A wide dynamic range sparse FC-DNN processor with multi-cycle banked SRAM read and adaptive clocking in 16nm FinFET

Citation:

Sae Lee, Paul Whatmough, Niamh Mulholland, Patrick Hansen, David Brooks, and Gu Wei. 10/18/2018. “A wide dynamic range sparse FC-DNN processor with multi-cycle banked SRAM read and adaptive clocking in 16nm FinFET.” ESSCIRC 2018-IEEE 44th European Solid State Circuits Conference. Publisher's Version

Abstract:

Always-on classifiers for sensor data require a very wide operating range to support a variety of real-time workloads and must operate robustly at low supply voltages. We present a 16nm always-on wake-up controller with a fully-connected (FC) Deep Neural Network (DNN) accelerator that operates from 0.4-1 V. Calibration-free automatic voltage/frequency tuning is provided by tracking small non-zero Razor timing-error rates, and a novel timing-error driven sync-free fast adaptive clocking scheme provides resilience to on-chip supply voltage noise. The model access burden of neural networks is relaxed using a multicycle SRAM read, which allows memory voltage to be reduced at iso-throughput. The wide operating range allows for high performance at 1.36GHz, low-power consumption down to 750μW and state-of-the-art raw efficiency at 16-bit precision of 750 GOPS/W dense, or 1.81 TOPS/W sparse.
Last updated on 04/22/2022