Parallel Instantiation of ASP Programs: Techniques and Experiments
Simona Perri (Univ. Calabria)
Francesco Ricca (Univ. Calabria)
Marco Sirianni (Univ. Calabria)
Abstract
Answer Set Programming (ASP) is a powerful logic-based programming language, which is enjoying increasing interest within the scientific community and (very recently) in industry. The evaluation of ASP programs is traditionally carried out in two steps. At the first step an input program P undergoes the so-called instantiation (or grounding) process, which produces a program P’ semantically equivalent to P, but not containing any variable; in turn, P’ is evaluated by using a backtracking search algorithm in the second step. It is well-known that instantiation is important for the efficiency of the whole evaluation, might become a bottleneck in common situations, is crucial in several realworld applications, and is particularly relevant when huge input data has to be dealt with. At the time of this writing, the available instantiator modules are not able to exploit satisfactorily the latest hardware, featuring multi-core/multi-processor SMP (Symmetric MultiProcessing) technologies. This paper presents some parallel instantiation techniques, including load-balancing and granularity control heuristics, which allow for the effective exploitation of the processing power offered by modern SMP machines. This is confirmed by an extensive experimental analysis herein reported.
Bibtex (Use it for references)
@article{KEYWORD,
journal = {Theory and Practice of Logic Programming},
publisher = {Cambridge University Press},
author = {Simona Perri and Francesco Ricca and Marco Sirianni},
title = {{Parallel instantiation of ASP programs: techniques and experiments}},
volume = {13},
number = {2},
year = {2013},
pages = {253-278}
}