Quantum Hardware

NIRVANA

Thermo-Photonic Qubit System Built for Modern AI.

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Hardware Architecture

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.

256 waveguide channels Sub-nanosecond switching Gate-level programmability

Continuous-Variable Qubit Matrix

Squeezed-state optical qubits encoded in continuous variables. Eliminates cryogenic cooling requirements while maintaining coherence across entangled qubit clusters.

Room-temperature operation Squeezed-state encoding Entangled 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.

Logarithmic query complexity Fiber delay lines On-demand retrieval

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.

Femtosecond synchronization Linear scaling Coherent clusters

Engineering Capabilities

From photon to production

Six core engineering disciplines that take NIRVANA from silicon design to fully validated quantum hardware.

FABRICATION

Chip Fabrication

In-house silicon photonic chip design
CMOS-compatible processes
45nm feature resolution

ASSEMBLY

Optical Assembly

Precision fiber-to-chip coupling
Waveguide alignment systems
Hermetic packaging for stability

CONTROL

Control Electronics

Custom FPGA-based control systems
Real-time qubit manipulation
Sub-nanosecond timing precision

CALIBRATION

Quantum Calibration

Automated calibration routines
Gate tuning and crosstalk compensation
Fidelity optimization across qubits

INTEGRATION

System Integration

Rack-scale quantum-classical integration
Unified orchestration layer
Real-time monitoring and telemetry

VALIDATION

Testing and Validation

Quantum state tomography
Process benchmarking protocols
Hardware certification standards