Litcius/Paper detail

Performance Comparison of Typical Binary-Integer Encodings in an Ising Machine

Kensuke Tamura, Tatsuhiko Shirai, Hosho Katsura, Shu Tanaka, Nozomu Togawa

2021IEEE Access55 citationsDOIOpen Access PDF

Abstract

The differences in performance among binary-integer encodings in an Ising machine, which can solve combinatorial optimization problems, are investigated. Many combinatorial optimization problems can be mapped to find the lowest-energy (ground) state of an Ising model or its equivalent model, the Quadratic Unconstrained Binary Optimization (QUBO). Since the Ising model and QUBO consist of binary variables, they often express integers as binary when using Ising machines. A typical example is the combinatorial optimization problem under inequality constraints. Here, the quadratic knapsack problem is adopted as a prototypical problem with an inequality constraint. It is solved using typical binary-integer encodings: one-hot encoding, binary encoding, and unary encoding. Unary encoding shows the best performance for large-sized problems.

Topics & Concepts

Knapsack problemIsing modelQuadratic unconstrained binary optimizationBinary numberUnary operationInteger (computer science)MathematicsInteger programmingBinary codeEncoding (memory)Combinatorial optimizationConstraint (computer-aided design)Optimization problemComputer scienceAlgorithmCombinatoricsDiscrete mathematicsStatistical physicsArtificial intelligencePhysicsQuantum computerProgramming languageQuantumGeometryArithmeticQuantum mechanicsQuantum Computing Algorithms and ArchitectureMachine Learning and AlgorithmsComputability, Logic, AI Algorithms
Performance Comparison of Typical Binary-Integer Encodings in an Ising Machine | Litcius