Stability optimization of monolithic 3-D MoS2-n/WSe2-p SRAM cells for superthreshold and near-/sub-threshold applications

机译：适用于超阈值和近/亚阈值应用的单片3-D MoS2-n / WSe2-p SRAM单元的稳定性优化

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2-D transition metal dichalcogenides (TMDs) such as MoS2 and WSe2 (Fig. 1(a)) are very attractive for future ultimately scaled low-power CMOS devices owing to their atomic-scale thickness, adequate band-gap, and pristine surface (without dangling bonds) [1-3]. Our previous study [4] has evaluated the stability of MoS2-n/WSe2-p SRAMs with planar technology. However, the process complexity of heterogeneous integration of distinct materials for n/p-FETs can become a concern. Monolithic 3-D integration [5] offers the possibility to independently optimize the n-FETs and p-FETs at distinct tiers. It has also been envisioned [6] that monolithic 3-D integration combined with the extremely scaled TMD devices may offer the ultimate solution for future ultra-high density ICs and SRAMs (Fig. 1(c)).

机译：诸如MoS2和WSe2之类的2-D过渡金属二硫化碳（TMD）（图1（a））由于其原子尺度的厚度，足够的带隙和原始的表面，对于将来最终成比例的低功率CMOS器件非常有吸引力。（没有悬空键）[1-3]。我们先前的研究[4]已通过平面技术评估了MoS2-n / WSe2-p SRAM的稳定性。然而，用于n / p-FET的不同材料的异质集成的工艺复杂性可能成为一个问题。单片3D集成[5]提供了在不同层级独立优化n-FET和p-FET的可能性。还可以预见[6]，单片3-D集成与超大规模的TMD器件相结合，可能为未来的超高密度IC和SRAM提供终极解决方案（图1（c））。

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《SOI-3D-Subthreshold Microelectronics Technology Unified Conference》|2016年|1-2|共2页
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Chang-Hung Yu; Pin Su; Ching-Te Chuang;
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SRAM cells; Wireless sensor networks; Stacking; Stability analysis; Standards; Optimization;

机译：SRAM单元;无线传感器网络;堆叠;稳定性分析;标准;优化;

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专利

1. Stability and Performance Optimization of Heterochannel Monolithic 3-D SRAM Cells Considering Interlayer Coupling [J] . Fan M., Hu V.P., Chen Y., Electron Devices, IEEE Transactions on . 2014,第10期

机译：考虑层间耦合的异沟道单片3-D SRAM单元的稳定性和性能优化
2. Performance and Stability Benchmarking of Monolithic 3-D Logic Circuits and SRAM Cells With Monolayer and Few-Layer Transition Metal Dichalcogenide MOSFETs [J] . Chang-Hung Yu, Pin Su, Ching-Te Chuang Electron Devices, IEEE Transactions on . 2017,第5期

机译：具有单层和很少层过渡金属二硫属化物MOSFET的单片3-D逻辑电路和SRAM单元的性能和稳定性基准
3. Ultra-High Density Monolithic 3-D FinFET SRAM With Enhanced Read Stability [J] . Debajit Bhattacharya, Niraj K. Jha IEEE transactions on circuits and systems . I , Regular papers . 2016,第8期

机译：具有增强的读取稳定性的超高密度单片3-D FinFET SRAM
4. Stability optimization of monolithic 3-D MoS2-n/WSe2-p SRAM cells for superthreshold and near-/sub-threshold applications [C] . Chang-Hung Yu, Pin Su, Ching-Te Chuang SOI-3D-Subthreshold Microelectronics Technology Unified Conference . 2016

机译：整体三维MOS2-N / WSE2-P SRAM细胞的稳定性优化，用于超值和近/近/阈值应用
5. FinFET-based SRAM and Monolithic 3-D Integrated Circuit Design [D] . Guler, Abdullah. 2019

机译：基于FinFET的SRAM和单片3-D集成电路设计
6. Power optimized variation aware dual-threshold SRAM cell design technique [O] . Aminul Islam, Mohd Hasan 2011

机译：功耗优化的变化感知双阈值SRAM单元设计技术
7. Back-bias impact on variability and BTI for 3D-monolithic 14nm FDSOI SRAMs applications [O] . D. Bosch, F. Andrieu, X. Garros, 2019

机译：用于3D单片14NM FDSOI SRAMS应用的变形和BTI的反偏见影响

Stability optimization of monolithic 3-D MoS2-n/WSe2-p SRAM cells for superthreshold and near-/sub-threshold applications

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