电子信息对抗技术
電子信息對抗技術
전자신식대항기술
ELECTRONIC INFORMATION WARFARE TECHNOLOGY
2014年
6期
79-82
,共4页
DSP%TS201%松耦合%链路口%自举
DSP%TS201%鬆耦閤%鏈路口%自舉
DSP%TS201%송우합%련로구%자거
DSP%TS201%loosely coupled architecture%link port%booting solution
说明了多DSP并行处理阵列在信息对抗领域中的重要作用,分析了紧耦合与松耦合架构的优缺点,指出松耦合架构是大规模并行处理阵列的发展方向。研究了基于TS201 DSP的松耦合阵列的自举问题,提出了混合自举的方案,并给出详细实施流程。
說明瞭多DSP併行處理陣列在信息對抗領域中的重要作用,分析瞭緊耦閤與鬆耦閤架構的優缺點,指齣鬆耦閤架構是大規模併行處理陣列的髮展方嚮。研究瞭基于TS201 DSP的鬆耦閤陣列的自舉問題,提齣瞭混閤自舉的方案,併給齣詳細實施流程。
설명료다DSP병행처리진렬재신식대항영역중적중요작용,분석료긴우합여송우합가구적우결점,지출송우합가구시대규모병행처리진렬적발전방향。연구료기우TS201 DSP적송우합진렬적자거문제,제출료혼합자거적방안,병급출상세실시류정。
Parallel process system based on multiple DSPs is important in information counter-measures. Merits and demerits of loosely and tightly coupled architecture are analyzed, and the development is pointed out that loosely coupled architecture is more suitable for large scale par-allel process system. Booting of loosely coupled architecture based on TS201 DSPs is researched and a hybrid design and implementation solution is proposed.