Real-time olivary neuron simulations on dataflow computing machines
Georgios Smaragdos (Erasmus MC)
Craig Davies (Maxeler Technologies Ltd.)
Christos Strydis (Erasmus MC)
Ioannis Sourdis (Chalmers University of Technology)
Cǎtǎlin Ciobanu (TU Delft - Data-Intensive Systems, Chalmers University of Technology)
Oskar Mencer (Imperial College London, Maxeler Technologies Ltd.)
Chris I. De Zeeuw (Netherlands Institute for Neuroscience, Erasmus MC)
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Abstract
The Inferior-Olivary nucleus (ION) is a well-charted brain region, heavily associated with the sensorimotor control of the body. It comprises neural cells with unique properties which facilitate sensory processing and motor-learning skills. Simulations of such neurons become rapidly intractable when biophysically plausible models and meaningful network sizes (at least in the order of some hundreds of cells) are modeled. To overcome this problem, we accelerate a highly detailed ION network model using a Maxeler Dataflow Computing Machine. The design simulates a 330-cell network at real-time speed and achieves maximum throughputs of 24.7 GFLOPS. The Maxeler machine, integrating a Virtex-6 FPGA, yields speedups of ×92-102, and ×2-8 compared to a reference-C implementation, running on a Intel Xeon 2.66GHz, and a pure Virtex-7 FPGA implementation, respectively.
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