pasqal.com/newsroom/pasqal-releases-2025-roadmap/ (2025), accessed: 2026-02-18

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Heterogeneous architectures enable a 138x reduction in physical qubit requirements for fault-tolerant quantum computing under detailed accounting

quant-ph · 2026-04-07 · unverdicted · novelty 6.0

Heterogeneous quantum architectures with task-specific hardware and QEC encodings deliver up to 138x lower physical-qubit overhead than monolithic baselines for fault-tolerant algorithms, including RSA-2048 factoring at 190k-381k qubits.

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Heterogeneous architectures enable a 138x reduction in physical qubit requirements for fault-tolerant quantum computing under detailed accounting quant-ph · 2026-04-07 · unverdicted · none · ref 15
Heterogeneous quantum architectures with task-specific hardware and QEC encodings deliver up to 138x lower physical-qubit overhead than monolithic baselines for fault-tolerant algorithms, including RSA-2048 factoring at 190k-381k qubits.

pasqal.com/newsroom/pasqal-releases-2025-roadmap/ (2025), accessed: 2026-02-18

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