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Timing Selector: Using Transient Switching Dynamics to Solve the Sneak Path Issue of Crossbar Arrays
Author(s) -
Rao Mingyi,
Song Wenhao,
Kiani Fatemeh,
Asapu Shiva,
Zhuo Ye,
Midya Rivu,
Upadhyay Navnidhi,
Wu Qing,
Barnell Mark,
Lin Peng,
Li Can,
Wang Zhongrui,
Xia Qiangfei,
Joshua Yang J.
Publication year - 2022
Publication title -
small science
Language(s) - English
Resource type - Journals
ISSN - 2688-4046
DOI - 10.1002/smsc.202270001
Subject(s) - crossbar switch , transient (computer programming) , memristor , path (computing) , nonlinear system , computer science , relation (database) , voltage , block (permutation group theory) , current (fluid) , electronic engineering , electrical engineering , engineering , physics , telecommunications , mathematics , computer network , operating system , geometry , quantum mechanics , database
Timing Selector In article number 2100072 , Mingyi Rao, Zhongrui Wang, J. Joshua Yang, and co‐workers conceptualize and demonstrate a timing selector, which can utilize its nonlinear relation between switching time and voltage, instead of current and voltage in traditional selectors, to block sneaking current in memristive crossbar arrays. The operation principles are formulated together with experimental demos using integrated one‐selector‐one‐memristor (1S1M) structures.

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