1 research outputs found
The Design and Implementation of a High-Performance Log-Structured RAID System for ZNS SSDs
Zoned Namespace (ZNS) defines a new abstraction for host software to flexibly
manage storage in flash-based SSDs as append-only zones. It also provides a
Zone Append primitive to further boost the write performance of ZNS SSDs by
exploiting intra-zone parallelism. However, making Zone Append effective for
reliable and scalable storage, in the form of a RAID array of multiple ZNS
SSDs, is non-trivial since Zone Append offloads address management to ZNS SSDs
and requires hosts to dedicatedly manage RAID stripes across multiple drives.
We propose ZapRAID, a high-performance log-structured RAID system for ZNS SSDs
by carefully exploiting Zone Append to achieve high write parallelism and
lightweight stripe management. ZapRAID adopts a group-based data layout with a
coarse-grained ordering across multiple groups of stripes, such that it can use
small-size metadata for stripe management on a per-group basis under Zone
Append. It further adopts hybrid data management to simultaneously achieve
intra-zone and inter-zone parallelism through a careful combination of both
Zone Append and Zone Write primitives. We evaluate ZapRAID using
microbenchmarks, trace-driven experiments, and real-application experiments.
Our evaluation results show that ZapRAID achieves high write throughput and
maintains high performance in normal reads, degraded reads, crash recovery, and
full-drive recovery.Comment: 29 page