The DEEP-EST Project aims to build a Modular Supercomputer Architecture (MSA) with the main focus on the usage of heterogenous computing resources. The majority of current HEP workflows are capable of utilizing exclusively Central Processing Units (CPU), which create inefficiency when trying to run on heterogenous systems equipped with additional hardware accelerators (GPUs, FPGAs). Within the context of this project, we want to extend current CPU specific implementations of various algorithms (calorimeter reconstruction, track fitting, etc. ) by utilizing OpenCL and CUDA language extensions in order to harness the computational power provided by various hardware accelerators
The next generation of HPC and HTC facilities, such as Oak Ridge’s Summit, Lawrence Livermore’s Sier...
The next-generation of supercomputers will feature a diverse mix of accelerator devices. The increas...
Striving at pushing the applications scalability to the limits, the DEEP project proposed an alterna...
A desired trend within high energy physics is to increase particle accelerator luminosities,leading ...
The Large Hadron Collider (LHC) will enter a new phase beginning in 2027 with the upgrade to the Hig...
How does one cover the needs of both HPC and HPDA (high performance data analytics) applications? Wh...
Heterogeneous computing offers a promising solution for high performance and energy efficient comput...
Modern HPC systems are becoming increasingly heterogeneous, affecting all components of HPC systems,...
High Performance Computing (HPC) centers are the largest facilities available for science. They are ...
On-line processing of large data volumes produced in modern HEP experiments requires using maximum c...
Hardware accelerators such as GPGPUs are becoming increasingly common in HPC platforms and their use...
The next generation of supercomputing facilities, such as Oak Ridge's Summit and Lawrence Livermore'...
Programming for a diverse set of compute accelerators in addition to the CPU is a challenge. Maintai...
The High Energy Physics (HEP) experiments, such as those at the Large Hadron Collider (LHC), traditi...
High Energy Physics (HEP) experiments will enter a new era with the start of the HL-LHC program, wit...
The next generation of HPC and HTC facilities, such as Oak Ridge’s Summit, Lawrence Livermore’s Sier...
The next-generation of supercomputers will feature a diverse mix of accelerator devices. The increas...
Striving at pushing the applications scalability to the limits, the DEEP project proposed an alterna...
A desired trend within high energy physics is to increase particle accelerator luminosities,leading ...
The Large Hadron Collider (LHC) will enter a new phase beginning in 2027 with the upgrade to the Hig...
How does one cover the needs of both HPC and HPDA (high performance data analytics) applications? Wh...
Heterogeneous computing offers a promising solution for high performance and energy efficient comput...
Modern HPC systems are becoming increasingly heterogeneous, affecting all components of HPC systems,...
High Performance Computing (HPC) centers are the largest facilities available for science. They are ...
On-line processing of large data volumes produced in modern HEP experiments requires using maximum c...
Hardware accelerators such as GPGPUs are becoming increasingly common in HPC platforms and their use...
The next generation of supercomputing facilities, such as Oak Ridge's Summit and Lawrence Livermore'...
Programming for a diverse set of compute accelerators in addition to the CPU is a challenge. Maintai...
The High Energy Physics (HEP) experiments, such as those at the Large Hadron Collider (LHC), traditi...
High Energy Physics (HEP) experiments will enter a new era with the start of the HL-LHC program, wit...
The next generation of HPC and HTC facilities, such as Oak Ridge’s Summit, Lawrence Livermore’s Sier...
The next-generation of supercomputers will feature a diverse mix of accelerator devices. The increas...
Striving at pushing the applications scalability to the limits, the DEEP project proposed an alterna...