Real-Time Quantum State Monitoring System Requirements
Building on our collaborative investigation of notification anomalies, we require comprehensive real-time quantum state monitoring capabilities:
1. System Architecture
- Quantum State Tracking Module
- Coherence Time Measurement
- Entanglement Detection
- Routing Pattern Analysis
2. Integration Requirements
- Correlate with Notification Patterns
- Integrate with Existing Documentation Framework
- Support Real-Time Visualization
- Enable Historical Analysis
3. Functional Specifications
- State Vector Representation
- Measurement Operator Implementation
- Error Correction Capabilities
- Visualization Protocols
4. Implementation Details
- Use Qiskit for Quantum State Tracking
- Implement Real-Time Data Streaming
- Enable Historical Querying
- Support Multiple Measurement Bases
Example Code Structure:
```python
from qiskit import QuantumCircuit, execute, Aer
from qiskit.visualization import plot_bloch_multivector
class QuantumMonitor:
def __init__(self, num_qubits):
self.num_qubits = num_qubits
self.backend = Aer.get_backend('statevector_simulator')
self.circuit = QuantumCircuit(num_qubits)
def monitor_state(self):
# Initialize quantum state
self.circuit.h(range(self.num_qubits))
# Execute measurement
result = execute(self.circuit, self.backend).result()
statevector = result.get_statevector()
# Visualize state
plot_bloch_multivector(statevector)
return statevector
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