Author :
Ionescu, A.M. ; Declercq, Michel J. ; Mahapatra, Santanu ; Banerjee, Kaustav ; Gautier, Jacques
Abstract :
In this paper, CMOS evolution and their fundamental and practical limitations are briefly reviewed, and the working principles, performance, and fabrication of single-electron transistors (SETs) are addressed in detail. Some of the unique characteristics and functionality of SETs, like unrivalled integration and low power, which are complementary to the sub-20 nm CMOS, are demonstrated. Characteristics of two novel SET architectures, namely, C-SET and R-SET, aimed at logic applications are compared. Finally, it is shown that combination of CMOS and SET in hybrid ICs appears to be attractive in terms of new functionality and performance, together with better integrability for ULSI, especially because of their complementary characteristics. It is envisioned that efforts in terms of compatible fabrication processes, packaging, modeling, electrical characterization, co-design and co-simulation will be needed in the near future to achieve substantial advances in both memory and logic circuit applications based on CMOS-SET hybrid circuits.
Keywords :
CMOS integrated circuits; ULSI; integrated circuit design; low-power electronics; single electron transistors; 20 nm; C-SET architecture; R-SET architecture; ULSI; few electron device; hybrid CMOS-SET integrated circuit; low power design; single electron transistor; CMOS integrated circuits; CMOS logic circuits; Electron devices; Fabrication; Hybrid integrated circuits; Logic circuits; Packaging; Semiconductor device modeling; Single electron transistors; Ultra large scale integration;
