Abstract:
Demonstration Setup: We will bring Braindrop, a mixed-signal neuromorphic chip that is configured to perform arbitrary computations using the Neural Engineering Framework...View moreMetadata
Abstract:
Demonstration Setup: We will bring Braindrop, a mixed-signal neuromorphic chip that is configured to perform arbitrary computations using the Neural Engineering Framework (NEF). Fabricated in a 28-nm FDSOI process, Braindrop has 4,096 silicon neurons whose design we optimized for nonlinear function approximation (Fig. 1). Our optimization procedure consists of a pre-fabrication phase and a run-time phase. In the pre-fabrication phase, transistors are sized to introduce an intermediate amount of heterogeneity into the neurons' tuning curves: Not so little that spiking-thresholds bunch up in the middle of the function's domain and not so much that spiking-thresholds mostly fall outside the function's domain. In the run-time phase, the outliers-neurons that never spike or always spike-are rescued by adjusting programmable bias currents appropriately. We explored various choices of the number of programmable bias-current levels and the amount of transistor-mismatch during the design phase to determine the combination that yielded the highest number of good neurons. To facilitate design-space exploration, we developed a SPICE-derived compact model of the dependence of tuning-curve heterogeneity on transistor-mismatch.
Date of Conference: 27-30 May 2018
Date Added to IEEE Xplore: 04 May 2018
ISBN Information:
Electronic ISSN: 2379-447X