A massively parallel framework using P systems and GPUs | Research Group on Natural Computing

Title	A massively parallel framework using P systems and GPUs
Publication Type	Conference Contributions
Year of Publication	2009
Authors	Cecilia, J. M., Guerrero G. D., García J. M., Martínez-del-Amor M. A., Pérez-Hurtado I., & Pérez-Jiménez M. J.
Conference Name	Symposium on Application Accelerators in High Performance Computing
Place Published	Illinois, USA
Date Published	July 2009
Abstract	Since CUDA programing model appeared on the general purpose computations, the developers can extract all the power contained in GPUs (Graphics Processing Unit) across many computational domains. Among these domains, P systems or membrane systems provide a high level computational mod- eling framework that allows, in theory, to obtain polynomial time solutions to NP-complete problems by trading time for space, and also to model biological phenomena in the area of computational systems biology. P systems are massively parallel distributed devices and their computation can be divided in two levels of parallelism: membranes, that can be expressed as blocks in CUDA programming model; and objects, that can be expressed as threads in CUDA programming model. In this paper, we present our initial ideas of developing a simulator for the class of recognizer P systems with active membranes by using the CUDA programing model to exploit the massively parallel nature of those systems at maximum. Experimental results of a preliminary version of our simulator on a Tesla C1060 GPU show a 60X of speed-up compared to the sequential code.
URL	http://www.p-lingua.org/~miguel/papers/2009/psystem_saahpc09.pdf
Notes	Poster also available: http://www.p-lingua.org/~miguel/papers/2009/psystem_poster_saahpc09.pdf Webpage of the conference: http://saahpc.ncsa.illinois.edu/09/agenda.html