Ultimately the performance and success of a shingled write disk (SWD) will be determined by more than the physical hardware realized, but will depend on the data layouts employed, the workloads experienced, and the architecture of the overall system, including the level of interfaces provided by the devices to higher levels of system software. While we discuss several alternative layouts for use with SWD, we also discuss the dramatic implications of observed workloads. Example data access traces demonstrate the surprising stability of written device blocks, with a small fraction requiring multiple updates (the problematic operation for a shingled-write device). Specifically, we discuss how general purpose workloads can show that more than 9...
Abstract. In the last couple of years, hard-disk technology has experienced an unjustified progressi...
This paper explores the characteristics of solid state drives (SSDs) with regard to the probability ...
International audienceSolid State Drives (SSDs) are replacing magnetic disks assecondary storage for...
Ultimately the performance and success of a shingled write disk (SWD) will be determined by more tha...
If the data density of magnetic disks is to continue its current 30-50% annual growth, new recording...
magnetic recording, TDMR, will change core characteristics of magnetic disk operation and require sy...
The areal density growth of hard disk drives is hindered by the limits imposed by the laws of physic...
Abstract—To maintain the continuing growth of bit density in magnetic recording media, the disk indu...
Shingled Magnetic Recording technology is expected to play a major role in the next generation of ha...
Disk drives have seen a dramatic increase in storage density over the last five decades, but to cont...
Shingled-writing and two-dimensional magnetic recording, TDMR, will change core characteristics of m...
Shingled Magnetic Recording (SMR) is a means of increasing the density of hard drives that brings a ...
Shingled magnetic recording (SMR) is a means of increasing the density of hard drives that brings a ...
Shingled Magnetic Recording (SMR) is a means of increasing the density of hard drives that brings a ...
Shingled magnetic recording (SMR) is regarded as a promising technology for resolving the areal dens...
Abstract. In the last couple of years, hard-disk technology has experienced an unjustified progressi...
This paper explores the characteristics of solid state drives (SSDs) with regard to the probability ...
International audienceSolid State Drives (SSDs) are replacing magnetic disks assecondary storage for...
Ultimately the performance and success of a shingled write disk (SWD) will be determined by more tha...
If the data density of magnetic disks is to continue its current 30-50% annual growth, new recording...
magnetic recording, TDMR, will change core characteristics of magnetic disk operation and require sy...
The areal density growth of hard disk drives is hindered by the limits imposed by the laws of physic...
Abstract—To maintain the continuing growth of bit density in magnetic recording media, the disk indu...
Shingled Magnetic Recording technology is expected to play a major role in the next generation of ha...
Disk drives have seen a dramatic increase in storage density over the last five decades, but to cont...
Shingled-writing and two-dimensional magnetic recording, TDMR, will change core characteristics of m...
Shingled Magnetic Recording (SMR) is a means of increasing the density of hard drives that brings a ...
Shingled magnetic recording (SMR) is a means of increasing the density of hard drives that brings a ...
Shingled Magnetic Recording (SMR) is a means of increasing the density of hard drives that brings a ...
Shingled magnetic recording (SMR) is regarded as a promising technology for resolving the areal dens...
Abstract. In the last couple of years, hard-disk technology has experienced an unjustified progressi...
This paper explores the characteristics of solid state drives (SSDs) with regard to the probability ...
International audienceSolid State Drives (SSDs) are replacing magnetic disks assecondary storage for...