Scientific data generated at experimental and observational facilities are increasingly being processed on large-scale compute systems. Most of the experimental data analysis workflows are not designed or implemented to run on large scale environments and take full advantage of HPC compute and storage resources. These applications are unlike the traditional tightly-coupled scientific applications and hence face significant performance and scalability challenges as the volume of data increases exponentially. In this paper, we conduct a performance and scalability analysis for experimental analysis applications and workflows operating on data from light sources. Our analysis detects and quantifies I/O performance, scalability and runtime bo...
The scalability of performance tools in high performance computing has been lagging behind the growt...
High performance computing (HPC) is changing the way science is performed in the 21st Century; exper...
Concurrency levels in large-scale, distributed-memory supercomputers are rising exponentially. Moder...
Big data is prevalent in HPC computing. Many HPC projects rely on complex workflows to analyze terab...
Large science projects rely on complex workflows to analyze terabytes or petabytes of data. These jo...
Performance analysis tools are essential to the maintenance of efficient parallel execution of scien...
Performance analysis tools are essential to the maintenance of efficient parallel execution of scie...
Scientific discoveries are increasingly dependent upon the analysis of large volumes of data from ob...
The area of parallel and distributed computing has grown very fast in the past few decades with the ...
Supercomputing advances have enabled computational science data volumes to grow at ever increasing r...
Performance analysis tools allow application developers to identify and characterize the inefficienc...
The 2014 TOP500 supercomputer list includes over 40 deployed petascale systems, and the high perform...
The next-generation of supercomputers will feature a diverse mix of accelerator devices. The increas...
I/O is a fundamental determinant in the overall performance of physics analysis and other data-inten...
Abstract. I/O intensive applications have posed great challenges to computational scientists. A majo...
The scalability of performance tools in high performance computing has been lagging behind the growt...
High performance computing (HPC) is changing the way science is performed in the 21st Century; exper...
Concurrency levels in large-scale, distributed-memory supercomputers are rising exponentially. Moder...
Big data is prevalent in HPC computing. Many HPC projects rely on complex workflows to analyze terab...
Large science projects rely on complex workflows to analyze terabytes or petabytes of data. These jo...
Performance analysis tools are essential to the maintenance of efficient parallel execution of scien...
Performance analysis tools are essential to the maintenance of efficient parallel execution of scie...
Scientific discoveries are increasingly dependent upon the analysis of large volumes of data from ob...
The area of parallel and distributed computing has grown very fast in the past few decades with the ...
Supercomputing advances have enabled computational science data volumes to grow at ever increasing r...
Performance analysis tools allow application developers to identify and characterize the inefficienc...
The 2014 TOP500 supercomputer list includes over 40 deployed petascale systems, and the high perform...
The next-generation of supercomputers will feature a diverse mix of accelerator devices. The increas...
I/O is a fundamental determinant in the overall performance of physics analysis and other data-inten...
Abstract. I/O intensive applications have posed great challenges to computational scientists. A majo...
The scalability of performance tools in high performance computing has been lagging behind the growt...
High performance computing (HPC) is changing the way science is performed in the 21st Century; exper...
Concurrency levels in large-scale, distributed-memory supercomputers are rising exponentially. Moder...