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Record High Active Boron Doping using Low Temperature In-situ CVD: Enabling Sub-5×10-10 Ω-cm2 ρc from Cryogenic (5 K) to Room Temperature.

, , , , , , , , , , и . VLSI Technology and Circuits, стр. 1-2. IEEE, (2023)

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Chen Chen

Chen Chen

Shih Chen Chen

Yi-Chen Chen

Chen-Loung Chen

 

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Inter/intra-chip optical interconnection network: opportunities, challenges, and implementations., , , , , , , , и . NOCS, стр. 1-8. IEEE, (2016)A Comprehensive Electro-Optical Model for Silicon Photonic Switches., , , , , , и . ISVLSI, стр. 76-81. IEEE Computer Society, (2018)MOCA: an Inter/Intra-Chip Optical Network for Memory., , , , , , , , , и . DAC, стр. 86:1-86:6. ACM, (2017)Co-manage power delivery and consumption for manycore systems using reinforcement learning., , , , , и . ICCAD, стр. 34. ACM, (2018)Record High Active Boron Doping using Low Temperature In-situ CVD: Enabling Sub-5×10-10 Ω-cm2 ρc from Cryogenic (5 K) to Room Temperature., , , , , , , , , и 1 other автор(ы). VLSI Technology and Circuits, стр. 1-2. IEEE, (2023)Scalable Low-Power High-Performance Rack-Scale Optical Network., , , , , , и . PHOTONICS@SC, стр. 1-6. IEEE, (2019)Modular reinforcement learning for self-adaptive energy efficiency optimization in multicore system., , , , , , , , , и . ASP-DAC, стр. 684-689. IEEE, (2017)Efficient Optical Power Delivery System for Hybrid Electronic-Photonic Manycore Processors., , , , , , , и . DATE, стр. 1628-1633. IEEE, (2020)Novel Field-Plate Integrated Mesa-Type InGaAs/InP Avalanche Photodiode., , , , , , и . ICICDT, стр. 48-50. IEEE, (2022)RSON: An inter/intra-chip silicon photonic network for rack-scale computing systems., , , , , , , и . DATE, стр. 1369-1374. IEEE, (2018)