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Highlights
Launched on 1 January and coordinated by Barcelona Supercomputing Center (BSC), the European project AMPERE (A Model-driven development framework for highly Parallel and EneRgy-Efficient computation supporting multi-criteria optimisation) will implement an innovative software architecture that takes into account the non-functional requirements inherited from the cyber-physical interactions, such as time predictability, energy-efficiency, safety and security.
Model-driven development framework for highly Parallel and EneRgy-Efficient computation supporting multi-criteria optimisation
Fully exploiting the benefits of performance demanding emerging technologies such as artificial intelligence or big data analytics.
Provide a system design ecosystem optimised for Cyber-Physical Systems.
Provide a computer software ecosystem capable of efficiently exploiting advanced energy-efficient and parallel heterogeneous platforms.
Integrate AMPERE software solutions into two relevant industrial markets, i.e., automotive and railway
Cyber-physical systems provide a convenient way to represent complex systems like the use-cases targeted in the AMPERE project.
AMPERE's main objective is to transform the system model description of Cyber-Physical Systems (CPS) based on model-driven languages into the parallel programming models
Session chaired by: Eduardo Quiñones (BSC)
Papers review led by: Luis Miguel Pinho (ISEP)
The AMPERE consortium is presenting a paper titled 'Enhancing OpenMP Tasking Model: Performance and Portability' in the 'Papers Session II: Tasking Extensions I' on 14 September 2021 at IWOMP 2021.