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Synchronous Optical Networks SONET

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1 Synchronous Optical Networks SONET

2 Telephone Networks {Brief History}
Digital carrier systems The hierarchy of digital signals that the telephone network uses. Trunks and access links organized in DS (digital signal) hierarchy Problem: rates are not multiples of each other. In the 1980’s Bellcore developed the Synchronous Optical Network (SONET) standard. Previous efforts include: ISDN and BISDN. Networks: SONET

3 North American Digital Hierarchy
28 M13 Multiplex M23 x7 Primary Eg. Digital Switch 24 chan PCM M12 x4 1 DS Mbps DS Mbps DS Mbps European Digital Hierarchy Primary Multiplex Eg. Digital Switch 30 chan PCM 4th order x4 2nd order 3rd order Mbps 2.048 Mbps Mbps Mbps CEPT 1 CEPT 4 Copyright ©2000 The McGraw Hill Companies Leon-Garcia & Widjaja: Communication Networks Figure 4.5 Networks: SONET

4 Networks: SONET

5 SONET SONET:: encodes bit streams into optical signals propagated over optical fiber. SONET defines a technology for carrying many signals of different capacities through a synchronous, flexible, optical hierarchy. A bit-way implementation providing end-to-end transport of bit streams. All clocks in the network are locked to a common master clock so that simple TDM can be used. Multiplexing done by byte interleaving. SONET is backward compatible to DS-1 and E-1 and forward compatible to ATM cells. Demultiplexing is easy. Networks: SONET

6 SONET Transmission links of the telephone network have been changing to SONET where rates are arranged in STS (Synchronous Transfer Signal) hierarchy. The hierarchy is called SDH (Synchronous Digital Hierarchy) defined by CCITT. It is an ITU standard. Networks: SONET

7 Networks: SONET

8 Figure 2-37. SONET and SDH Multiplex Rates
Networks: SONET

9 DS1 DS2 STS-1 CEPT-1 51.84 Mbps DS3 STS-1 44.736 OC-n STS-n STS-3c
Low-Speed Mapping Function DS2 STS-1 CEPT-1 51.84 Mbps DS3 Medium Speed Mapping Function STS-1 44.736 OC-n STS-n STS-3c STS-1 Mux Scrambler E/O CEPT-4 High- Speed Mapping Function STS-1 STS-1 STS-3c STS-1 STS-1 High- Speed Mapping Function ATM STS-1 150 Mbps Copyright ©2000 The McGraw Hill Companies Leon-Garcia & Widjaja: Communication Networks Figure 4.8 Networks: SONET

10 Synhcronous Multiplexing in SONET
STS-1 STS-1 Map STS-1 STS-1 Interleave Byte STS-1 STS-1 STS-1 STS-1 STS-3 Map STS-1 STS-1 STS-1 STS-1 Map Incoming STS-1 Frames Synchronized New STS-1 Frames Copyright ©2000 The McGraw Hill Companies Leon-Garcia & Widjaja: Communication Networks Figure 4.17 Networks: SONET

11 Networks: SONET

12 SONET Architecture SONET topology can be a mesh, but most often it is a dual ring. Standard component of SONET ring is an ADM (Add/Drop Multiplexer) Drop one incoming multiplexed stream and replace it with another stream. Used to make up bi-directional line switching rings. Networks: SONET

13 SONET Ring a b c d a b c d (a) Dual ring
ADM ADM ADM ADM (a) Dual ring (b) Loop-around in response to fault Copyright ©2000 The McGraw Hill Companies Leon-Garcia & Widjaja: Communication Networks Figure 4.12 Networks: SONET

14 SONET Ring Networks: SONET

15 (a) pre-SONET multiplexing
MUX DEMUX remove tributary insert tributary (b) SONET Add-Drop multiplexing MUX ADM DEMUX remove tributary insert tributary Copyright ©2000 The McGraw Hill Companies Leon-Garcia & Widjaja: Communication Networks Figure 4.9 Networks: SONET

16 SONET Ring Regional Metro Ring Inter-Office Rings Networks: SONET
Copyright ©2000 The McGraw Hill Companies Leon-Garcia & Widjaja: Communication Networks Figure 4.13 Networks: SONET

17 SONET Architecture (a) SONET Terminal Mux reg (b) path line section
STS PTE LTE STE STS-1 Path STS Line Section Mux reg SONET Terminal STE: Section Terminating Equipment, e.g. a repeater LTE: Line Terminating Equipment, e.g. a STS-1 to STS-3 multiplexer PTE: Path Terminating Equipment, e.g. an STS-1 multiplexer (b) optical section line path Copyright ©2000 The McGraw Hill Companies Leon-Garcia & Widjaja: Communication Networks Figure 4.14 Networks: SONET

18 SONET Architecture Networks: SONET

19 = BIM (Byte Interleaved Multiplexer)
Mux = BIM (Byte Interleaved Multiplexer) Reg = Regenerator Boosts power of optical signal Optical signal converted to electrical signal. Amplify electrical signal. Amplified electrical signal converted back to optical signal. Networks: SONET

20 Networks: SONET

21 Networks: SONET

22 SONET Frame SPE Synchronous Payload Envelope 90 bytes B B B 87B
Section Overhead 3 rows Information Payload 9 Rows Line Overhead 6 rows 125 s Transport overhead SPE Synchronous Payload Envelope Copyright ©2000 The McGraw Hill Companies Leon-Garcia & Widjaja: Communication Networks Figure 4.15 Networks: SONET

23 Figure 2-36. Two Back-to-Back SONET Frames
Networks: SONET

24 SPE straddling SONET Frame
Pointer first octet frame k 87 columns Synchronous Payload Envelope 9 rows Pointer last octet frame k+1 first column is path overhead Copyright ©2000 The McGraw Hill Companies Leon-Garcia & Widjaja: Communication Networks Figure 4.16 Networks: SONET

25 ATM Cells in an STS-3 Frame
Networks: SONET

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