In high-performance computing, storage is a shared resource and used by all users with many different application requirements and knowledge of storage. Consequently, the optimal storage configuration varies according to the I/O behavior of each application. While system logs are helpful resources in understanding the storage behavior, it is non-trivial for each user to analyze the logs and adjust complex configurations. Even for experienced users, it is difficult to understand the full stack of I/O systems and find the optimal configuration for the specific application. In this work, we analyzed the I/O activities of CORI which is an HPC system in National Energy Research Scientific Computing Center (NERSC). The result of our analysis show...
International audience—As we move toward the exascale era, performance variability in HPC systems re...
To increase the scale and performance of scientific applications, scientists commonly distribute com...
In-system solid state storage is expected to be an important component of the I/O subsystem on the f...
In this work, we have analyzed the input/output (I/O) activities of Cori, which is a high-performanc...
Two key changes are driving an immediate need for deeper understanding of I/O workloads in high-perf...
High performance computing (HPC) is changing the way science is performed in the 21st Century; exper...
Applications on current large-scale HPC systems use enormous numbers of processing elements for thei...
Applications on current large-scale HPC systems use enormous numbers of processing elements for thei...
Traditionally storage has not been part of a programming model’s semantics and is added only as an I...
Computing systems are becoming increasingly data-intensive because of the explosion of data and the ...
The control of I/O by traditional file systems and virtual memory systems can result in substantial ...
More and more parallel applications are running in a distributed environment to take advantage of ea...
The computing power of high-performance computing (HPC) systems is increasing with a rapid growth in...
Abstract. I/O intensive applications have posed great challenges to computational scientists. A majo...
Abstract—Massively parallel applications often require periodic data checkpointing for program resta...
International audience—As we move toward the exascale era, performance variability in HPC systems re...
To increase the scale and performance of scientific applications, scientists commonly distribute com...
In-system solid state storage is expected to be an important component of the I/O subsystem on the f...
In this work, we have analyzed the input/output (I/O) activities of Cori, which is a high-performanc...
Two key changes are driving an immediate need for deeper understanding of I/O workloads in high-perf...
High performance computing (HPC) is changing the way science is performed in the 21st Century; exper...
Applications on current large-scale HPC systems use enormous numbers of processing elements for thei...
Applications on current large-scale HPC systems use enormous numbers of processing elements for thei...
Traditionally storage has not been part of a programming model’s semantics and is added only as an I...
Computing systems are becoming increasingly data-intensive because of the explosion of data and the ...
The control of I/O by traditional file systems and virtual memory systems can result in substantial ...
More and more parallel applications are running in a distributed environment to take advantage of ea...
The computing power of high-performance computing (HPC) systems is increasing with a rapid growth in...
Abstract. I/O intensive applications have posed great challenges to computational scientists. A majo...
Abstract—Massively parallel applications often require periodic data checkpointing for program resta...
International audience—As we move toward the exascale era, performance variability in HPC systems re...
To increase the scale and performance of scientific applications, scientists commonly distribute com...
In-system solid state storage is expected to be an important component of the I/O subsystem on the f...