Self adaptive heterogeneous manycore based on Flexible Tiles

A major challenge in computing is to leverage multi-core technologies to enable the development of energy-efficient high performance systems. This is especially critical for embedded systems which have very limited energy budget as well as for supercomputers in respect to sustainability. But, efficient programming of multi-core architectures, moving towards manycores with more than a thousand cores predicted by 2020, remains an unresolved issue. The FlexTiles project will define and develop an energy-efficient and programmable heterogeneous manycore platform (THALES, CSEM, CEA) with self-adaptive capabilities, based on the following innovations:•\tEnergy-efficiency, performance and flexibility provided by a reconfigurable layer linked to the manycore and enabling the dynamic instantiation of dedicated accelerators (UR1).•\tPower consumption, load balancing, dynamic mapping and resilience to faulty modules managed through self-adaptation features (KIT).•\tVirtualised executable codes enabling dynamic relocation of configuration (TUE) and bitstreams respectively on standard processor and network on chip and on reconfigurable layer (UR1).•\tA virtualisation layer monitoring the system and optimising the application mapping for load balancing, power consumption and faults tolerance (KIT, TUE).•\tParallelisation and compilation tools improvement to take into account the mixture of static and dynamic behaviours (ACE, THALES).FlexTiles proposed final platform will be validated on two main applications (smart camera, cognitive radio) of the targeted embedded technology market (THALES, SUNDANCE). FlexTiles achieved new type of manycore will also benefit from other markets and applications' domains opportunities (e.g. automotive, autonomous systems, medical imaging systems, supercomputers), where there is a combined need for energy-efficiency, performance and interactivity, while guaranteeing short time to market.