Conference Topics

Topics to be covered include (but are not confined to):

❱ Quantum Algorithms & Computing

• Quantum Algorithms HW-dependent Optimization (HW compilation)
• HW Agnostic Quantum Circuits Representation & Optimization
• Data Loading (Quantum Memory, I/O, oracle implementation, ansatz optimization, block encoding…)
• Time synchronization (On-the-fly QEC Processing, on chips synchronization, …)
• Quantum Error Correction Codes to Reduce Physical Qubits/Logical Qubits Ratio (Quantum LDPC, Color Codes,…)
• Resources Estimation (processing time, Qubits, Quantum Gates, energy, Benchmark vs classical, large circuit compilation resource estimates …)
• Quantum Middleware & Abstract Framework based on basic components (Common Libraries, Quantum Software Patterns,…)
• Quantum Parallel Algorithms (problem modeling)
• QPU/HPC and Classical algo/ Quantum algo Hybridization (Mixed Algorithms, QEC, Programming, …)
• Quantum program specification, programming, and formal verification environment
• Advances in Qubits Emulation (Tensor networks, MPS, …)
• Applications-Oriented Benchmarks for Quantum Computing (including computing time estimates)
• Quantum Machine Learning Design & Applications (including data loading)
• Lie Algebra-Based Quantum Algorithms & Quantum Geometry-Informed Machine Learning
• From Classical Problems to Quantum Algorithms Methodologies and Tools (including FTQC decision problems solving algorithms)
• Quantum Cryptanalysis Engineering

❱ Enabling Technologies

• Cryogenic systems for 1000+ qubits accommodation
• Advanced Cryo-Electronics Engineering (cryo-CMOS, SFQ, signals multiplexing, TWPAs, circulators)
• Cabling and connectors miniaturization
• Interconnection-based scalability (QPU interconnection, Qubits chips interconnection, microwave, optical photons, transduction…)
• Room temperature control electronics scalability (FPGA-ASIC, QEC syndrome decoding)
• Overcoming the power limitation of laser sources (and reducing phase noise)
• Light control qubits: from optical fibers to optoelectronic efficiency (including photon routing)
• Quantum photonics
• Possible improvement from the material perspective and qubit fabrication
• Signal processing/multiplexing and error correction
• The feasibility of qubit characterization (tabletop solutions)
• Environmental perturbations and their mitigation (vibrations, electromagnetic pollution, cosmic radiation…)
• Multi-modularity qubits hybridization (interconnection, memory qubits vs computing qubits, qRAM, Supra-Optical/Supra-NV, …)

❱ Quantum Sensors

• Position navigation and timing, including optical clocks, gravimeters, and inertial sensors
• Quantum entanglement as a resource for quantum metrology
• Quantum imaging and spectroscopy
• Magnetometry and related applications
• Quantum sensing and analysis of RF fields
• Quantum technologies for medical applications
• Future prospects in quantum sensing

❱ Quantum Communications

• Syst: Quantum information network (Network architectures & management protocols, coexistence, sensing, including channel simulators)
• Syst: Progress in QKD (performance, security proofs, DI QKD, MDI QKD…)
• Syst: Post-quantum cryptography/QKD hybridization
• Syst: New quantum communication protocols and their uses (distributed entanglement, clock synchronization, blind quantum computing, quantum money, digital signature, distributed quantum computing circuit optimization)
• HW: Toward integration (PIC)
• HW: Sources, detectors, new propagation media
• HW: Quantum memories and repeaters – all hardware platforms
• Demonstrators: Terrestrial & space – projects and results/field trials (Madrid, Paris, DTU…)
• Governmental agency views on quantum communications

Conference Topics

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