive
• Disks in a RAID array are often hot swappable.

Question 29

Motherboard

Answer 29

• Provides the circuitry by which all parts of a computer communicate with each other, from the processor to the power supply
• Every part of a computer interacts with the motherboard in some fashion
• You should be able to install and configure motherboards, as well as the CPUs and add-on cards you plug into them, in a given scenario.

Question 30

Motherboard Form Factor

Answer 30

• Describes the physical characteristics of the motherboard.

Question 31

Advanced Technology Extended (ATX)

Answer 31

• Older ATX variants contain a 20-pin Molex power connection, while newer models contain the 24-pin Molex power connection.

Question 32

Micro-ATX (mATX)

Answer 32

• A little bit smaller than the ATX and does not have as much expansion ability.

Question 33

ITX

Answer 33

• A series of significantly smaller form factor boards that were created by VIA Technologies™
• The most common one is the mini-ITX.

Question 34

Mini-ITX (mITX)

Answer 34

• The largest of the ITX form factors, with a size of 6.7 by 6.7 inches
• It is also the most popular.

Question 35

Peripheral Component Interconnect (PCI)

Answer 35

• Introduced by Intel™ in the 1990s

- This replaced older 8- and 16-bit expansion slots with a 32-bit slot.

Question 36

PCI express (PCIe)

Answer 36

• Sends data in a serial stream at higher speeds than conventional PCI
• It has superseded PCI.

Question 37

Riser Cards

Answer 37

• Plugs into an existing connector and contains more connectors of the same type
• It increases the number of cards you can add
• It also changes the orientation of the connectors 90 degrees so that cards can fit into a smaller case.

Question 38

Socket Types

Answer 38

• CPUs plug into sockets
• Two common socket types are zero insertion force (ZIF) and land grid array (LGA)
• ZIF has holes that CPU pins slide into
• LGA has pins that CPU contacts sit on top of
• The CPU is held in place by a lever that keeps pressure on the CPU to hold it in place.

Question 39

Serial ATA (SATA)

Answer 39

• Used to connect a hard drive or optical drive.

Question 40

IDE

Answer 40

• Another hard drive connection point. It has been largely replaced by SATA.

Question 41

Front Panel Connector

Answer 41

• Has components on it that need to connect back to the motherboard
• Each computer is different, but front panel components may include LEDs, USB ports, the power switch, a reset button, and audio connections
• There may be multiple connections between the front panel and motherboard.

Question 42

Internal USB Connector

Answer 42

• Allows you to add USB ports. They would typically be mounted in an open expansion slot.

Question 43

BIOS/UEFI Settings

Answer 43

• The BIOS is, arguably, one of the most important aspects of a computer
• You need to have a good understanding of system BIOS and how to modify the settings
• Understand the importance of selecting the proper boot sequence and how BIOS provides low-level drivers that allow the operating system to interact with various hardware components
• Comprehend the various stages in the boot sequence, the system POST, and the role BIOS plays in loading the operating system
• The CompTIA A+ questions about BIOS require that you assess a scenario to be able to choose the best answer.

Question 44

Boot Options

Answer 44

• You can set the sequence of devices to boot from in the boot option settings
• You usually boot from the hard drive, but you may want to boot from an optical drive or flash drive
• The boot sequence tells the BIOS where to look to load the operating system
• It will proceed down the list in the order configured until it finds an operating system to load.

Question 45

Firmware Updates

Answer 45

• Always check the version of the BIOS you are using before doing an upgrade
• This can be found in your system information utility, or by typing msinfo32 into the cmd prompt
• Most manufacturers offer BIOS upgrades directly from their website, as a simple download, and it is a very straightforward process
• Just download the correct file, based on the type of system you have, and run the update to begin the installation
• This entire procedure is known as flashing the BIOS.

Question 46

Security Settings

Answer 46

• You are able to secure access to the BIOS, or to the operating system, by setting certain passwords from within the BIOS
• These security measures require a password at startup to load the operating system or make changes to the BIOS.

Question 47

Interface Configurations

Answer 47

• This provides settings specific to interface categories or individual interfaces such as PCIe or SATA.

Question 48

Passwords

Answer 48

• The supervisor or admin password, if enabled, requires a password to view and set all BIOS settings
• The user or system password allows minor changes such as time and date or boot options to be set.

Question 49

Drive Encryption

Answer 49

• An encryption key can be set to access an encrypted hard drive
• If set, that key must be used for decryption, even if the drive is moved to another computer.

Question 50

Trusted Platform Module (TPM)

Answer 50

• A security chip that stores cryptographic keys.

Question 51

LoJack

Answer 51

• A feature that enables a stolen device to be tracked, locked, and/or wiped.

Question 52

Secure Boot

Answer 52

• Ensures that the operating system and drivers are authorized versions without malicious code before loading them.

Question 53

Complementary Metal Oxide Semiconductor (CMOS Battery)

Answer 53

• Originally used to maintain system settings stored in CMOS RAM since it was volatile
• Also used to power the systems real-time clock
• Over the years, CMOS RAM has been replaced by flash memory that does not require a battery to maintain data; however, the real-time clock still requires a battery
• As a preparation for this test, you should know how to locate and replace the CMOS battery.

Question 54

CPU Features

Answer 54

• There are several important features of CPUs that are important to consider
• You need to understand the different features and their impact on performance.

Question 55

Single-Core

Answer 55

• A core is the part of the CPU that reads and executes instructions
• As the name implies, a single-core CPU has one core
• Most of today’s CPUs have multiple cores.

Question 56

Multicore

Answer 56

• A core is the part of the CPU that reads and executes instructions.
• Multicore CPUs have more than one core
• This allows different threads of instructions to be run simultaneously, with each core running one thread, resulting in faster performance
• A dual-core processor will run faster than a single core, but not quite twice as fast
• There are also quad-core, eight core, and other types of multicore processors.

Question 57

Virtualization

Answer 57

• Some CPUs have features to support virtual machines (VMs), running multiple operating systems on a single machine
• They offload some of the work that VM software would have to do, improving VM performance
• Intel™ calls theirs Intel™ Virtualization Technology. AMD™ calls theirs AMD-V.

Question 58

Hyperthreading/multithreading

Answer 58

• Leverages virtual cores to run applications 15 to 30 percent faster.

Question 59

CPU Speed

Answer 59

• Typically measured in gigahertz, is a measure of how fast a processor can read and execute instructions.

Question 60

Overclocking

Answer 60

• Running the CPU at a speed higher than it was designed to operate
• Some CPUs allow this while others do not. It will improve the performance of the CPU but generate more heat, so added cooling may be needed to prevent damage to the CPU.

Question 61

Integrated GPU

Answer 61

• A graphics processing unit embedded with the CPU

- It is not as powerful as a stand-alone GPU, but it is commonly used in laptops to save space.

Question 62

Compatability

Answer 62

CPUs need to be installed in motherboards that have CPU sockets and chipsets that they are compatible with.

Question 63

AMD

Answer 63

• Specific AMD CPUs must run with specific AMD chipsets. The motherboard manufacturers may vary.

Question 64

Intel™

Answer 64

• Specific Intel™ CPUs must run with specific Intel™ chipsets. The motherboard manufacturers may vary.

Question 65

Cooling Mechanism

Answer 65

• Components on motherboards and add-on cards generate heat, especially CPUs and GPUs
• There are several types of cooling mechanisms to remove heat from a computer.

Question 66

Fans

Answer 66

• Used to move air through a computer to remove heat. Fans are positioned in the case to allow air to pass between the inside of the case and the outside
• Also used on individual components to provide extra cooling
• Are sometimes integrated with a heat sink.

Question 67

Heat Sink

Answer 67

• Devices that conduct heat and have the effect of increasing the surface area of a component
• This removes heat from the component more quickly than fans alone
• Some heat sinks have fans built into them.

Question 68

Liquid Cooling

Answer 68

• For high-performance computers, air cooling may not be enough
• Liquid cooling is more effective at transferring heat away from components
• Distilled water is the most commonly used liquid
• Liquid cooling systems include a tank for the liquid, a radiator, a water pump, and a cooling block that attaches to the component being cooled
• These components may be in the computer or outside in a separate unit that connects to the computer.

Question 69

Thermal Paste

Answer 69

• The quality of contact between a component to be cooled and the heat sink used to cool it will impact how effectively it is cooled
• Thermal paste conducts heat and is used between the component and heat sink to make the best thermal-conductive connection.

Question 70

Expansion Cards

Answer 70

• Add additional functionality to your PC
• You must use expansion cards that are compatible with the expansion slots available
• You should understand how to install and configure expansion cards.

Question 71

Video Cards

Answer 71

• Control the graphics that are displayed

- This function may be provided by an add-on card or it may be on-board, meaning built into the motherboard.

Question 72

On-Board Video Cards

Answer 72

• Typically provide good graphics features and specifications
• Serves the purpose for most users, but some users, like gamers or graphic designers, may need better graphics.

Question 73

Add-On Video Cards

Answer 73

• Have their own GPU (graphics processing unit)

- Used to improve the graphics capabilities beyond what the on-board video provides.

Question 74

Sound Cards

Answer 74

• Add-on sound cards are used to improve the sound capabilities beyond the motherboard’s sound capabilities
• A musician, composer, or audiophile may choose to upgrade their computer’s sound with an add-on card.

Question 75

Network Interface Card (NIC)

Answer 75

• Built into almost all motherboards today
• An add-on card would typically only be necessary if you wanted a different interface or to connect to a second network.

Question 76

USB Expansion Card

Answer 76

• Used to add USB ports to the computer

- May also be used to add newer version USB ports.

Question 77

eSATA Card

Answer 77

• Used to connect to external SATA storage devices.