Title :
Markov Chain Monte Carlo inference on graphical models using event-based processing on the SpiNNaker neuromorphic architecture
Author :
Mendat, Daniel R. ; Sang Chin ; Furber, Steve ; Andreou, Andreas G.
Author_Institution :
Dept. of Electr. & Comput. Eng., Johns Hopkins Univ., Baltimore, MD, USA
Abstract :
We present a combined hardware/software architecture to perform Markov Chain Monte Carlo sampling on probabilistic graphical models in a brain-inspired, energy-aware manner. By combining massively-parallel neuromorphic hardware architecture (SpiNNaker) with algorithms we´ve have developed for the event-based framework employed in SpiNNaker, we achieve large speedups when performing inference as compared to a traditional PC. We present results from two sampling approaches both well suited to the SpiNNaker architecture. Neural sampling, the first of the two approaches relies directly on simulating networks of spiking neurons while the second, Gibb´s sampling is more flexible but still takes advantage of the hardware´s event-handling capabilities.
Keywords :
Markov processes; Monte Carlo methods; electronic engineering computing; hardware-software codesign; inference mechanisms; neural chips; neural net architecture; parallel architectures; probability; sampling methods; software architecture; Gibb sampling; Markov Chain Monte Carlo inference; Markov Chain Monte Carlo sampling; SpiNNaker neuromorphic architecture; brain-inspired energy-aware manner; event-based framework; event-based processing; hardware event-handling capabilities; hardware/software architecture; massively-parallel neuromorphic hardware architecture; neural sampling; probabilistic graphical models; spiking neurons; Bayes methods; Computer architecture; Graphical models; MATLAB; Markov processes; Neurons; Roads;
Conference_Titel :
Information Sciences and Systems (CISS), 2015 49th Annual Conference on
Conference_Location :
Baltimore, MD
DOI :
10.1109/CISS.2015.7086903
