Performance improvement technique for synchronous circuits realized as LUT-based FPGA's

Toshiaki Miyazaki; Hiroshi Nakada; Akihiro Tsutsui; Kazuhisa Yamada; Naohisa Ohta

doi:10.1109/92.407005

Performance improvement technique for synchronous circuits realized as LUT-based FPGA's

Toshiaki Miyazaki, Hiroshi Nakada, Akihiro Tsutsui, Kazuhisa Yamada, Naohisa Ohta

Graduate School of Media Design

Research output: Contribution to journal › Article › peer-review

8 Citations (Scopus)

Abstract

This paper presents a new technique for improving the performance of a synchronous circuit configured as a look-up table based FPGA without changing the initial circuit configuration; only the register location is altered. It improves clock speed and data throughput at the expense of latency. One of the most significant benefits realized by this approach is that the time-consuming and user-uncontrollable reconfiguration processes, i.e., remapping, replacement, and rerouting, are unnecessary when improving circuit performance. After applying our technique to some benchmark circuits, the average performance improvement was 333% for six combination circuits, and 25% for 18 sequential circuits.

Original language	English
Pages (from-to)	455-459
Number of pages	5
Journal	IEEE Transactions on Very Large Scale Integration (VLSI) Systems
Volume	3
Issue number	3
DOIs	https://doi.org/10.1109/92.407005
Publication status	Published - 1995 Sept

ASJC Scopus subject areas

Hardware and Architecture
Electrical and Electronic Engineering

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AU - Ohta, Naohisa

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N2 - This paper presents a new technique for improving the performance of a synchronous circuit configured as a look-up table based FPGA without changing the initial circuit configuration; only the register location is altered. It improves clock speed and data throughput at the expense of latency. One of the most significant benefits realized by this approach is that the time-consuming and user-uncontrollable reconfiguration processes, i.e., remapping, replacement, and rerouting, are unnecessary when improving circuit performance. After applying our technique to some benchmark circuits, the average performance improvement was 333% for six combination circuits, and 25% for 18 sequential circuits.

AB - This paper presents a new technique for improving the performance of a synchronous circuit configured as a look-up table based FPGA without changing the initial circuit configuration; only the register location is altered. It improves clock speed and data throughput at the expense of latency. One of the most significant benefits realized by this approach is that the time-consuming and user-uncontrollable reconfiguration processes, i.e., remapping, replacement, and rerouting, are unnecessary when improving circuit performance. After applying our technique to some benchmark circuits, the average performance improvement was 333% for six combination circuits, and 25% for 18 sequential circuits.

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Performance improvement technique for synchronous circuits realized as LUT-based FPGA's

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