Control generation for embedded systems based on composition of modal processes

Control generation for embedded systems based on composition of modal processes

In traditional distributed embedded system designs, control information is often replicated across several processes and kept coherent by application-specific mechanisms. Consequently, processes cannot be reused in a new system without tailoring the code to deal with the new system's control in...

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Bibliographic Details
Published in:Digest of technical papers - IEEE/ACM International Conference on Computer-Aided Design pp. 46 - 53
Main Authors: Chou, Pai, Hines, Ken, Partidge, Kurt, Borriello, Gaetano
Format: Conference Proceeding Journal Article
Language:English
Published: New York, NY, USA ACM 01-11-1998
Series:ACM Conferences
Subjects:
Applied computing > Physical sciences and engineering > Engineering
Computing methodologies > Concurrent computing methodologies > Concurrent programming languages
Mathematics of computing > Mathematical software
Software and its engineering > Software notations and tools > General programming languages > Language types
Software and its engineering > Software notations and tools > General programming languages > Language types > Concurrent programming languages
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Summary:In traditional distributed embedded system designs, control information is often replicated across several processes and kept coherent by application-specific mechanisms. Consequently, processes cannot be reused in a new system without tailoring the code to deal with the new system's control information. The modal process framework provides a high-level way to specify the coherence of replicated control information independently of the behavior of the processes. Thus multiple processes can be composed without internal tailoring and without suffering from errors common in lower-level specification styles. This paper first describes a kernel-language representation for the high-level composition operators; it also presents a synthesis algorithm for the mode manager, the runtime code that maintains control information coherence within and between distributed processors.
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ISBN:1581130082
9781581130089
ISSN:1092-3152
DOI:10.1145/288548.288559