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- Title
Wafer-scale carbon-based CMOS PDK compatible with silicon-based VLSI design flow.
- Authors
Yin, Minghui; Xu, Haitao; You, Yunxia; Gao, Ningfei; Zhang, Weihua; Liu, Hongwei; Zhou, Huanhuan; Wang, Chen; Peng, Lian-Mao; Li, Zhiqiang
- Abstract
Carbon nanotube field-effect transistors (CNTFETs) are increasingly recognized as a viable option for creating high-performance, low-power, and densely integrated circuits (ICs). Advancements in carbon-based electronics, encompassing materials and device technology, have enabled the fabrication of circuits with over 1000 gates, marking carbon-based integrated circuit design as a burgeoning field of research. A critical challenge in the realm of carbon-based very-large-scale integration (VLSI) is the lack of suitable automated design methodologies and infrastructure platforms. In this study, we present the development of a wafer-scale 3 µm carbon-based complementary metal-oxide-semiconductor (CMOS) process design kit (PDK) (3 µm-CNTFETs-PDK) compatible with silicon-based Electronic Design Automation (EDA) tools and VLSI circuit design flow. The proposed 3 µm-CNTFETs-PDK features a contacted gate pitch (CGP) of 21 µm, a gate density of 128 gates/mm2, and a transistor density of 554 transistors/mm2, with an intrinsic gate delay around 134 ns. Validation of the 3 µm-CNTFETs-PDK was achieved through the successful design and tape-out of 153 standard cells and 333-stage ring oscillator circuits. Leveraging the carbon-based PDK and a silicon-based design platform, we successfully implemented a complete 64-bit static random-access memory (SRAM) circuit system for the first time, which exhibited timing, power, and area characteristics of clock@10 kHz, 122.1 µW, 3795 µm × 2810 µm. This research confirms that carbon-based IC design can be compatible with existing EDA tools and silicon-based VLSI design flow, thereby laying the groundwork for future carbon-based VLSI advancements.
- Publication
Nano Research, 2024, Vol 17, Issue 8, p7557
- ISSN
1998-0124
- Publication type
Article
- DOI
10.1007/s12274-024-6583-8