I design advanced quantum software systems, develop next-generation quantum architectures, and create new computational paradigms based on non-Hermitian dynamics and Exceptional Point (EP) topology.
I specialize in:
- Quantum algorithm engineering
- Dynamic circuit design (IBM Quantum)
- Non-unitary / measurement-driven quantum computation
- Topological quantum information
- Quantum architecture prototyping
Creator of NHSS (Non-Hermitian Spectral Steering) β a new paradigm for post-gate quantum computing.
- Qiskit (advanced level)
- IBM Runtime APIs
- Aer simulation
- Measurement-driven logic design
- Multi-qubit architecture development
- Building new computational models
- Topological and non-Hermitian logic units
- Dynamic circuit feedback architectures
- Transmon-level system behavior modeling
I design post-unitary, post-Gate Model architectures that integrate:
- Exceptional Point (EP) topology
- Riemann surface computation
- Non-Hermitian spectral flow
- Measurement-induced operations
A next-generation quantum computing architecture that replaces amplitude-based qubits with topology-driven Ep-bits.
- Non-Hermitian spectral flow
- EP-induced state switching
- Measurement-controlled logic
- Dynamic-circuit-based execution
- Topology-protected memory channels
π Repo: https://github.com/quantumbatu/NHSS-Quantum-Computing
- NHSS hardware-level implementations
- Dynamic circuit EP-loops
- Topological switching mechanisms
- Multi-Ep-bit quantum memory
- Non-unitary quantum gates
- Fault-tolerance via topology, not redundancy
"Noise is not the enemy β it's the computation engine."
β Star NHSS if you support next-generation quantum computing.