Threshold logic circuit design of parallel adders using resonant tunneling devices
IEEE Transactions on Very Large Scale Integration (VLSI) Systems - Special issue on the 11th international symposium on system-level synthesis and design (ISSS'98)
A Novel High-Speed Flip-Flop Circuit Using RTDs and HEMTs
GLS '99 Proceedings of the Ninth Great Lakes Symposium on VLSI
Synthesis and Optimization of Threshold Logic Networks with Application to Nanotechnologies
Proceedings of the conference on Design, automation and test in Europe - Volume 2
An Algorithm for Nano-Pipelining of Circuits and Architectures for a Nanotechnology
Proceedings of the conference on Design, automation and test in Europe - Volume 2
An Automatic Test Pattern Generation Framework for Combinational Threshold Logic Networks
ICCD '04 Proceedings of the IEEE International Conference on Computer Design
Hybrid CMOS/nanoelectronic digital circuits: devices, architectures, and design automation
ICCAD '05 Proceedings of the 2005 IEEE/ACM International conference on Computer-aided design
Increased Logic Functionality of Clocked Series-Connected RTDS
IEEE Transactions on Nanotechnology
Augmentation of SPICE for simulation of circuits containing resonant tunneling diodes
IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems
Boolean logic function synthesis for generalised threshold gate circuits
Proceedings of the 46th Annual Design Automation Conference
Generalised threshold gate synthesis based on AND/OR/NOT representation of Boolean function
Proceedings of the 2010 Asia and South Pacific Design Automation Conference
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Resonant tunneling diodes (RTDs) have demonstrated promising circuit characteristics of high speed switching property and versatile functionality with negative differential resistance (NDR). In this paper, we propose novel programmable logic elements (PLEs) that can be configured to realize all three- or four-input logic functions. These simple RTD-based circuit elements are implemented with threshold gates (TGs) and multi-threshold threshold gates (MTTGs) by employing programmable monostable-bistable logic element (MOBILE) principles. We also developed a dynamically reconfigurable scheme based on our PLE structures which facilitate nanopipelining without incurring delay overheads.