Abstract:
】With the fast development of SoC, more and more clock domains are merged into a single chip. Therefore a reliable high-speed synchronizer is more and more important for the performance of the whole system. This paper proposes a brand new circuit structure for synchronizers. And the high-speed synchronizer is fulfilled for burst-data operation based on multi-synchronizer groups, which are pipelined and paralleled to each other. The technology boosts not only the data handover speed for several times but keeps the same reliability as the most conservative synchronizer.
Key words:
Asynchronous clock domain,
Synchronizer,
Pipeline structure,
VLSI
摘要: 随着单芯片时钟域个数的增多,高速稳定的时钟域数据交换技术对芯片性能的影响越来越重要。该文提出了一种新型的双时钟数据交换同步电路结构,通过多组相互流水且并行的同步器组,可以实现对burst数据的高速交换。该方案在保持与现有电路相同稳定性的同时,提高了数倍的数据吞吐量。
关键词:
异步时钟域,
同步器,
流水线结构,
VLSI
CLC Number:
LIN Yifan; ZENG Xiaoyang; CHEN Jun; WU Min; GONG Ming. Data Handover Technology of Asynchronous Clock Domain Synchronizer Based on Pipeline Structure[J]. Computer Engineering, 2007, 33(10): 243-245.
林一帆;曾晓洋;陈 俊;吴 敏;龚 铭. 一种基于流水线结构的双时钟域数据交换技术[J]. 计算机工程, 2007, 33(10): 243-245.