For the last few years, the major driving force behind the rapid performance improvement of SSDs has been the increment of parallel bus channels between a flash controller and flash memory packages inside the solid-state drives (SSDs). However, there are other internal parallelisms inside SSDs yet to be explored. In order to improve performance further by utilizing the parallelism, this paper suggests request rescheduling and dynamic write request mapping. Simulation results with real workloads have shown that the suggested schemes improve the performance of the SSDs by up to 15% without any additional hardware support.close1
Solid-State Drives (SSDs) are data storage devices that use solid-state memory to store persistent d...
The past few decades have witnessed a chronic and widening imbalance among processor bandwidth, disk...
With the development of flash memory technology, flash-based solid state drives (SSDs) are gradually...
Abstract—Most researches of Solid State Drives (SSDs) archi-tectures rely on Flash Translation Layer...
algorithms and wear leveling; however, internal parallelism in Solid State Drives has not been well ...
Exploiting internal parallelism over hundreds NAND flash memory is becoming a key design issue in hi...
Abstract—Flash-based Solid-State Drives (SSDs) are data storage devices that use flash memory to sto...
Solid State Disks (SSDs) are superior to magnetic disks from a performance point of view due to the ...
Today, an SSD (Solid State Drive) is essentially a block device attached to a legacy host interface....
Flash memory, in the form of Solid State Drive (SSD), is being increasingly employed in mobile and e...
Abstract—SSDs (Solid State Drives, or flash disks) have been considered as ideal storage for various...
With the advent of high performing NVMe SSDs, the bottleneck of system performance is shifting away ...
NAND flash storage has proven to be a competitive alter-native to traditional disk for its propertie...
Part 7: Session 7: Best Paper – 2International audienceThe limited lifespan is the Achilles’s heel o...
Part 6: Poster SessionsInternational audienceNowadays, the architecture of solid-state drives (SSDs)...
Solid-State Drives (SSDs) are data storage devices that use solid-state memory to store persistent d...
The past few decades have witnessed a chronic and widening imbalance among processor bandwidth, disk...
With the development of flash memory technology, flash-based solid state drives (SSDs) are gradually...
Abstract—Most researches of Solid State Drives (SSDs) archi-tectures rely on Flash Translation Layer...
algorithms and wear leveling; however, internal parallelism in Solid State Drives has not been well ...
Exploiting internal parallelism over hundreds NAND flash memory is becoming a key design issue in hi...
Abstract—Flash-based Solid-State Drives (SSDs) are data storage devices that use flash memory to sto...
Solid State Disks (SSDs) are superior to magnetic disks from a performance point of view due to the ...
Today, an SSD (Solid State Drive) is essentially a block device attached to a legacy host interface....
Flash memory, in the form of Solid State Drive (SSD), is being increasingly employed in mobile and e...
Abstract—SSDs (Solid State Drives, or flash disks) have been considered as ideal storage for various...
With the advent of high performing NVMe SSDs, the bottleneck of system performance is shifting away ...
NAND flash storage has proven to be a competitive alter-native to traditional disk for its propertie...
Part 7: Session 7: Best Paper – 2International audienceThe limited lifespan is the Achilles’s heel o...
Part 6: Poster SessionsInternational audienceNowadays, the architecture of solid-state drives (SSDs)...
Solid-State Drives (SSDs) are data storage devices that use solid-state memory to store persistent d...
The past few decades have witnessed a chronic and widening imbalance among processor bandwidth, disk...
With the development of flash memory technology, flash-based solid state drives (SSDs) are gradually...