3.4 Given a scenario, install & configure motherboards, CPUs, & add-on cards

Question 1

What does the motherboard’s system clock do?

System clock is a function typically generated by a dedicated oscillator circuit or clock generator circuit integrated into the motherboard’s chipset.

Answer 1

Synchronizes PC operations & provides the basic timing signal for the CPU

the system clock on the motherboard ensures that all components of the PC operate in sync with each other

Question 2

What are clock speeds measured in?

Answer 2

Megahertz (MHz) or Gigahertz (GHz)

Question 3

What do clock multipliers do?

Clock multipliers are a feature found within the CPU itself, not on the motherboard.

Answer 3

Adjusts bus speeds for different types of buses by adjusting the system clock signal

Question 4

What are motherboards designed to support?

Motherboard manufacturers include AOpen (Acer), ASRock, ASUSTek, Biostar, EVGA Corporation, Gigabyte, Intel, & MSI

Answer 4

A particular range of CPUs

PC CPUs are principally manufactured by Intel & AMD

This is because CPU vendors use different socket designs. It’s also due to CPU technology rapidly changing (limiting a MOBO to support a limited number of processor models)

Question 5

Why should you hold the power button after disconnecting the power supply from a PC?

Answer 5

To ensure internal components are drained of charge

Do not attempt to disassemble components that are not field repairable, like the power supply

Question 6

What is a CPU covered with after being installed?

Answer 6

Heat sink & fan

Question 7

What is the function of the CPU supported by?

Answer 7

Motherboard’s chipset

Meaning the CPU relies on the MOBO’s chispet to function properly

Question 8

What does the chipset’s controller manage?

The controller is a circuit

Answer 8

Data flow between the CPU & other components on the MOBO

i.e. memory, storage devices, expansion cards, & peripherals

Question 9

Can the motherboard’s chipset be upgraded?

Answer 9

No

It is soldered onto the motherboard

Question 10

What does the type of chipset on the motherboard determine?

Answer 10

• Choice of processor
• Type & max amount of RAM
• Support for integrated interfaces/ports

(integrated interfaces/ports like video, sound, & networking)

Interfaces that aren’t supported by the chipset can be installed/upgraded as an adapter card

Question 11

What do MOBO SATA ports connect to?

Answer 11

• Storage drive(s)
• Removable drives

Removable drives like tape drives & optical drives (DVD/Blu-ray)

SATA devices are installed in a drive bay, connected to a data port with a cable, and powered by a SATA power or Molex connector

Question 12

What is the main drawback of eSATA?

Answer 12

Doesn’t supply power over the cable

This is not much of an issue for 3.5” drives, which require a separate power supply, but it limits the usefulness of eSATA for 2.5” portable drives

Question 13

What are PCIe slots/buses used for?

Answer 13

Connecting modern adapter cards

Question 14

How does data travel through the PCIe bus/interface?

Answer 14

Dedicated links between components

the “link” is a point-to-point serial connection (each component can have a dedicated link to any other component)

Question 15

Can PCIe links have multiple lanes?

Answer 15

Yes

i.e. x1, x8, x16

Question 16

What does the transfer rate of each lane in PCIe depend on?

Answer 16

PCIe version

Question 17

What are PCIe transfer rates measured in?

Answer 17

Gigatransfers Per Second (GT/s)

The transfer rate is represented without considering any encoding or overhead

Question 18

What is the throughput in PCIe measured in?

Answer 18

GB/s

GigaByte per second

Question 19

How does the transfer rate differ from the throughput rate in PCIe?

Answer 19

Representing the signaling rate

Question 20

How does the throughput rate differ from the transfer rate in PCIe?

Answer 20

Representing data rate after encdonig & other overhead

Question 21

What is the transfer rate for PCIe 2.0?

Answer 21

5 GT/s

Question 22

Throughput for a PCIe 2.0 x1 link?

Answer 22

0.5 GBps (500 MB/s)

Question 23

Throughput for a PCIe 2.0 x16 link?

Answer 23

8 GBps

Question 24

Transfer rate of PCIe 3.0?

Answer 24

8 GT/s

Question 25

Throughput for a PCIe 3.0 x1 link?

Answer 25

0.985 GB/s (985 MB/s)

Question 26

Throughput for a PCIe 3.0 x16 link?

Answer 26

15.754 GB/s

Question 27

Transfer rate of PCIe 4.0?

Answer 27

16 GT/s

Question 28

Throughput for a PCIe 4.0 x1 link?

Answer 28

1.969 GB/s

Question 29

Throughput for a PCIe 4.0 x16 link?

Answer 29

31.508 GB/s

Question 30

Transfer rate of PCIe 5.0?

Answer 30

32 GT/s

Question 31

Throughput for a PCIe 5.0 x1 link?

Answer 31

3.938 GB/s

Question 32

Throughput for a PCIe 5.0 x16 link?

Answer 32

63.015 GB/s

Question 33

What does it usually mean if PCIe slots are longer?

Answer 33

They have more lanes

Question 34

How many lanes do PCIe adapter cards typically support?

Answer 34

• x1
• x4
• x8
• x16

Question 35

What PCIe slots may an adapter card fit in?

Answer 35

Slots with equal or greater number of lanes

Question 36

What is up-plugging in PCIe?

Answer 36

Fitting a PCIe adapter into a slot with same or greater number of lanes

its ideal to plug the card in a port that has the same number of lanes.

i.e. a x8 card will fit in a x8 or x16 socket. The card should work at x8 but in some circumstances may only work at x1

Question 37

What is down-plugging in PCIe?

Answer 37

Fitting a PCIe adapter into a shorter slot

As long as there are no obstructions in the case preventing it from being fully inserted & connected

Question 38

Where is the number of lanes supported by each PCIe slot indicated?

Answer 38

Label on motherboard

A PCIe slot might physically appear to be able to accommodate more lanes, but it may only support a lower number of lanes as indicated by a label

Question 39

What label does a PCIe slot have if it’s physically x16 but only supports x8 operation?

Answer 39

“x16/x8” or “x16 @ x8”

Question 40

Are all PCIe versions backwards-compatible?

Answer 40

Yes

i.e. You can use a PCIe v2 adapter with a v4 motherboard or a v3 adapter with a v2 motherboard. The bus speed matches the lowest component version.

Question 41

How much power does PCIe supply to a dedicated graphics adapter slot?

Answer 41

Up to 75W

Question 42

How much power does PCIe slots provide to general-purpose slots?

i.e. PCIe x1, x4, or x16 slots that aren’t specifically designed for graphics cards

Answer 42

Up to 25W

An extra 75W power can be supplied via a PCIe power connector

Question 43

Why may motherboards also include PCI slots?

Answer 43

To support older technologies

It is superseded by PCIe

Question 44

What does it mean that PCIe is software compatible with PCI?

Answer 44

PCI ports can be included on a PCIe MOBO

However PCI cards can’t be fitted into PCIe slots

Question 45

does PCI use serial or parallel communication?

Answer 45

Parallel

Question 46

What is the typical bit-width for most types of PCI?

Answer 46

32-bit

Question 47

What is the standard operating frequency for most types of PCI?

Answer 47

33.3 MHz

Question 48

What is the transfer rate of PCI?

Answer 48

Up to 133 MBps

The earliest PCI cards used 5V signaling, but 3.3V and dual voltage cards became more common. To prevent compatibility issues (like inserting a 3.3V card into a 5V PCI slot), different keying is used for each type of card.

Question 49

2 common motherboard form factors?

Answer 49

• ATX
• ITX

Question 50

Meaning of ATX?

Answer 50

Advanced Technology eXtended

Question 51

Meaning of ITX?

Answer 51

Information Technology eXtended

Question 52

What is the standard MOBO form factor for most desktops?

Answer 52

ATX

Question 53

What are the dimensions of full-size ATX boards?

Answer 53

12” x 9.6” (305mm x 244mm)

Question 54

How many expansion slots can ATX boards have?

Answer 54

Up to 7

Question 55

What are the dimensions of Micro-ATX (mATX) boards?

Answer 55

9.6” square (244mm x 244mm)

Question 56

How many expansion slots can Micro-ATX (mATX) boards have?

Answer 56

Up to 4

Question 57

Can most Micro-ATX (mATX) boards be mounted in ATX cases?

Answer 57

Yes

Question 58

What MOBO form factor do SFF PCs often use?

SFF = Small Form Factor

Answer 58

Mini-ITX

SFF PCs are popular as home machines & for use as mini servers

Question 59

What are the dimensions of Mini-ITX boards?

Answer 59

6.7” square (170mm x 170mm)

Question 60

How many expansion slots can Mini-ITX boards have?

Answer 60

1

Question 61

Can most mini-ITX boards be mounted in ATX cases?

Answer 61

yes

Question 62

What are smaller ITX form factors (smaller than mini-ITX) used for?

(Nano-, pico-, & mobile-ITX form factors)

Answer 62

Embedded systems & portables

No commercial motherboards were ever produced form the original plain ITX specification

Question 63

How is a motherboard attached to the case?

Answer 63

Using standoffs

Standoffs secure the motherboard, preventing contact with the case. Positioned in aligned holes, they accommodate compatible form factors for both the case and motherboard.

Question 64

What should you do before installing a motherboard?

Answer 64

Refer to motherboard documentation

Question 65

What should you check in the MOBO documentation when installing it?

Answer 65

If any jumper clips needs to be adjusted

A jumper is placed over header pins in a particular orientation. i.e. there might be a jumper that enables recovery mode

Question 66

When installing a motherboard, What do you align it with?

Answer 66

I/O cutout at rear of the case

Prepare the motherboard’s I/O blanking plate by removing caps to expose USB, audio, & video ports. Snap the blanking plate into the case’s cutout.

Question 67

What to do after aligning MOBO with I/O cutout?

Answer 67

Insert standoffs in case to match MOBO holes

Check if standoffs are threaded or push-down. Ensure the motherboard is supported at corners, edges, and center. Avoid adding standoffs without corresponding motherboard holes.

Question 68

After verifying alignment and standoff locations, what’s the next step in installing a motherboard?

Answer 68

Place motherboard on the standoffs

Secure standoffs with correct screws, ensuring firmness without over-tightening to prevent board damage. Complete PC setup by adding power and disk devices, installing addon adapter cards, and connecting data and power cables.

Question 69

How do PC case components connect to the MOBO?

Answer 69

Question 70

4 types of MOBO headers?

Answer 70

• Power button (soft power)
• Drive (HDD) activity lights
• Audio ports
• USB ports

Question 71

What does the power button (soft power) on a PC do?

Answer 71

Sends a shutdown command to the OS instead of directly turning off the PC

Holding down the power button for a few seconds will cut the power

Question 72

What MOBO headers do USB 2.0 connections use?

Answer 72

9-pin headers

They accept up to 2 4-pin port connection (the 9th pin is to orient the cable correctly).

Question 73

What MOBO headers do USB 3.0 connections use?

Answer 73

20-pin headers (2x10)

They can be cabled to 2 ports

Question 74

What should you do with header connectors when disassembling a system?

Answer 74

Make a digram of the position & orientation of header connectors

This helps remember how to reassemble everything correctly later on

If you don’t have a diagram, consult the MOBO documentation or check for labels on the wires and headers. However, these labels may not always be straightforward to follow.

Question 75

Identify connector

Answer 75

Main P1 motherboard power connector

Question 76

How many pins does the main P1 motherboard power connector have?

Answer 76

20-24

Question 77

Purpose of the main P1 motherboard power connector?

Answer 77

To supply power from PSU to the MOBO

Question 78

What format do fan connectors on MOBOs come in?

Answer 78

3-pin or 4-in Molex KK format

Question 79

How do 4-pin fan connectors differ from 3-pin fan connectors?

Answer 79

Enabling precise fan-speed control via PWM signals carried on blue wire

PWM = Pulse Width Modulation

Question 80

How are 3-pin fans controlled?

Answer 80

By varying the voltage

Question 81

Can fans with a 3-pin connector be used with 4-pin headers?

Answer 81

Yes, but system may be unable to vary the fan speed

(or may need special configuration to be able to do so)

Question 82

Can fans with a 4-pin connector be used with 3-pin headers?

Answer 82

Yes, but will be unable to use PWM

PWM = Pulse Width Modulation

This means it won’t be able to enable precise fan-speed control

Question 83

What do expansion cards do?

Answer 83

Adds functions/ports not supported by the MOBO’s integrated features

Question 84

What slots do expansion cards connect to?

Answer 84

PCIe or PCI

Question 85

4 main types of expansion cards?

Answer 85

• Sound
• Video
• Capture
• NIC

Question 86

What do video cards do?

Answer 86

Generates the signal to drive a monitor or projector

Low-end graphics are usually integrated into the motherboard or CPU, known as onboard graphics. For demanding tasks like gaming or design, a more powerful graphics card is needed, installed via PCIe slot. These cards often use chipsets from ATI/AMD, NVIDIA, or Intel

Question 87

3 features that disitinguish video cards?

Answer 87

• GPU
• Graphics memory
• Video ports

Question 88

What is a video card’s GPU?

Answer 88

Microprocessor optimized for rendering 2D & 3D images on-screen

Basic GPU performance is often gauged by its framerate in specific games or applications. Additional performance aspects include its support for various levels of texture and lighting effects.

Question 89

Meaning of GPU?

Answer 89

Graphics Processing Unit

Question 90

How much memory do high-end video cards have?

Answer 90

Up to 12GB GDDR RAM

Graphics Double Data Rate (GDDR) memory technology is similar to the DDR modules used for system RAM

Question 91

How much memory do mid-range video cards have?

Answer 91

4-6GB GDDR RAM

Graphics Double Data Rate (GDDR) memory technology is similar to the DDR modules used for system RAM

Question 92

What memory do low-end video cards use?

Answer 92

Shared memory

Meaning the adapter uses system RAM

Question 93

What PCIe interface do most video cards use?

Answer 93

x16 interface

Question 94

What do Capture cards do?

Answer 94

Records video input & saves it as a type of movie or streaming media file

Capture cards record footage from various sources, including PC games, console HDMI outputs, and live camera HDMI sources like camcorders. Some also function as TV tuners, capturing video from broadcast TV. They come in internal PCIe or external USB/Thunderbolt formats.

Question 95

Purpose of sound cards?

Answer 95

To process & output audio signals

Multi-channel sound cards paired with speakers offer different audio levels, from mono/stereo to surround sound. Basic onboard sound may come with the motherboard, while better quality audio is available through PCIe/PCI expansion cards. Pro-level cards may feature onboard memory and extra input jacks.

Question 96

What type of audio jack is found on computers?

Answer 96

3.5mm mono or stereo jacks

These are also referred to as phone plugs or mini Tip, Ring, Sleeve (TRS) connectors

Question 97

what may audio hardware built into a computer be susceptible to?

(like onboard sound cards or audio chips integrated into the MOBO)

Answer 97

Noise from other internal components when using recording functionality

Most audio interfaces designed for professional use are external units connected via USB or Thunderbolt

Question 98

How can an NIC with multiple ports be utilized to increase bandwidth?

Answer 98

Bonding it into a single higher bandwidth link

Most computers include an onboard Ethernet adapter as part of the motherboard chipset, but you might need to install an add-on NIC or upgrade an adapter for different network types or cabling, like copper versus fiber optic. Additionally, you can add a Wi-Fi adapter for wireless network connectivity, which comes in various 802.11b standards. Some cards can also connect to cellular data networks.

Question 99

What happens when a software program is run?

Answer 99

Instructions are created using the CPU’s instruction set & stored in system memory

Question 100

3 basic operations performed by the CPU on each instruction?

Answer 100

1. Fetch
2. Decode & Execute
3. Write back

Question 101

What does the control unit do during the fetch stage of instruction execution?

The control unit is a component within the CPU that coordinates and controls the execution of instructions

Answer 101

Retrieves the next instruction from system memory

Question 102

What does the control unit do during the Decode & Execute stage of instruction execution?

The control unit is a component within the CPU that coordinates and controls the execution of instructions

Answer 102

Decodes & executes the instruction or sends it to ALU/FPU for execution

(ALU = Arithmetic Logic Unit) (FPU = Floating-Point Unit)

Question 103

What happens in the Write Back stage of instruction execution?

Answer 103

Result of instruction execution is stored in register, cache, or memory

Question 104

What is a CPU register?

Answer 104

Temporary storage within CPU that holds data during processing

It operates the the CPU’s clock speed

Question 105

What is a cache?

Answer 105

Small memory block storing frequently used CPU instruction & data

This helps enhance performance

Question 106

3 CPU architectures?

Answer 106

• x86
• x64
• ARM

Question 107

What are CPU architectures?

Answer 107

Design & organization of a processor’s components to optimize instruction execution

These architectures are developed to improve the process of fetching instructions from memory, decoding them, executing them, & writing back the results

Question 108

What is the x86 instruction set?

Answer 108

Set of instructions that define how a CPU should operate

x86 operates in 32-bit mode

Question 109

What is the x64 instruction set?

Aka AMD64 or x86-64. Both Intel (as EM64T or Intel 64) & AMD use this instruction set in their modern processors

Answer 109

Extension of x86 instruction set that allows for 64-bit operation

Question 110

Why was the x64 instruction set developed?

Answer 110

CPUs became capable of handling instructions that are 64 bits wide

Initially, CPUs were designed to process instructions that were up to 32 bits wide. However, as technology progressed, CPUs became capable of handling instructions that are 64 bits wide, allowing for increased performance and memory addressing capabilities.

Question 111

What must firmware & software be designed & compiled as to run on x64 CPUs?

Answer 111

As 64-bit software

No 32-bit CPU can run 64-bit software; but a 64-bit CPU can run 32-bit software

Question 112

What is a device driver?

Answer 112

Code that provides support for a specific hardware component for an OS

Question 113

Meaning of ARM?

Answer 113

Advanced RISC Machine

Question 114

What does ARM (company) produce?

Unlike Intel & AMD, ARM doesn’t manufatcure CPUs

Answer 114

Designs that hardware vendors customize & manufacure

ARM designs power Apple’s latest hardware, most Android devices (particularly by Qualcomm, Nvidia, and Samsung), many Chromebooks, and select Windows tablets and laptops.

Question 115

What does a typical ARM design implement?

Answer 115

System-on-Chip (SoC)

Question 116

What does it mean that a typical ARM design implments SoC?

SoC = System-on-Chip

Answer 116

All the controllers are part of the CPU

Controllers are the video, sound, networking, & storage

ARM designs feature simpler instructions compared to x86, leading to improved power efficiency and thermal performance, resulting in longer battery life and enabling fanless cooling.

Question 117

What is required to run hardware drivers & OSs on an ARM-based device?

Answer 117

Redesign & compile them to use the ARM instruction set

However, converting x86/x64 apss to run on a different instruction set is an onerous task

Question 118

One easy solution to run hardware drivers & OSs on an ARM-based device?

Answer 118

Via emulation

Windows 10 ARM-based devices use emulation to run X86 & X64 apps

The downside to this is that emulation imposes a significant performance penalty

Question 119

2 ways to improve CPU performance?

Answer 119

• Simultaneous Multithreading (SMT)
• Symmetric Multiprocessing (SMP)

Question 120

What does SMT (aka HyperThreading by Intel) allow?

(SMT = Simultaneous Multithreading) (SMT is a CPU design technique)

Answer 120

Multiple threads to run through the CPU simultaneously

Question 121

What is a thread?

Answer 121

Stream of instructions generated by a software application

Question 122

How does SMT improve CPU performance?

(SMT = Simultaneous Multithreading) (SMT is a CPU design technique)

Answer 122

Reduces idle time & maximizes the work done in each clock cycle

This improves efficiency

Question 123

What does SMT make the OS believe?

(SMT = Simultaneous Multithreading) (SMT is a CPU design technique)

Answer 123

There are multiple CPUs installed

This enhances performance without requiring software to be multithreaded

Question 124

What does Symmetric Multiprocessing (SMP) involve?

SMP is a system architecture

Answer 124

Using multiple CPUs to allow SMP-aware OSs to distribute processes across CPUs

Unlike SMT (Simultaneous Multithreading), SMP (Symmetric Multiprocessing) doesn’t rely on software being multithreaded to deliver performance benefits

Question 125

Why are SMP implementations more common in servers & high-end workstations?

Answer 125

Due to the high cost of multi-socket motherboards

CPUs in each socket must be identical & support SMP

Question 126

What does each core in a CPU act as?

Answer 126

A separate processor

they’re capable of executing instructions independently

i.e. a dual-core CPU has 2 cores on the same chip, effectively acting as 2 processors

Question 127

What does each core in a CPU have?

Answer 127

Its own execution unit, registers, & cache memory

Theres also a shared cache that all cores can access. This setup is called chip-level multiprocessing (CMP)

Question 128

What are the capabilities of multicore CPUs denoted by?

Answer 128

By a notation like nC/nT

i.e. 8C/16T CPU

Question 129

In multi-core CPU specifications, what does the nC in nC/nT mean?

Answer 129

the number of cores the CPU has

i.e. 8C/16T CPU

Question 130

In multi-core CPU specifications, what does the nT in nC/nT mean?

Answer 130

The number of simultaneous threads each core can handle

i.e. an 8C/16T CPU can handle 16 threads simultaneously because it supports multithreading, even though it has 8 physical cores

Question 131

How can a computer run multiple OSs?

Answer 131

Via virtualization software

These create virtual machines (VMs), each running its own OS

Question 132

What is Intel’s Virtualization Technology (VT) & AMD’s AMD-V?

Answer 132

Processor features that support virtualization

Making them available across their processor ranges.

these features are also known as hardware-assisted virtualization

Question 133

What is Second Level Address Translation (SLAT)

Answer 133

Virtualization feature for efficient virtual memory management

Intel & AMD have extensions for SLAT (Extended Page Table (EPT) for Intel, Rapid Virtualization Indexing (RVI))

Question 134

What does CPU packaging refer to?

Answer 134

CPU’s form factor & how it’s connected to the motherboard

Intel & AMD use different socket types, so you can’t install an AMD in a MOBO designed for an Intel CPU (& vice versa)

Question 135

What insertion mechanism for CPU sockets use?

Answer 135

Zero Insertion Force (ZIF)

No pressure is required to insert the CPU, reducing the risk of bending or breaking the pin contacts

Question 136

What socket form factor do Intel CPUs use?

Answer 136

Land Grid Array (LGA)

The LGA form factor positions the pins that connect the CPU on the socket. The CPU is placed on a hinged plate & then secured to the socket using a locking layer

Question 137

What socket form factor do AMD CPUs use?

Answer 137

Pin Grid Array (PGA)

PGA CPUs have pins underneath them. To install, gently place the CPU into the socket, then secure it with a locking lever. Be careful to align pin 1 on the CPU with pin 1 on the socket to avoid damaging the pins.

Question 138

What should you do when removing a CPU with a heat sink & fan assembly?

Answer 138

Twist gently to remove heatsink

To avoid it sticking to the CPU

If reinstalling the same heat sink, clean old thermal grease from the surfaces & apply a small amount of new grease in an X pattern

Question 139

What happens if too much termal paste is applied between CPU & heat sink?

Answer 139

Excess could damage the socket

Question 140

What does each new CPU model collectively form?

Answer 140

CPU generation

In each gen., manufacturers offer various models with different specs

Question 141

What are motherboards specific to?

Answer 141

AMD or Intel CPUs & their generation

CPU compatibility relies on the motherboard’s socket type and chipset. Upgrading CPUs without changing motherboards is uncommon and usually not worthwhile.

Question 142

What is firmware?

Answer 142

Specialized program code stored in flash memory

Question 143

What system firmware did PCs use for many years?

Answer 143

BIOS

Question 144

Meaning of BIOS?

Answer 144

Basic Input/Ouput System

Question 145

What system firmware replaced BIOS?

Answer 145

UEFI

Question 146

Meaning of UEFI?

Answer 146

Unified Extensible Firmware Interface

Question 147

Does BIOS support 32-bit or 64-bit operation?

Answer 147

32-bit

BIOS has limited functionality

Question 148

Does UEFI support 32-bit or 64-bit operation?

Answer 148

64-bit

UEFIhas a full GUI & mouse operation, network functionality, & better boot security. A PC with UEFI may also support booting in a legacy BIOS mode

Question 149

How can BIOS/UEFI be accessed if a PC boots too quickly?

Answer 149

Shift-click the Restart button from Windows logon screen

Question 150

What does the Boot options/order in BIOS/UEFI do?

Answer 150

Defines device boot order

Typical options include Fixed disk (HDD/SSD), Optical drive (CD/DVD/Blu-ray), USB, Network/PXE, etc.

Question 151

What do USB permissions in BIOS/UEFI do?

Answer 151

Manages USB device access & functionality within the system

This involves managing USB ports, configuring boot options, and setting security features.

Question 152

How can PC fans be controlled?

Answer 152

via BIOS/UEFI or OS apps

Question 153

What is the purpose of boot password?

Answer 153

Require users to authenticate befores loading the OS

Question 154

2 types of boot passwords PCs typically support?

Answer 154

• Supervisor/Admin/Setup
• User/System

Question 155

What does the Supervisor/Admin/Setup boot password lock access to?

Answer 155

System setup program

i.e. BIOS/UEFI

Question 156

What does the User/System boot password lock access to?

Answer 156

Whole computer

This is very secure; nothing can be done until the firmware has initialized the system

Question 157

What is secure boot?

Answer 157

UEFI feature that prevents a computer from being hijacked from malware

Question 158

How does secure boot protect a PC from malware?

Answer 158

Configuring firmware with cryptographic keys to identify trusted code

The system firmware verifies the OS boot loaduer using these keys, ensuring it’s digitally signed by the OS vendor. This prevents unauthorized boot loaders or OS installations

Question 159

Meaning of TPM?

Answer 159

Trusted Platform Module

Question 160

What is TPM?

Answer 160

Specification for hardware-based storage of certificates, cryptographic keys, & hashed passwords

“specification” means it’s a set of standards or guidelines defining its functionality, features, and implementation requirements.

Question 161

What systems support TPM?

Answer 161

Systems with UEFI firmware

Question 162

How does TPM establish a root of trust?

Answer 162

By using a hardcoded key (endorsement key) in each TPM microprocessor

Question 163

What hashes does TPM compare during boot?

Answer 163

• Firmware
• Boot loader
• OS kernel

To prevent tampering

TPM chips have secure storage areas where disk encryption programs like BitLocker can store their keys

Question 164

How can TPM be managed/configured?

Answer 164

via System setup program or OS

Question 165

Meaning of HSM?

Answer 165

Hardware Security Module

Question 166

What is HSM?

Answer 166

Device for secure cryptographic key storage & operations

A device like a USB

HSMs provide tamper-resistant hardware-based security, requiring user authentication i.e. password, PIN, or fingerprint) to access stored keys.

Question 167

What’s used when transferring disks between TPM-lacking systems?

Answer 167

HSM

Question 168

What is a heat sink?

Answer 168

Block of copper or aluminum with fins

The fins expose a larger surface area to the air around the component to achieve a cooling effect by convection.

Question 169

How is a heat sink attached to a CPU?

Answer 169

Thermal paste/pad

This ensures the best transfer of heat by eliminating small air gaps

Thermal pads are easier to apply but doesn’t always perform as reliably

Question 170

What does a liquid-based cooling system refer to?

Answer 170

System of pumping water around the chassis

Question 171

What components do open-loop, liquid-based cooling systems refer to?

Answer 171

• Water loop/pump
• Water blocks & brackets
• Radiators/fans

Theres closed-loop systems that install to a single component (CPU/GPU)

Open-loop systems require periodic draining, cleaning, and refilling. Ensure fans and radiators are dust-free. Drain the system before relocating the PC.