Expand description
Quantum-inspired acceleration for metrics computation
This module provides quantum-inspired algorithms that leverage principles from quantum computing to accelerate certain metric calculations. These algorithms use quantum superposition, entanglement, and interference patterns to achieve exponential speedups for specific computational patterns.
Structs§
- Benchmark
Measurement - Individual benchmark measurement
- Classical
Fallback - Classical fallback computer for comparison and verification
- Coherence
Tracker - Coherence tracking for quantum states
- Interference
Optimization - Interference optimization record
- Interference
Pattern - Individual interference pattern
- Interference
Patterns - Quantum interference patterns for algorithmic speedup
- Noise
Model - Noise model for realistic quantum simulation
- Quantum
Benchmark Results - Quantum benchmark results
- Quantum
Config - Configuration for quantum-inspired computations
- Quantum
Gate Set - Available quantum gates
- Quantum
Metrics Computer - Quantum-inspired metrics computer using quantum algorithmic principles
- Quantum
Performance Monitor - Quantum performance monitoring
- Quantum
Processor - Virtual quantum processor simulator
- Superposition
Manager - Superposition state manager for quantum speedup
- Superposition
State - Individual superposition state
- VqeParameters
- Variational Quantum Eigensolver parameters
Enums§
- Multi
Qubit Gate - Multi-qubit gates
- Parameterized
Gate - Parameterized quantum gates for variational algorithms
- Single
Qubit Gate - Single-qubit quantum gates
- TwoQubit
Gate - Two-qubit quantum gates