Title :
Effects of elevated temperature on tunable near-zero threshold CMOS
Author :
Svilan, Vjekoslav ; Burr, James B. ; Tyler, G. Leonard
Author_Institution :
Dept. of Electr. Eng., Stanford Univ., CA, USA
Abstract :
This paper explores functionality, performance, and energy efficiency of an 80,000 transistor, 0.35 μm, back-bias tunable, near-zero Vth, 32×32-bit multiplier operating at 100°C. Compared to operation at 28°C, performance at Vdd =2.0 V degrades 14 percent from 188 MHz to 162 MHz. At lower supply voltages, back bias is adjusted to minimize power dissipation as a function of operating frequency similarly to what we reported last year at 28°C. Comparing the operating points, the same performance at 100°C requires about 1.5 times the power measured at 28°C. It also requires about 1.2 V additional back bias and about a 20 percent increase in Vdd. The fraction of total power dissipated as leakage increases by about 1.5 times
Keywords :
CMOS logic circuits; circuit tuning; digital arithmetic; high-speed integrated circuits; high-temperature electronics; low-power electronics; multiplying circuits; 0.35 micron; 100 C; 162 to 188 MHz; 2 V; 28 C; CMOS multiplier; back-bias tunable multiplier; elevated temperature; near-zero threshold voltage; operating frequency; power dissipation; tunable near-zero threshold CMOS; tuning techniques; CMOS technology; Circuit testing; Degradation; Energy efficiency; Frequency; Permission; Power dissipation; Temperature; Threshold voltage; Tunable circuits and devices;
Conference_Titel :
Low Power Electronics and Design, International Symposium on, 2001.
Conference_Location :
Huntington Beach, CA
Print_ISBN :
1-58113-371-5
DOI :
10.1109/LPE.2001.945411
