In this paper, we describe the collection and analysis of file system traces from a variety of different environ-ments, including both UNIX and NT systems, clients and servers, and instructional and production systems. Our goal is to understand how modern workloads affect the ability of file systems to provide high performance to users. Because of the increasing gap between processor speed and disk latency, file system performance is largely determined by its disk behavior. Therefore we primarily focus on the disk I/O aspects of the traces. We find that more processes access files via the memory-map interface than through the read interface. However, because many processes memory-map a small set of files, these files are likely to be cached...
I/O workload is a critical and important factor to analyze I/O pattern and to maximize file system p...
As we move towards the Exactable era of supercomputing, node-level failures are becoming more common...
An efficient design for a distributed filesystem originates from a deep understanding of common acce...
Benchmarks are important because they provide a means for users and researchers to characterize how ...
Parallel scientific applications require high-performance I/O support from underlying file systems. ...
Parallel scientific applications require high-performance I/O support from underlying file systems. ...
We analyzed the UNIX 4.2 BSD file system by recording user-level activity in trace files and writing...
File system studies are critical to the accurate configuration, design, and continued evolution of s...
As mass storage technology becomes more affordable for sites smaller than supercomputer centers, un...
Most prior studies of distributed file systems have focussed on relatively small communities of user...
I/O has become the major bottleneck in application performance as processor speed has skyrocket over...
Phenomenal improvements in the computational performance of multiprocessors have not been matched by...
Benchmarking is critical when evaluating performance, but is especially difficult for file and stora...
An understanding of application I/O access patterns is useful in several situations. First, gaining ...
High-performance parallel file systems are needed to satisfy tremendous I/O requirements of parallel...
I/O workload is a critical and important factor to analyze I/O pattern and to maximize file system p...
As we move towards the Exactable era of supercomputing, node-level failures are becoming more common...
An efficient design for a distributed filesystem originates from a deep understanding of common acce...
Benchmarks are important because they provide a means for users and researchers to characterize how ...
Parallel scientific applications require high-performance I/O support from underlying file systems. ...
Parallel scientific applications require high-performance I/O support from underlying file systems. ...
We analyzed the UNIX 4.2 BSD file system by recording user-level activity in trace files and writing...
File system studies are critical to the accurate configuration, design, and continued evolution of s...
As mass storage technology becomes more affordable for sites smaller than supercomputer centers, un...
Most prior studies of distributed file systems have focussed on relatively small communities of user...
I/O has become the major bottleneck in application performance as processor speed has skyrocket over...
Phenomenal improvements in the computational performance of multiprocessors have not been matched by...
Benchmarking is critical when evaluating performance, but is especially difficult for file and stora...
An understanding of application I/O access patterns is useful in several situations. First, gaining ...
High-performance parallel file systems are needed to satisfy tremendous I/O requirements of parallel...
I/O workload is a critical and important factor to analyze I/O pattern and to maximize file system p...
As we move towards the Exactable era of supercomputing, node-level failures are becoming more common...
An efficient design for a distributed filesystem originates from a deep understanding of common acce...