Title :
Pairwise coupled hybrid vanadium dioxide-MOSFET (HVFET) oscillators for non-boolean associative computing
Author :
Shukla, N. ; Parihar, A. ; Cotter, M. ; Barth, M. ; Li, X. ; Chandramoorthy, N. ; Paik, H. ; Schlom, D.G. ; Narayanan, V. ; Raychowdhury, A. ; Datta, S.
Author_Institution :
Pennsylvania State Univ., University Park, PA, USA
Abstract :
Information processing applications related to associative computing like image / pattern recognition consume excessive computational resources in the Boolean processing framework. This motivates the exploration of a non-Boolean computing approach for such applications. In this work, we demonstrate, (i) novel hybrid set of pair-wise coupled oscillators comprising of vanadium dioxide (VO2) metal-insulator-transition (MIT) system integrated with MOSFET; (ii) degree of synchronization between oscillators based on input analog voltage difference; (iii) implementation of hardware platform for fast and efficient evaluation of Lk fractional distance norm (k<;1); (iv) improved quality of image processing and ~20X lower power consumption of the coupled oscillators over a CMOS accelerator.
Keywords :
Boolean functions; MOSFET; coupled circuits; electronic engineering computing; image processing; oscillators; synchronisation; vanadium compounds; Boolean processing framework; CMOS accelerator; HVFET oscillator; MIT system; VO2; fractional distance norm; image-pattern recognition; information processing application; input analog voltage difference; metal-insulator-transition system; nonBoolean associative computing; pairwise coupled hybrid vanadium dioxide-MOSFET oscillator; power consumption; synchronization; Application specific integrated circuits; CMOS integrated circuits; Logic gates; MOSFET; Oscillators; Synchronization; Visualization;
Conference_Titel :
Electron Devices Meeting (IEDM), 2014 IEEE International
DOI :
10.1109/IEDM.2014.7047129
