Title :
Performance and area modeling of complete FPGA designs in the presence of loop transformations
Author :
Park, Joonseok ; Diniz, Pedro C. ; Shayee, K. R Shesha
Author_Institution :
Samsung Corp., Yongin-City, South Korea
Abstract :
Selecting which program transformations to apply when mapping computations to FPGA-based computing architectures can lead to prohibitively long design space exploration cycles. An alternative is to develop fast, yet accurate, performance and area models to quickly understand the Impact and interaction of the transformations. In this paper, we present a combined analytical performance and area modeling approach for complete FPGA designs in the presence of loop transformations. Our approach takes into account the impact of input/output memory bandwidth and memory interface resources, often the limiting factor in the effective implementation of computations. Our preliminary results reveal that our modeling is very accurate, being therefore amenable to be used in a compiler tool to quickly explore very large design spaces.
Keywords :
field programmable gate arrays; high level synthesis; program compilers; program control structures; reconfigurable architectures; FPGA design; FPGA-based computing architecture; design space exploration cycles; field programmable gate arrays; loop transformations; memory bandwidth; memory interface resources; Computer architecture; Concurrent computing; Field programmable gate arrays; Hardware; Parallel processing; Programming profession; Registers; Routing; Signal mapping; Signal processing algorithms; .; 65; FPGAs; Field-Programmable-Gate-Arrays; Index Terms- Performance analysis and modeling; configurable computing; loop transformations and high-level synthesis;
Journal_Title :
Computers, IEEE Transactions on
DOI :
10.1109/TC.2004.101
