| 2005 |
|---|
| 17 | EE | Visvesh S. Sathe,
Juang-Ying Chueh,
Joohee Kim,
Conrad H. Ziesler,
Suhwan Kim,
Marios C. Papaefthymiou:
Fast, efficient, recovering, and irreversible.
Conf. Computing Frontiers 2005: 407-413 |
| 16 | EE | Suhwan Kim,
Conrad H. Ziesler,
Marios C. Papaefthymiou:
Charge-Recovery Computing on Silicon.
IEEE Trans. Computers 54(6): 651-659 (2005) |
| 2004 |
|---|
| 15 | EE | Suhwan Kim,
Stephen V. Kosonocky,
Daniel R. Knebel,
Kevin G. Stawiasz:
Experimental measurement of a novel power gating structure with intermediate power saving mode.
ISLPED 2004: 20-25 |
| 14 | EE | Shu-Shin Chin,
Sangjin Hong,
Suhwan Kim:
Usage of Application-Specific Switching Activity for Energy Minimization of Arithmetic Units.
ISVLSI 2004: 158-166 |
| 13 | EE | Sangjin Hong,
Shu-Shin Chin,
Suhwan Kim,
Wei Hwang:
Power Reduction Technique in Coefficient Multiplications Through Multiplier Characterization.
VLSI Signal Processing 38(2): 101-113 (2004) |
| 2003 |
|---|
| 12 | EE | Suhwan Kim,
Stephen V. Kosonocky,
Daniel R. Knebel:
Understanding and minimizing ground bounce during mode transition of power gating structures.
ISLPED 2003: 22-25 |
| 11 | EE | Stephen V. Kosonocky,
Azeez J. Bhavnagarwala,
Kenneth Chin,
George Gristede,
Anne-Marie Haen,
Wei Hwang,
Mark B. Ketchen,
Suhwan Kim,
Daniel R. Knebel,
Kevin W. Warren,
Victor V. Zyuban:
Low-power circuits and technology for wireless digital systems.
IBM Journal of Research and Development 47(2-3): 283-298 (2003) |
| 10 | EE | Suhwan Kim,
Conrad H. Ziesler,
Marios C. Papaefthymiou:
Fine-grain real-time reconfigurable pipelining.
IBM Journal of Research and Development 47(5-6): 599-610 (2003) |
| 9 | EE | Jean-Olivier Plouchart,
Noah Zamdmer,
Jonghae Kim,
Melanie Sherony,
Yue Tan,
Asit Ray,
Mohamed Talbi,
Lawrence F. Wagner,
Kun Wu,
Naftali E. Lustig,
Shreesh Narasimha,
Patricia O'Neil,
Nghia Phan,
Michael Rohn,
James Strom,
David M. Friend,
Stephen V. Kosonocky,
Daniel R. Knebel,
Suhwan Kim,
Keith A. Jenkins,
Michel M. Rivier:
Application of an SOI 0.12-µm CMOS technology to SoCs with low-power and high-frequency circuits.
IBM Journal of Research and Development 47(5-6): 611-630 (2003) |
| 8 | | Suhwan Kim,
Conrad H. Ziesler:
A clockless future for systems on chip.
IEEE Design & Test of Computers 20(6): 120- (2003) |
| 7 | EE | Suhwan Kim,
Conrad H. Ziesler,
Marios C. Papaefthymiou:
A true single-phase energy-recovery multiplier.
IEEE Trans. VLSI Syst. 11(2): 194-207 (2003) |
| 2001 |
|---|
| 6 | EE | Suhwan Kim,
Conrad H. Ziesler,
Marios C. Papaefthymiou:
Design, Verification, and Test of a True Single-Phase 8-bit Adiabatic Multiplier.
ARVLSI 2001: 42-58 |
| 5 | EE | Suhwan Kim,
Conrad H. Ziesler,
Marios C. Papaefthymiou:
A True Single-Phase 8-bit Adiabatic Multiplier.
DAC 2001: 758-763 |
| 4 | EE | Conrad H. Ziesler,
Suhwan Kim,
Marios C. Papaefthymiou:
A resonant clock generator for single-phase adiabatic systems.
ISLPED 2001: 159-164 |
| 3 | EE | Suhwan Kim,
Marios C. Papaefthymiou:
True single-phase adiabatic circuitry.
IEEE Trans. VLSI Syst. 9(1): 52-63 (2001) |
| 1999 |
|---|
| 2 | EE | Suhwan Kim,
Marios C. Papaefthymiou:
Single-phase source-coupled adiabatic logic.
ISLPED 1999: 97-99 |
| 1998 |
|---|
| 1 | EE | Suhwan Kim,
Marios C. Papaefthymiou:
True single-phase energy-recovering logic for low-power, high-speed VLSI.
ISLPED 1998: 167-172 |
