Designed by Atos for GENCI, the Joliot-Curie supercomputer is based on Atos' BullSequana architecture, delivering a peak power of 9.4 petaflops, representing a 4.5 increase in computing capacity compared to its predecessor, Curie, with almost half the power consumption. It will reach 22 petaflops of processing power by 2020.
Joliot-Curie is France's third supercomputer ranked in the TOP500 in terms of power, just behind Tera-1000-2 and Pangea. Its computing power is equivalent to 75.000 desktop computers and will support researchers for projects requiring heavy computing and data processing. This supercomputer offers truly astounding RAM capacity with 400 terabytes. It also includes a 5-petabyte data storage capacity with a 300 GB/s bandwidth, remote data visualisation and virtualisation services. This makes Joliot-Curie an especially well-balanced machine that meets the needs both for large-scale computer simulations and for processing the large amounts of data generated.
Its computing power will be more than doubled in 2020 to reach 22 petaflops or 22 million billion operations per second. It will then become the third most powerful research supercomputer in Europe and no. 1 in France. The Joliot-Curie supercomputer will be increasing its power in order to keep up with the international race towards exascale, i.e. a computing power of one billion billion operations per second, which represents a strategic goal for the competitiveness of stakeholders in the digital economy.
Thanks to the investment made by GENCI, a non-commercial company whose shares are held by the French State via the Ministry of Higher Education, Research and Innovation, CEA, CNRS, various universities, and Inria, Joliot-Curie will also ensure that France meets its commitments in terms of computing power made available to European researchers in the context of the PRACE European computing infrastructure.
Supercomputers have greatly improved over time and are now used in various research fields since they allow for computer simulation to be applied across all academic disciplines. Joliot-Curie has already been tested as part of the Grands Challenges (Great challenges), organised by GENCI at the TGCC, by running major simulations and other applications.
Computer simulation and high-performance computing have now become essential scientific tools to improve knowledge, design and decision-making processes in fundamental and applied research fields, and an increasing number of industrial sectors.
CEA's TGCC is a very large computing centre based in Bruyères-le-Châtel (Essonne département) and dedicated to very high-performance computing in scientific fields. Alongside Cobalt, a supercomputer targeting the industrial sector, TGCC now hosts the new Joliot-Curie supercomputer, which aims to meet research computing needs. Joliot-Curie is currently used in over a dozen fields such as climate, astrophysics and geophysics, biology, molecular dynamics and material properties, and will also be applied to the genome and neuroscience fields in the near future.