A Low-Power Multi-Gate FET CMOS Technology with 13.9ps Inverter Delay, Large-Scale Integrated High Performance Digital Circuits and SRAM

A Low-Power Multi-Gate FET CMOS Technology with 13.9ps Inverter Delay, Large-Scale Integrated High Performance Digital Circuits and SRAM

This paper presents an in-depth analysis of digital performance of a Multi-Gate FET technology. Ring oscillators with metal gates and undopedfins show an inverter delay of 13.9ps at 1V, the highest performance of a Multi-Gate FET technology reported at 1.9nA off-current/stage. NAND and NOR show sign...

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Hauptverfasser: von Arnim, K., Augendre, E., Pacha, A.C., Schulz, T., San, K.T., Bauer, F., Nackaerts, A., Rooyackers, R., Vandeweyer, T., Degroote, B., Collaert, N., Dixit, A., Singanamalla, R., Xiong, W., Marshall, A., Cleavelin, C.R., Schrufer, K., Jurczak, M.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
CMOS digital integrated circuits
CMOS technology
Delay
Digital circuits
FETs
Integrated circuit technology
Inverters
Large scale integration
Performance analysis
Random access memory
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Beschreibung
Zusammenfassung:This paper presents an in-depth analysis of digital performance of a Multi-Gate FET technology. Ring oscillators with metal gates and undopedfins show an inverter delay of 13.9ps at 1V, the highest performance of a Multi-Gate FET technology reported at 1.9nA off-current/stage. NAND and NOR show significant improvement in delay vs. stack height compared to bulk CMOS. SRAM cells and product-typical critical paths with more than 10k transistors demonstrate the capability for large-scale integration.
ISSN:0743-1562
DOI:10.1109/VLSIT.2007.4339745