Data/software underlying the publication: Fault-tolerant structures for measurement-based quantum computation on a network

doi:10.4121/929e24f9-31fa-4816-99fa-3356e272df43.v1
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doi: 10.4121/929e24f9-31fa-4816-99fa-3356e272df43
Datacite citation style:
van Montfort, Yves; de Bone, Sebastian; Elkouss, David (2024): Data/software underlying the publication: Fault-tolerant structures for measurement-based quantum computation on a network. Version 1. 4TU.ResearchData. dataset. https://doi.org/10.4121/929e24f9-31fa-4816-99fa-3356e272df43.v1
Other citation styles (APA, Harvard, MLA, Vancouver, Chicago, IEEE) available at Datacite
Dataset

In this work, we introduce a method to construct fault-tolerant measurement-based quantum computation (MBQC) architectures and numerically estimate their performance over various types of networks. A possible application of such a paradigm is distributed quantum computation, where separate computing nodes work together on a fault-tolerant computation through entanglement. We gauge error thresholds of the architectures with an efficient stabilizer simulator to investigate the resilience against both circuit-level and network noise. We show that, for both monolithic (i.e., non-distributed) and distributed implementations, an architecture based on the diamond lattice may outperform the conventional cubic lattice. Moreover, the high erasure thresholds of non-cubic lattices may be exploited further in a distributed context, as their performance may be boosted through entanglement distillation by trading in entanglement success rates against erasure errors during the error decoding process. These results highlight the significance of lattice geometry in the design of fault-tolerant measurement-based quantum computing on a network, emphasizing the potential for constructing robust and scalable distributed quantum computers.

history
  • 2024-01-19 first online, published, posted
publisher
4TU.ResearchData
format
.py; .json; .pdf; .ipynb
funding
  • Quantum Software Consortium (grant code 024.003.037) [more info...] Dutch Research Council
  • Joint research program "Modular quantum computers" by Fujitsu Limited and Delft University of Technology
organizations
QuTech, Delft University of Technology;
QuSoft, CWI Amsterdam;
Okinawa Institute of Science and Technology Graduate University

DATA

files (1)