Evaluating the Feasibility of Transaction Scheduling via Hardware Accelerators

Author(s)

Chomphoochan, Thanadol

Advisor

Chlipala, Adam

Abstract

As single-thread performance plateaus, modern systems increasingly rely on parallelism to scale throughput. Yet, efciently managing concurrency—particularly in transactional systems—remains a major bottleneck. This thesis explores the feasibility of accelerating transaction scheduling via hardware, leveraging FPGAs to ofoad scheduling logic from the CPU. We revisit Puppetmaster, a hardware transaction scheduler, and present a redesigned architecture emphasizing deployability, modularity, and evaluation. We implement both an optimized software baseline and a Bluespec-based hardware design, evaluating their performance across synthetic YCSB-style workloads with varying contention levels. Our hardware prototype demonstrates competitive throughput, achieving over 90% of peak throughput even under high-contention workloads. These results validate the potential of transaction scheduling as a target for hardware acceleration and highlight promising directions for future hybrid hardware-software concurrency-control systems.

Date issued

2025-05

URI

https://hdl.handle.net/1721.1/162741

Department

Massachusetts Institute of Technology. Department of Electrical Engineering and Computer Science

Publisher

Massachusetts Institute of Technology