A new method for unitary synthesis on quantum hardware cuts CNOT gates by up to 36% and compiles up to 553 times faster than standard tools on square and heavy-hex lattices.
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Demonstration of simultaneous ground- and excited-state energy extraction for TFIM (up to 6 spins) and 3-site TLFIM via constant-depth Trotter circuits and Hadamard test on IBM quantum processors.
Dyadic Phase Fixing reduces T-count by up to 70% versus gridsynth in quantum circuit compilation for fault-tolerant computing via numerical synthesis and automatic phase register sizing.
The MQT Compiler Collection is an MLIR-based architecture for translating high-level quantum-classical programs into hardware instructions with support for advanced optimizations beyond basic gate cancellation.
Canopus unifies qubit mapping and routing across quantum ISAs by modeling synthesis costs via canonical two-qubit gate forms, achieving 15-35% lower routing overhead than prior methods on varied backends and topologies.
The authors present Pilot-Quantum, a middleware for adaptive resource management in hybrid quantum-HPC systems, along with execution motifs and a performance modeling toolkit called Q-Dreamer.
The work introduces a GRAPE-based holistic pulse synthesis method to generate compound gadgets for QSVT Hamiltonian simulation of H2 on trapped ions, claiming reduced pulse duration and eliminated control latency compared to gate-based compilers.
citing papers explorer
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Architecture-aware Unitary Synthesis
A new method for unitary synthesis on quantum hardware cuts CNOT gates by up to 36% and compiles up to 553 times faster than standard tools on square and heavy-hex lattices.
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Ground- and excited-state energies extraction via Trotterization on IBM quantum computers
Demonstration of simultaneous ground- and excited-state energy extraction for TFIM (up to 6 spins) and 3-site TLFIM via constant-depth Trotter circuits and Hadamard test on IBM quantum processors.
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Multi-Qubit Dyadic Phase Fixing for Fault-Tolerant Quantum Compilation
Dyadic Phase Fixing reduces T-count by up to 70% versus gridsynth in quantum circuit compilation for fault-tolerant computing via numerical synthesis and automatic phase register sizing.
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The MQT Compiler Collection: A Blueprint for a Future-Proof Quantum-Classical Compilation Framework
The MQT Compiler Collection is an MLIR-based architecture for translating high-level quantum-classical programs into hardware instructions with support for advanced optimizations beyond basic gate cancellation.
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Hybrid Quantum-HPC Middleware Systems for Adaptive Resource, Workload and Task Management
The authors present Pilot-Quantum, a middleware for adaptive resource management in hybrid quantum-HPC systems, along with execution motifs and a performance modeling toolkit called Q-Dreamer.
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Synthesizing Compound Pulse Gadgets for Hamiltonian Simulation on Trapped-Ion Platforms
The work introduces a GRAPE-based holistic pulse synthesis method to generate compound gadgets for QSVT Hamiltonian simulation of H2 on trapped ions, claiming reduced pulse duration and eliminated control latency compared to gate-based compilers.