Quantum Hardware
NIRVANA
Thermo-Photonic Qubit System Built for Modern AI.
NIRVANA Architecture
A software-defined quantum platform for hybrid classical-quantum workloads. Four core subsystems deliver scalable quantum compute at room temperature.
Photonic Core
Silicon-photonic integrated circuit operating at optical frequencies. Supports gate-level programmability with sub-nanosecond switching across 256 waveguide channels.
Continuous-Variable Qubit Matrix
Squeezed-state optical qubits encoded in continuous variables. Eliminates cryogenic cooling requirements while maintaining coherence across entangled qubit clusters.
Quantum Memory (Q-RAM)
Optical quantum random-access memory with logarithmic query complexity. Stores quantum states in fiber delay lines for on-demand retrieval during multi-step algorithms.
Fiber Interconnect Fabric
Low-loss optical fiber mesh connecting processor modules with femtosecond synchronization. Enables linear scaling by linking multiple NIRVANA units into coherent clusters.
From photon to production
Chip Fabrication
In-house silicon photonic chip design and fabrication using CMOS-compatible processes with 45nm feature resolution.
Optical Assembly
Precision fiber-to-chip coupling, waveguide alignment, and hermetic packaging for long-term optical stability.
Control Electronics
Custom FPGA-based control systems for real-time qubit manipulation with sub-nanosecond timing precision.
Quantum Calibration
Automated calibration routines for gate tuning, crosstalk compensation, and fidelity optimization across all qubits.
System Integration
Rack-scale integration of quantum and classical processing units with unified orchestration and monitoring.
Testing and Validation
Comprehensive quantum state tomography, process benchmarking, and hardware certification protocols.