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W2948177652 abstract "We demonstrate the potential of monolithic Three-Dimensional (3D) Integrated-Circuits (IC’s) to enhance the performance and the power-efficiency of next generation Central Processing Units (CPU’s) and System On Chips (SOC’s). We demonstrate with established simulations that derived from design-rules set by the International Technology Roadmap for Semiconductors (ITRS) that it is feasible to clock these next generation monolithic 3D architectures for CPU’s and SOC’s at extreme frequencies above 30GHz provided the excessive heat generated from such ultra-fast switching is effectively managed. Simulations also specifically demonstrated that it is feasible to clock these systems at frequencies close to 30GHz without necessitating or requiring further heat management beyond what is presently adopted in today’s conventional two-dimensional (2D) Integrated-Circuits (IC’s). This is possible because the inline interconnects in our novel monolithic 3D architectures trim the dynamic power losses by up to four times relative to today’s conventional 2D IC’s. Additionally, the Fully-Depleted Silicon-On-Insulator MOS in our 3D monolithic architectures utilizes a software-controlled transistor back-biasing that dynamically cuts the transistors standby power by more than two orders of magnitude when transistors are off. The substantial reduction in standby power achieved through this approach will enable transistors to satisfy even higher dynamic losses with faster clocking without increasing the overall self-heating. This approach to monolithic 3D integration will enable the continuation of Moore’s law and is manufacturable in standard CMOS-like processes that rely on none other than “good old” Silicon and copper interconnects that are still among the very few materials to date that possess the flexibility to manufacture and produce large-scale integrated electronics in high-volumes. These novel monolithic 3D architectures for next generation CPU’s and SOC’s can dramatically trim the power consumptions in laptops, smartphones, servers, and from the computation intensive data mining and the data centres’ around the globe." @default.
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W2948177652 date "2019-01-01" @default.
W2948177652 modified "2023-09-23" @default.
W2948177652 title "In Search of the “Forever” Continued Scaling of CMOS Performance by Means of a Novel Monolithic 3-Dimensional System-on-top-of-System Approach" @default.
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