PT = 0x21/ODU3 Server Signal – Main Page

Using the PT = 0x21 Scheme to Map/Multiplex ODUj Tributary Signals into an ODU2 and ODU3 Server Signal

This page serves as the Main Summary Page for all of the cases, in which we map/multiplex ODUj Tributary Signals into an ODU2 or ODU3 Server Signal.

The following table lists each of the PT = 0x21 Mapping/Multiplexing Cases, that we will be handling through this page and the related blog posts.

Table 1, Listing of PT= 0x21 Schemes for Mapping/Multiplexing ODUj Tributary Signals into ODU2 and ODU3 Server Signals

Links to the PT = 0x21, Mapping/Multiplexing Case Videos

You can go to any of the PT = 0x21 Cases (for Mapping/Multiplexing Lower-Speed ODUj Tributary Signals) into an ODU2 or ODU3 Server Signal, by clicking in the links below.

Mapping/Multiplexing ODUj Tributary Signals into an ODU2 Server Signal

Introduction to PT = 0x21, and Mapping/Multiplexing as many as 8 ODU0 Tributary Signals into an ODU2 Server Signal

This video introduces the viewer to the PT = 0x21 approach to Mapping/Multiplexing Lower-Speed ODUj Tributary Signals into an ODUk Server Signal.

Additionally, this video describes how to map/multiplex as many as 8 ODU0 tributary signals into an ODU2 Server Signal.

Mapping/Multiplexing as many as 4 ODU1 Tributary Signals into an ODU2 Server Signal

This video describes how to map/multiplexing as many as 4 ODU1 tributary signals into an ODU2 Server Signal.

Mapping/Multiplexing Some Number of ODUflex Tributary Signals into an ODU2 Server Signal

This video describes how to map/multiplex some number of ODUflex tributary signals into an ODU2 Server Signal.

Summary of Everything that We’ve Learned about Mapping/Multiplexing ODUj Tributary Signals into an ODU2 Server Signal, using the PT = 0x21 Approach

This video presents a review of everything that we have learned from the previous three (3) videos. This video also pays particular attention to interpreting the MSI (Multiplex Structure Identifier) fields within PSI Message.

Mapping/Multiplexing ODUj Tributary Signals into an ODU3 Server Signal

Introduction to PT = 0x21, and Mapping/Multiplexing as many as 32 ODU0 Tributary Signals into an ODU3 Server Signal

This video introduces the viewer to the PT = 0x21 approach to Mapping/Multiplexing Lower-Speed ODUj Tributary Signals into an ODUk Server Signal.

Additionally, this video describes how to map/multiplex as many as 32 ODU0 tributary signals into an ODU3 Server Signal.

Mapping/Multiplexing as Many as 16 ODU1 Tributary Signals into an ODU3 Server Signal (using PT = 0x21).

This video describes how to map/multiplex as many as 16 ODU1 tributary signals into an ODU3 Server Signal.

Mapping/Multiplexing as Many as 4 ODU2 Tributary Signals into an ODU3 Server Signal (using PT = 0x21)

This video describes how to map/multiplex as many as 4 ODU2 tributary signals into an ODU3 Server Signal.

Mapping/Multiplexing as Many as 3 ODU2e Tributary Signals into an ODU3 Server Signal (using PT = 0x21)

This video describes how to map/multiplex as many as 3 ODU2e tributary signals into an ODU3 Server Signal.

NOTE: This video also include some bonus training, where (in addition to mapping/multiplexing the three ODU2e tributary signals) we fill out the ODU3 server bandwidth, by also mapping/multiplexing the following tributary signals.

  • 2 ODU1 tributary signals, and
  • 1 ODU0 tributary signal
Mapping/Multiplexing Some Number of ODUflex Tributary Signals into an ODU3 Server Signal (using PT = 0x21)

This video describes how to map/multiplex some number of ODUflex Signals into an ODU3 Server Signal.

Summary of Everything We’ve Learned about Mapping/Multiplexing ODUj Tributary Signals into an ODU3 Server Signal, using the PT = 0x21 Approach

This video presents a review of everything that we have learned from the previous five (5) videos. This video also pays particular attention to interpreting the MSI (Multiplex Structure Identifier) fields within PSI Message.