2015-11-12 EnergieInformatik 2015: Increasing Data Center Energy Efficiency via Simulation and Optimization of Cooling Circuits - A Practical Approach

Overview

technical report: Torsten Wilde, Tanja Clees, Nils Hornung, Detlef Labrenz, Michael Schnell, Horst Schwichtenberg, Hayk Shoukourian, Inna Torgovitskaia and Eric Lluch Alvarez: Increasing Data Center Energy Efficiency via Simulation and Optimization of Cooling Circuits - A Practical Approach

published by Springer in: LNCS 9424, Energy Informatics, 4th D-A-CH Conference, EI 2015, Karlsruhe, Germany, November 12–13, 2015, Proceedings, p.208 ff.


Abstract—The steady rise in energy consumption by data centers world wide over the last decade and the future 20MW exascale-challenge in High Performance Computing (HPC) makes saving energy an important consideration for HPC data centers. A move from air-cooled HPC systems to indirect or direct water-cooled systems allowed for the use of chiller-less cold or hot water cooling. However, controlling such systems needs special attention in order to arrive at an optimal compromise of low energy consumption and robust operating conditions. This paper highlights a newly developed concept along with software tools for modeling the data center cooling circuits, collecting data, and simulating and analyzing operating conditions. A first model for the chiller-less cooling loop of the Leibniz Supercomputing Center (LRZ) will be presented and lessons learned will be discussed, demonstrating the possibilities offered by the new concept and tools.

Keywords --- HPC, energy efficiency, energy reduction, adsorption, data center