Computational fluid dynamic simulations involve large state data, leading to performance degradation due to data transfer times, while requiring large disk space. To alleviate the situation, an adaptive lossy compression algorithm has been developed, which is based on regions of interest. This algorithm uses prediction-based compression and exploits the temporal coherence between subsequent simulation frames. The difference between the actual value and the predicted value is adaptively quantized and encoded. The adaptation is in line with user requirements, that consist of the acceptable inaccuracy, the regions of interest and the required compression throughput. The data compression algorithm was evaluated with simulation data obtained by ...
We present our current research on lossy data compression with adaptive mesh refinement techniques. ...
This dissertation is divided into two parts. The first part is concerned with developing algorithms ...
Molecular dynamics (MD) has been widely used in today\u27s scientific research across multiple domai...
This paper examines whether lossy compression can be used effectively in physics simulations as a po...
Because of the ever-increasing data being produced by today\u27s high performance computing (HPC) sc...
Today\u27s scientific simulations require a significant reduction of the data size because of extrem...
An effective data compressor is becoming increasingly critical to today\u27s scientific research, an...
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, ...
In today’s extreme-scale scientific simulations, vast volumes of data are being produced such that t...
Extremely large scale scientific simulation applications have been very important in many scientific...
Today\u27s N-body simulations are producing extremely large amounts of data. The Hardware/Hybrid Acc...
Cosmological simulations may produce extremely large amount of data, such that its successful run de...
Large-scale numerical simulations of high-intensity focused ultrasound (HIFU), important for model-b...
Applications in scientific computing operate with high-volume numerical data and the occupied space ...
We present our current research on lossy data compression with adaptive mesh refinement techniques. ...
This dissertation is divided into two parts. The first part is concerned with developing algorithms ...
Molecular dynamics (MD) has been widely used in today\u27s scientific research across multiple domai...
This paper examines whether lossy compression can be used effectively in physics simulations as a po...
Because of the ever-increasing data being produced by today\u27s high performance computing (HPC) sc...
Today\u27s scientific simulations require a significant reduction of the data size because of extrem...
An effective data compressor is becoming increasingly critical to today\u27s scientific research, an...
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, ...
In today’s extreme-scale scientific simulations, vast volumes of data are being produced such that t...
Extremely large scale scientific simulation applications have been very important in many scientific...
Today\u27s N-body simulations are producing extremely large amounts of data. The Hardware/Hybrid Acc...
Cosmological simulations may produce extremely large amount of data, such that its successful run de...
Large-scale numerical simulations of high-intensity focused ultrasound (HIFU), important for model-b...
Applications in scientific computing operate with high-volume numerical data and the occupied space ...
We present our current research on lossy data compression with adaptive mesh refinement techniques. ...
This dissertation is divided into two parts. The first part is concerned with developing algorithms ...
Molecular dynamics (MD) has been widely used in today\u27s scientific research across multiple domai...