Difference between revisions of "Time-Triggered Protocol (TTP)"
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− | ''' | + | == What is? Time-Triggered Protocol (TTP) == |
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+ | '''Time-Triggered Protocol (TTP)''' is a communication protocol that is designed to provide a reliable and deterministic communication service for real-time systems. It is based on a time-triggered architecture, which means that communication is synchronized to a global clock, and messages are transmitted at fixed intervals. | ||
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+ | TTP is typically used in safety-critical systems, such as automotive systems, aviation systems, and industrial control systems, where it is important to ensure that communication is reliable and deterministic. It is designed to provide a high level of fault tolerance, and it can operate in both deterministic and non-deterministic environments. | ||
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+ | TTP uses a multi-channel communication architecture, which means that it can transmit multiple messages simultaneously over different channels. This allows it to support a wide range of communication requirements, including both point-to-point and multi-point communication. | ||
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+ | Overall, TTP is a robust and reliable communication protocol that is well-suited for use in real-time systems that require a high level of determinism and fault tolerance. | ||
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+ | ==See Also== | ||
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+ | ==References== | ||
+ | <references /> |
Revision as of 00:27, 7 January 2023
What is? Time-Triggered Protocol (TTP)
Time-Triggered Protocol (TTP) is a communication protocol that is designed to provide a reliable and deterministic communication service for real-time systems. It is based on a time-triggered architecture, which means that communication is synchronized to a global clock, and messages are transmitted at fixed intervals.
TTP is typically used in safety-critical systems, such as automotive systems, aviation systems, and industrial control systems, where it is important to ensure that communication is reliable and deterministic. It is designed to provide a high level of fault tolerance, and it can operate in both deterministic and non-deterministic environments.
TTP uses a multi-channel communication architecture, which means that it can transmit multiple messages simultaneously over different channels. This allows it to support a wide range of communication requirements, including both point-to-point and multi-point communication.
Overall, TTP is a robust and reliable communication protocol that is well-suited for use in real-time systems that require a high level of determinism and fault tolerance.