Title :
A channel based asynchronous low power high performance standard-cell based sequential decoder implemented with QDI templates
Author :
Ozdag, Recep O. ; Beerel, Peter A.
Author_Institution :
Dept. of Electr. Eng. Syst., Southern California Univ., Los Angeles, CA, USA
Abstract :
This work presents the design of a channel-based asynchronous sequential decoder implemented with quasi-delay-insensitive templates. The Powermill© simulation results in TSMC 0.25 CMOS technology show that the circuit runs at 430MHz and consumes 32mW. Techniques to effectively partition and implement the top-level design, the implementation of fast shift registers, memories, and various other structures are discussed. Compared to a previously designed synchronous Fano decoder, the asynchronous version consumes 1/3 the power and runs at 2.15 times the speed assuming standard process normalization. The design also highlights the introduction of a standard-cell library and back-end design flow for asynchronous designs based on PCHB templates.
Keywords :
CMOS logic circuits; asynchronous circuits; logic partitioning; low-power electronics; sequential decoding; 0.25 microns; 32 mW; 430 MHz; CMOS technology; PCHB templates; Powermill© simulation; QDI templates; TSMC; asynchronous designs; asynchronous sequential decoder; back-end design flow; channel based sequential decoder; high performance sequential decoder; low power sequential decoder; memories structures; quasidelay-insensitive templates; shift registers; standard-cell based sequential decoder; standard-cell library; synchronous Fano decoder; top-level design; Asynchronous circuits; Asynchronous communication; Decoding; Delay effects; Detectors; Inverters; Logic; Protocols; Timing; Wires;
Conference_Titel :
Asynchronous Circuits and Systems, 2004. Proceedings. 10th International Symposium on
Print_ISBN :
0-7695-2133-9
DOI :
10.1109/ASYNC.2004.1299301
