TY - JOUR
T1 - Looking Beyond 0 and 1
T2 - Principles and Technology of Multi-Valued Logic Devices
AU - Andreev, Maksim
AU - Seo, Seunghwan
AU - Jung, Kil Su
AU - Park, Jin Hong
N1 - Publisher Copyright:
© 2022 Wiley-VCH GmbH.
PY - 2022/12/22
Y1 - 2022/12/22
N2 - Ever since the invention of solid-state transistors, binary devices have dominated the electronics industry. Although the binary technology links the natural property of devices to be in the ON or OFF state with two logic levels, it provides the least possible information content per interconnect. Multi-valued logic (MVL) has long been considered as a means of improving the computation efficiency and reducing the power consumption of modern chips. In view of the power density limits of the conventional complementary metal–oxide–semiconductor technology, MVL technologies have recently gained even more attention, and various MVL unit devices based on conventional and emerging materials have been proposed. Herein, the recent achievements toward the development of compact MVL unit devices are reviewed. First, basic principles of MVL technologies are introduced by describing methods of obtaining multiple logic states and discussing radix-related aspects of MVL computation. Next, MVL unit devices are classified and overviewed with emphasis on principles of operation, technologies, and applications. Finally, a comparative discussion of strengths and weaknesses is provided for each class of MVL devices, and the review concludes with the outlook for the MVL field.
AB - Ever since the invention of solid-state transistors, binary devices have dominated the electronics industry. Although the binary technology links the natural property of devices to be in the ON or OFF state with two logic levels, it provides the least possible information content per interconnect. Multi-valued logic (MVL) has long been considered as a means of improving the computation efficiency and reducing the power consumption of modern chips. In view of the power density limits of the conventional complementary metal–oxide–semiconductor technology, MVL technologies have recently gained even more attention, and various MVL unit devices based on conventional and emerging materials have been proposed. Herein, the recent achievements toward the development of compact MVL unit devices are reviewed. First, basic principles of MVL technologies are introduced by describing methods of obtaining multiple logic states and discussing radix-related aspects of MVL computation. Next, MVL unit devices are classified and overviewed with emphasis on principles of operation, technologies, and applications. Finally, a comparative discussion of strengths and weaknesses is provided for each class of MVL devices, and the review concludes with the outlook for the MVL field.
KW - multi-valued logic
KW - multiple-valued logic
KW - negative differential resistance
KW - negative differential transconductance
KW - organic materials
KW - ternary logic
KW - van der Waals materials
UR - https://www.scopus.com/pages/publications/85142261817
U2 - 10.1002/adma.202108830
DO - 10.1002/adma.202108830
M3 - Review article
C2 - 35894513
AN - SCOPUS:85142261817
SN - 0935-9648
VL - 34
JO - Advanced Materials
JF - Advanced Materials
IS - 51
M1 - 2108830
ER -