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Topological Quantum Simulation Framework
This module provides a comprehensive implementation of topological quantum computing, including anyonic systems, surface codes, topological phases of matter, and fault-tolerant quantum computation using topological protection. This framework enables simulation of exotic quantum states and robust quantum computation.
Structs§
- Abelian
Anyons - Abelian anyon model
- Anyon
Configuration - Anyon configuration on the lattice
- Anyon
Type - Anyon type definition
- Anyon
Worldline - Anyon worldline for braiding operations
- Braiding
Operation - Braiding operation
- Chern
Simons Anyons - Fibonacci
Anyons - Fibonacci anyon model
- Fusion
Node - Node in fusion tree
- Fusion
Tree - Fusion tree for non-Abelian anyons
- Ising
Anyons - Ising anyon model (Majorana fermions)
- Logical
Operators - Logical operators for surface code
- NonAbelian
Anyons - Non-Abelian anyon model (generic)
- Parafermion
Anyons - Surface
Code - Surface code for topological error correction
- Syndrome
Detector - Syndrome detector for error correction
- Topological
Benchmark Results - Benchmark results for topological simulation
- Topological
Config - Topological quantum simulation configuration
- Topological
Invariants - Topological invariants
- Topological
Lattice - Lattice structure for topological systems
- Topological
Quantum Simulator - Topological quantum simulator
- Topological
Simulation Stats - Simulation statistics
- Topological
State - Topological quantum state
- Topological
Utils - Topological utilities
Enums§
- Anyon
Model - Anyon models for topological quantum computation
- Braiding
Type - Type of braiding operation
- Lattice
Type - Lattice types for topological systems
- Stabilizer
Type - Type of stabilizer measurement
- Topological
Boundary Conditions - Boundary conditions for topological systems
- Topological
Error Code - Topological error correction codes
Traits§
- Anyon
Model Implementation - Trait for anyon model implementations