HPC cluster ECLIPSE reached 25 million CPU hours

The ECLIPSE cluster was installed at the ELI Beamlines research center at the end of 2015. It consists of a total of 84 computing servers with 1344 processor cores and a total operating memory of 10 TB. Thanks to the high number of processor cores, a milestone of 25 million computing hours has been achieved within the last three years of operation of this cluster. For comparison, achieving the same number of computing hours would take several centuries on a notebook computer. Of course, the computing power of the cluster also affects its power consumption. Almost 660 MWh was consumed during its operation, which corresponds to the annual consumption of an average street block. In addition to high computing capacity, the ECLIPSE cluster also has a high-performance storage with a total capacity of 1 PB.

<em>“The monthly price of a computing cluster service from a commercial provider with parameters similar to ECLIPSE would be $ 136 000. Twenty-five million computing hours would cost about $ 3 400 000. This is quite a decent amount of money – especially when compared to the cost of ECLIPSE, which was less than $ 600 000,</em>” says Stefan Weber, head of the experimental program operating the cluster.

The main objective of the ECLIPSE cluster is to study the interaction of laser radiation with matter, in particular the fourth state of matter: plasma. Particle simulations that describe the relativistic motion of charged particles in the electric and magnetic fields of the laser and the plasma itself are most commonly used for this purpose. These simulations can be parallelized, i.e. executed on multiple computing servers at the same time, which makes the total simulation time considerably shorter. A typical simulation uses dozens of computing servers and takes about 1-2 days. Approximately 12 000 simulations are processed annually on the ECLIPSE cluster. Since the cluster currently has about sixty users, there is one task per user approximately every other day. Last but not least, the ECLIPSE computational cluster has contributed to the acquisition of many interesting scientific results, which are published in about a hundred scientific publications.

With advances in the research of laser interactions and due to the beginning of experimental research at ELI Beamlines, scientists are already reaching the technical limits of ECLIPSE. There is an increasing demand in terms of the number of simulations and their level of detail. These simulations help to understand experimental observations and to determine future research directions. Such increasing demands have led to the decision of significantly expanding ELI’s computing capabilities.