Title :
Semantics based co-specifications to design DSP systems
Author :
Warzee, Xavier ; Kajfasz, Philippe
Author_Institution :
Thomson-CSF Optronique, France
Abstract :
Presents our approach to the definition of a multi-paradigm environment to specify, model and synthesize embedded digital signal processing (DSP) systems. Instead of assuming one semantics (for instance, synchronous semantics) to specify and model the whole system, we propose to use simultaneously several semantics to describe and validate key system properties. Traceability of system requirements is challenging with such an approach. We propose an architectural view of systems which defines components and connectors to support respectively functional and non-functional requirements with several levels of abstraction specifying systems. Using the object-oriented framework Ptolemy, which supports simulating and prototyping of heterogeneous systems, a global view of the system is ensured, allowing us to validate its behavior and properties
Keywords :
digital signal processing chips; formal specification; hardware description languages; object-oriented methods; real-time systems; signal processing; software prototyping; Ptolemy; abstraction levels; architectural view; connectors; embedded digital signal processing systems design; functional requirements; global view; hardware-software codesign; heterogeneous systems simulation; key system properties; multi-paradigm environment; nonfunctional requirements; object-oriented framework; prototyping; semantics-based co-specifications; system requirements traceability; Collaborative software; Computational modeling; Concurrent computing; Digital signal processing; Discrete event simulation; Embedded system; Hardware; Object oriented modeling; Radar applications; Runtime;
Conference_Titel :
VHDL International Users' Forum, 1997. Proceedings
Conference_Location :
Arlington, VA
Print_ISBN :
0-8186-8180-2
DOI :
10.1109/VIUF.1997.623937
