Dynamarq is a new scalable benchmarking framework that defines structural features for dynamic quantum circuits and uses statistical models to predict hardware fidelity with transferable parameters.
QubiC 2.0: An extensible open- source qubit control system capable of mid-circuit measurement and feed-forward
3 Pith papers cite this work. Polarity classification is still indexing.
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QuCtrl-BELL is a compiler pipeline for trapped-ion quantum control that decouples control flow from hardware data to achieve sub-700 ns cross-board feedback latency on RISC-V + PXIe hardware.
HI-HCQC is a new RFSoC hardware platform with PCIe interface that enables low-latency control and readout for superconducting qubits, demonstrated through standard quantum experiments.
citing papers explorer
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Characterizing and Benchmarking Dynamic Quantum Circuits
Dynamarq is a new scalable benchmarking framework that defines structural features for dynamic quantum circuits and uses statistical models to predict hardware fidelity with transferable parameters.
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QuCtrl-BELL: A Compiler-Driven Sub-Microsecond Feedback Control Stack for Scalable Trapped-Ion Quantum Experiments
QuCtrl-BELL is a compiler pipeline for trapped-ion quantum control that decouples control flow from hardware data to achieve sub-700 ns cross-board feedback latency on RISC-V + PXIe hardware.
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HI-HCQC: A Tightly-Coupled Hardware Interface with High-Efficiency Communication for Hybrid Classical-Quantum Computing
HI-HCQC is a new RFSoC hardware platform with PCIe interface that enables low-latency control and readout for superconducting qubits, demonstrated through standard quantum experiments.