Investigation of the use of Intelligent Systems for Efficient Mapping of Applications in Many-Core Architectures

Abstract

The maximum frequency of single-core processors has reached its operating limit, and chip makers have built multi-core chips, where each core operates at lower frequencies relative to chips containing only one core. In addition, with the demand for performance of complex applications growing very rapidly in recent years, there is an emerging need for multi-core and many-core processors that can communicate and provide ever-greater parallelism. For mapping applications to multiple / many-core systems, those need to be partitioned into multiple tasks that can be performed concurrently across different cores. Thus, it arises the need for developing more efficient mapping methodologies, and to provide optimum maps satisfying the constraints required by the various applications. Such a problem is classified as NP-hard, and heuristics based on the knowledge domain of the application need to be used, in this context, to find out the required solutions. Therefore, in this research project, it is intended to investigate the use of intelligent systems, in particular the use of multiobjective AGs, for automatic generation of application maps, containing as case examples concurrently tasks of computer vision, in many-core architectures implemented through FPGAs, allowing them to be fault tolerant, efficient and of high performance.