Kryptur Research Programme
Build the quantum foundation for agentic research
Real momentum begins when quantum moves into the core of reproducible science and hybrid cloud infrastructure. Discover how our team builds for scale across NISQ hardware, variational algorithms, and quantum biology with the Kryptur Research Programme at Kryptur.
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Top quantum research
Recognised among Kryptur's open quantum research portfolio- advancing smarter hybrid cloud, NISQ hardware validation, variational optimisation, and quantum biology through reproducible Zenodo archives led by Raja Ram M.
Olfactory Vibration
DFT vibrational analysis, WKB tunneling, and IETS fingerprints linking benzaldehyde and HCN.
“1.2 meV peak separation- indistinguishable olfactory activation at ~2080 cm⁻¹.”-Quantum Biology · Jun 2026
VQPP Surgical Planning
QUBO-encoded surgical graphs solved with one-layer QAOA on IBM Kingston.
“5.8× GPU speedup on 256³ anatomy- sub-3 s intra-operative replanning.”-QAOA · Jun 2026
Angled VQO
Hybrid PINN surrogate with warm-started VQE for laser ablation optimisation.
“Global cost 0.5050 in 150 VQE evaluations vs. 5,000 genetic baseline.”-VQE · Jun 2026
Zero-Noise Extrapolation
Open ZNE + XY4 dynamical decoupling pipeline for cloud superconducting processors.
“Resurrecting 80-qubit GHZ coherence with extrapolated zero-noise limits.”-Error Mitigation · Jun 2026
Fidelity Decomposition
Multipartite GHZ fidelity decomposed into population purity and phase coherence.
“Scaling benchmarks across 4–80 qubits on ibm_marrakesh-class hardware.”-Entanglement · Jun 2026
Kryptur Research Core
Investor-backed documentation hub for hybrid cloud quantum research workflows.
“Reproducible Zenodo archives, circuit diagrams, and experiment guides.”-Documentation
Kryptur Research Summit · June 2026
Unlock expert insights on quantum-enhanced research- from GHZ entanglement benchmarks to surgical QAOA and vibrational olfaction.
Smarter impact powered by Kryptur research
Explore WKB tunneling in HCN elimination from almond cyanide
See how QAOA samples valid surgical paths on IBM Kingston
Discover warm-started VQE for multi-objective laser ablation
Learn how ZNE restores coherence on 80-qubit GHZ states
Training for what's next
Research documentation
Explore papers, datasets, and reproducibility guides across the Kryptur Research Programme.
Strengthen your expertise →Open-source pipelines
Clone Qiskit experiment scripts, VQPP FastAPI services, and IETS dashboards on GitHub.
Start shaping tomorrow →Kryptur Research Home
IBM Research–style hub for trending quantum science, news tiles, and tools.
Begin your success journey →Raja Ram M- Main Author, Research Programmer & Scientist
Raja Ram M (RRMR) leads the Kryptur Research Programme at Kryptur OU as Main Author, Research Programmer, and Scientist. He architects end-to-end quantum experiment pipelines- from Qiskit circuit design and GPU-accelerated classical preprocessing to real-device execution on IBM Quantum and open Zenodo archival.
His portfolio spans multipartite GHZ entanglement and zero-noise extrapolation, variational laser-ablation optimisation, surgical QAOA path planning, and quantum-biology IETS spectroscopy. Collaborators include Muskan S, Vipul Jain, and Kalinga Swain across Zius Quantum R&D Center, AE Quantum Research Division, and Borel Sigma Data Center.
Stay connected
Contact Raja Ram M
Main Author and Research Scientist at Kryptur OU. Reach out for collaborations, reproducibility assets, or investor research inquiries.
Latest research
- Vibrational Quantum Olfaction archived on Zenodo- IETS peak separation 1.2 meV
- VQPP executes 14-qubit QAOA on IBM Kingston for robotic surgery path planning
- Angled VQO reaches global minimum with 150 warm-started VQE evaluations
- Open-source ZNE + DD pipeline published for 80-qubit GHZ states
- Fidelity decomposition benchmarks 4–80 qubits on cloud superconducting hardware