Rearchitecting Linux Storage Stack for µs Latency and High Throughput

Rearchitecting Linux Storage Stack for µs Latency and High Throughput

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Widespread belief: Linux can't achieve ps-scale latency & high throughput

2 of 13

2 of 13

Widespread belief: Linux can't achieve ps-scale latency & high throughput

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Rearchitecting Linux Storage Stack for µs Latency and High Throughput

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  1. 1 Intro
  2. 2 Widespread belief: Linux can't achieve ps-scale latency & high throughput
  3. 3 Performance of Existing Storage Stacks Applications accessing in-memory data in remote servers (single-core case)
  4. 4 blk-switch Summary
  5. 5 blk-switch Key Insight • Observation: Today's Linux storage stack is conceptually similar to network switches!
  6. 6 A deeper dive into blk-switch architecture
  7. 7 blk-switch Prioritization
  8. 8 blk-switch Request Steering for transient loads
  9. 9 blk-switch Application Steering for persistent loads
  10. 10 blk-switch Evaluation Setup • Implemented entirely in the Linux kernel with minimal changes (LOC-928)
  11. 11 High Contention Scenario (In-memory)
  12. 12 blk-switch Performance Breakdown
  13. 13 Summary . It is possible to achieve pes-scale latency and high throughput with Linux

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