Cosmological simulations may produce extremely large amount of data, such that its successful run depends on large storage capacity and huge I/O bandwidth, especially in the exascale computing scale. Effective error-bounded lossy compressors with both high compression ratios and low data distortion can significantly reduce the total data size while guaranteeing the data valid for post-analysis. In this poster, we propose a novel, efficient compression model for cosmological N-body simulation framework, by combining the advantages of both space-based compression and time-based compression. The evaluation with a well-known cosmological simulation code shows that our proposed solution can get much higher compression quality than other existing...
Large data-sets defined on the sphere arise in many fields. In particular, recent and forthcoming ob...
Astrophysical research in recent decades has made significant progress thanks to the availability of...
We report on improvements made over the past two decades to our adaptive treecode N-body method (HOT...
Today\u27s N-body simulations are producing extremely large amounts of data. The Hardware/Hybrid Acc...
Extremely large scale scientific simulation applications have been very important in many scientific...
An effective data compressor is becoming increasingly critical to today\u27s scientific research, an...
In today’s extreme-scale scientific simulations, vast volumes of data are being produced such that t...
This paper examines whether lossy compression can be used effectively in physics simulations as a po...
Today\u27s scientific simulations require a significant reduction of the data size because of extrem...
Context. Future large scale cosmological surveys will provide huge data sets whose analysi...
Today's scientific simulations are producing vast volumes of data that cannot be stored and transfer...
Large data-sets defined on the sphere arise in many fields. In particular, recent and forthcoming ob...
Because of the ever-increasing data being produced by today\u27s high performance computing (HPC) sc...
As the volume of data grows, astronomers are increasingly faced with choices on what data to keep --...
International audienceThe next generation of research experiments will introduce a huge data surge t...
Large data-sets defined on the sphere arise in many fields. In particular, recent and forthcoming ob...
Astrophysical research in recent decades has made significant progress thanks to the availability of...
We report on improvements made over the past two decades to our adaptive treecode N-body method (HOT...
Today\u27s N-body simulations are producing extremely large amounts of data. The Hardware/Hybrid Acc...
Extremely large scale scientific simulation applications have been very important in many scientific...
An effective data compressor is becoming increasingly critical to today\u27s scientific research, an...
In today’s extreme-scale scientific simulations, vast volumes of data are being produced such that t...
This paper examines whether lossy compression can be used effectively in physics simulations as a po...
Today\u27s scientific simulations require a significant reduction of the data size because of extrem...
Context. Future large scale cosmological surveys will provide huge data sets whose analysi...
Today's scientific simulations are producing vast volumes of data that cannot be stored and transfer...
Large data-sets defined on the sphere arise in many fields. In particular, recent and forthcoming ob...
Because of the ever-increasing data being produced by today\u27s high performance computing (HPC) sc...
As the volume of data grows, astronomers are increasingly faced with choices on what data to keep --...
International audienceThe next generation of research experiments will introduce a huge data surge t...
Large data-sets defined on the sphere arise in many fields. In particular, recent and forthcoming ob...
Astrophysical research in recent decades has made significant progress thanks to the availability of...
We report on improvements made over the past two decades to our adaptive treecode N-body method (HOT...