Titlebook: Nano, Quantum and Molecular Computing; Implications to High Sandeep K. Shukla,R. Iris Bahar Book 2004 Springer Science+Business Media New Y

木質

Gullible

Nanometer Scale Technologies: Device Considerations of Silicon devices have been discussed. In the latter half of this chapter, novel devices, particularly carbon nanotubes, have been introduced as possible alternatives to Silicon. The material properties, principal device characteristics and circuit issues relating to these revolutionary devices have been discussed.

發(fā)芽

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bonnet

https://doi.org/10.1007/b116438Hardware; architecture; computer; logic; material; nano-scale; quantum computing; transistor

憤慨一下

978-1-4419-5466-4Springer Science+Business Media New York 2004

dry-eye

努力趕上

Tools and Techniques for Evaluating Reliability Trade-Offs for Nano-Architecturescy (TMR), Cascaded Triple Modular Redundancy (CTMR) have been considered in the fault-tolerance literature. Also, redundancy has been applied at different levels of granularity, such as gate level, logic block level, logic function level, unit level etc. Analytical probabilistic models to evaluate s

Genome

Law of Large Numbers System Designphy. In this chapter, we examine various applications of the “Law of Large Numbers” above the device level to build reliable and controllable systems from nanoscale devices and processes that only have statistically predictable behavior.

AV-node

Consensus

Partitioning and Placement for Buildable QCA Circuits. The results are intended to: (1) define what is computationally interesting and could actually be built within a set of predefined constraints, (2) project what designs will be possible as additional constructs become realizable, and (3) provide a vehicle that we can use to compare QCA systems to