ROMJIST Volume 28, No. 2, 2025, pp. 197-209, DOI: 10.59277/ROMJIST.2025.2.07
Florin-Silviu DUMITRU, Nicoleta CUCU-LAURENCIU, Alexandru Mihai ANTONESCU, Sorin COTOFANA, Marius ENACHESCU Design Space Exploration of Current-Starved Ring Oscillators Based on Graphene Nanoribbons
ABSTRACT: Graphene is well-suited for ultra-low-power (ULP) nano-electronics due to its exceptional characteristics like ballistic transport and its ability to engineer structures featuring a geometry-induced bandgap. Identifying the conditions necessary for achieving the maximum level of performance and of power-efficiency frequently requires a design space exploration (DSE). By means of calibration and external regulation of the supply voltage, the ULP graphene-nanoribbon (GNR) ring oscillator presented in this paper is capable of exceeding the performance of its 7nm FinFET counterpart both in terms of maximum frequency and of power-efficiency. Under nominal supply voltage conditions we achieve a 1.89× higher output frequency while simultaneously reducing the power consumption by 553.8× and achieving a 812× higher power efficiency. After performing a DSE and leveraging both externally-applied supply voltage modulation and output frequency calibration we achieved a 4.81×higher maximum output frequency operation mode and a 242×higher maximum power-efficiency operation mode when configuring both blocks for peak performance for each mode.KEYWORDS: Current-starved; design space exploration; GNR; graphene; ring oscillatorRead full text (pdf)