{"id":408,"date":"2019-10-22T16:00:02","date_gmt":"2019-10-22T16:00:02","guid":{"rendered":"http:\/\/www.recipe-project.eu\/?page_id=408"},"modified":"2019-10-22T16:06:16","modified_gmt":"2019-10-22T16:06:16","slug":"impact-of-the-project","status":"publish","type":"page","link":"https:\/\/www.recipe-project.eu\/publications\/impact-of-the-project\/","title":{"rendered":"Impact of the Project"},"content":{"rendered":"

Imagine: in 2017, the most powerful supercomputer in the world, the Sunway TaihuLight<\/em> installed at the NRPCPC in China, could compute 93 quadrillions operations on real numbers in only 1 second. This is 10.000 times more than what normal computers can do in the same amount of time.<\/p>\n

By 2023, these very powerful computers, knowns as High Performance Computers (HPC), should be able to compute 1018 operations per second \u2013 or Exascale.<\/p>\n

HPC are employed in many fields: in oil & gas for oil field discovery; in finance for forecasting market trends; in chemistry for designing new materials, drugs, and fuels; in engineering for fluid dynamics, (applied in many sectors, from aerospace to heating and cooling) and for structural analysis; in metereology for weather, forecasting; in security for brute force attacks on cryptosystems; in physics for modeling fundamental principles, of matter and energy; and in emerging application domains such as business intelligence, deep learning, and data analytics.<\/p>\n

This is why the High-Performance Computing market is developing so quickly, and the RECIPE project is so important: it is essential to develop a software that is between the hardware and the applications and that is able to make the system reliable despite the increasing number of resources and the increasing time between failures.<\/p>\n

To manage this complexity, the EU Horizon 2020 project RECIPE will provide in particular:<\/p>\n