This letter presents a synchronizer and its handshake interface for bridging clock domains in SoC. The proposed scheme uses a double two-flop synchronizer operated at different clock edges respectively, based on a two-phase handshake protocol. Performance analysis shows that the proposed design reduces latency up to a clock cycle, while retaining its safety to a tolerable level.

Inter-domain communications on a chip require a synchronizer to resolve the timing problems between an input and a clock of a destination. This paper presents a parallel flop synchronizer and its interface circuit for transferring asynchronous data to the clock domain. The proposed scheme uses a bank of independent two-flops in parallel and supports a two-phase handshake protocol. Compared to the conventional two-flop synchronizer, performance analysis shows that the proposed scheme can reduce latency up to one and a half of clock cycles while retaining its safety to a tolerable level. All designs have been implemented in a 0.25 µm CMOS technology to verify performance analysis of the proposed synchronization.