Power Efficient Design of Arithmetic Circuits Based on Embedded Memory Blocks in FPGA
スポンサーリンク
概要
- 論文の詳細を見る
Current generation FPGAs provide a large number of embedded memory blocks which can be used to create single or dual port RAM, ROM and FIFOs. and able to be configured in many different width and depth combinations. Some part of the unutilized memory blocks can be used to implement logic circuits, to unburden the routing resources. The objective of our research is to reduce power by using the embedded memory blocks in FPGAs. The basic method is applied to arithmetic circuits such as 8-bit counter, 4-bit adder and 4-bit multiplier. They consume less power when mapped into EMBs compared with traditional mapping method. The power reduction is 23% on Stratix device family. Since the memory resources in FPGA are limited, the memory size reduction methods based on the decomposition and the re-formulation have been shown. Experimental results show that there might exist the trade-off between the memory size and the power consumption.
- 2012-02-28
著者
-
Hamaguchi Kiyoharu
Osaka University
-
Kimura Shinji
Waseda Univ. Kitakyushu‐shi Jpn
-
Kimura Shinji
Waseda University, Graduate School of Information, Production and System
-
Hamaguchi Kiyoharu
Osaka University, Graduate School of Information Science & Technology
-
Yu Xinmu
Waseda University, Graduate School of Information, Production and System
関連論文
- Checker Generation of Assertions with Local Variables for Model Checking
- Issue Mechanism for Embedded Simultaneous Multithreading Processor
- FPGA prototyping of a simultaneous multithreading processor (第21回 回路とシステム軽井沢ワークショップ論文集) -- (FPGAを用いた組込みシステム)
- Issue mechanism for embedded simultaneous multithreading processor (第20回 回路とシステム軽井沢ワークショップ論文集) -- (アーキテクチャ設計と低電力化)
- Look Up Table Compaction Based on Folding of Logic Functions(Special Section on VLSI Design and CAD Algorithms)
- A Built-in Reseeding Technique for LFSR-Based Test Pattern Generation(Timing Verification and Test Generation)(VLSI Design and CAD Algorithms)
- A Built-in Reseeding Technique for LFSR-Based Test Pattern Generation
- FOREWORD
- Symbolic Discord Computation for Efficient Analysis of Message Sequence Charts
- Power Efficient Design of Arithmetic Circuits Based on Embedded Memory Blocks in FPGA
- Checker Generation of Assertions with Local Variables for Model Checking