Modern storage systems often combine fast cache with slower backend devices to accelerate I/O. As performance gaps narrow, concurrently accessing both devices, rather than relying solely on cache hits, can improve throughput. However, in data centers, remote backend storage accessed over networks suffers from unpredictable contention, complicating this split. We present NetCAS, a framework that dynamically splits I/O between cache and backend devices based on real-time network feedback and a precomputed Perf Profile. Unlike traditional hit-rate-based policies, NetCAS adapts split ratios to workload configuration and networking performance. NetCAS employs a low-overhead batched round-robin scheduler to enforce splits, avoiding per-request costs. It achieves up to 174% higher performance than traditional caching in remote storage environments and outperforms converging schemes like Orthus by up to 3.5X under fluctuating network conditions.
@article{arxiv.2510.02323,
title = {NetCAS: Dynamic Cache and Backend Device Management in Networked Environments},
author = {Joon Yong Hwang and Chanseo Park and Younghoon Kim},
journal= {arXiv preprint arXiv:2510.02323},
year = {2026}
}
Comments
12 pages, 12 figures, submitted to IEEE CLOUD 2026