On physical models of neural computation and their analog VLSI implementation

Proceedings Workshop on Physics and Computation. PhysComp '94 Pub Date : 1994-11-17 DOI:10.1109/PHYCMP.1994.363673
A. Andreou
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引用次数: 13

Abstract

Examines computation in a framework where the problem is essentially that of extracting a signal from noise, filtering (selective amplification) or estimation. The discussion is relevant to computational tasks in sensory communication, such as vision, speech and natural language processing. We consider "real" systems, both natural (neural systems) and human engineered (silicon integrated circuits), where information processing takes the form of an irreversible physical process. We argue, and demonstrate experimentally, that it is possible to see the emergence of truly complex processing structures that are commensurate with the physical properties of the computational substrate and are therefore energetically efficient.<>
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神经计算的物理模型及其模拟VLSI实现
在一个问题本质上是从噪声中提取信号、滤波(选择性放大)或估计的框架中检查计算。讨论涉及感官交流中的计算任务,如视觉、语音和自然语言处理。我们考虑“真实的”系统,包括自然的(神经系统)和人为设计的(硅集成电路),其中信息处理采取不可逆物理过程的形式。我们认为,并通过实验证明,有可能看到真正复杂的处理结构的出现,这些结构与计算基板的物理特性相称,因此具有能量效率。
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Proceedings Workshop on Physics and Computation. PhysComp '94
Proceedings Workshop on Physics and Computation. PhysComp '94
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