HPC libraries for CP2K and other electronic structure codes
24 Junio 2020 - 24 Junio 2020
Online, Italy
Nowadays, a huge amount of numerical operations are being used by HPC programmers and it's important for them to know the existence of specifically developed numerical libraries that will help them in dealing with programs' performance problems.
CSCS(se abrirá en una nueva ventana) is working on several HPC libraries which can be adopted by electronic structure codes in order to run them efficiently on current and next-generation hybrid architectures (both NVIDIA and AMD).
Next 24th of June 2020 at 11 AM (CEST), the 4th Webinar of a series presenting the most recent developments of the MAX flagship codes entitled "HPC libraries for CP2K and other electronic structure codes"(se abrirá en una nueva ventana) will be held, featuring the www.max-centre.eu/codes-max/cp2k(CP2K code).
REGISTER NOW!(se abrirá en una nueva ventana)
The webinar will provide an accurate overview of the HPC libraries developed at CSCS in order to accelerate electronic structure code such as CP2K and Quantum ESPRESSO. These libraries are (1) DBCSR, (2) COSMA, (3) SpFFT and (4) SIRIUS.
By participating, you will be able to:
- Learn the overview of HPC problems arising from large scale electronic structure calculations in localised basis (CP2K) and plane-wave basis (Quantum ESPRESSO),
- Discover the HPC libraries help to accelerate electronic structure code such as CP2K and Quantum ESPRESSO,
- Cultivate synergies and network across the MaX flagship code experts.
Visit the official webinar page(se abrirá en una nueva ventana) to register and see the exciting agenda prepared for its attendees.
---
About MaX
MaX - Materials design at the Exascale has received funding from the European Union's Horizon 2020 under Grant Agreement n. 824143. Led by CNR (Italy), the MaX consortium partners include SISSA (Italy), ICN2 (Spain), JUELICH (Germany), CEA (France), EPFL (Switzerland), Universiteit Gent (Belgium), CINECA (Italy), BSC (Spain), ETHZurich (Switzerland), E4 (Italy), ARM (United Kingdom), ICTP (Italy), Trust-IT (Italy).
www.max-centre.eu(se abrirá en una nueva ventana) I www.linkedin.com/company/max-centre(se abrirá en una nueva ventana) I @max_center2(se abrirá en una nueva ventana)
CSCS(se abrirá en una nueva ventana) is working on several HPC libraries which can be adopted by electronic structure codes in order to run them efficiently on current and next-generation hybrid architectures (both NVIDIA and AMD).
Next 24th of June 2020 at 11 AM (CEST), the 4th Webinar of a series presenting the most recent developments of the MAX flagship codes entitled "HPC libraries for CP2K and other electronic structure codes"(se abrirá en una nueva ventana) will be held, featuring the www.max-centre.eu/codes-max/cp2k(CP2K code).
REGISTER NOW!(se abrirá en una nueva ventana)
The webinar will provide an accurate overview of the HPC libraries developed at CSCS in order to accelerate electronic structure code such as CP2K and Quantum ESPRESSO. These libraries are (1) DBCSR, (2) COSMA, (3) SpFFT and (4) SIRIUS.
By participating, you will be able to:
- Learn the overview of HPC problems arising from large scale electronic structure calculations in localised basis (CP2K) and plane-wave basis (Quantum ESPRESSO),
- Discover the HPC libraries help to accelerate electronic structure code such as CP2K and Quantum ESPRESSO,
- Cultivate synergies and network across the MaX flagship code experts.
Visit the official webinar page(se abrirá en una nueva ventana) to register and see the exciting agenda prepared for its attendees.
---
About MaX
MaX - Materials design at the Exascale has received funding from the European Union's Horizon 2020 under Grant Agreement n. 824143. Led by CNR (Italy), the MaX consortium partners include SISSA (Italy), ICN2 (Spain), JUELICH (Germany), CEA (France), EPFL (Switzerland), Universiteit Gent (Belgium), CINECA (Italy), BSC (Spain), ETHZurich (Switzerland), E4 (Italy), ARM (United Kingdom), ICTP (Italy), Trust-IT (Italy).
www.max-centre.eu(se abrirá en una nueva ventana) I www.linkedin.com/company/max-centre(se abrirá en una nueva ventana) I @max_center2(se abrirá en una nueva ventana)
Palabras clave
High-Performance Computing (HPC), Materials design, materials modelling, materials simulation, High Throughput Computing (HTC), materials science, data analytics, computational algorithms, HPC libraries
