Recent advances on multivalued logic gates: A materials perspective
The recent advancements in multivalued logic gates represent a rapid paradigm shift in
semiconductor technology toward a new era of hyper Moore's law. Particularly, the …
semiconductor technology toward a new era of hyper Moore's law. Particularly, the …
Anti‐Ambipolar Heterojunctions: Materials, Devices, and Circuits
Anti‐ambipolar heterojunctions are vital in constructing high‐frequency oscillators, fast
switches, and multivalued logic (MVL) devices, which hold promising potential for next …
switches, and multivalued logic (MVL) devices, which hold promising potential for next …
Vertically stacked, low-voltage organic ternary logic circuits including nonvolatile floating-gate memory transistors
Multi-valued logic (MVL) circuits based on heterojunction transistor (HTR) have emerged as
an effective strategy for high-density information processing without increasing the circuit …
an effective strategy for high-density information processing without increasing the circuit …
Multi-valued logic circuits based on organic anti-ambipolar transistors
K Kobashi, R Hayakawa, T Chikyow, Y Wakayama - Nano letters, 2018 - ACS Publications
Multivalued logic circuits, which can handle more information than conventional binary logic
circuits, have attracted much attention as a promising way to improve the data-processing …
circuits, have attracted much attention as a promising way to improve the data-processing …
Antiambipolar transistor with double negative differential transconductances for organic quaternary logic circuits
D Panigrahi, R Hayakawa… - Advanced Functional …, 2023 - Wiley Online Library
Organic integrated circuits have emerged as potential candidates for next‐generation
computing technology because of their low‐cost production, light weight, and mechanical …
computing technology because of their low‐cost production, light weight, and mechanical …
Negative transconductance heterojunction organic transistors and their application to full‐swing ternary circuits
Multivalued logic (MVL) computing could provide bit density beyond that of Boolean logic.
Unlike conventional transistors, heterojunction transistors (H‐TRs) exhibit negative …
Unlike conventional transistors, heterojunction transistors (H‐TRs) exhibit negative …
Reconfigurable Logic-in-Memory Constructed Using an Organic Antiambipolar Transistor
R Hayakawa, K Takahashi, X Zhong, K Honma… - Nano Letters, 2023 - ACS Publications
We demonstrate an electrically reconfigurable two-input logic-in-memory (LIM) using a dual-
gate-type organic antiambipolar transistor (DG-OAAT). The attractive feature of this device is …
gate-type organic antiambipolar transistor (DG-OAAT). The attractive feature of this device is …
Multifunctional In-Memory Logics Based on a Dual-Gate Antiambipolar Transistor toward Non-von Neumann Computing Architecture
Y Shingaya, T Iwasaki, R Hayakawa… - … Applied Materials & …, 2024 - ACS Publications
In-memory computing may make it possible to realize non-von Neumann computing
because the logic circuits are unified in the memory units. We investigated two types of in …
because the logic circuits are unified in the memory units. We investigated two types of in …
Multi-valued logic system: New opportunities from emerging materials and devices
Multi-valued logic (MVL) is considered as a key enabler for next-generation and high-
information-density digital electronics. While the conventional approaches to MVL systems …
information-density digital electronics. While the conventional approaches to MVL systems …
Electrically reconfigurable organic logic gates: a promising perspective on a dual‐gate antiambipolar transistor
R Hayakawa, K Honma, S Nakaharai… - Advanced …, 2022 - Wiley Online Library
Electrically reconfigurable organic logic circuits are promising candidates for realizing new
computation architectures, such as artificial intelligence and neuromorphic devices. In this …
computation architectures, such as artificial intelligence and neuromorphic devices. In this …