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Micro Blossom: Accelerated Minimum-Weight Perfect Matching Decoding for Quantum Error Correction

Hardware Architecture 2025-02-21 v1 Quantum Physics

Abstract

Minimum-Weight Perfect Matching (MWPM) decoding is important to quantum error correction decoding because of its accuracy. However, many believe that it is difficult, if possible at all, to achieve the microsecond latency requirement posed by superconducting qubits. This work presents the first publicly known MWPM decoder, called Micro Blossom, that achieves sub-microsecond decoding latency. Micro Blossom employs a heterogeneous architecture that carefully partitions a state-of-the-art MWPM decoder between software and a programmable accelerator with parallel processing units, one of each vertex/edge of the decoding graph. On a surface code with code distance dd and a circuit-level noise model with physical error rate pp, Micro Blossom's accelerator employs O(d3)O(d^3) parallel processing units to reduce the worst-case latency from O(d12)O(d^{12}) to O(d9)O(d^9) and reduce the average latency from O(pd3+1)O(p d^3+1) to O(p2d2+1)O(p^2 d^2+1) when p1p \ll 1. We report a prototype implementation of Micro Blossom using FPGA. Measured at d=13d=13 and p=0.1%p=0.1\%, the prototype achieves an average decoding latency of 0.8μs0.8 \mu s at a moderate clock frequency of 62MHz62 MHz. Micro Blossom is the first publicly known hardware-accelerated exact MWPM decoder, and the decoding latency of 0.8μs0.8 \mu s is 8 times shorter than the best latency of MWPM decoder implementations reported in the literature.

Keywords

Cite

@article{arxiv.2502.14787,
  title  = {Micro Blossom: Accelerated Minimum-Weight Perfect Matching Decoding for Quantum Error Correction},
  author = {Yue Wu and Namitha Liyanage and Lin Zhong},
  journal= {arXiv preprint arXiv:2502.14787},
  year   = {2025}
}

Comments

to be published in ASPLOS 2025

R2 v1 2026-06-28T21:51:43.547Z