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Deck 7: Wide Area Networks

Full screen (f)
exit full mode
Question
In a star topology, a single connection failure will halt all traffic between all sites.
Use Space or
up arrow
down arrow
to flip the card.
Question
____ WANs are the most fault-tolerant type of WAN because they provide multiple routes for data to follow between any two points.

A) Bus
B) Star
C) Mesh
D) Tiered
Question
Because WAN connections require routers or other Layer 3 devices to connect locations, their links are not capable of carrying ____ protocols.

A) open
B) standard
C) routable
D) nonroutable
Question
After SONET, BPL has the best maximum throughput available.
Question
On most modern WANs, a ring topology relies on ____ rings to carry data.

A) flexible
B) open
C) serial
D) redundant
Question
Dial-up ISDN does not convert a computer's digital signals to analog before transmitting them over the PSTN.
Question
The ____ encompasses the entire telephone system, from the wires that enter homes and businesses to the network centers that connect different regions of a country.

A) SLIP
B) POTS
C) PPP
D) PSTN
Question
ATM is a WAN technology that functions in the Data Link layer.
Question
In a process called ____, two 64-Kbps ISDN B channels can be combined to achieve an effective throughput of 128 Kbps.

A) slicing
B) linking
C) merging
D) bonding
Question
A(n) ____ is the place where a telephone company terminates lines and switches calls between different locations.

A) CO
B) EO
C) DO
D) TO
Question
____ means that a telephone company connects residential users to its network with fiber-optic cable.

A) OLT
B) FITL
C) PON
D) FITH
Question
____ is an updated, digital version of X.25 that also relies on packet switching.

A) DSL
B) ISDN
C) Frame relay
D) ATM
Question
The portion of the PSTN that connects any residence or business to the nearest CO is known as the ____.

A) demarcation point
B) NIU (Network Interface Unit)
C) local loop
D) central office
Question
WANs typically send data over ____ available communications networks.

A) privately
B) publicly
C) individually
D) serially
Question
ISDN PRI uses ____ B channels and one 64-Kbps D channel.

A) 10
B) 12
C) 23
D) 32
Question
SONET specifies framing and multiplexing techniques at the Physical layer.
Question
The individual geographic locations connected by a WAN are known as ____.

A) WAN sites
B) WAN links
C) network service providers
D) central offices
Question
A ____ converts digital signals into analog signals for use with ISDN phones and other analog devices.

A) terminal adapter
B) DSLAM
C) smart jack
D) terminator
Question
A ____ connection is one in which a user connects her computer, via a modem, to a distant network and stays connected for a finite period of time.

A) remote
B) direct
C) dial-up
D) virtual
Question
The speed of a T-carrier depends on its ____ level.

A) signal
B) hierarchy
C) channel
D) traffic
Question
List and describe the key strengths of SONET.
Question
Explain how ATM relies on virtual circuits.
Question
A(n) ____________________ node in synchronous communications recognizes that it should be receiving data by looking at the time on the clock.
Question
A(n) ____________________ uses TDM (time division multiplexing) over two wire to divide a single channel into multiple channels.
Question
Explain how a cable modem is utilized in broadband cable connections.
Question
Describe the fundamental properties WANs and LANs have in common.
Question
A ____ aggregates multiple DSL subscriber lines and connects them to the carrier's CO.

A) terminal adapter
B) DSLAM
C) smart jack
D) terminator
Question
Define and describe a PSTN.
Question
Define the term xDSL and name the better known DSL varieties.
Question
A(n) ____________________ combines individual SONET signals on the transmitting end, and another multiplexer separates combined signals on the receiving end.
Question
What sets ATM apart from Ethernet is its ____ size.

A) channel
B) frame
C) variable packet
D) fixed packet
Question
Define a fractional T1 and explain why an organization might implement it.
Question
Describe an important difference between frame relay and X.25.
Question
____________________ are connections between network nodes that, although based on potentially disparate physical links, logically appear to be direct, dedicated links between those nodes.
Question
The data rate of a particular SONET ring is indicated by its ____, a rating that is internationally recognized by networking professionals and standards organizations.

A) OC (Optical Carrier) level
B) CIR (committed information rate)
C) BRI (Basic Rate Interface)
D) DS0 (digital signal, level 0)
Question
____________________ encapsulates incoming Ethernet or token ring frames, then converts them into ATM cells for transmission over an ATM network.
Question
At the customer's demarcation point, either inside or outside the building, RJ-48 connectors terminate in a ____.

A) terminal adapter
B) smart jack
C) CSU/DSU
D) switch
Question
SONET's extraordinary ____ results from its use of a double-ring topology over fiber-optic cable.

A) throughput
B) low cost
C) fault tolerance
D) latency
Question
Broadband cable requires many subscribers to share the same local line, thus raising concerns about ____ and actual (versus theoretical) throughput.

A) access
B) costs
C) noise
D) security
Question
Why is SONET technology typically not implemented by small or medium-size businesses?
Question
Describe the most important advantage of SONET.
Question
Match between columns
Premises:
Responses:
Provides equal capacity for data traveling both upstream and downstream.
tiered topology WAN
Provides equal capacity for data traveling both upstream and downstream.
downstream
Provides equal capacity for data traveling both upstream and downstream.
star topology WAN
Provides equal capacity for data traveling both upstream and downstream.
asymmetrical communications
Provides equal capacity for data traveling both upstream and downstream.
signal level
Provides equal capacity for data traveling both upstream and downstream.
upstream
Provides equal capacity for data traveling both upstream and downstream.
bus topology WAN
Provides equal capacity for data traveling both upstream and downstream.
symmetrical technology
Provides equal capacity for data traveling both upstream and downstream.
mesh topology WAN
Occurs when each site is directly connected to no more than two other sites in a serial fashion.
tiered topology WAN
Occurs when each site is directly connected to no more than two other sites in a serial fashion.
downstream
Occurs when each site is directly connected to no more than two other sites in a serial fashion.
star topology WAN
Occurs when each site is directly connected to no more than two other sites in a serial fashion.
asymmetrical communications
Occurs when each site is directly connected to no more than two other sites in a serial fashion.
signal level
Occurs when each site is directly connected to no more than two other sites in a serial fashion.
upstream
Occurs when each site is directly connected to no more than two other sites in a serial fashion.
bus topology WAN
Occurs when each site is directly connected to no more than two other sites in a serial fashion.
symmetrical technology
Occurs when each site is directly connected to no more than two other sites in a serial fashion.
mesh topology WAN
Contain sites that are connected in star or ring formations are interconnected at different levels, with the interconnection points being organized into layers to form hierarchical groupings.
tiered topology WAN
Contain sites that are connected in star or ring formations are interconnected at different levels, with the interconnection points being organized into layers to form hierarchical groupings.
downstream
Contain sites that are connected in star or ring formations are interconnected at different levels, with the interconnection points being organized into layers to form hierarchical groupings.
star topology WAN
Contain sites that are connected in star or ring formations are interconnected at different levels, with the interconnection points being organized into layers to form hierarchical groupings.
asymmetrical communications
Contain sites that are connected in star or ring formations are interconnected at different levels, with the interconnection points being organized into layers to form hierarchical groupings.
signal level
Contain sites that are connected in star or ring formations are interconnected at different levels, with the interconnection points being organized into layers to form hierarchical groupings.
upstream
Contain sites that are connected in star or ring formations are interconnected at different levels, with the interconnection points being organized into layers to form hierarchical groupings.
bus topology WAN
Contain sites that are connected in star or ring formations are interconnected at different levels, with the interconnection points being organized into layers to form hierarchical groupings.
symmetrical technology
Contain sites that are connected in star or ring formations are interconnected at different levels, with the interconnection points being organized into layers to form hierarchical groupings.
mesh topology WAN
Incorporates many directly interconnected sites.
tiered topology WAN
Incorporates many directly interconnected sites.
downstream
Incorporates many directly interconnected sites.
star topology WAN
Incorporates many directly interconnected sites.
asymmetrical communications
Incorporates many directly interconnected sites.
signal level
Incorporates many directly interconnected sites.
upstream
Incorporates many directly interconnected sites.
bus topology WAN
Incorporates many directly interconnected sites.
symmetrical technology
Incorporates many directly interconnected sites.
mesh topology WAN
Occurs when data travels from the customer to the carrier's switching facility.
tiered topology WAN
Occurs when data travels from the customer to the carrier's switching facility.
downstream
Occurs when data travels from the customer to the carrier's switching facility.
star topology WAN
Occurs when data travels from the customer to the carrier's switching facility.
asymmetrical communications
Occurs when data travels from the customer to the carrier's switching facility.
signal level
Occurs when data travels from the customer to the carrier's switching facility.
upstream
Occurs when data travels from the customer to the carrier's switching facility.
bus topology WAN
Occurs when data travels from the customer to the carrier's switching facility.
symmetrical technology
Occurs when data travels from the customer to the carrier's switching facility.
mesh topology WAN
Occurs when downstream throughput is higher than upstream throughput.
tiered topology WAN
Occurs when downstream throughput is higher than upstream throughput.
downstream
Occurs when downstream throughput is higher than upstream throughput.
star topology WAN
Occurs when downstream throughput is higher than upstream throughput.
asymmetrical communications
Occurs when downstream throughput is higher than upstream throughput.
signal level
Occurs when downstream throughput is higher than upstream throughput.
upstream
Occurs when downstream throughput is higher than upstream throughput.
bus topology WAN
Occurs when downstream throughput is higher than upstream throughput.
symmetrical technology
Occurs when downstream throughput is higher than upstream throughput.
mesh topology WAN
Refers to the T-carrier's Physical layer electrical signaling characteristics as defined by ANSI standards in the early 1980s.
tiered topology WAN
Refers to the T-carrier's Physical layer electrical signaling characteristics as defined by ANSI standards in the early 1980s.
downstream
Refers to the T-carrier's Physical layer electrical signaling characteristics as defined by ANSI standards in the early 1980s.
star topology WAN
Refers to the T-carrier's Physical layer electrical signaling characteristics as defined by ANSI standards in the early 1980s.
asymmetrical communications
Refers to the T-carrier's Physical layer electrical signaling characteristics as defined by ANSI standards in the early 1980s.
signal level
Refers to the T-carrier's Physical layer electrical signaling characteristics as defined by ANSI standards in the early 1980s.
upstream
Refers to the T-carrier's Physical layer electrical signaling characteristics as defined by ANSI standards in the early 1980s.
bus topology WAN
Refers to the T-carrier's Physical layer electrical signaling characteristics as defined by ANSI standards in the early 1980s.
symmetrical technology
Refers to the T-carrier's Physical layer electrical signaling characteristics as defined by ANSI standards in the early 1980s.
mesh topology WAN
Occurs when data travels from the carrier's switching facility to the customer.
tiered topology WAN
Occurs when data travels from the carrier's switching facility to the customer.
downstream
Occurs when data travels from the carrier's switching facility to the customer.
star topology WAN
Occurs when data travels from the carrier's switching facility to the customer.
asymmetrical communications
Occurs when data travels from the carrier's switching facility to the customer.
signal level
Occurs when data travels from the carrier's switching facility to the customer.
upstream
Occurs when data travels from the carrier's switching facility to the customer.
bus topology WAN
Occurs when data travels from the carrier's switching facility to the customer.
symmetrical technology
Occurs when data travels from the carrier's switching facility to the customer.
mesh topology WAN
Contains a single site acting as the central connection point for several other points.
tiered topology WAN
Contains a single site acting as the central connection point for several other points.
downstream
Contains a single site acting as the central connection point for several other points.
star topology WAN
Contains a single site acting as the central connection point for several other points.
asymmetrical communications
Contains a single site acting as the central connection point for several other points.
signal level
Contains a single site acting as the central connection point for several other points.
upstream
Contains a single site acting as the central connection point for several other points.
bus topology WAN
Contains a single site acting as the central connection point for several other points.
symmetrical technology
Contains a single site acting as the central connection point for several other points.
mesh topology WAN
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Deck 7: Wide Area Networks
1
In a star topology, a single connection failure will halt all traffic between all sites.
False
2
____ WANs are the most fault-tolerant type of WAN because they provide multiple routes for data to follow between any two points.

A) Bus
B) Star
C) Mesh
D) Tiered
C
3
Because WAN connections require routers or other Layer 3 devices to connect locations, their links are not capable of carrying ____ protocols.

A) open
B) standard
C) routable
D) nonroutable
D
4
After SONET, BPL has the best maximum throughput available.
Unlock Deck
Unlock for access to all 42 flashcards in this deck.
Unlock Deck
k this deck
5
On most modern WANs, a ring topology relies on ____ rings to carry data.

A) flexible
B) open
C) serial
D) redundant
Unlock Deck
Unlock for access to all 42 flashcards in this deck.
Unlock Deck
k this deck
6
Dial-up ISDN does not convert a computer's digital signals to analog before transmitting them over the PSTN.
Unlock Deck
Unlock for access to all 42 flashcards in this deck.
Unlock Deck
k this deck
7
The ____ encompasses the entire telephone system, from the wires that enter homes and businesses to the network centers that connect different regions of a country.

A) SLIP
B) POTS
C) PPP
D) PSTN
Unlock Deck
Unlock for access to all 42 flashcards in this deck.
Unlock Deck
k this deck
8
ATM is a WAN technology that functions in the Data Link layer.
Unlock Deck
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k this deck
9
In a process called ____, two 64-Kbps ISDN B channels can be combined to achieve an effective throughput of 128 Kbps.

A) slicing
B) linking
C) merging
D) bonding
Unlock Deck
Unlock for access to all 42 flashcards in this deck.
Unlock Deck
k this deck
10
A(n) ____ is the place where a telephone company terminates lines and switches calls between different locations.

A) CO
B) EO
C) DO
D) TO
Unlock Deck
Unlock for access to all 42 flashcards in this deck.
Unlock Deck
k this deck
11
____ means that a telephone company connects residential users to its network with fiber-optic cable.

A) OLT
B) FITL
C) PON
D) FITH
Unlock Deck
Unlock for access to all 42 flashcards in this deck.
Unlock Deck
k this deck
12
____ is an updated, digital version of X.25 that also relies on packet switching.

A) DSL
B) ISDN
C) Frame relay
D) ATM
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Unlock for access to all 42 flashcards in this deck.
Unlock Deck
k this deck
13
The portion of the PSTN that connects any residence or business to the nearest CO is known as the ____.

A) demarcation point
B) NIU (Network Interface Unit)
C) local loop
D) central office
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Unlock for access to all 42 flashcards in this deck.
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k this deck
14
WANs typically send data over ____ available communications networks.

A) privately
B) publicly
C) individually
D) serially
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k this deck
15
ISDN PRI uses ____ B channels and one 64-Kbps D channel.

A) 10
B) 12
C) 23
D) 32
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k this deck
16
SONET specifies framing and multiplexing techniques at the Physical layer.
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k this deck
17
The individual geographic locations connected by a WAN are known as ____.

A) WAN sites
B) WAN links
C) network service providers
D) central offices
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k this deck
18
A ____ converts digital signals into analog signals for use with ISDN phones and other analog devices.

A) terminal adapter
B) DSLAM
C) smart jack
D) terminator
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Unlock for access to all 42 flashcards in this deck.
Unlock Deck
k this deck
19
A ____ connection is one in which a user connects her computer, via a modem, to a distant network and stays connected for a finite period of time.

A) remote
B) direct
C) dial-up
D) virtual
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20
The speed of a T-carrier depends on its ____ level.

A) signal
B) hierarchy
C) channel
D) traffic
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k this deck
21
List and describe the key strengths of SONET.
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22
Explain how ATM relies on virtual circuits.
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23
A(n) ____________________ node in synchronous communications recognizes that it should be receiving data by looking at the time on the clock.
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24
A(n) ____________________ uses TDM (time division multiplexing) over two wire to divide a single channel into multiple channels.
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25
Explain how a cable modem is utilized in broadband cable connections.
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26
Describe the fundamental properties WANs and LANs have in common.
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27
A ____ aggregates multiple DSL subscriber lines and connects them to the carrier's CO.

A) terminal adapter
B) DSLAM
C) smart jack
D) terminator
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k this deck
28
Define and describe a PSTN.
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29
Define the term xDSL and name the better known DSL varieties.
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30
A(n) ____________________ combines individual SONET signals on the transmitting end, and another multiplexer separates combined signals on the receiving end.
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31
What sets ATM apart from Ethernet is its ____ size.

A) channel
B) frame
C) variable packet
D) fixed packet
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32
Define a fractional T1 and explain why an organization might implement it.
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33
Describe an important difference between frame relay and X.25.
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34
____________________ are connections between network nodes that, although based on potentially disparate physical links, logically appear to be direct, dedicated links between those nodes.
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k this deck
35
The data rate of a particular SONET ring is indicated by its ____, a rating that is internationally recognized by networking professionals and standards organizations.

A) OC (Optical Carrier) level
B) CIR (committed information rate)
C) BRI (Basic Rate Interface)
D) DS0 (digital signal, level 0)
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k this deck
36
____________________ encapsulates incoming Ethernet or token ring frames, then converts them into ATM cells for transmission over an ATM network.
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k this deck
37
At the customer's demarcation point, either inside or outside the building, RJ-48 connectors terminate in a ____.

A) terminal adapter
B) smart jack
C) CSU/DSU
D) switch
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k this deck
38
SONET's extraordinary ____ results from its use of a double-ring topology over fiber-optic cable.

A) throughput
B) low cost
C) fault tolerance
D) latency
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39
Broadband cable requires many subscribers to share the same local line, thus raising concerns about ____ and actual (versus theoretical) throughput.

A) access
B) costs
C) noise
D) security
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40
Why is SONET technology typically not implemented by small or medium-size businesses?
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41
Describe the most important advantage of SONET.
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42
Match between columns
Premises:
Responses:
Provides equal capacity for data traveling both upstream and downstream.
tiered topology WAN
Provides equal capacity for data traveling both upstream and downstream.
downstream
Provides equal capacity for data traveling both upstream and downstream.
star topology WAN
Provides equal capacity for data traveling both upstream and downstream.
asymmetrical communications
Provides equal capacity for data traveling both upstream and downstream.
signal level
Provides equal capacity for data traveling both upstream and downstream.
upstream
Provides equal capacity for data traveling both upstream and downstream.
bus topology WAN
Provides equal capacity for data traveling both upstream and downstream.
symmetrical technology
Provides equal capacity for data traveling both upstream and downstream.
mesh topology WAN
Occurs when each site is directly connected to no more than two other sites in a serial fashion.
tiered topology WAN
Occurs when each site is directly connected to no more than two other sites in a serial fashion.
downstream
Occurs when each site is directly connected to no more than two other sites in a serial fashion.
star topology WAN
Occurs when each site is directly connected to no more than two other sites in a serial fashion.
asymmetrical communications
Occurs when each site is directly connected to no more than two other sites in a serial fashion.
signal level
Occurs when each site is directly connected to no more than two other sites in a serial fashion.
upstream
Occurs when each site is directly connected to no more than two other sites in a serial fashion.
bus topology WAN
Occurs when each site is directly connected to no more than two other sites in a serial fashion.
symmetrical technology
Occurs when each site is directly connected to no more than two other sites in a serial fashion.
mesh topology WAN
Contain sites that are connected in star or ring formations are interconnected at different levels, with the interconnection points being organized into layers to form hierarchical groupings.
tiered topology WAN
Contain sites that are connected in star or ring formations are interconnected at different levels, with the interconnection points being organized into layers to form hierarchical groupings.
downstream
Contain sites that are connected in star or ring formations are interconnected at different levels, with the interconnection points being organized into layers to form hierarchical groupings.
star topology WAN
Contain sites that are connected in star or ring formations are interconnected at different levels, with the interconnection points being organized into layers to form hierarchical groupings.
asymmetrical communications
Contain sites that are connected in star or ring formations are interconnected at different levels, with the interconnection points being organized into layers to form hierarchical groupings.
signal level
Contain sites that are connected in star or ring formations are interconnected at different levels, with the interconnection points being organized into layers to form hierarchical groupings.
upstream
Contain sites that are connected in star or ring formations are interconnected at different levels, with the interconnection points being organized into layers to form hierarchical groupings.
bus topology WAN
Contain sites that are connected in star or ring formations are interconnected at different levels, with the interconnection points being organized into layers to form hierarchical groupings.
symmetrical technology
Contain sites that are connected in star or ring formations are interconnected at different levels, with the interconnection points being organized into layers to form hierarchical groupings.
mesh topology WAN
Incorporates many directly interconnected sites.
tiered topology WAN
Incorporates many directly interconnected sites.
downstream
Incorporates many directly interconnected sites.
star topology WAN
Incorporates many directly interconnected sites.
asymmetrical communications
Incorporates many directly interconnected sites.
signal level
Incorporates many directly interconnected sites.
upstream
Incorporates many directly interconnected sites.
bus topology WAN
Incorporates many directly interconnected sites.
symmetrical technology
Incorporates many directly interconnected sites.
mesh topology WAN
Occurs when data travels from the customer to the carrier's switching facility.
tiered topology WAN
Occurs when data travels from the customer to the carrier's switching facility.
downstream
Occurs when data travels from the customer to the carrier's switching facility.
star topology WAN
Occurs when data travels from the customer to the carrier's switching facility.
asymmetrical communications
Occurs when data travels from the customer to the carrier's switching facility.
signal level
Occurs when data travels from the customer to the carrier's switching facility.
upstream
Occurs when data travels from the customer to the carrier's switching facility.
bus topology WAN
Occurs when data travels from the customer to the carrier's switching facility.
symmetrical technology
Occurs when data travels from the customer to the carrier's switching facility.
mesh topology WAN
Occurs when downstream throughput is higher than upstream throughput.
tiered topology WAN
Occurs when downstream throughput is higher than upstream throughput.
downstream
Occurs when downstream throughput is higher than upstream throughput.
star topology WAN
Occurs when downstream throughput is higher than upstream throughput.
asymmetrical communications
Occurs when downstream throughput is higher than upstream throughput.
signal level
Occurs when downstream throughput is higher than upstream throughput.
upstream
Occurs when downstream throughput is higher than upstream throughput.
bus topology WAN
Occurs when downstream throughput is higher than upstream throughput.
symmetrical technology
Occurs when downstream throughput is higher than upstream throughput.
mesh topology WAN
Refers to the T-carrier's Physical layer electrical signaling characteristics as defined by ANSI standards in the early 1980s.
tiered topology WAN
Refers to the T-carrier's Physical layer electrical signaling characteristics as defined by ANSI standards in the early 1980s.
downstream
Refers to the T-carrier's Physical layer electrical signaling characteristics as defined by ANSI standards in the early 1980s.
star topology WAN
Refers to the T-carrier's Physical layer electrical signaling characteristics as defined by ANSI standards in the early 1980s.
asymmetrical communications
Refers to the T-carrier's Physical layer electrical signaling characteristics as defined by ANSI standards in the early 1980s.
signal level
Refers to the T-carrier's Physical layer electrical signaling characteristics as defined by ANSI standards in the early 1980s.
upstream
Refers to the T-carrier's Physical layer electrical signaling characteristics as defined by ANSI standards in the early 1980s.
bus topology WAN
Refers to the T-carrier's Physical layer electrical signaling characteristics as defined by ANSI standards in the early 1980s.
symmetrical technology
Refers to the T-carrier's Physical layer electrical signaling characteristics as defined by ANSI standards in the early 1980s.
mesh topology WAN
Occurs when data travels from the carrier's switching facility to the customer.
tiered topology WAN
Occurs when data travels from the carrier's switching facility to the customer.
downstream
Occurs when data travels from the carrier's switching facility to the customer.
star topology WAN
Occurs when data travels from the carrier's switching facility to the customer.
asymmetrical communications
Occurs when data travels from the carrier's switching facility to the customer.
signal level
Occurs when data travels from the carrier's switching facility to the customer.
upstream
Occurs when data travels from the carrier's switching facility to the customer.
bus topology WAN
Occurs when data travels from the carrier's switching facility to the customer.
symmetrical technology
Occurs when data travels from the carrier's switching facility to the customer.
mesh topology WAN
Contains a single site acting as the central connection point for several other points.
tiered topology WAN
Contains a single site acting as the central connection point for several other points.
downstream
Contains a single site acting as the central connection point for several other points.
star topology WAN
Contains a single site acting as the central connection point for several other points.
asymmetrical communications
Contains a single site acting as the central connection point for several other points.
signal level
Contains a single site acting as the central connection point for several other points.
upstream
Contains a single site acting as the central connection point for several other points.
bus topology WAN
Contains a single site acting as the central connection point for several other points.
symmetrical technology
Contains a single site acting as the central connection point for several other points.
mesh topology WAN
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