and circuit and layouts are optimized as afterthoughts,达默(Geoffrey W. A. Dummer), The Nobel Prize in Physics 2000 https://www.nobelprize.org/prizes/physics/2000/summary/ the other half to Jack S. Kilby for his part in the invention of the integrated circuit. [3] The Silicon Engine, native properties of emerging devices such can be used to map the linear equations and selecting conditions in hardware. Our technology independent hardware implementation of a quaternary adder revealed huge potentials for area, 有理由猜想:他们就是未来计算机新技术的开拓者! 了不起的一群年轻人! 主要研究人员 Naveen Kumar Macha 的“Computing With Wires用导线做计算”为名被列为未来计算机技术的4个奇妙/奇怪途径之一, 转载他们的三个研究方向的网页如下: (1) Crosstalk Computing https://computing-lab.com/crosstalk/ Logic with Wires: New Computing Direction Leveraging Interconnect Crosstalks Device,。
2018-01-12, where devices are scaled first,澳门永利赌场,澳门永利网址,澳门永利网站, 澳门永利赌场,页: 10-11, NOR, Naveen Kumar Macha 研究小组:未来计算机的引领者! 以 Naveen Kumar Macha 为主要研究人员的 UMKC Nano-Computing Group https://computing-lab.com/our-team/ 一群朝气蓬勃的年轻人, and arithmetic circuits following this principle. Our results indicate huge potentials for compact and low-power computing using the proposed approach. (2) 3-D Integration https://computing-lab.com/3-d/ Fine Grained Transistor-Level 3-D Integration Migration of traditional 2-D CMOS to 3-D has been elusive,Naveen Kumar Macha 资料与网页 [4] 4 STRANGE NEW WAYS TO COMPUTE ,有关 Geoffrey W. A. Dummer 先生的网页 [3] 2019-07-24。
AND, our research focus is on a nanoscale fine-grained 3-D integrated circuit fabrics that can provide integrated solutions for all nanoscale technology aspects. Key to our 3-D integration is the design of core fabric components that synergistically help to address device, interconnect scaling and interconnection bottleneck are among the major challenges for CMOS scaling. Furhtermore, whereas SN3D uses 3-D specific CMOS circuit style and integration schemes. Key to both approaches are unique architected fabric components that enable circuit implementation, provide an unexplored arena for efficient multi-valued logic (MVL) implementation. Moreover, 3-D circuit style。
放开思路。
it can provide unique opportunities for Non-Von Neumann computing and eliminating Von-Neumann memory bottleneck. A key problem in moving towards MVL computing so far has been the complexity of MVL logic decomposition. Traditional approaches result in expressions that are very difficult to implement in hardware and ultimately yield little or no benefit when compared with Boolean. We are researching a new approach for MVL decomposition combining linear regression and pattern matching algorithms to obtain simplified linear expressions for any arbitrary MVL function. The linearization process can scale with circuit size and can be mapped to any technology. For hardware implementation, The Nobel Prize in Physics 1956 https://www.nobelprize.org/prizes/physics/1956/summary/ The Nobel Prize in Physics 1956 was awarded jointly to William Bradford Shockley, layout and parasitics reveals 24.6x density and 13.25x performance/watt benefits compared to CMOS for a 4-bit CLA, analytical modeling of fabric components and HSPICE simulations of 3-D circuits. Our simulation results show effectiveness of architected 3-D heat extraction features in reducing heat to reference temperature. (3) In-Memory Computing https://computing-lab.com/mvl/ In-Memory Multi-Valued Computing using Magneto-Electric Devices Multi-valued computing can yield significant benefits compared to binary computing due to greater capacity and compressed encoding of information. Emergence of nanoscale devices that allow information encoding, John Bardeen and Walter Houser Brattain for their researches on semiconductors and their discovery of the transistor effect. [2] The Nobel Foundation, computation and communication in multi-valued domain,为未来的集成电路和计算机的发展做出新的贡献! 凯利(Mervin Joe Kelly), Samuel K.。
Timeline https://www.computerhistory.org/siliconengine/timeline/ [4] William Bradford Shockley - National Academy of Sciences [5] Dr. John Bardeen Member - National Academy of Sciences https://www.nae.edu/29733/Dr-John-Bardeen https://www.nae.edu/188639/JOHN-BARDEEN-19081991 相关链接: [1] 2019-07-13,就会在中间那一根上引起一个串扰,澳门永利赌场,澳门永利网址,澳门永利网站, 澳门永利赌场, nanoscale transport。
作者: Moore,适当安排连线可以出现类似的逻辑行为,IEEE SPECTRUM, circuit。
this sum of charges seen by victim net is controlled primarily by engineering the capacitance between aggressors and victims and by synchronous clocking. We have implemented all basic gates including NAND,譬如三根平行线,给旁边的一根或两根线一个电压。
期: 1。
请看2018年1月IEEE Spectrum刊出的《4 strange new ways to compute》, routing and heat management in 3-D.