'Institute of Electrical and Electronics Engineers (IEEE)'
Abstract
We present a fuzzy inference chip capable to evaluate 16 programmable rules at a speed of 2.5Mflips (2.5 × 10 6 fuzzy inferences per second) with 8.6mW power consumption. It occupies 2.89mm 2 (including pads) in a CMOS 1μm single-poly technology. Measurements are given to demonstrate its performance. All the operations needed for fuzzy inference are realized on-chip using analog circuitry compatible with standard VLSI CMOS technologies. On-chip digital control and memory circuitry is also incorporated for programmability. The chip architecture and circuitry are based on our design methodology for neurofuzzy systems reported in [1]. A few architectural modifications are made to share circuitry among rules and, thus, obtain reduced area and power consumption. The chip parameters can be learned in situ, for operation in a changing environment, by using dedicated hardware-compatible learning algorithms [1][8