Architecture of a Massively Parallel Processing Nano-Brain Operating 100 Billion Molecular Neurons Simultaneously
作者: Anirban Bandyopadhyay , Daisuke Fujita , Ranjit Pati
关键词: Control unit 、 Jian 、 Nano brain 、 Computer science 、 Massively parallel 、 Energy (signal processing) 、 Molecular machine 、 16-bit 、 Architecture 、 Computer hardware
摘要: Molecular machines (MM, Badjic, 2004; Collier, 2000; Jian & Tour, 2003; Koumura Ferringa, 1999; Ding Seeman 2006) may resolve three distinct bottlenecks of scientific advancement. Nanofactories (Phoenix, 2003) composed MM produce atomically perfect products spending negligible amount energy (Hess, 2004) thus alleviating the crisis. Computers made by operating thousands bits at a time match biological processors mimicking creativity and intelligence (Hall, 2007), far considered as prerogative nature. Stateof-the-art brain surgeries are not yet fatal-less, MMs guided nano-brain execute bloodless surgery (Freitas, 2005). Even though all converge to single necessity nano-brain, futurists molecular engineers have remained silent on this issue. Our recent invention 16 bit parallel processor is first step in direction (Bandyopadhyay, 2008). However, device operates inside ultra-high vacuum chamber. For practical application, one needs design 3 D standalone architecture. Here, we identify minimum functions for applications try increase size from 2 nm 20 μm. To realize this, major changes made. First, central control unit (CCU) external execution units (EU) modified so that they process information independently,
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