Title :
Synthesis of multirate VLSI arrays
Author :
Lenders, P. ; Rajopadhye, S.
Author_Institution :
Dept. of Comput. Sci., New England Univ., Armidale, NSW, Australia
Abstract :
Many applications in signal and image processing can be implemented on regular VLSI architectures such as systolic arrays. Multirate arrays, or MRAs are an extension of systolic arrays where different data streams propagate with different clocks. It is known that they can be modelled as systems of uniform recurrence equations over sparse polyhedral domains. Using well known linear index transformation rules for systems of affine recurrence equations, or SAREs, we show that MRAs constitute a particular proper subset of SAREs. We describe how an MRA can be systematically derived from an initial specification in the form of a mathematical equation. The main transformation that we use is dependency decomposition, and rue illustrate our method by deriving a hitherto unknown decimation filter array that improves upon the hardware cost of previously published filters
Keywords :
VLSI; circuit CAD; network synthesis; systolic arrays; affine recurrence equations; data streams; decimation filter array; linear index transformation; multirate VLSI arrays; recurrence equations; sparse polyhedral domains; systolic arrays; Clocks; Difference equations; Filters; Hardware; Image processing; Signal processing; Signal synthesis; Streaming media; Systolic arrays; Very large scale integration;
Conference_Titel :
Application Specific Array Processors, 1995. Proceedings. International Conference on
Conference_Location :
Strasbourg
Print_ISBN :
0-8186-7109-2
DOI :
10.1109/ASAP.1995.523640
