计算机应用
計算機應用
계산궤응용
COMPUTER APPLICATION
2009年
z2期
201-202
,共2页
可重构系统%配置压缩%配置缓存%抖动
可重構繫統%配置壓縮%配置緩存%抖動
가중구계통%배치압축%배치완존%두동
reconfigurable system%configuration compression%configuration caching%jitter
可重构系统以其灵活性和高效性得到了越来越多的关注,但是随着可重构逻辑器件规模的不断扩大,配置文件的相应增加,导致重构时延过长,使得可重构系统的重构时延成了可重构系统的瓶颈.介绍了两种缓解这一问题的优化技术.
可重構繫統以其靈活性和高效性得到瞭越來越多的關註,但是隨著可重構邏輯器件規模的不斷擴大,配置文件的相應增加,導緻重構時延過長,使得可重構繫統的重構時延成瞭可重構繫統的瓶頸.介紹瞭兩種緩解這一問題的優化技術.
가중구계통이기령활성화고효성득도료월래월다적관주,단시수착가중구라집기건규모적불단확대,배치문건적상응증가,도치중구시연과장,사득가중구계통적중구시연성료가중구계통적병경.개소료량충완해저일문제적우화기술.
The reconfigurable system has gained more and more attention due to its flexbility and high effciency. But with the enlarging of FPGA size, the dramatic increase in configuration data size has resulted in a corresponding increase in delay for reconfiguration, and the delay of reconfiguration has been the "bottleneck", which restricts the development of reconfiguration system. So two techniques for solving the bottleneck were proposed.
