Paper Info
Title
An estimation and exploration methodology from system-level specifications: application to FPGAs
Abstract
Rapid evaluation and design space exploration from early specifications are important issues in the design cycle. We propose an original area vs. delay estimation methodology that targets reconfigurable architectures. Two main steps compose the estimation flow: i) structural estimations where architectural solutions are defined at the RT level, this step is technological independent and performs an automatic design space exploration and ii) physical estimations which perform technology mapping to the target reconfigurable architecture. Experiments conducted on Xilinx (XC4000, Virtex) and Altera (Flex10K, Apex) components for a 2D DWT and a speech coder lead to an average error of about 10% for temporal values and 18% for area estimations. The originality of this work is mainly a complete and realistic cost characterization that takes care of the processing, memory and control units, and supplies architectural information for the design of each solution.
Year
DOI
Venue
2003
10.1145/611817.611858
FPGA
Keywords
Field
DocType
automatic design space exploration,design cycle,reconfigurable architecture,design space exploration,system-level specification,area estimation,exploration methodology,estimation flow,architectural solution,physical estimation,original area,delay estimation methodology,fpga,matrix multiplicaiton,fft
Architecture,Computer science,Parallel computing,Field-programmable gate array,Real-time computing,Fast Fourier transform,Virtex,Matrix multiplication,Design space exploration,Design cycle,System level
Conference
ISBN
Citations 
PageRank 
1-58113-651-X
3
0.43
References 
Authors
0
3
Name
Order
Citations
PageRank
Sebastien Bilavarn1678.72
Guy Gogniat251753.11
Jean Luc Philippe3245.60