Title :
Voltage scaling limitations and challenges of memory-rich nanoscale CMOS LSIs
Author :
Itoh, Kiyoo ; Tsuchiya, Ryuta
Author_Institution :
Central Res. Lab., Hitachi, Ltd., Tokyo, Japan
Abstract :
The minimum operating voltage, Vmin, of memory-rich nanoscale CMOS LSIs is investigated to open the door to the below 0.5-V era. A new method using speed variation is proposed to evaluate Vmin. It shows that Vmin is very sensitive to the threshold-voltage variations, ΔVt, which become more significant with device scaling, and to the lowest necessary threshold voltage, Vt0, of MOSFETs. As a result of comparing the Vmins of logic, SRAM, and DRAM blocks, it turns out that the SRAM block is problematic because it has the highest Vmin despite using RAM repair techniques. Various techniques are thus reviewed, including shortening the data line, up-sizing, and using more relaxed MOSFET scaling. To further reduce the Vmins of the blocks, ΔVt-immune MOSFETs such as a planar fully-depleted structure (FD-SOI) and fin-type structure (FinFET), and low-Vt0 circuits are discussed, showing the below 0.5-V era feasible to come.
Keywords :
CMOS integrated circuits; DRAM chips; SRAM chips; large scale integration; nanotechnology; RAM repair techniques; SRAM block; fin-type structure; memory-rich nanoscale CMOS LSI; minimum operating voltage; planar fully-depleted structure; threshold-voltage variations; voltage scaling limitations; FinFETs; Logic circuits; Logic devices; Logic gates; MOSFETs; Microelectronics; Power supplies; Random access memory; Resource description framework; Threshold voltage;
Conference_Titel :
Microelectronics Proceedings (MIEL), 2010 27th International Conference on
Conference_Location :
Nis
Print_ISBN :
978-1-4244-7200-0
DOI :
10.1109/MIEL.2010.5490536
