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CASES
2006
ACM
2006
ACM
Probabilistic arithmetic and energy efficient embedded signal processing
Probabilistic arithmetic, where the ith output bit of addition and multiplication is correct with a probability pi, is shown to be a vehicle for realizing extremely energy-efficient, embedded computing. Specifically, probabilistic adders and multipliers, realized using elements such as gates that are in turn probabilistic, are shown to form a natural basis for primitives in the signal processing (dsp) domain. In this paper, we show that probabilistic arithmetic can be used to compute the fft in an extremely energy-efficient manner, yielding energy savings of over 5.6X in the context of the widely used synthetic aperture radar (sar) application [1]. Our results are derived using novel probabilistic cmos (pcmos) technology, characterized and applied in the past to realize ultra-efficient architectures for probabilistic applications [2, 3, 4]. When applied to the dsp domain, the resulting error in the output of a probabilistic arithmetic primitive, such as an adder for example, manifests...
Real-time TrafficCASES 2006 | Probabilistic | Probabilistic Arithmetic | Probabilistic Arithmetic Primitives | System Software |
Related Content
| Added | 20 Aug 2010 |
| Updated | 20 Aug 2010 |
| Type | Conference |
| Year | 2006 |
| Where | CASES |
| Authors | Jason George, B. Marr, Bilge E. S. Akgul, Krishna V. Palem |
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