Title :
Fully static multiprocessor array realizability criteria for real-time recurrent DSP applications
Author :
Wang, Duen-Jeng ; Hu, Yu Hen
Author_Institution :
Dept. of Electr. & Comput. Eng., Wisconsin Univ., Madison, WI, USA
fDate :
5/1/1994 12:00:00 AM
Abstract :
The paper considers real time implementation of recurrent digital signal processing algorithms on an application-specific multiprocessor system. The objective is to devise a periodic, fully static task assignment for a DSP algorithm under the constraint of data sampling period by assuming interprocessor communication delay is negligible. Toward this goal, the authors propose a novel algorithm unfolding technique called the generalized perfect rate graph (GPRG). They prove that a recurrent algorithm will admit a fully static multiprocessor implementation for a given initiation interval if and only if the corresponding iterative computational dependence graph of this algorithm is a GPRG. Compared with previous results, GPRG often leads to a smaller unfolding factor αGPRG
Keywords :
computational geometry; graph theory; iterative methods; multiprocessor interconnection networks; real-time systems; recursive functions; signal processing; GPRG; algorithm unfolding technique; application-specific multiprocessor system; data sampling period; fully static multiprocessor array realizability criteria; generalized perfect rate graph; initiation interval; interprocessor communication delay; iterative computational dependence graph; periodic fully static task assignment; real-time recurrent DSP applications; recurrent digital signal processing algorithms; unfolding factor; Clocks; Delay; Digital signal processing; Frequency estimation; Iterative algorithms; Real time systems; Signal processing; Signal processing algorithms; Signal sampling; Two dimensional displays;
Journal_Title :
Signal Processing, IEEE Transactions on
