| Autor: |
Khurshid, Burhan |
| Zdroj: |
Journal of Signal Processing Systems for Signal, Image & Video Technology; Nov2017, Vol. 89 Issue 2, p293-317, 25p |
| Abstrakt: |
Modern day field programmable gate arrays have carry-chains and look-up tables as the basic logic elements. Efficient realization of different arithmetic circuits on FPGAs demands an improved mapping of different functionalities onto these logic elements. A majority of the work related to the implementation of different arithmetic circuits on FPGAs focusses on the architectural optimization that can be carried out at the top level. While this works well for ASICs, the performance on FPGAs may be degrading due to the poor mapping of the architecture onto the underlying FPGA resources. In this paper, we present technology-optimized fixed-point bit-parallel multiplier structures. The multipliers are technology-optimized by re-structuring the initial Boolean networks and transforming them into an optimized circuit net-list that utilizes the target elements efficiently. A detailed theoretical and experimental analysis of our implementation using Xilinx FPGAs shows a subsequent speed-up in performance when compared to the conventional realizations. We have also compared our implementation against various technology-independent realizations reported in prior literature. The idea is to provide a clear cut analysis about the performance speed-up that is achievable through technology-dependent approaches. [ABSTRACT FROM AUTHOR] |
| Databáze: |
Complementary Index |
| Externí odkaz: |
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