Title :
Synchronous to asynchronous conversion using GasP control
Author :
Lao, Xiangzhuan ; Kong, Xiaohua ; Negulescu, Radu
Author_Institution :
Dept. of Electr. & Comput. Eng., McGill Univ., Montreal, Que., Canada
Abstract :
This paper presents an approach to convert synchronous circuits to asynchronous circuits. The global clock network is replaced by asynchronous control circuits. Meanwhile, the combination logic in datapath stays eventually the same. We choose GasP circuits to implement the asynchronous control logic and we adopt a doubly latched scheme in datapath, using modified dynamic master-slave DFFs [Ra96] to replace original registers in synchronous circuits. Case studies of the conversion method prove that our approach is feasible. The resulting circuits show a speed advantage over the original synchronous design. Hspice simulation results show that the cycle time of a four-bit LFSR after conversion is 1.83 ns while the cycle time of the original LFSR is 1.99 ns.
Keywords :
SPICE; asynchronous circuits; circuit simulation; combinational circuits; flip-flops; logic design; logic simulation; 1.83 ns; 1.99 ns; Hspice simulation; asynchronous control circuits; asynchronous control logic; clock; combinational circuits; dynamic master-slave D flip flops; latches; logic design; synchronous circuits; Asynchronous circuits; Clocks; Data communication; Latches; Logic circuits; Master-slave; Pipelines; Protocols; Registers; Synchronization;
Conference_Titel :
Circuits and Systems, 2004. NEWCAS 2004. The 2nd Annual IEEE Northeast Workshop on
Print_ISBN :
0-7803-8322-2
DOI :
10.1109/NEWCAS.2004.1359057
