As HPC systems continue to grow to exascale, the amount of data that needs to be saved or transmitted is exploding. To this end, many previous works have studied using error-bounded lossy compressors to reduce the data size and improve the I/O performance. However, little work has been done for effectively offloading lossy compression onto FPGA-based SmartNICs to reduce the compression overhead. In this paper, we propose a hardware-algorithm codesign for an efficient and adaptive lossy compressor for scientific data on FPGAs (called CEAZ), which is the first lossy compressor that can achieve high compression ratios and throughputs simultaneously. Specifically, we propose an efficient Huffman coding approach that can adaptively update Huffma...
With the ever-increasing volumes of data produced by today\u27s large-scale scientific simulations, ...
This thesis aims to understand how to design high-performance compression algorithms suitable for ha...
Extremely large scale scientific simulation applications have been very important in many scientific...
Error-bounded lossy compression is critical to the success of extreme-scale scientific research beca...
Error-bounded lossy compression is a state-of-the-art data reduction technique for HPC applications ...
Hardware accelerators such as GPUs and FPGAs can often provide enormous computing capabilities and p...
Today\u27s scientific high-performance computing applications and advanced instruments are producing...
Because of the ever-increasing execution scale of scientific applications, how to store the extremel...
Because of the ever-increasing data being produced by today\u27s high performance computing (HPC) sc...
Today’s high-performance computing (HPC) applications are producing vast volumes of data, which are ...
Today\u27s scientific simulations require a significant reduction of the data size because of extrem...
High Performance Computing (HPC) applications are always expanding in data size and computational co...
This thesis investigates how to improve the performance of lossless data compression hardware as a t...
PCIe is a high-performing interface used to move data from a central host PC to an accelerator such ...
Today\u27s extreme-scale high-performance computing (HPC) applications are producing volumes of data...
With the ever-increasing volumes of data produced by today\u27s large-scale scientific simulations, ...
This thesis aims to understand how to design high-performance compression algorithms suitable for ha...
Extremely large scale scientific simulation applications have been very important in many scientific...
Error-bounded lossy compression is critical to the success of extreme-scale scientific research beca...
Error-bounded lossy compression is a state-of-the-art data reduction technique for HPC applications ...
Hardware accelerators such as GPUs and FPGAs can often provide enormous computing capabilities and p...
Today\u27s scientific high-performance computing applications and advanced instruments are producing...
Because of the ever-increasing execution scale of scientific applications, how to store the extremel...
Because of the ever-increasing data being produced by today\u27s high performance computing (HPC) sc...
Today’s high-performance computing (HPC) applications are producing vast volumes of data, which are ...
Today\u27s scientific simulations require a significant reduction of the data size because of extrem...
High Performance Computing (HPC) applications are always expanding in data size and computational co...
This thesis investigates how to improve the performance of lossless data compression hardware as a t...
PCIe is a high-performing interface used to move data from a central host PC to an accelerator such ...
Today\u27s extreme-scale high-performance computing (HPC) applications are producing volumes of data...
With the ever-increasing volumes of data produced by today\u27s large-scale scientific simulations, ...
This thesis aims to understand how to design high-performance compression algorithms suitable for ha...
Extremely large scale scientific simulation applications have been very important in many scientific...