Benchmarking is critical when evaluating performance, but is especially difficult for file and stor-age systems. Complex interactions between I/O devices, caches, kernel daemons, and other OS components result in behavior that is rather difficult to analyze. Moreover, systems have differ-ent features and optimizations, so no single benchmark is always suitable. The large variety of workloads that these systems experience in the real world also adds to this difficulty. In this article we survey 415 file system and storage benchmarks from 106 recent papers. We found that most popular benchmarks are flawed and many research papers do not provide a clear indication of true performance. We provide guidelines that we hope will improve future perf...
The aim of this work is to compare the performance of common local filesystems used in GNU/Linux ope...
As we move towards the Exactable era of supercomputing, node-level failures are becoming more common...
File system studies are critical to the accurate configuration, design, and continued evolution of s...
Benchmarking is critical when evaluating performance, but is especially difficult for file and stora...
A growing consensus in the community of file and storage system researchers and practitioners believ...
Benchmarks are important because they provide a means for users and researchers to characterize how ...
One of the most widely researched areas in operating systems is filesystem design, implementation, a...
Until recently archival storage tiers have consisted of tape-based devices with a large storage capa...
While mass storage systems have been used for several decades to store large quantities of scientifi...
In this paper, we describe the collection and analysis of file system traces from a variety of diffe...
There is a vast number and variety of file systems cur-rently available, each optimizing for an ever...
I/O has become the major bottleneck in application performance as processor speed has skyrocket over...
The file system technologies in discussion for this project include two installations of Intel DAOS ...
This paper presents guidelines for the design of a mass storage system benchmark suite, along with p...
File system benchmarking plays an essential part in assessing the file system’s performance. It is e...
The aim of this work is to compare the performance of common local filesystems used in GNU/Linux ope...
As we move towards the Exactable era of supercomputing, node-level failures are becoming more common...
File system studies are critical to the accurate configuration, design, and continued evolution of s...
Benchmarking is critical when evaluating performance, but is especially difficult for file and stora...
A growing consensus in the community of file and storage system researchers and practitioners believ...
Benchmarks are important because they provide a means for users and researchers to characterize how ...
One of the most widely researched areas in operating systems is filesystem design, implementation, a...
Until recently archival storage tiers have consisted of tape-based devices with a large storage capa...
While mass storage systems have been used for several decades to store large quantities of scientifi...
In this paper, we describe the collection and analysis of file system traces from a variety of diffe...
There is a vast number and variety of file systems cur-rently available, each optimizing for an ever...
I/O has become the major bottleneck in application performance as processor speed has skyrocket over...
The file system technologies in discussion for this project include two installations of Intel DAOS ...
This paper presents guidelines for the design of a mass storage system benchmark suite, along with p...
File system benchmarking plays an essential part in assessing the file system’s performance. It is e...
The aim of this work is to compare the performance of common local filesystems used in GNU/Linux ope...
As we move towards the Exactable era of supercomputing, node-level failures are becoming more common...
File system studies are critical to the accurate configuration, design, and continued evolution of s...