Exascale computing systems are soon to emerge, which will pose great challenges on the huge gap between computing and I/O performance. Many large-scale scientific applications play an important role in our daily life. The huge amounts of data generated by such applications require highly parallel and efficient I/O management policies. In this paper, we adopt a mission-critical scientific application, GEOS-5, as a case to profile and analyze the communication and I/O issues that are preventing applications from fully utilizing the underlying parallel storage systems. Through in-detail architectural and experimental characterization, we observe that current legacy I/O schemes incur significant network communication overheads and are unable to...
High-performance computing increasingly occurs on “computational grids” composed of heterogeneous an...
The efficient, convenient, and robust execution of data-driven workflows and enhanced data manageme...
This work was supported in part by the U.S. Department of Energy, Office of Science, Advanced Scient...
In the era of petascale computing, more scientific applications are being deployed on leadership sca...
Earth system models (ESMs) have increased the spatial resolution to achieve more accurate solutions,...
Reading and writing big data is increasingly becoming a major bottleneck of using high-performance c...
Scientific applications are increasingly being implemented on massively parallel supercomputers. Man...
Rapid increases in the computational speeds of multiprocessors have not been matched by correspondin...
This master's thesis analyzes the I/O process of IFS. It is presented an easy-to-use development tha...
Rapid increases in the computational speeds of multiprocessors have not been matched by correspondin...
High performance computing (HPC) is changing the way science is performed in the 21st Century; exper...
By 2020, astronomy will be awash with as much as 60 PB of public data. Full scientific exploitation ...
Advanced computing and sensing technologies enable scientists to study natural and physical phenomen...
Dealing with extreme scale Earth-system models is challenging from the computer science perspective,...
Many scientific applications have intense computational and I/O requirements. Although multiprocesso...
High-performance computing increasingly occurs on “computational grids” composed of heterogeneous an...
The efficient, convenient, and robust execution of data-driven workflows and enhanced data manageme...
This work was supported in part by the U.S. Department of Energy, Office of Science, Advanced Scient...
In the era of petascale computing, more scientific applications are being deployed on leadership sca...
Earth system models (ESMs) have increased the spatial resolution to achieve more accurate solutions,...
Reading and writing big data is increasingly becoming a major bottleneck of using high-performance c...
Scientific applications are increasingly being implemented on massively parallel supercomputers. Man...
Rapid increases in the computational speeds of multiprocessors have not been matched by correspondin...
This master's thesis analyzes the I/O process of IFS. It is presented an easy-to-use development tha...
Rapid increases in the computational speeds of multiprocessors have not been matched by correspondin...
High performance computing (HPC) is changing the way science is performed in the 21st Century; exper...
By 2020, astronomy will be awash with as much as 60 PB of public data. Full scientific exploitation ...
Advanced computing and sensing technologies enable scientists to study natural and physical phenomen...
Dealing with extreme scale Earth-system models is challenging from the computer science perspective,...
Many scientific applications have intense computational and I/O requirements. Although multiprocesso...
High-performance computing increasingly occurs on “computational grids” composed of heterogeneous an...
The efficient, convenient, and robust execution of data-driven workflows and enhanced data manageme...
This work was supported in part by the U.S. Department of Energy, Office of Science, Advanced Scient...