A new FO-PQLZOC design for quantum leading-zero/one counters achieves O(log m) T-depth and 40% lower T-count than prior work via modular bit-flips and parallel optimization.
Zenodo (2019)
14 Pith papers cite this work. Polarity classification is still indexing.
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UNVERDICTED 14representative citing papers
QuanBench+ is a new multi-framework benchmark showing LLMs reach 43-60% Pass@1 on quantum code tasks across three libraries, rising to 67-83% with error-feedback repair, yet performance remains strongly framework-dependent.
An ancilla-free quantum measurement scheme using local Clifford rotations and Pauli observables evaluates SCGVB matrix elements, demonstrated on H4 dissociation with results matching classical references.
EFaaS introduces a serverless entangled scheduler with calibration-aware placement, dual-resource queuing, and speculative execution primitives that reports 11-94% TTNS reductions and 83-98% convergence speedups for hybrid VQAs.
QUTest is a native OpenQASM testing framework that encodes Arrange/Act/Assert tests and 12 assertion types via pragma comments while remaining compatible with existing tools.
Quantum circuits show high average condition (97.56%) and decision (97.63%) coverage but lower path coverage (71.84%), with probabilistic versions adding confidence levels (averages 88.87%, 88.65%, 37.18%); mutation testing reveals weak or no correlation between structural coverage and fault finding
QMP-Bench supplies a realistic test set for AI on quantum many-body problems while PhysVEC uses integrated verifiers to turn unreliable LLM generations into code that passes both syntax and physics checks, outperforming baselines.
Gauging enables constant-depth logical XS dagger measurements for color-code magic state cultivation, achieving 10^{-12} logical error rates at 0.05% physical error for distance-7 codes while retaining over 1% of shots via post-selection.
Bayesian PSR with Gaussian processes and GradCoRe accelerates VQE SGD by reusing observations and minimizing per-step costs while reducing to standard PSR in special cases.
Hybrid simulation of the 2-qubit quantum kicked top on IBMQ shows periodic evolution and chaos signatures in time-averaged entanglement, with gate count independent of kick number.
Adapts QuantumKatas to Qiskit yielding a 350-task benchmark across 26 categories and evaluates 16 LLMs in 39,200 runs, reporting performance gaps and prompting effects.
Heuristic and RL-based adaptive shot allocation in recursive QAOA reduces total shots by 23-36% compared to uniform allocation on weighted Max-Cut instances.
InterQ presents a communication-aware scheduler for modular QPUs that jointly optimizes placement, parallel execution, adaptive circuit cutting, and link-specific coordination for superconducting, trapped-ion, and neutral-atom systems.
Quantangle-SAT is a quantum SAT solver using entanglement and equivalence checking that achieves expected O(1) time complexity for random Boolean functions without requiring prior knowledge of the solution count.
citing papers explorer
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Towards Verifiable and Self-Correcting AI Physicists for Quantum Many-Body Simulations
QMP-Bench supplies a realistic test set for AI on quantum many-body problems while PhysVEC uses integrated verifiers to turn unreliable LLM generations into code that passes both syntax and physics checks, outperforming baselines.