GPU powered ROSA analyzer
Paper i proceeding, 2013
In this work we present the first version of ROSAA, Rosa Analyzer, using a GPU architecture. ROSA is a Markovian Process Algebra  able to capture pure non-determinism, probabilities and timed actions; Over it, a tool has been developed for getting closer to a fully automatic process of analyzing the behaviour of a system specified as a process of ROSA, so that, ROSAA  is able to automatically generate the part of the Labeled Transition System (occasionally the whole one), LTS in the sequel, in which we could be interested, but, since this is a very computationally expensive task, a GPU powered version of ROSAA which includes parallel processing capabilities, has been created to better deal with such generating process. As the conventional GPU processing loads are mainly focused on data parallelization over quite similar types of data, this work means a quite novel use of these kind of architectures, moreover the authors do not know any other formal model tool running over GPUs. ROSAA running starts with the Syntactic analysis so generating a layered structure suitable to, afterwards, apply the Operational Semantics transition rules in the easiest way. Since from each specification/state more than one rule could be applied, this is the key point at which GPU should provide its benefits, i.e., allowing to generate all the new states reachable in a singlesemantics- step from a given one, at the same time through a simultaneous launching of a set of threads over the GPU platform. Although this establishes a step forward to the practical usefulness of such type of tools, the state-explosion problem arises indeed, so we are aware that reducing the size of the LTS will be sooner or later required, in this line the authors are working on an heuristics to properly prune an enough number of branches of the LTS, so making the task of generating it, more tractable.