Increasing Magic Pocket write throughput by removing our SSD cache disks

摘要

When Magic Pocket adopted SMR drives in 2017, one of the design decisions was to use SSDs as a write-back cache for live writes. The main motivation was that SMR disks have a reputation for being slower for random writes than their PMR counterparts. To compensate, live writes to Magic Pocket were committed to SSDs first and acknowledgements were sent to upstream services immediately. An asynchronous background process would then flush a set of these random writes to SMR disks as sequential writes. Using this approach, Magic Pocket was able to support higher disk densities while maintaining our durability and availability guarantees.

The design worked well for us over the years. Our newer generation storage platforms were able to support disks with greater density (14-20 TB per disk). A single storage host—with more than 100 such data disks and a single SSD—was able to support 1.5-2 PBs of raw data. But as data density increased, we started to hit limits with maximum write throughput per host. This was primarily because all live writes would pass through a single SSD.

We found each host's write throughput was limited by the max write throughput of its SSD. Even the adoption of NVMe-based SSD drives wasn't enough to keep up with Magic Pocket’s scale. While a typical NVMe based SSD can handle up to 15-20 Gbps in write throughput, this was still far lower than the cumulative disk throughput of hundreds of disks on a single one of our hosts.

This bottleneck only became more apparent as the density of our storage hosts increased. While higher density storage hosts meant we needed fewer servers, our throughput remained unchanged—meaning our SSDs had to handle even more writes than before to keep up with Magic Pocket’s needs.

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