Exploring a Circuit Design Approach based on One-hot Multi-valued Domino Logic Conference Paper uri icon

abstract

  • In this paper, we report on initial experiments on the feasibility of a circuit design approach that is based on one-hot multi-valued decomposition of a logic netlist. A binary-valued logic netlist would first be decomposed into multi-valued logic nodes (with multi-valued inputs as well as outputs). For an arbitrary multi-valued logic node, this paper presents a circuit and layout design approach. We first synthesize the multi-valued logic node, using multi-valued decision diagrams (MDDs) to represent each output value of the multi-valued logic node. Each such MDD represents a binary valued output function, on one-hot multi-valued inputs. Assuming that the multi-valued logic node has a k-valued output, then k such MDDs completely represent the logic of the multi-valued node. Each such MDD is realized using a very regular, compact domino logic based layout structure. We have compared the delay, area, power and power-delay product of our approach with the same logic functionality implemented in standard cells. Averaged over 15 examples, our approach yields a 22% (26%) improvement in delay, 33% (17%) improvement in area, 42% (29%) improvement in power and a 52% (45%) improvement in power-delay product compared to a delay mapped (area mapped) standard cell based realization of the same functionality. 2010 IEEE.

name of conference

  • 2010 53rd IEEE International Midwest Symposium on Circuits and Systems

published proceedings

  • 53RD IEEE INTERNATIONAL MIDWEST SYMPOSIUM ON CIRCUITS AND SYSTEMS

author list (cited authors)

  • Gope, D., Lin, P., & Khatri, S. P.

citation count

  • 1

complete list of authors

  • Gope, Dibakar||Lin, Pey-Chang Kent||Khatri, Sunil P

publication date

  • August 2010