A CMOS analog adaptive BAM with on-chip learning and weight refreshing

Abstract

In this paper we will extend the transconductance-mode (T-mode) approach [1] to implement analog continuous-time neural network hardware systems to include on-chip Hebbian learning and on-chip analog weight storage capability. The demonstration vehicle used is a 5 + 5 neurons bidirectional associative memory (BAM) prototype fabricated in a standard 2-μm double-metal double-polysilicon CMOS process (through and thanks to MOSIS). Mismatches and nonidealities in learning neural hardware are supposed not to be critical if on-chip learning is available, because they will be implicitly compensated. However, mismatches in the learning circuits themselves cannot always be compensated. This mismatch is specially important if the learning circuits use transistors operating in weak inversion. In this paper we will estimate the expected mismatch between learning circuits in the BAM network prototype and evaluate its effect on the learning performance, using theoretical computations and Monte Carlo Hspice simulations. Afterwards we will verify these theoretical predictions with the experimentally measured results on the test vehicle prototype.Peer Reviewe