TEST BANK OF SYSTEMS ARCHITECTURE 7TH EDITION BY BURD
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Chapter 06 System
Integration and Performance
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1. A system bus connects computer system components,
including the CPU, memory, storage, and I/O devices.
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2. A system bus can be conceptually or physically divided
into specialized subsets, including the data, address, control, and power
buses.
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3. With serial communication lines in a bus, each line
carries only one bit value or signal at a time, and many lines are required
to carry data, address, and control bits.
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4. Until the 2000s, system buses were always constructed
with serial electrical lines.
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5. Serial channels in buses are more reliable than parallel
channels at very high speeds.
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6. Performance is improved if storage and I/O devices can
transmit data between themselves with explicit CPU involvement.
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7. Peer-to-peer bus protocols are substantially less
complex but more expensive than master-slave bus protocols.
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8. The memory bus has a much higher data transfer rate than
the system bus because of its shorter length, higher clock rate, and (in most
computers) large number of parallel communication lines.
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9. Secondary storage devices are much faster than the
system bus.
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10. Devices with low data transfer demand can use a single
PCI bus lane, and devices with higher requirements can increase their
available data transfer rate by using additional lanes.
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11. The CPU communicates with a peripheral device by moving
data to or from an I/O port’s dedicated bus.
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12. A PC usually transmits data one bit at a time over a
wireless connection, and a laser printer prints an entire page at once.
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13. A buffer for an I/O device is typically implemented on
the sending computer.
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14. During a write operation, a cache acts similarly to a
buffer.
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15. Data written to a cache during a write operation isn’t
automatically removed from the cache after it’s written to the underlying
storage device.
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16. One way to limit wait states is to use an SDRAM cache
between the CPU and SRAM primary storage.
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17. Disk caching is common in modern computer systems,
particularly in file and database servers.
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18. The OS is the best source of file access information
because it updates information dynamically as it services file access
requests.
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19. A full-featured 64-bit CPU, even one with multiple ALUs
and pipelined processing, typically requires fewer than 50 million
transistors.
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20. When multiple processors occupy a single motherboard,
they share primary storage and a single system bus.
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21. Multiple-processor architecture is not common in
workstations.
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22. Both multicore and multiple-processor architectures are
examples of scaling up because they increase the power of a single computer
system.
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23. Until the 1990s, scaling up was almost always a more
cost-effective strategy to increase available computer power because
communication between computers was extremely slow compared with
communication between a single computer’s components.
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24. The largest computational problems, such as those
encountered in modeling three-dimensional physical phenomena, can be solved
by a single computer as long as it has enough computing resources.
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25. People routinely download megabytes or gigabytes of
data via the Internet and store gigabytes of data on handheld devices,
terabytes on desktop computers, and petabytes to exabytes in corporate and
government data centers.
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26. Reducing the size of stored or transmitted data can
improve performance whenever there’s a dearth of processing power.
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27. Zip files and archives are examples of lossless
compression.
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28. Lossless compression ratios higher than 50:1 are
difficult or impossible to achieve with audio and video data.
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29. Using data compression alters the balance of processor
resources and communication or storage resources in a computer system.
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30. MP3 compresses the audio data stream by discarding
information about masked sounds or representing them with fewer bits.
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31. A ____ is a shared electrical or optical channel that
connects two or more devices.
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32. There are typically multiple storage and I/O devices
connected to a computer, collectively referred to as ____.
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33. The ____ carries commands, command responses, status
codes, and similar messages.
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34. Devices attached to a system bus coordinate and
synchronize their activities with a common ____.
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35. The ____ governs the format, content, and timing of
data, memory addresses, and control messages sent across the bus.
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36. When the CPU is the focus of all computer activity,
it’s also the ____.
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37. When the CPU is the focus of all computer activity, all
other devices are ____.
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38. Under direct memory access, a device called a ____ is
attached to the bus and to main memory.
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39. In a ____, any device can assume control of the bus or
act as a bus master for transfers to any other device.
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40. A ____ is a simple processor attached to a peer-to-peer
bus that decides which devices must wait when multiple devices want to become
a bus master.
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41. The ____ connects only the CPU and memory.
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42. A ____ connects secondary storage devices to the system
bus.
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43. ____ is a family of bus standards found in nearly all small
and midrange computers and many larger ones.
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44. Data, address, and command bits are transmitted across
PCI bus line subsets called “____.”
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45. A(n) ____ is a communication pathway from the CPU to a
peripheral device.
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46. In most computers, an I/O port is a ____.
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47. One task performed by a storage device controller is translating
logical write operations into ____ write operations.
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48. If the CPU is idle while a device completes an access
request, the CPU cycles that could have been (but weren’t) devoted to
instruction execution are called ____.
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49. A ____ is a reserved area of main memory accessed on a
last-in, first-out (LIFO) basis.
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50. The main goal of buffering and caching is to ____.
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51. If a buffer isn’t large enough to hold and entire unit
of data transfer, an error called a ____ occurs.
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52. As buffer size increases above ____ bytes, CPU cycle
consumption decreases at a linear rate.
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53. The ____ states that when multiple resources are
required to produce something useful, adding more of a single resource
produces fewer benefits.
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54. Most performance benefits of a cache occur during ____.
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55. A ____ is a processor that guesses what data will be
requested in the near future and loads this data from the storage device into
the cache before it’s actually requested.
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56. When the data needed isn’t in the cache, the access is
called a ____.
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57. The ratio of cache hits to read accesses is called the
cache’s ____.
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58. When three cache levels are in use, the cache farthest
from the CPU is called a ____ cache.
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59. When three cache levels are in use, the cache closest
to the CPU is called a ____ cache.
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60. Many computer system designers rely on ____ to
implement disk caching.
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61. The latest trend in high-performance CPU design embeds
multiple CPUs and cache memory on a single chip—an approach called ____.
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62. ____ is a cost-effective approach to computer system
design when a single computer runs many different application programs or
services.
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63. The phrase ____ describes approaches to increasing
processing and other computer system power by using larger and more powerful
computers.
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64. ____ is an approach that partitions processing and
other tasks among multiple computer systems.
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65. ____ is a technique that reduces the number of bits
used to encode data, such as a file or a stream of video images transmitted
across the Internet.
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66. A ____ is a mathematical compression technique
implemented as a program.
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67. With ____ compression, any data input that’s compressed
and then decompressed is exactly the same as the original input.
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68. With ____ compression, data inputs that are compressed
and then decompressed are different from, but still similar to, the original
input.
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69. The term ____ describes the ratio of data size in bits
or bytes before and after compression.
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70. Lossy compression of audio and video can achieve
compression ratios up to ____.
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71. The ____________________ transmits data between
computer system components.
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72. The ____________________ distributes electrical power
to directly attached devices or their device controllers.
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73. Computer system components coordinate their activities
by sending signals over the ____________________.
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74. In the simplest sense, a(n) ____________________ is
just a set of communication lines.
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75. In traditional computer architecture, the
____________________ is the focus of all computer activity.
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76. ____________________ buses connect a subset of computer
components and are specialized for these components’ characteristics and
communication between them.
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77. The ____________________ bus improves computer system
performance by removing video traffic from the system bus and providing a
high-capacity one-way communication channel optimized for video data.
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78. A(n) ____________________ bus, such as a Universal
serial Bus, connects one or more external devices to the system bus.
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79. ____________________ ports enable the CPU and bus to
interact with a keyboard in the same way they interact with a disk drive or
video display.
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80. Storage and I/O devices are normally connected to the
system bus or a subsidiary bus through a(n) ____________________.
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81. When the CPU detects an interrupt, it executes a master
interrupt handler program called the ____________________.
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82. A portion of the CPU, separate from the components that
fetch and execute instructions, monitors the bus continuously for interrupt
signals and copies them to a(n) ____________________.
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83. A special-purpose register called the ____________________
always points to the next empty address in the stack and is incremented or
decremented automatically each time the stack is pushed or popped.
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84. Mismatches in data transfer rate and data transfer unit
size are addressed in part by ____________________, which consumes
substantial CPU resources.
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85. A(n) ____________________ is a small reserved
area of main memory (usually DRAM or SRAM) that holds data in transit from
one device to another and is required to resolve differences in data transfer
unit size.
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86. As single bits are transferred over the wireless
connection, they’re added to the buffer in ____________________ order.
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87. A(n) ____________________ can improve system
performance when two devices have different data transfer rates, as when
copying music files from a PC to an iPod via a USB 2.0 connection.
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88. Like a buffer, a(n) ____________________ is a reserved
area of high-speed memory (usually RAM) that improves system performance.
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89. When a read operation accesses data already contained
in the cache, the access is called a(n) ____________________.
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90. A cache miss requires performing a(n)
____________________ to or from the storage device.
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91. ____________________ is a more traditional approach to
multiprocessing that uses two or more processors on a single motherboard or
set of interconnected motherboards.
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92. Most compression algorithms have a corresponding ____________________
algorithm that restores compressed data to its original or nearly original
state.
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93. ____________________ compression is required in many
applications, such as accounting records, executable programs, and most
stored documents.
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94. ____________________ compression is usually applied
only to audio and video data because the human brain tolerates missing audio
and video data and can usually “fill in the blanks.”
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95. ____________________ is incorporated into all modern
videoconferencing standards to reduce use of available data transfer
capacity.
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96. Discuss two ways to increase the maximum bus data
transfer rate.
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97. Explain why overall system performance is reduced in
traditional computer architecture, using a bus master.
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98. How can a cache controller be implemented?
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99. Explain lossless compression and provide an example.
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100. Explain lossy compression and provide an example.
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