Title :
A low power based partitioning and binding technique for single chip application specific DSP architectures
Author :
Cherabuddi, R.V. ; Bayoumi, M.A.
Author_Institution :
Center for Adv. Comput. Studies, Southwestern Louisiana Univ., Lafayette, LA, USA
Abstract :
In this paper, we present a low power targeted high-level synthesis framework for the synthesis of single chip Application Specific DSP (Digital Signal Processing) architectures. This new framework is based on minimizing the switching activity on the functional units as well as the global buses. The main focus of the developed method is minimizing the power during partitioning and binding phases of high-level synthesis. A Stochastic Evolution based technique has been used for partitioning the given data flow graph describing the DSP algorithm. Experimental results were highly encouraging with power reduction of up to 60% on certain benchmark designs
Keywords :
application specific integrated circuits; data flow graphs; digital signal processing chips; high level synthesis; logic partitioning; stochastic processes; DSP algorithm; application specific DSP architectures; benchmark designs; binding technique; data flow graph; functional units; global buses; high-level synthesis framework; partitioning; power reduction; stochastic evolution based technique; switching activity; Application software; Communication switching; Computer architecture; Data flow computing; Digital signal processing chips; High level synthesis; Minimization; Partitioning algorithms; Signal synthesis; Variable speed drives;
Conference_Titel :
Innovative Systems in Silicon, 1997. Proceedings., Second Annual IEEE International Conference on
Conference_Location :
Austin, TX
Print_ISBN :
0-7803-4276-3
DOI :
10.1109/ICISS.1997.630280
