Asymptotically zero energy computing using split-level charge recovery logic
- Author:
- Saed G. Younis,
- Chairman:
- Frederic R. Morgenthaler
Abstract
No abstract available.
Cited By
Pannuto P, Lee Y, Kuo Y, Foo Z, Kempke B, Kim G, Dreslinski R, Blaauw D and Dutta P (2015). MBus, ACM SIGARCH Computer Architecture News, 43:3S, (629-641), Online publication date: 4-Jan-2016.- Pannuto P, Lee Y, Kuo Y, Foo Z, Kempke B, Kim G, Dreslinski R, Blaauw D and Dutta P MBus Proceedings of the 42nd Annual International Symposium on Computer Architecture, (629-641)
- Kim S, Ziesler C and Papaefthymiou M (2005). Charge-Recovery Computing on Silicon, IEEE Transactions on Computers, 54:6, (651-659), Online publication date: 1-Jun-2005.
- Sathe V, Chueh J, Kim J, Ziesler C, Kim S and Papaefthymiou M Fast, efficient, recovering, and irreversible Proceedings of the 2nd conference on Computing frontiers, (407-413)
- Knapp M, Kindlmann P and Papaefthymiou M (2019). Design and Evaluation of Adiabatic Arithmetic Units, Analog Integrated Circuits and Signal Processing, 14:1-2, (71-79), Online publication date: 1-Sep-1997.
Recommendations
Charge Allocation in Hybrid Electrical Energy Storage Systems
A hybrid electrical energy storage (HEES) system consists of multiple banks of heterogeneous electrical energy storage (EES) elements placed between a power source and some load devices and providing charge storage and retrieval functions. For an HEES ...
Charge migration efficiency optimization in hybrid electrical energy storage (HEES) systems
ISLPED '11: Proceedings of the 17th IEEE/ACM international symposium on Low-power electronics and designElectrical energy is high-quality form of energy, and thus it is beneficial to store the excessive electric energy in the electrical energy storage (EES) rather than converting into a different type of energy. Like memory devices, no single type of EES ...