Today\u27s N-body simulations are producing extremely large amounts of data. The Hardware/Hybrid Accelerated Cosmology Code (HACC), for example, may simulate trillions of particles, producing tens of petabytes of data to store in a parallel file system, according to the HACC users. In this paper, we design and implement an efficient, in situ error-bounded lossy compressor to significantly reduce the data size for N-body simulations. Not only can our compressor save significant storage space for N-body simulation researchers, but it can also improve the I/O performance considerably with limited memory and computation overhead. Our contribution is threefold. (1) We propose an efficient data compression model by leveraging the consecutiveness ...
Astrophysical research in recent decades has made significant progress thanks to the availability of...
Bringing a high-dimensional dataset into science-ready shape is a formidable challenge that often ne...
We report on improvements made over the past two decades to our adaptive treecode N-body method (HOT...
Cosmological simulations may produce extremely large amount of data, such that its successful run de...
Extremely large scale scientific simulation applications have been very important in many scientific...
Today's scientific simulations are producing vast volumes of data that cannot be stored and transfer...
An effective data compressor is becoming increasingly critical to today\u27s scientific research, an...
Today\u27s scientific simulations require a significant reduction of the data size because of extrem...
In today’s extreme-scale scientific simulations, vast volumes of data are being produced such that t...
Molecular dynamics (MD) has been widely used in today\u27s scientific research across multiple domai...
Because of the ever-increasing data being produced by today\u27s high performance computing (HPC) sc...
With the ever-increasing volumes of data produced by today\u27s large-scale scientific simulations, ...
This paper examines whether lossy compression can be used effectively in physics simulations as a po...
Research within the physical sciences is becoming increasingly dependent on the ability to create co...
International audienceThe next generation of research experiments will introduce a huge data surge t...
Astrophysical research in recent decades has made significant progress thanks to the availability of...
Bringing a high-dimensional dataset into science-ready shape is a formidable challenge that often ne...
We report on improvements made over the past two decades to our adaptive treecode N-body method (HOT...
Cosmological simulations may produce extremely large amount of data, such that its successful run de...
Extremely large scale scientific simulation applications have been very important in many scientific...
Today's scientific simulations are producing vast volumes of data that cannot be stored and transfer...
An effective data compressor is becoming increasingly critical to today\u27s scientific research, an...
Today\u27s scientific simulations require a significant reduction of the data size because of extrem...
In today’s extreme-scale scientific simulations, vast volumes of data are being produced such that t...
Molecular dynamics (MD) has been widely used in today\u27s scientific research across multiple domai...
Because of the ever-increasing data being produced by today\u27s high performance computing (HPC) sc...
With the ever-increasing volumes of data produced by today\u27s large-scale scientific simulations, ...
This paper examines whether lossy compression can be used effectively in physics simulations as a po...
Research within the physical sciences is becoming increasingly dependent on the ability to create co...
International audienceThe next generation of research experiments will introduce a huge data surge t...
Astrophysical research in recent decades has made significant progress thanks to the availability of...
Bringing a high-dimensional dataset into science-ready shape is a formidable challenge that often ne...
We report on improvements made over the past two decades to our adaptive treecode N-body method (HOT...