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- Kim, Kyung Rok
- Nano-Electronic Emerging Devices Lab.
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Ultra-low power and 1.5 bit/cell ternary-SRAM stability modeling for always-on applications
- Author(s)
- Choi, Young-Eun, Kim, Woo-Seok, Kim, Myoung, Ryu, Min Woo, Kim, Kyung Rok
- Issued Date
- 2025-04
- Citation
- IEICE ELECTRONICS EXPRESS, v.22, no.7
- Abstract
- We present an ultra-low power ternary SRAM (T-SRAM) with a storage capacity of 1.5 bit/cell, using a commercial 110-nm CMOS foundry for always-on applications, along with an analysis of its stability. By designing T-CMOS with SPICE compact model parameters, which are body-effect coefficient (m), peak electric field coefficient (CEP), and gate width (W), band-to band tunneling current (IBTBT) can be reduced to hundreds of fA range and it allows VDD to scale down to 0.55 V. Finally, we experimentally demonstrate T-SRAM cell which static and dynamic powers are decreased to 4.5x10-2 and 1.3x10-7, respectively.
- Publisher
- IEICE-INST ELECTRONICS INFORMATION COMMUNICATION ENGINEERS
- ISSN
- 1349-2543
- Keyword (Author)
- data retention, dynamic robustness, SRAM, ternary-CMOS, ultra-low power
- Keyword
- MULTIPLE-VALUED LOGIC
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