Call for Papers – QUANCOM 2026
International Conference on Quantum Computing Infrastructure & Technologies (QUANCOM 2026)
We are pleased to invite researchers, practitioners, industry professionals, and innovators to submit their original work to QUANCOM 2026 – the premier international forum dedicated to advancing quantum computing infrastructure and technologies. As quantum computing transitions from theoretical concepts to practical implementations, the need for robust infrastructure, scalable architectures, and innovative technologies has become paramount.
QUANCOM 2026 provides a unique platform for interdisciplinary collaboration, bringing together experts from quantum physics, computer science, engineering, materials science, and industry to address the critical challenges in building, deploying, and scaling quantum computing systems. This conference bridges the gap between quantum theory and practical infrastructure requirements, fostering discussions on hardware architectures, software frameworks, networking protocols, and real-world applications.
Conference Scope
QUANCOM 2026 focuses on the infrastructure and technological foundations necessary to realize the full potential of quantum computing. We invite submissions that explore innovative solutions to the engineering, architectural, and operational challenges facing quantum systems today and in the future. The conference welcomes both theoretical contributions and practical implementations that advance the state-of-the-art in quantum computing infrastructure.
We welcome original research contributions on all aspects of quantum computing infrastructure and technologies, including but not limited to the topics listed below.
Topics of Interest
Comprehensive research areas covering all aspects of quantum computing infrastructure
Quantum Hardware & Architecture
- Quantum processor design and fabrication
- Superconducting, trapped-ion, topological, and photonic quantum systems
- Qubit technologies and coherence improvement
- Quantum error correction hardware implementations
- Cryogenic systems and thermal management
- Scalable quantum architectures
- Hybrid classical-quantum systems
Quantum Software & Programming
- Quantum programming languages and frameworks
- Quantum compiler optimization and circuit synthesis
- Quantum algorithm development and optimization
- Quantum software development kits (SDKs)
- High-level quantum programming abstractions
- Quantum debugging and verification tools
- Quantum simulation platforms
Quantum Networking & Communication
- Quantum internet infrastructure and protocols
- Quantum key distribution (QKD) systems
- Quantum repeaters and entanglement distribution
- Quantum communication channels and security
- Distributed quantum computing architectures
- Quantum network control and management
Quantum Control & Calibration
- Quantum control systems and pulse engineering
- Real-time feedback and adaptive control
- Calibration and characterization protocols
- Noise mitigation and error suppression techniques
- Quantum state tomography and process verification
- Automated tuning and optimization systems
Quantum Cloud & Data Centers
- Quantum computing as a service (QCaaS) platforms
- Cloud-based quantum computing infrastructure
- Quantum data center design and operations
- Resource allocation and job scheduling
- Quantum workload management
- Integration with classical HPC infrastructure
Quantum Error Correction & Fault Tolerance
- Error correction codes and schemes
- Fault-tolerant quantum computing architectures
- Logical qubit implementations
- Decoder algorithms and hardware
- Resource estimation for fault-tolerant systems
- Topological quantum computing approaches
Quantum Security & Cryptography
- Post-quantum cryptography implementation
- Quantum-safe security protocols
- Quantum random number generators
- Quantum authentication systems
- Security in quantum cloud environments
- Quantum-resistant infrastructure design
Applications & Use Cases
- Quantum computing for optimization problems
- Quantum machine learning infrastructure
- Quantum chemistry and materials simulation
- Financial modeling and risk analysis
- Drug discovery and molecular modeling
- Supply chain and logistics optimization
- Industry-specific quantum applications
Emerging Technologies & Future Directions
- Novel qubit technologies and platforms
- Quantum-classical hybrid algorithms
- Quantum advantage demonstrations
- Benchmarking and performance metrics
- Quantum computing standardization efforts
- Sustainability in quantum infrastructure
- Education and workforce development