MELJUN CORTES NETWORK MANAGEMENT 17
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Transcript of MELJUN CORTES NETWORK MANAGEMENT 17
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17.1
Chapter 17
SONET/SDH
MELJUN CORTESMELJUN CORTES
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17.2
SONET was developed by ANSI;SDH was developed by ITU-T.
Note
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17.3
17-1 ARCHITECTURE17-1 ARCHITECTURE
Let us first introduce the architecture of a SONET Let us first introduce the architecture of a SONET system: signals, devices, and connections.system: signals, devices, and connections.
SignalsSONET DevicesConnections
Topics discussed in this section:Topics discussed in this section:
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17.4
Table 17.1 SONET/SDH rates
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17.5
Figure 17.1 A simple network using SONET equipment
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17.6
17-2 SONET LAYERS17-2 SONET LAYERS
The SONET standard includes four functional layers: The SONET standard includes four functional layers: the the photonicphotonic, the , the sectionsection, the , the lineline, and the , and the pathpath layer. layer. They correspond to both the physical and the data link They correspond to both the physical and the data link layers.layers.
Path LayerLine LayerSection LayerPhotonic LayerDevice–Layer Relationships
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17.7
SONET defines four layers:path, line, section, and photonic.
Note
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17.8
Figure 17.2 SONET layers compared with OSI or the Internet layers
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17.9
Figure 17.3 Device–layer relationship in SONET
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17.10
17-3 SONET FRAMES17-3 SONET FRAMES
Each synchronous transfer signal STS-n is composed Each synchronous transfer signal STS-n is composed of 8000 frames. Each frame is a two-dimensional of 8000 frames. Each frame is a two-dimensional matrix of bytes with 9 rows by 90 × n columns.matrix of bytes with 9 rows by 90 × n columns.
Frame, Byte, and Bit TransmissionSTS-1 Frame FormatEncapsulation
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17.11
Figure 17.4 An STS-1 and an STS-n frame
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17.12
Figure 17.5 STS-1 frames in transmission
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17.13
A SONET STS-nsignal is transmitted at 8000 frames per second.
Note
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17.14
Each byte in a SONET frame can carry a digitized voice channel.
Note
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17.15
Find the data rate of an STS-1 signal.
SolutionSTS-1, like other STS signals, sends 8000 frames per second. Each STS-1 frame is made of 9 by (1 × 90) bytes. Each byte is made of 8 bits. The data rate is
Example 17.1
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17.16
Find the data rate of an STS-3 signal.
SolutionSTS-3, like other STS signals, sends 8000 frames per second. Each STS-3 frame is made of 9 by (3 × 90) bytes. Each byte is made of 8 bits. The data rate is
Example 17.2
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17.17
In SONET, the data rate of an STS-nsignal is n times the data rate
of an STS-1 signal.
Note
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17.18
What is the duration of an STS-1 frame? STS-3 frame? STS-n frame?
SolutionIn SONET, 8000 frames are sent per second. This means that the duration of an STS-1, STS-3, or STS-n frame is the same and equal to 1/8000 s, or 125 μs.
Example 17.3
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17.19
In SONET, the duration of any frame is 125 μs.
Note
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17.20
Figure 17.6 STS-1 frame overheads
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17.21
Figure 17.7 STS-1 frame: section overhead
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17.22
Section overhead is recalculated for each SONET device
(regenerators and multiplexers).
Note
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17.23
Figure 17.8 STS-1 frame: line overhead
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17.24
Figure 17.9 STS-1 frame: path overhead
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17.25
Path overhead is only calculated for end-to-end (at STS multiplexers).
Note
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17.26
Table 17.2 Overhead bytes
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17.27
What is the user data rate of an STS-1 frame (without considering the overheads)?
SolutionThe user data part in an STS-1 frame is made of 9 rows and 86 columns. So we have
Example 17.4
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17.28
Figure 17.10 Offsetting of SPE related to frame boundary
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17.29
Figure 17.11 The use of H1 and H2 pointers to show the start of an SPE in a frame
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17.30
What are the values of H1 and H2 if an SPE starts at byte number 650?
SolutionThe number 650 can be expressed in four hexadecimal digits as 0x028A. This means the value of H1 is 0x02 and the value of H2 is 0x8A.
Example 17.5
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17.31
17-4 STS MULTIPLEXING17-4 STS MULTIPLEXING
In SONET, frames of lower rate can be synchronously In SONET, frames of lower rate can be synchronously time-division multiplexed into a higher-rate frame. time-division multiplexed into a higher-rate frame. For example, three STS-1 signals (channels) can be For example, three STS-1 signals (channels) can be combined into one STS-3 signal (channel), four combined into one STS-3 signal (channel), four STS-3s can be multiplexed into one STS-12, and so STS-3s can be multiplexed into one STS-12, and so on.on.
Byte InterleavingConcatenated SignalAdd/Drop Multiplexer
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17.32
Figure 17.12 STS multiplexing/demultiplexing
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17.33
In SONET, all clocks in the network are locked to a master clock.
Note
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17.34
Figure 17.13 Byte interleaving
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17.35
Figure 17.14 An STS-3 frame
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17.36
Figure 17.15 A concatenated STS-3c signal
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17.37
An STS-3c signal can carry 44 ATM cells as its SPE.
Note
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17.38
Figure 17.16 Dropping and adding STS-1 frames in an add/drop multiplexer
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17.39
17-5 SONET NETWORKS17-5 SONET NETWORKS
Using SONET equipment, we can create a SONET Using SONET equipment, we can create a SONET network that can be used as a high-speed backbone network that can be used as a high-speed backbone carrying loads from other networks. We can roughly carrying loads from other networks. We can roughly divide SONET networks into three categories: divide SONET networks into three categories: linearlinear, , ringring, and , and meshmesh networks. networks.
Linear NetworksRing NetworksMesh Networks
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17.40
Figure 17.17 Taxonomy of SONET networks
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17.41
Figure 17.18 A point-to-point SONET network
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17.42
Figure 17.19 A multipoint SONET network
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17.43
Figure 17.20 Automatic protection switching in linear networks
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17.44
Figure 17.21 A unidirectional path switching ring
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17.45
Figure 17.22 A bidirectional line switching ring
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17.46
Figure 17.23 A combination of rings in a SONET network
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17.47
Figure 17.24 A mesh SONET network
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17.48
17-6 VIRTUAL TRIBUTARIES17-6 VIRTUAL TRIBUTARIES
SONET is designed to carry broadband payloads. SONET is designed to carry broadband payloads. Current digital hierarchy data rates, however, are Current digital hierarchy data rates, however, are lower than STS-1. To make SONET backward-lower than STS-1. To make SONET backward-compatible with the current hierarchy, its frame compatible with the current hierarchy, its frame design includes a system of virtual tributaries (VTs). A design includes a system of virtual tributaries (VTs). A virtual tributary is a partial payload that can be virtual tributary is a partial payload that can be inserted into an STS-1. inserted into an STS-1.
Types of VTsTopics discussed in this section:Topics discussed in this section:
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17.49
Figure 17.25 Virtual tributaries
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17.50
Figure 17.26 Virtual tributary types