Research on flash devices almost exclusively focuses on conventional SSDs, which expose a block interface. Industry, however, has standardized and is adopting Zoned Namespaces (ZNS) SSDs, which offer a new storage interface that dominates conventional SSDs. Continued research on conventional SSDs is thus a missed opportunity to unlock a step-change improvement in system performance by building on ZNS SSDs. We argue for an immediate and complete shift in research to ZNS SSDs and discuss research directions
Modern storage systems are built upon the assumption that the capacity of a storage device does not ...
Modern solid state drives (SSDs) unnecessarily confine applications to the conventional block I/O in...
This report makes a case for more expressive interfaces between operating systems (OSes) and storage...
The standardization of NVMe Zoned Namespaces (ZNS) in the NVMe 2.0 specification presents a unique n...
International audienceSolid State Drives (SSDs) are replacing magnetic disks assecondary storage for...
Solid-state drives (SSDs) faced an astonishing development in the last few years, becoming the corne...
The database storage hierarchy has been heavily optimized for the performance characteristics of dis...
Solid State Drives (SSDs) are gaining momentum in enterprise and client applications, replacing Hard...
Most SSDs (solid-state drives) use an internal DRAM (Dynamic Random Access Memory) to improve the I/...
Flash SSDs are becoming the primary storage technology for single servers and large data centers. In...
With the advent of high performing NVMe SSDs, the bottleneck of system performance is shifting away ...
Due to their many advantages, flash-based SSDs (Solid-State Drives) have become a mainstream alterna...
The increase of the quantity of data that needs to be stored gave rise to different storage media. F...
New developments in hardware storage technology introduce fundamentally different performance charac...
Flash-based solid-state drives have revolutionized stor-age with their high performance. Their sophi...
Modern storage systems are built upon the assumption that the capacity of a storage device does not ...
Modern solid state drives (SSDs) unnecessarily confine applications to the conventional block I/O in...
This report makes a case for more expressive interfaces between operating systems (OSes) and storage...
The standardization of NVMe Zoned Namespaces (ZNS) in the NVMe 2.0 specification presents a unique n...
International audienceSolid State Drives (SSDs) are replacing magnetic disks assecondary storage for...
Solid-state drives (SSDs) faced an astonishing development in the last few years, becoming the corne...
The database storage hierarchy has been heavily optimized for the performance characteristics of dis...
Solid State Drives (SSDs) are gaining momentum in enterprise and client applications, replacing Hard...
Most SSDs (solid-state drives) use an internal DRAM (Dynamic Random Access Memory) to improve the I/...
Flash SSDs are becoming the primary storage technology for single servers and large data centers. In...
With the advent of high performing NVMe SSDs, the bottleneck of system performance is shifting away ...
Due to their many advantages, flash-based SSDs (Solid-State Drives) have become a mainstream alterna...
The increase of the quantity of data that needs to be stored gave rise to different storage media. F...
New developments in hardware storage technology introduce fundamentally different performance charac...
Flash-based solid-state drives have revolutionized stor-age with their high performance. Their sophi...
Modern storage systems are built upon the assumption that the capacity of a storage device does not ...
Modern solid state drives (SSDs) unnecessarily confine applications to the conventional block I/O in...
This report makes a case for more expressive interfaces between operating systems (OSes) and storage...