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- Title
The Cost of Energy-Efficiency in Digital Hardware: The Trade-Off between Energy Dissipation, Energy–Delay Product and Reliability in Electronic, Magnetic and Optical Binary Switches.
- Authors
Rahman, Rahnuma; Bandyopadhyay, Supriyo
- Abstract
Featured Application: This work has applications in the benchmarking of binary switches for energy-efficient nanoelectronics. Binary switches, which are the primitive units of all digital computing and information processing hardware, are usually benchmarked on the basis of their 'energy–delay product', which is the product of the energy dissipated in completing the switching action and the time it takes to complete that action. The lower the energy–delay product, the better the switch (supposedly). This approach ignores the fact that lower energy dissipation and faster switching usually come at the cost of poorer reliability (i.e., a higher switching error rate) and hence the energy–delay product alone cannot be a good metric for benchmarking switches. Here, we show the trade-off between energy dissipation, energy–delay product and error–probability for an electronic switch (a metal oxide semiconductor field effect transistor), a magnetic switch (a magnetic tunnel junction switched with spin transfer torque) and an optical switch (bistable non-linear mirror). As expected, reducing energy dissipation and/or energy–delay product generally results in increased switching error probability and reduced reliability.
- Subjects
METAL oxide semiconductor field-effect transistors; SPIN transfer torque; OPTICAL switches; MAGNETIC tunnelling; SPIN-polarized currents
- Publication
Applied Sciences (2076-3417), 2021, Vol 11, Issue 12, p5590
- ISSN
2076-3417
- Publication type
Article
- DOI
10.3390/app11125590