The scope of ICCM covers theory, algorithm, programming, coding, numerical simulation, machine learning techniques, high performance computing techniques, error and uncertainty analysis and/or novel applications of computational techniques to problems in engineering, science, and other disciplines related to computations. Topics include but not limited to:
• Computational mechanics for solids and structures
• Computational material science and engineering
• Computational Fluid dynamics
• Computational heat transfer
• Computational mathematics
• Computational biology
• Computational meso/micro/nano Mechanics
• Computational uncertainties
• Computational physics
• Meshless/Meshfree/Particle methods
• Advanced finite element/difference/volume methods
• Boundary element methods
• Molecular and quantum methods
• Computational Rheology
• Multi-scale methods
• Inverse problem and Optimization
• Machine learning and AI
• Deep learning and Augmented learning
• Health monitoring
• Uncertainty analysis
• Validation and verification
• Development of software for numerical simulation
• Computational techniques for applications in engineering, science, and other disciplines
• High-performance computing techniques
• Big-Data and Data intensive computing techniques
• Integrated experimental and computational techniques
• Computation and communication
• Others