Ant colony optimization for mapping and scheduling in heterogeneous multiprocessor systems

Antonino Tumeo, Christian Pilato, Fabrizio Ferrandi, Donatella Sciuto, Pier Luca Lanzi
2008 2008 International Conference on Embedded Computer Systems: Architectures, Modeling, and Simulation  
Heterogeneous multiprocessor systems, assembled with off-the-shelf processors and augmented with reprogrammable devices, thanks to their performance, cost effectiveness and flexibility, have become a standard platform for embedded systems. To fully exploit the computational power offered by these systems, great care should be taken when deciding on which processing element (mapping) and when (scheduling) executing the program tasks. Unfortunately, both these problems are NPcomplete, and, even
more » ... they are strictly interconnected, they are normally performed separately with exact or heuristic algorithms to simplify the search for the optimum points. In this paper we present an exploration algorithm based on Ant Colony Optimization (ACO) that tries to solve the two problems simultaneously. We propose an implementation of the algorithm that gradually constructs feasible solution instances and searches around them rather than exploring a structure that already considers all the possible solutions. We introduce a two-stage decision mechanism that simplifies the data structures but lets the ant perform correlated choices for both the mapping and the scheduling. We show that this algorithm provides better and more robust solutions in less time than the Simulated Annealing and the Tabu Search algorithms, extended to support the combined scheduling and mapping problems. In particular, our ACO formulation can find, on average, solutions between 64% and 55% better than Simulated Annealing and Tabu Search.
doi:10.1109/icsamos.2008.4664857 dblp:conf/samos/TumeoPFSL08 fatcat:hwrkklmgq5bpnirmanh4kmq4qi