Error-bounded lossy compression is critical to the success of extreme-scale scientific research because of ever-increasing volumes of data produced by today’s high-performance computing (HPC) applications. Not only can error-controlled lossy compressors significantly reduce the I/O and storage burden but they can retain high data fidelity for post analysis. Existing state-of-the-art lossy compressors, however, generally suffer from relatively low compression and decompression throughput (up to hundreds of megabytes per second on a single CPU core), which considerably restrict the adoption of lossy compression by many HPC applications especially those with a fairly high data production rate. In this paper, we propose a highly efficient lossy...
Error-controlled lossy compression has been studied for years because of extremely large volumes of ...
Architectural and technological trends of systems used for scientific computing call for a significa...
Scientific research generates vast amounts of data, and the scale of data has significantly increase...
Today\u27s scientific high-performance computing applications and advanced instruments are producing...
As HPC systems continue to grow to exascale, the amount of data that needs to be saved or transmitte...
Error-bounded lossy compression is a state-of-the-art data reduction technique for HPC applications ...
Today\u27s extreme-scale high-performance computing (HPC) applications are producing volumes of data...
Today\u27s scientific simulations require a significant reduction of the data size because of extrem...
Because of the ever-increasing data being produced by today\u27s high performance computing (HPC) sc...
Hardware accelerators such as GPUs and FPGAs can often provide enormous computing capabilities and p...
Today's scientific simulations are producing vast volumes of data that cannot be stored and transfer...
With the ever-increasing volumes of data produced by today\u27s large-scale scientific simulations, ...
Because of the ever-increasing execution scale of scientific applications, how to store the extremel...
High Performance Computing (HPC) applications are always expanding in data size and computational co...
Extremely large scale scientific simulation applications have been very important in many scientific...
Error-controlled lossy compression has been studied for years because of extremely large volumes of ...
Architectural and technological trends of systems used for scientific computing call for a significa...
Scientific research generates vast amounts of data, and the scale of data has significantly increase...
Today\u27s scientific high-performance computing applications and advanced instruments are producing...
As HPC systems continue to grow to exascale, the amount of data that needs to be saved or transmitte...
Error-bounded lossy compression is a state-of-the-art data reduction technique for HPC applications ...
Today\u27s extreme-scale high-performance computing (HPC) applications are producing volumes of data...
Today\u27s scientific simulations require a significant reduction of the data size because of extrem...
Because of the ever-increasing data being produced by today\u27s high performance computing (HPC) sc...
Hardware accelerators such as GPUs and FPGAs can often provide enormous computing capabilities and p...
Today's scientific simulations are producing vast volumes of data that cannot be stored and transfer...
With the ever-increasing volumes of data produced by today\u27s large-scale scientific simulations, ...
Because of the ever-increasing execution scale of scientific applications, how to store the extremel...
High Performance Computing (HPC) applications are always expanding in data size and computational co...
Extremely large scale scientific simulation applications have been very important in many scientific...
Error-controlled lossy compression has been studied for years because of extremely large volumes of ...
Architectural and technological trends of systems used for scientific computing call for a significa...
Scientific research generates vast amounts of data, and the scale of data has significantly increase...