Title :
A novel global self-timing methodology for BSFQ circuits
Author :
Teh, Chen Kong ; Okabe, Yoichi
Author_Institution :
Electron. Eng. Dept., Univ. of Tokyo, Japan
fDate :
6/1/2003 12:00:00 AM
Abstract :
Recently we have proposed Boolean single-flux-quantum (BSFQ) circuits, which like CMOS circuits directly support Boolean primitives, and do not require local synchronization for their elementary cells as well as for their combinational cells. However, only the cell-level timing description of the BSFQ circuits was considered, which did not specify their global timing strategy in a system-level design. In this paper, we present a novel global self-timing methodology, dual encoding hierarchical pipelining (DEHP), for the locally asynchronous BSFQ circuits. In circuit implementation, a nonvolatile memory cell named ND-DFF and a volatile memory cell named D-DFF have been designed.
Keywords :
Boolean functions; asynchronous circuits; flip-flops; pipeline processing; superconducting logic circuits; superconducting memory circuits; timing; BSFQ circuits; BSFQ logic; Boolean SFQ circuits; Boolean primitives; Boolean single-flux quantum circuits; D flip-flop; global self-timing methodology; global timing strategy; locally asynchronous circuits; nonvolatile memory cell; pipelining; system-level design; volatile memory cell; CMOS logic circuits; Delay; Encoding; Flexible printed circuits; Frequency synchronization; Josephson junctions; Pipeline processing; Sequential circuits; System-level design; Timing;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
DOI :
10.1109/TASC.2003.813931
