The objective of Work Package 9 task 3 is to assess and make recommendations to the PRACE RI for joint developments with industrial partners to develop highly energy efficient HPC components and systems, as well as power and cooling technologies. WP9 has carried out this task through evaluation of a number of prototypes targeting novel approaches to HPC server and system design with many prototypes having some degree of direct industry involvement or support. Prototype efforts assessed the use of FPGAs for function acceleration, the use of CPUs for the mobile market and with a TDP about two orders of magnitude less than typical x86 CPUs for the HPC market, DSPs common for embedded systems and with a TDP about one order of magnitude less tha...
Energy consumption\u27s increasing importance in scientific computing has driven an interest in deve...
This document contains an analysis of a major survey of HPC systems and applications across the PRAC...
Thesis (Ph.D.)--Boston UniversityMany-core systems, ranging from small-scale many-core processors to...
This report supplements deliverable D9.3.3 and covers future technology prototype efforts from March...
HPC (High Performance Computing) represents, together with theory and experiments, the third pillar ...
High-performance computing (HPC) is recognized as one of the pillars for further progress in science...
Due to the increasing role of energy costs and growing heat density of servers, cooling issues are b...
Due to the increasing role of energy costs and growing heat density of servers, cooling issues are b...
High Performance Computing (HPC) is experiencing vast amount of changes in the road towards Exascale...
International audienceHigh-performance computing (HPC) is recognizedas one of the pillars for furthe...
High-performance computing (HPC) is recognized as one of the pillars for further advance of science,...
High-performance computing (HPC) is recognized as one of the pillars for further progress in science...
Any new technology will typically be tested and assessed in a prototype system before it is rolled o...
The paper presents state of the art of energy-aware high-performance computing (HPC), in particular ...
High Performance Computing (HPC) has become an indispensable tool for the scientific community to pe...
Energy consumption\u27s increasing importance in scientific computing has driven an interest in deve...
This document contains an analysis of a major survey of HPC systems and applications across the PRAC...
Thesis (Ph.D.)--Boston UniversityMany-core systems, ranging from small-scale many-core processors to...
This report supplements deliverable D9.3.3 and covers future technology prototype efforts from March...
HPC (High Performance Computing) represents, together with theory and experiments, the third pillar ...
High-performance computing (HPC) is recognized as one of the pillars for further progress in science...
Due to the increasing role of energy costs and growing heat density of servers, cooling issues are b...
Due to the increasing role of energy costs and growing heat density of servers, cooling issues are b...
High Performance Computing (HPC) is experiencing vast amount of changes in the road towards Exascale...
International audienceHigh-performance computing (HPC) is recognizedas one of the pillars for furthe...
High-performance computing (HPC) is recognized as one of the pillars for further advance of science,...
High-performance computing (HPC) is recognized as one of the pillars for further progress in science...
Any new technology will typically be tested and assessed in a prototype system before it is rolled o...
The paper presents state of the art of energy-aware high-performance computing (HPC), in particular ...
High Performance Computing (HPC) has become an indispensable tool for the scientific community to pe...
Energy consumption\u27s increasing importance in scientific computing has driven an interest in deve...
This document contains an analysis of a major survey of HPC systems and applications across the PRAC...
Thesis (Ph.D.)--Boston UniversityMany-core systems, ranging from small-scale many-core processors to...