Energy complexity of optical computations
Publication
, Journal Article
Tyagi, A; Reif, JH
Published in: International Journal of Unconventional Computing
January 1, 2016
This paper provides lower bounds on the energy consumption and demonstrates an energy-time trade-off in optical computations. All the lower bounds are shown to have the matching upper bounds for a transitive function-shifting. Since the energy consumption in an optical transmission is a non-linear function of the distance, a new set of techniques was required to derive these lower bounds. We also characterize the energy requirements of 3-D VLSI computations.
Duke Scholars
Published In
International Journal of Unconventional Computing
EISSN
1548-7202
ISSN
1548-7199
Publication Date
January 1, 2016
Volume
12
Issue
5-6
Start / End Page
393 / 412
Related Subject Headings
- Fluids & Plasmas
Citation
APA
Chicago
ICMJE
MLA
NLM
Tyagi, A., & Reif, J. H. (2016). Energy complexity of optical computations. International Journal of Unconventional Computing, 12(5–6), 393–412.
Tyagi, A., and J. H. Reif. “Energy complexity of optical computations.” International Journal of Unconventional Computing 12, no. 5–6 (January 1, 2016): 393–412.
Tyagi A, Reif JH. Energy complexity of optical computations. International Journal of Unconventional Computing. 2016 Jan 1;12(5–6):393–412.
Tyagi, A., and J. H. Reif. “Energy complexity of optical computations.” International Journal of Unconventional Computing, vol. 12, no. 5–6, Jan. 2016, pp. 393–412.
Tyagi A, Reif JH. Energy complexity of optical computations. International Journal of Unconventional Computing. 2016 Jan 1;12(5–6):393–412.
Published In
International Journal of Unconventional Computing
EISSN
1548-7202
ISSN
1548-7199
Publication Date
January 1, 2016
Volume
12
Issue
5-6
Start / End Page
393 / 412
Related Subject Headings
- Fluids & Plasmas