Cursor SRSS — Online Training Courses

Online Training Courses

A platform for learning CAD/CAE technologies. Learn new design and simulation technologies, discover new knowledge. A convenient training platform is already used by leading engineers of large companies. To develop a new skill, a specialist can choose a course. For those who dream of finding themselves in a new field, more detailed courses are available. It doesn’t matter where you are or how old you are. The end goal is important, and we will help you achieve it.

Select the software you are interested in:

16.0 hours

Abaqus/CAE: Geometry Import and Meshing

This course provides an in-depth look at several advanced Abaqus/CAE capabilities: CAD geometry import and repair, meshing and partitioning of complicated geometry.

16.0 hours

Fitness-for-Service Analysis with Abaqus

Pressure vessels and piping equipment are periodically assessed based on guidelines prescribed by documents such as ASME/API-579 Fitness-for-Service (FFS).

16.0 hours

Structural-Acoustic Analysis Using Abaqus

This seminar covers the fundamentals of acoustics phenomena and then shows how to use Abaqus to solve a wide range of acoustics problems.

24.0 hours

Modeling Contact and Resolving Convergence Issues with Abaqus

This 3-day course provides an in-depth discussion on solving nonlinear problems in Abaqus/Standard with an emphasis on modeling and convergence-related issues for contact.

16.0 hours

Modeling Stents Using Abaqus

This course focuses on the use of Abaqus for modeling and analyzing stents. However, its content can also be useful when modeling other types of medical devices.

16.0 hours

Heat Transfer and Thermal-Stress Analysis with Abaqus

The success of many structural designs requires a thorough understanding of both the thermal and mechanical response of the design.

24.0 hours

Automotive NVH with Abaqus

This course focuses on the application of linear dynamics capabilities in Abaqus to vehicle NVH (Noise, Vibration and Harshness) simulations.

16.0 hours

Introduction to Abaqus/CAE

Abaqus/CAE provides a complete interactive environment for creating Abaqus models, submitting and monitoring analysis jobs and viewing and manipulating simulation results.

16.0 hours

Modeling Rubber and Viscoelasticity with Abaqus

This course provides a brief overview of finite deformations and the material models used for rubber and resilient foam.

16.0 hours

Flexible Multibody Systems with Abaqus

The combination of mechanisms, rigid bodies, and finite elements makes Abaqus a powerful multibody system simulation tool.

8.0 hours

Tire Analysis with Abaqus: Advanced Topics

This seminar covers advanced tire modeling techniques including steady-state rolling using Eulerian techniques in Abaqus/Standard and transient analysis using Abaqus/Explicit.

24.0 hours

Analysis of Composite Materials with Abaqus

Composite materials are used in many design applications because of their high stiffness-to-weight ratios.

24.0 hours

Modeling Fracture and Failure with Abaqus

Fracture and failure modeling allows for product designs that maximize the safe operating life of structural components.

24.0 hours

Crashworthiness Analysis with Abaqus

This course is the ideal way to obtain a working knowledge on the use of Abaqus in crashworthiness analysis.

16.0 hours

Introduction to Abaqus/CFD for Multiphysics Applications

Abaqus/CFD provides advanced computational fluid dynamics capabilities with extensive support for preprocessing and postprocessing provided in Abaqus/CAE.

4.0 hours

CZone for Abaqus

By attending this half-day class you will learn how to include crushable composite structures in your impact simulations.

24.0 hours

Introduction to Abaqus/Standard and Abaqus/Explicit

This introductory course is the ideal way to obtain a working knowledge of how to use both Abaqus/Standard and Abaqus/Explicit to solve linear and nonlinear problems.

16.0 hours

Obtaining a Convergenced Solution with Abaqus

Learn best practices for solving nonlinear simulations including complicated material models, contact regions and geometrically unstable behavior using Abaqus.

16.0 hours

Introduction to Abaqus Scripting

Learn how to use Python and the Abaqus Scripting Interface (ASI) to automate tasks that are common to most analysts (model generation, job submission, job monitoring, results visualization, and other such tasks).

8.0 hours

FSI Simulation using Abaqus and 3rd Party Codes

Fluid-Structure Interaction (FSI) covers a broad scope of problems in which fluid flow and structural deformation interact and affect one another.

8.0 hours

Adaptive Remeshing in Abaqus/Standard

Learn how to use the adaptive remeshing capability of Abaqus to reduce mesh-related uncertainty by using well-established methods for calculating solution error indicators, which in turn drive the remeshing process, ultimately providing a balance between solution accuracy and cost.

16.0 hours

Analysis of Geotechnical Problems with Abaqus

Participants are given an overview of modeling geotechnical problems. Experimental testing and how it relates to the calibration of constitutive models for geotechnical materials is reviewed.

16.0 hours

Modeling Contact with Abaqus/Standard

Learn how to effectively use the advanced contact modeling capabilities available in Abaqus/Standard.

16.0 hours

Element Selection in Abaqus

This course provides a brief overview of the distinguishing characteristics of the wide range of continuum and structural elements available in Abaqus for stress analyses.

32.0 hours

Introduction to Abaqus

This course is a comprehensive and unified introduction to the modeling and analysis capabilities of Abaqus.

16.0 hours

Linear Dynamics with Abaqus

This course introduces the user to the algorithms and methods used to study linear dynamic problems with Abaqus/Standard.

8.0 hours

Electromagnetic Analysis with Abaqus

Abaqus provides computational electromagnetic capabilities for the simulation of problems involving steady-state electrical conduction, piezoelectric phenomena and low-frequency eddy currents.

16.0 hours

Modeling Extreme Deformation and Fluid Flow with Abaqus

This seminar provides in-depth coverage of the Coupled Eulerian-Lagrangian (CEL) and Smoothed Particle Hydrodynamic (SPH) methods in Abaqus/ Explict, along with a high level introduction to Abaqus/ CFD.

16.0 hours

Advanced Abaqus Scripting

This seminar is offered as a follow-up to the Introduction to Abaqus Scripting course. It is a deeper dive into both Python and the Abaqus Scripting Interface and gives users more hands on exposure with practically oriented workshops of moderate complexity.

16.0 hours

Metal Inelasticity in Abaqus

Learn how to model the inelastic behavior of metals in Abaqus including inelastic work hardening, the Bauschinger effect, heat generation by plastic work, ductile failure, creep, and more.

16.0 hours

Tire Analysis with Abaqus: Fundamentals

Modern tires are among the most complex structures in production and their complexities span a broad range of the capabilities available in Abaqus.

24.0 hours

Metal Forming with Abaqus

Metal forming processes are highly nonlinear because they involve geometric, material and contact nonlinearities.

24.0 hours

Abaqus/Explicit: Advanced Topics

The course emphasizes practical skills and techniques that are needed for analyses with Abaqus/Explicit.

24.0 hours

GUI Customization with Abaqus

This course introduces the Abaqus GUI Toolkit through a combination of lectures, examples and workshops.

16.0 hours

Abaqus for Offshore Analysis

This course was designed by SIMULIA UK in support of their offshore customers to provide them a more indepth, industry-specific training.

4.0 hours

Co-simulation with Abaqus and Dymola

Abaqus-Dymola co-simulation is useful when logical modeling needs to be included in a physical system simulation; for example, it can be used to couple Antilock Braking System (ABS) logic modeled in Dymola with an Abaqus rolling tire and brake simulation.

16.0 hours

Writing User Subroutines with Abaqus

This course explains when to consider the use of such user subroutines and how to approach their development.

16.0 hours

Substructures and Submodeling with Abaqus

The size and complexity of designs that are analyzed and tested with Abaqus continues to grow.

16.0 hours

Composites Modeler for Abaqus/CAE

This is an advanced seminar for users who are already familiar with the native Abaqus/CAE composites modeling functionality.

8.0 hours

Non-parametric Optimization with Abaqus

The objective of this seminar is to introduce users to the non-parametric optimization capabilities available in “Tosca for Abaqus”.

8.0 hours

Automating Analysis in fe-safe

In this course you will learn how to extend typical GUI analysis in fe-safe to include different methods of automated fatigue analysis.

8.0 hours

Fatigue of Welds in fe-safe

This 1-day course provides a focused discussion on simulating the number of cycles till fatigue failures at welds in welded structures.

16.0 hours

Introduction to fe-safe

In this practical introduction to fe-safe you will learn how to set up and run various fatigue analyses using fe-safe. The course includes many hands-on tutorials and practical examples.

16.0 hours

Introduction to fe-safe/Rubber

This 2-day course provides background information and hands-on experience for calculating fatigue of elastomers using Abaqus and fe-safe/Rubber.

8.0 hours

Introduction to Tosca Fluid

This course is a comprehensive introduction to the fluid optimization capabilities of Tosca Fluid.

8.0 hours

Tosca: Optimization for Structures with Nonlinearity

In this course you will learn how to perform structural optimization (topology and shape optimization) based on nonlinear simulation results.

16.0 hours

Introduction to Tosca Structure

This course is a comprehensive introduction to the structural optimization capabilities of Tosca Structure.

16.0 hours

Isight Component Development

This course covers the process of designing, building, publishing, debugging and testing custom components and plug-ins, utilizing the Isight SDK.

16.0 hours

Introduction to Isight

Isight is a Process Integration and Design Optimization ( PIDO ) software framework, which enables various applications to be easily integrated.

16.0 hours

Optimizing Engineering Methods with Isight

This course will provide a brief overview of Isight and optimization before moving on to discuss nonlinear optimization theories and applications.

8.0 hours

Uncertainty Quantification with Isight

This course introduces Isight users to methods dealing with statistical behavior as a result of variability in the system.

8.0 hours

CST Studio Suite - Charged Particle Applications

Throughout this course you will become familiar with the use of the Charged Particle Module.

8.0 hours

CST Studio Suite - EDA / SI-PI

This course describes and demonstrates how to use CST for Signal Integrity/high speeds technology.

8.0 hours

CST Studio Suite - EMC/EMI

This course covers the EMC Module providing an overview on how simulation can be applied towards electromagnetic compatibility (EMC) design and analysis for emissions and immunity, conducted and radiated.

8.0 hours

Introduction to CST Studio Suite

Throughout this course you will become familiar with the basic usage of CST STUDIO SUITE in terms of its modeling and simulation capabilities.

8.0 hours

CST Studio Suite - Low Frequency

This course aims to improve users’ experience with the tools in CST Studio Suite dedicated to electromagnetic simulation of low-frequency and static applications.

8.0 hours

CST Studio Suite - Multiphysics

This course describes how to use CST's Multiphysics Studio to perform thermal and mechanical analysis.

8.0 hours

CST Studio Suite - Microwave and Antenna

Throughout this course you will become familiar with the high frequency solvers used to simulate different type of antennas.

4.5 hours

CST Studio Suite - Spark3D

Throughout this course you will become familiar with the Spark3D interface and how to perform basic functions in terms of modeling, setup of simulation, and analyzing pre-/post-processing results.

8.0 hours

Introduction to Opera-2d

Throughout this course you will become familiar with the Opera-2d interface and scripting language and learn how to perform basic functions in terms of modeling, meshing, configuring, solving, and displaying the results.

24.0 hours

Introduction to Opera-3d

This three-day course covers all main aspects of the finite element modelling process and is aimed at providing sufficient information and hands-on experience to put you on track to successfully analyse your own devices.

16.0 hours

Magnet Simulation with SIMULIA Opera

This two day course covers Opera’s capabilities for designing and simulating magnet technology applications, typically for MRI and NMR magnet systems, particle accelerator magnets, electron beam lithography and microscopy, spectroscopy, ion implanters and others.

16.0 hours

Multiphysics Analysis in Opera 3d

This two-day course covers Opera’s capabilities for coupling electromagnetics, thermal and stress analyses to solve multiphysics problems.

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    Abaqus/CAE: Geometry Import and Meshing

    This course provides an in-depth look at several advanced Abaqus/CAE capabilities: CAD geometry import and repair, meshing and partitioning of complicated geometry.

    Upon completion of this course you will be able to:

    • Import, edit, and repair CAD geometry;
    • Import and edit orphan meshes;
    • Use virtual topology to ease the meshing of complicated geometry;
    • Partition geometry to enable different meshing techniques.

    AVAILABLE RELEASES
    SIMULIA 2023, SIMULIA 2022, SIMULIA 2021, SIMULIA 2020, SIMULIA 2019, SIMULIA 2018, SIMULIA V6.12

    Fitness-for-Service Analysis with Abaqus

    Pressure vessels and piping equipment are periodically assessed based on guidelines prescribed by documents such as ASME/API-579 Fitness-for-Service (FFS). Finite element based Level – 3 assessments are often utilized to assess equipment with complex geometries and loading conditions. The course discusses methods for modeling common pressure vessels such as distillation towers, storage vessels, etc. using Abaqus/CAE. Methods for the application and verification of loads such as weight of contents, internal pressure, etc. using Abaqus/Standard, as required for Level-3 FFS assessments, are also discussed. Procedures for analyzing metal loss using the finite element method by mapping thickness readings from scans are also discussed.

    Upon completion of this course you will be able to:

    • Use Abaqus/CAE to create finite element models of common plant structures;
    • Use Abaqus/CAE to submit and monitor analysis jobs;
    • Use Abaqus to perform buckling, elastic-plastic analyses.

    AVAILABLE RELEASES
    SIMULIA 2023, SIMULIA 2022, SIMULIA 2021, SIMULIA 2020, SIMULIA 2019, SIMULIA 2018

    Structural-Acoustic Analysis Using Abaqus

    This seminar covers the fundamentals of acoustics phenomena and then shows how to use Abaqus to solve a wide range of acoustics problems.

    Upon completion of this course you will be able to perform:

    • Pure acoustics analysis;
    • Coupled structural-acoustic analysis;
    • Scattering and shock analysis;
    • Mesh size and mesh density effects for different analysis procedures;
    • Acoustic analysis output and postprocessing.

    AVAILABLE RELEASES
    SIMULIA 2023, SIMULIA 2022, SIMULIA 2021, SIMULIA 2020, SIMULIA 2019, SIMULIA 2018, SIMULIA V6.12

    Modeling Contact and Resolving Convergence Issues with Abaqus

    This 3-day course provides an in-depth discussion on solving nonlinear problems in Abaqus/Standard with an emphasis on modeling and convergence-related issues for contact. Engineers at Abaqus have developed many techniques and guidelines for solving challenging contact problems. Convergence issues related to complicated material models and geometrically unstable behavior are also covered. Many years of practical experience in understanding and resolving convergence issues have been condensed into this course.

    Upon completion of this course you will be able to:

    • Define general contact and contact pairs;
    • Define appropriate surfaces (rigid or deformable);
    • Model frictional contact;
    • Model large sliding between deformable bodies;
    • Resolve overclosures in interference fit problems;
    • Understand how nonlinear problems are solved in Abaqus;
    • Develop Abaqus models that will converge;
    • Identify modeling errors that cause models to experience convergence difficulties;
    • Recognize when a problem is too difficult or too illposed to be solved effectively.

    AVAILABLE RELEASES
    SIMULIA 2023, SIMULIA 2022, SIMULIA 2021, SIMULIA 2020, SIMULIA 2019, SIMULIA 2018

    Modeling Stents Using Abaqus

    This course focuses on the use of Abaqus for modeling and analyzing stents. However, its content can also be useful when modeling other types of medical devices. The course is targeted at engineers responsible for the design of medical devices who are looking to accelerate their understanding of the highly complex mechanical behavior associated with performance of such devices.

    Upon completion of this course you will be able to:

    • Create geometry for modeling stents and tools;
    • Choose the proper element type;
    • Choose material models: elastic-plastic (Stainless Steel), superelastic-plastic (Nitinol), hyperelastic (vessels);
    • Perform stent analyses: Static, Implicit and Explicit Dynamics;
    • Define contact and constraints;
    • Postprocess stent analyses;
    • Perform fatigue evaluation.

    AVAILABLE RELEASES
    SIMULIA 2023, SIMULIA 2022, SIMULIA 2021, SIMULIA 2020, SIMULIA 2019, SIMULIA 2018, SIMULIA V6.12

    Heat Transfer and Thermal-Stress Analysis with Abaqus

    The success of many structural designs requires a thorough understanding of both the thermal and mechanical response of the design. Temperature-dependent material properties, thermally-induced deformation, and temperature variations all may be important design considerations.

    Upon completion of this course you will be able to:

    • Perform steady-state and transient heat transfer simulations;
    • Solve cavity radiation problems;
    • Model latent heat effects;
    • Perform adiabatic, sequential, and fully coupled thermal-stress analyses;
    • Model contact in heat transfer problems.

    AVAILABLE RELEASES
    SIMULIA 2023, SIMULIA 2022, SIMULIA 2021, SIMULIA 2020, SIMULIA 2019, SIMULIA 2018, SIMULIA V6.12

    Automotive NVH with Abaqus

    This course focuses on the application of linear dynamics capabilities in Abaqus to vehicle NVH (Noise, Vibration and Harshness) simulations. Topics covered include non-linear preloading, substructures, structural-acoustic coupling for soundradiation simulations, complex eigenvalue extraction for break sequel simulations, and advanced NVH postprocessing using provided plug-ins.

    Upon completion of this course you will be able to:

    • Perform natural frequency extractions;
    • Perform sound radiation analyses (acoustics);
    • Include nonlinear preloading effects in your NVH simulations;
    • Perform Brake squeal analyses;
    • Create constraints and connections for Automotive NVH models;
    • Use substructuring techniques to run your NVH simulations more efficiently;
    • Perform advanced NVH postprocessing (via plug-ins).

    AVAILABLE RELEASES
    SIMULIA 2023, SIMULIA 2022, SIMULIA 2021, SIMULIA 2020, SIMULIA 2019, SIMULIA 2018, SIMULIA V6.12

    Introduction to Abaqus/CAE

    Abaqus/CAE provides a complete interactive environment for creating Abaqus models, submitting and monitoring analysis jobs and viewing and manipulating simulation results.

    Upon completion of this course you will be able to:

    • Use Abaqus/CAE to create complete finite element models;
    • Use Abaqus/CAE to submit and monitor analysis jobs;
    • Use Abaqus/CAE to view and evaluate simulation results.

    AVAILABLE RELEASES
    SIMULIA 2023, SIMULIA 2022, SIMULIA 2021, SIMULIA 2020, SIMULIA 2019, SIMULIA 2018, SIMULIA V6.12

    Modeling Rubber and Viscoelasticity with Abaqus

    This course provides a brief overview of finite deformations and the material models used for rubber and resilient foam.

    Upon completion of this course you will be able to:

    • Use experimental test data to calculate material constants;
    • Check the stability of the Abaqus material model at extreme strains;
    • Obtain the best possible material constants from the available test data;
    • Select elements for modeling rubber and foams;
    • Design an appropriate finite element mesh;
    • Model viscoelastic behavior in both the time and frequency domain;
    • Use a user subroutine to define the hyperelastic behavior.

    AVAILABLE RELEASES
    SIMULIA 2023, SIMULIA 2022, SIMULIA 2021, SIMULIA 2020, SIMULIA 2019, SIMULIA 2018, SIMULIA V6.12

    Flexible Multibody Systems with Abaqus

    The combination of mechanisms, rigid bodies, and finite elements makes Abaqus a powerful multibody system simulation tool. Learn about the wide variety of connection types available in Abaqus and how to customize them to meet your analysis needs.

    Upon completion of this course you will be able to:

    • Compare connectors and MPCs;
    • Manage basic connector components;
    • Manage assembled kinematic connections;
    • Local relative displacements and rotations;
    • Manage connector elasticity;
    • Define stops and locks;
    • Defining connector friction;
    • Define actuating components of relative motion;
    • Manage sensors and actuators;
    • Manage Output and postprocessing.

    AVAILABLE RELEASES
    SIMULIA 2018, SIMULIA V6.12

    Tire Analysis with Abaqus: Advanced Topics

    This seminar covers advanced tire modeling techniques including steady-state rolling using Eulerian techniques in Abaqus/Standard and transient analysis using Abaqus/Explicit.

    Upon completion of this course you will be able to:

    • Understand substructuring and submodeling;
    • Understand steady-state rolling using Eulerian techniques in Abaqus/Standard;
    • Perform hydroplaning simulation using Coupled Eulerian-Lagrangian technique;
    • Perform efficient steady-state dynamics analysis;
    • Perform transient analysis using Abaqus/Explicit.

    AVAILABLE RELEASES
    SIMULIA 2023, SIMULIA 2022, SIMULIA 2021, SIMULIA 2020, SIMULIA 2019, SIMULIA 2018, SIMULIA V6.12

    Analysis of Composite Materials with Abaqus

    Composite materials are used in many design applications because of their high stiffness-to-weight ratios. This seminar shows you how to use Abaqus effectively to model composite materials.

    Upon completion of this course you will be able to:

    • Define anisotropic elasticity for combining the fibermatrix response;
    • Define composite layups;
    • Model progressive damage and failure in composites;
    • Model delamination and low-cycle fatigue of composite structures;
    • Model sandwich composite structures and stiffened composite panels.

    AVAILABLE RELEASES
    SIMULIA 2023, SIMULIA 2022, SIMULIA 2021, SIMULIA 2020, SIMULIA 2019, SIMULIA 2018, SIMULIA V6.12

    Modeling Fracture and Failure with Abaqus

    Fracture and failure modeling allows for product designs that maximize the safe operating life of structural components. Abaqus offers many capabilities that enable fracture and failure modeling. This seminar provides a detailed discussion of these capabilities.

    Upon completion of this course you will be able to:

    • Use proper modeling techniques for capturing crack-tip singularities in fracture mechanics problems;
    • Use Abaqus/CAE to create meshes appropriate for fracture studies;
    • Calculate stress intensity factors and contour integrals around a crack tip;
    • Simulate material damage and failure;
    • Simulate crack growth using cohesive behavior, VCCT, and XFEM;
    • Simulate low-cycle fatigue crack growth.

    AVAILABLE RELEASES
    SIMULIA 2023, SIMULIA 2022, SIMULIA 2021, SIMULIA 2020, SIMULIA 2019, SIMULIA 2018, SIMULIA V6.12

    Crashworthiness Analysis with Abaqus

    This course is the ideal way to obtain a working knowledge on the use of Abaqus in crashworthiness analysis.

    Upon completion of this course you will be able to:

    • Understand Abaqus fundamentals and input syntax;
    • Understand general “automatic” contact modeling;
    • Understand element selection for crash simulation;
    • Constraints and connections modeling;
    • Manage material models used in crash simulation;
    • Manage multiple mechanism damage and failure modeling.
    AVAILABLE RELEASES
    SIMULIA 2023, SIMULIA 2022, SIMULIA 2021, SIMULIA 2020, SIMULIA 2019, SIMULIA 2018, SIMULIA V6.12

    Introduction to Abaqus/CFD for Multiphysics Applications

    Abaqus/CFD provides advanced computational fluid dynamics capabilities with extensive support for preprocessing and postprocessing provided in Abaqus/CAE. In this course you will learn how to analyze CFD problems as well as nonlinear coupled fluidthermal and fluid-structural problems in Abaqus.

    Upon completion of this course you will be able to:

    • Set up and create CFD and FSI models with Abaqus;
    • Perform CFD analyses with Abaqus;
    • Perform FSI analyses with Abaqus;
    • Postprocess CFD and FSI results.

    AVAILABLE RELEASES
    SIMULIA V6.12

    CZone for Abaqus

    By attending this half-day class you will learn how to include crushable composite structures in your impact simulations.

    Upon completion of this course you will be able to:

    • Include crushable composite structures in your impact simulations;
    • Understand guidelines for defining crushable composite materials based on composite coupon and component testing;
    • Incorporate crushable composite structures into your models and how to postprocess CZA analysis results.

    AVAILABLE RELEASES
    SIMULIA 2023, SIMULIA 2022, SIMULIA 2021, SIMULIA 2020, SIMULIA 2019, SIMULIA 2018, SIMULIA V6.12

    Introduction to Abaqus/Standard and Abaqus/Explicit

    This introductory course is the ideal way to obtain a working knowledge of how to use both Abaqus/Standard and Abaqus/Explicit to solve linear and nonlinear problems. The seminar introduces you to the analysis capabilities of Abaqus using the keywords interface.

    Upon completion of this course you will be able to:

    • Complete finite element models using Abaqus keywords;
    • Submit and monitor analysis jobs;
    • View and evaluate simulation results;
    • Solve structural analysis problems using Abaqus/Sandard and Abaqus/Explicit, including the effects of material nonlinearity, large deformation and contact.

    AVAILABLE RELEASES
    SIMULIA 2023, SIMULIA 2022, SIMULIA 2021, SIMULIA 2020, SIMULIA 2019, SIMULIA 2018, SIMULIA V6.12

    Obtaining a Convergenced Solution with Abaqus

    Learn best practices for solving nonlinear simulations including complicated material models, contact regions and geometrically unstable behavior using Abaqus.

    Upon completion of this course you will be able to:

    • Understand how nonlinear problems are solved in Abaqus;
    • Develop Abaqus models that will converge;
    • Identify modeling errors that cause models to experience convergence difficulties;
    • Recognize when a problem is too difficult or too ill-posed to be solved effectively.

    AVAILABLE RELEASES
    SIMULIA 2023, SIMULIA 2022, SIMULIA 2021, SIMULIA 2020, SIMULIA 2019, SIMULIA 2018, SIMULIA V6.12

    Introduction to Abaqus Scripting

    Learn how to use Python and the Abaqus Scripting Interface (ASI) to automate tasks that are common to most analysts (model generation, job submission, job monitoring, results visualization, and other such tasks).

    Upon completion of this course you will be able to:

    • Help students to develop a high level understanding of the Abaqus scripting capabilities;
    • Organize and present the technical details of Python and the Abaqus Scripting Interface;
    • Expose the strengths and weaknesses of Abaqus scripting;
    • Encourage the student to use scripting in new ways.

    AVAILABLE RELEASES
    SIMULIA 2023, SIMULIA 2022, SIMULIA 2021, SIMULIA 2020, SIMULIA 2019, SIMULIA 2018, SIMULIA V6.12

    FSI Simulation using Abaqus and 3rd Party Codes

    Fluid-Structure Interaction (FSI) covers a broad scope of problems in which fluid flow and structural deformation interact and affect one another. This course provides an introduction to the FSI capability using co-simulation between Abaqus and 3rd-party CFD codes.

    Upon completion of this course you will be able to:

    • Evaluate FSI applications;
    • Create compatible FE and CFD models for FSI;
    • Run FSI problems;
    • Developing co-simulation strategies;
    • Using time incrementation options;
    • Tips on using MpCCI.

    AVAILABLE RELEASES
    SIMULIA 2020, SIMULIA 2019, SIMULIA 2018, SIMULIA V6.12

    Adaptive Remeshing in Abaqus/Standard

    Learn how to use the adaptive remeshing capability of Abaqus to reduce mesh-related uncertainty by using well-established methods for calculating solution error indicators, which in turn drive the remeshing process, ultimately providing a balance between solution accuracy and cost.

    Upon completion of this course you will be able to:

    • Set up an adaptive remeshing process;
    • Specify adaptive remeshing rules;
    • Interpret error indicators and their associated output variables.

    AVAILABLE RELEASES
    SIMULIA 2023, SIMULIA 2022, SIMULIA 2021, SIMULIA 2020, SIMULIA 2019, SIMULIA 2018, SIMULIA V6.12

    Analysis of Geotechnical Problems with Abaqus

    Participants are given an overview of modeling geotechnical problems. Experimental testing and how it relates to the calibration of constitutive models for geotechnical materials is reviewed. The seminar teaches users how to use and calibrate the different geotechnical material constitutive models available in Abaqus and discusses the limitations of these models. The coupling between fluid flow and stress/deformation in the analysis of porous media is also considered. Modeling issues related to geotechnical problems are addressed and numerous illustrative examples are examined.

    Upon completion of this course you will be able to:

    • An overview of modeling geotechnical problems;
    • Experimental testing and how it relates to the calibration of constitutive models for geotechnical materials;
    • How to use and calibrate the different geotechnical material constitutive models available in Abaqus;
    • The limitations of these models;
    • The coupling between fluid flow and stress/deformation in the analysis of porous media;
    • Modeling issues related to geotechnical problems.

    AVAILABLE RELEASES
    SIMULIA 2023, SIMULIA 2022, SIMULIA 2021, SIMULIA 2020, SIMULIA 2019, SIMULIA 2018, SIMULIA V6.12

    Modeling Contact with Abaqus/Standard

    Learn how to effectively use the advanced contact modeling capabilities available in Abaqus/Standard.

    Upon completion of this course you will be able to:

    • Define general contact and contact pairs;
    • Define appropriate surfaces (rigid or deformable);
    • Model frictional contact;
    • Model large sliding between deformable bodies;
    • Resolve overclosures in interference fit problems.

    AVAILABLE RELEASES
    SIMULIA 2023, SIMULIA 2022, SIMULIA 2021, SIMULIA 2020, SIMULIA 2019, SIMULIA 2018, SIMULIA V6.12

    Element Selection in Abaqus

    This course provides a brief overview of the distinguishing characteristics of the wide range of continuum and structural elements available in Abaqus for stress analyses. It explains modeling features that may cause certain types of elements to behave poorly.

    Upon completion of this course you will be able to:

    • Understand the distinguishing characteristics of the wide range of continuum and structural elements available in Abaqus for stress analyses;
    • Understand modeling features that may cause certain types of elements to behave poorly;
    • Choose appropriate element types for different applications including the effects of fully or nearly incompressible material behavior, contact, bending, etc..

    AVAILABLE RELEASES
    SIMULIA 2023, SIMULIA 2022, SIMULIA 2021, SIMULIA 2020, SIMULIA 2019, SIMULIA 2018, SIMULIA V6.12

    Introduction to Abaqus

    This course is a comprehensive and unified introduction to the modeling and analysis capabilities of Abaqus. It teaches you how to solve linear and nonlinear problems, submit and monitor analysis jobs and view simulation results using the interactive interface of Abaqus.

    Upon completion of this course you will be able to:

    • Use Abaqus/CAE to create complete finite element models;
    • Use Abaqus/CAE to submit and monitor analysis jobs;
    • Use Abaqus/CAE to view and evaluate simulation results;
    • Solve structural analysis problems using Abaqus/Standard and Abaqus/Explicit, including the effects of material nonlinearity, large deformation and contact.

    AVAILABLE RELEASES
    SIMULIA 2023, SIMULIA 2022, SIMULIA 2021, SIMULIA 2020, SIMULIA 2019, SIMULIA 2018, SIMULIA V6.12

    Linear Dynamics with Abaqus

    This course introduces the user to the algorithms and methods used to study linear dynamic problems with Abaqus/Standard.

    Upon completion of this course you will be able to:

    • Extract eigenmodes about a certain frequency;
    • Determine whether the number of extracted eigenmodes is sufficient to represent the structure’s response adequately;
    • Perform transient, steady-state, response spectrum and random response analyses using the eigenmodes;
    • Use multiple base motions;
    • Apply damping in linear problems.

    AVAILABLE RELEASES
    SIMULIA 2023, SIMULIA 2022, SIMULIA 2021, SIMULIA 2020, SIMULIA 2019, SIMULIA 2018, SIMULIA V6.12

    Electromagnetic Analysis with Abaqus

    Abaqus provides computational electromagnetic capabilities for the simulation of problems involving steady-state electrical conduction, piezoelectric phenomena and low-frequency eddy currents. In this course, you will learn how to analyze low frequency eddy current problems in Abaqus/Standard.

    Upon completion of this course you will be able to:

    • Set up and create electromagnetic models with Abaqus;
    • Perform low frequency eddy current analyses with Abaqus;
    • Perform transient eddy current analyses with Abaqus;
    • Perform magnetostatic analyses with Abaqus.

    AVAILABLE RELEASES
    SIMULIA 2023, SIMULIA 2022, SIMULIA 2021, SIMULIA 2020, SIMULIA 2019, SIMULIA 2018, SIMULIA V6.12

    Modeling Extreme Deformation and Fluid Flow with Abaqus

    This seminar provides in-depth coverage of the Coupled Eulerian-Lagrangian (CEL) and Smoothed Particle Hydrodynamic (SPH) methods in Abaqus/ Explict, along with a high level introduction to Abaqus/ CFD.

    Upon completion of this course you will be able to:

    • Create Eulerian meshes and define the initial material location within an Eulerian mesh;
    • Specify initial conditions, boundary conditions and loads to materials in the Eulerian domain;
    • Use general contact to model Eulerian-Lagrangian interactions;
    • Create SPH meshes;
    • Automatically convert conventional continuum elements to SPH particles;
    • Define initial conditions, boundary conditions, and loads on SPH particles;
    • Define contact interactions between SPH particles an element-based or analytical surfaces;
    • Understand the differences between the CEL, SPH, and CFD approaches.

    AVAILABLE RELEASES
    SIMULIA 2023, SIMULIA 2022, SIMULIA 2021, SIMULIA 2020, SIMULIA 2019, SIMULIA 2018, SIMULIA V6.12

    Advanced Abaqus Scripting

    This seminar is offered as a follow-up to the Introduction to Abaqus Scripting course. It is a deeper dive into both Python and the Abaqus Scripting Interface and gives users more hands on exposure with practically oriented workshops of moderate complexity. This course also provides pointers for more specialized and advanced topics.

    Upon completion of this course you will be able to:

    • Organize and present the deeper technical details of Python and the Abaqus Scripting Interface;
    • Expose the strengths and weaknesses of Abaqus scripting;
    • Encourage the student to use scripting in new ways;
    • This advanced seminar will take a deeper dive into;
    • The Abaqus Scripting Interface (ASI);
    • The core functionality of the Python language and libraries.

    AVAILABLE RELEASES
    SIMULIA 2023, SIMULIA 2022, SIMULIA 2021, SIMULIA 2020, SIMULIA 2019, SIMULIA 2018, SIMULIA V6.12

    Metal Inelasticity in Abaqus

    Learn how to model the inelastic behavior of metals in Abaqus including inelastic work hardening, the Bauschinger effect, heat generation by plastic work, ductile failure, creep, and more.

    Upon completion of this course you will be able to:

    • Understand metals that show inelastic work hardening;
    • Understand bauschinger effect;
    • Understand “Ratchetting” and relaxation of the mean stress under cyclic loading;
    • Understand strain-rate-dependent inelastic behavior;
    • Understand temperature-dependent plasticity;
    • Heat generated by plastic deformation;
    • Understand ductile failure of metallic materials;
    • Understand plastic behavior in porous and brittle (cast iron) metals;
    • Understand creep behavior in metals.

    AVAILABLE RELEASES
    SIMULIA 2023, SIMULIA 2022, SIMULIA 2021, SIMULIA 2020, SIMULIA 2019, SIMULIA 2018, SIMULIA V6.12

    Tire Analysis with Abaqus: Fundamentals

    Modern tires are among the most complex structures in production and their complexities span a broad range of the capabilities available in Abaqus. Since tire modeling is a specialized field, this seminar covers the many important yet basic capabilities in Abaqus that are specifically relevant to tire modeling.

    Upon completion of this course you will be able to:

    • Choosing appropriate elements;
    • Methods of modeling reinforcement;
    • Contact modeling details pertinent to tire modeling;
    • Fundamentals of material modeling-stress and strain measures, material directions;
    • Linear elasticity, hyperelasticity and viscoelasticity;
    • Efficient axisymmetric to three-dimensional model generation and results transfer.

    AVAILABLE RELEASES
    SIMULIA 2023, SIMULIA 2022, SIMULIA 2021, SIMULIA 2020, SIMULIA 2019, SIMULIA 2018, SIMULIA V6.12

    Metal Forming with Abaqus

    Metal forming processes are highly nonlinear because they involve geometric, material and contact nonlinearities.

    Upon completion of this course you will be able to:

    • Stamping;
    • Hydroforming;
    • Punch stretching;
    • Forging;
    • Rolling;
    • Drawing;
    • Superplastic forming.

    AVAILABLE RELEASES
    SIMULIA 2023, SIMULIA 2022, SIMULIA 2021, SIMULIA 2020, SIMULIA 2019, SIMULIA 2018, SIMULIA V6.12

    Abaqus/Explicit: Advanced Topics

    The course emphasizes practical skills and techniques that are needed for analyses with Abaqus/Explicit.

    Upon completion of this course you will be able to:

    • Use the explicit dynamics method effectively, including the application of general contact, mass scaling, and adaptive remeshing;
    • Use Abaqus/Explicit and Abaqus/Standard together to solve difficult problems, including results transfer and co-simulation;
    • Model high-strain-rate deformation and failure;
    • Filter output.

    AVAILABLE RELEASES
    SIMULIA 2023, SIMULIA 2022, SIMULIA 2021, SIMULIA 2020, SIMULIA 2019, SIMULIA 2018, SIMULIA V6.12

    GUI Customization with Abaqus

    This course introduces the Abaqus GUI Toolkit through a combination of lectures, examples and workshops.

    Upon completion of this course you will be able to:

    • Learn how to build dialogs and issue commands from the GUI;
    • Learn how to create and modify GUI modules and toolsets;
    • Learn how to create custom applications.

    AVAILABLE RELEASES
    SIMULIA 2023, SIMULIA 2022, SIMULIA 2021, SIMULIA 2020, SIMULIA 2019, SIMULIA 2018, SIMULIA V6.12

    Abaqus for Offshore Analysis

    This course was designed by SIMULIA UK in support of their offshore customers to provide them a more indepth, industry-specific training. The workshops in this course are completely new and were developed from customer applications.

    Upon completion of this course you will be able to:

    • Review nonlinear material behavior (metal plasticity and hyperelasticity);
    • Capabilities of Abaqus element types in general;
    • Specific element discussions include drag chain, pipe, PSI and ITT elements;
    • Pipe-soil interaction, including lateral buckling of a pipe line on a seabed;
    • Abaqus/Aqua capabilities in Abaqus/Standard to model wave, buoyancy, current & wind loading;
    • Coupled Eulerian-Lagrangian (CEL) approach in Abaqus/Explicit.

    AVAILABLE RELEASES
    SIMULIA 2023, SIMULIA 2022, SIMULIA 2021, SIMULIA 2020, SIMULIA 2019, SIMULIA 2018, SIMULIA V6.12

    Co-simulation with Abaqus and Dymola

    Abaqus-Dymola co-simulation is useful when logical modeling needs to be included in a physical system simulation; for example, it can be used to couple Antilock Braking System (ABS) logic modeled in Dymola with an Abaqus rolling tire and brake simulation.

    Upon completion of this course you will be able to:

    • Set up an Abaqus model for Abaqus-Dymola cosimulation;
    • Create a simple control system in Dymola;
    • Run a co-simulation.

    AVAILABLE RELEASES
    SIMULIA 2023, SIMULIA 2022, SIMULIA 2021, SIMULIA 2020, SIMULIA 2019, SIMULIA 2018, SIMULIA V6.12

    Writing User Subroutines with Abaqus

    This course explains when to consider the use of such user subroutines and how to approach their development. Detailed descriptions are given of the data required for these subroutines, the additional statements to be included and the variables that are available within the routine. Particular attention is paid to highlighting good practice in user subroutine development.

    Upon completion of this course you will be able to:

    • When and how to use subroutines;
    • DLOAD, VDLOAD, and UTRACLOAD for specifying user-defined loading;
    • FILM for specifying user-defined film conditions;
    • USDFLD and VUSDFLD for defining field variable dependence;
    • UVARM for defining a user output variable;
    • UHYPER for modeling hyperelastic materials;
    • UMAT and VUMAT for allowing constitutive models to be added to the program;
    • UEL and VUEL for allowing the creation of userdefined elements.

    AVAILABLE RELEASES
    SIMULIA 2023, SIMULIA 2022, SIMULIA 2021, SIMULIA 2020, SIMULIA 2019, SIMULIA 2018, SIMULIA V6.12

    Substructures and Submodeling with Abaqus

    The size and complexity of designs that are analyzed and tested with Abaqus continues to grow. Substructures and submodeling are two effective techniques that allow the analyst to study problems that are too large to simulate with a conventional modeling approach.

    Upon completion of this course you will be able to:

    • Understand the difference between substructuring and submodeling;
    • Build, translate, rotate and reflect substructures;
    • Build preloads into substructures;
    • Design meshes for submodel analysis;
    • Perform solid-to-solid, shell-to-shell, and shell-to solid submodeling.

    AVAILABLE RELEASES
    SIMULIA 2023, SIMULIA 2022, SIMULIA 2021, SIMULIA 2020, SIMULIA 2019, SIMULIA 2018, SIMULIA V6.12

    Composites Modeler for Abaqus/CAE

    This is an advanced seminar for users who are already familiar with the native Abaqus/CAE composites modeling functionality. Therefore, the Analysis of Composite Materials with Abaqus seminar is recommended as a prerequisite. At the very least, attendees should be familiar with the Abaqus/CAE composite layup functionality. Attendees should also be comfortable postprocessing the results of composites simulations using Abaqus/CAE. An understanding of how composites are manufactured is also helpful.

    Upon completion of this course you will be able to:

    • Composites Modeler for Abaqus/CAE, an add-on product to Abaqus/CAE;
    • How to use Composites Modeler for Abaqus/CAE to account for accurate fiber angles and ply thicknesses in Abaqus simulations to achieve unprecedented accuracy;
    • How to review and quickly modify your composites models to iteratively improve your designs;
    • How to use your composites model to generate manufacturing data thereby ensuring that the analyzed model closely corresponds to the real structure.

    AVAILABLE RELEASES
    SIMULIA 2023, SIMULIA 2022, SIMULIA 2021, SIMULIA 2020, SIMULIA 2019, SIMULIA 2018, SIMULIA V6.12

    Non-parametric Optimization with Abaqus

    The objective of this seminar is to introduce users to the non-parametric optimization capabilities available in “Tosca for Abaqus”. An easy to use interface native to Abaqus/CAE is available for the setup, execution, monitoring and postprocessing of topology, shape and sizing optimization problems. In combination with Abaqus analysis products, Tosca for Abaqus offers an unparalleled structural optimization capability for highly nonlinear problems.

    Upon completion of this course you will be able to:

    • Apply topology, shape, sizing and bead optimization techniques to your designs and produce lightweight, strong and durable components;
    • Reduce iterations of designs;
    • Use the optimization interface in Abaqus/CAE for setup, execution, monitoring and postprocessing of topology, shape, sizing and bead optimization problems;
    • Use Tosca’s structural optimization capability for highly nonlinear problems.

    AVAILABLE RELEASES
    SIMULIA 2016

    Automating Analysis in fe-safe

    In this course you will learn how to extend typical GUI analysis in fe-safe to include different methods of automated fatigue analysis.

    Upon completion of this course you will be able to:

    • Set up and run various automated fatigue analyses using fe-safe;
    • Export a project used with fe-safe to replicate analysis;
    • Use pre-scanning and group commands in a macro file;
    • Change project settings and run analysis in a macro;
    • Change project settings and run analysis in a batch file;
    • Troubleshoot and customize batch files and macros.

    AVAILABLE RELEASES
    SIMULIA 2023, SIMULIA 2022, SIMULIA 2021, SIMULIA 2020, SIMULIA 2019, SIMULIA 2018

    Fatigue of Welds in fe-safe

    This 1-day course provides a focused discussion on simulating the number of cycles till fatigue failures at welds in welded structures. The methods are based on predicting a crack through a certain thickness, in welded structures at the welds (toe, root, throat, etc. failure mechanisms in welds can be included). Both classification methods (such as BS5400 and BS7608) and structural stress methods (such as the Verity® module in fe-safe) will be covered.

    Upon completion of this course you will be able to:

    • Set up and run various weld fatigue analyses using fe-safe including;
    • Understand modeling requirements for line welds and spot welds;
    • Understand the background of the supported weld fatigue methods;
    • Set up FEA models for weld fatigue and import results into fe-safe;
    • Use BS5400 Weld Finite Life algorithm in fe-safe;
    • Define weld lines for structural stress calculations;
    • Use the Verity® module in fe-safe based on structural stress calculations;
    • Select a material for fatigue analysis using structural stress methods;
    • Run weld methods and/or base metal fatigue simultaneously;
    • Postprocess weld fatigue in fe-safe and using a viewer.

    AVAILABLE RELEASES
    SIMULIA 2023, SIMULIA 2022, SIMULIA 2021, SIMULIA 2020, SIMULIA 2019

    Introduction to fe-safe

    In this practical introduction to fe-safe you will learn how to set up and run various fatigue analyses using fe-safe. The course includes many hands-on tutorials and practical examples.

    Upon completion of this course you will be able to:

    • Set up and run various fatigue analyses using fe-safe;
    • Set up models and import models into fe-safe;
    • Select a material for fatigue analysis;
    • Set up your loadings;
    • Run various analyses in fe-safe.

    AVAILABLE RELEASES
    SIMULIA 2023, SIMULIA 2022, SIMULIA 2021, SIMULIA 2020, SIMULIA 2019, SIMULIA 2018

    Introduction to fe-safe/Rubber

    This 2-day course provides background information and hands-on experience for calculating fatigue of elastomers using Abaqus and fe-safe/Rubber.

    Upon completion of this course you will be able to:

    • FEA Modeling for fe-safe/Rubber in Abaqus/CAE;
    • Using the fe-safe/Rubber Interface;
    • Stress-strain relationship for rubber materials in Abaqus;
    • Theory of fatigue crack growth under relaxing and non-relaxing loads;
    • Overview of material calibration and how to enter material properties in fe-safe;
    • Calibrating the crack precursor size for fe-safe/Rubber;
    • Variable amplitude loading and multiple block loading for fe-safe/Rubber;
    • Postprocessing exports from fe-safe/Rubber (spreadsheet and Abaqus/Viewer);
    • Using fe-safe/Rubber output in the stand-alone Endurica damage sphere viewer;
    • Industry examples.

    AVAILABLE RELEASES
    SIMULIA 2022, SIMULIA 2021, SIMULIA 2020, SIMULIA 2019, SIMULIA 2018

    Introduction to Tosca Fluid

    This course is a comprehensive introduction to the fluid optimization capabilities of Tosca Fluid. Attendees will learn how to define and solve basic topology optimization tasks for internal flow problems, submit optimization jobs, and view and evaluate the results.

    Upon completion of this course you will be able to:

    • Solve fundamental topology optimization problems for internal flow applications;
    • Postprocess results and perform surface smoothing;
    • Follow-up and transfer results into the CAEenvironment.

    AVAILABLE RELEASES
    SIMULIA 2021, SIMULIA 2020, SIMULIA 2019, SIMULIA 2018

    Tosca Structure nonlinear: Optimization for Structures with Nonlinearity

    In this course you will learn how to perform structural optimization (topology and shape optimization) based on nonlinear simulation results.

    Upon completion of this course you will be able to:

    • Contact;
    • Nonlinear materials;
    • Nonlinear geometries.

    AVAILABLE RELEASES
    SIMULIA 2019, SIMULIA 2018

    Introduction to Tosca Structure

    This course is a comprehensive introduction to the structural optimization capabilities of Tosca Structure.

    Upon completion of this course you will be able to:

    • Solve fundamental topology, shape, sizing and bead optimization problems;
    • Optimize parts regarding weight, stiffness and durability;
    • Visualize, evaluate and transfer optimization results.

    AVAILABLE RELEASES
    SIMULIA 2022, SIMULIA 2021, SIMULIA 2020, SIMULIA 2019, SIMULIA 2018

    Isight Component Development

    This course covers the process of designing, building, publishing, debugging and testing custom components and plug-ins, utilizing the Isight SDK. The course is highly interactive with a strong emphasis on practical workshops using a standard Integrated Development Environment (IDE).

    Upon completion of this course you will be able to:

    • Understand component requirements;
    • Develop component packages for Isight.

    AVAILABLE RELEASES
    SIMULIA 2023, SIMULIA 2022, SIMULIA 2021, SIMULIA 2020, SIMULIA 2019, SIMULIA 2018

    Introduction to Isight

    Isight is a Process Integration and Design Optimization ( PIDO ) software framework, which enables various applications to be easily integrated. With Isight you can create flexible simulation process flows to automate the exploration of design alternatives and identification of optimal performance parameters. This course comprehensively covers the Design and Runtime Gateways along with several fundamental components, exposing users to the ways in which a workflow can be built in Isight and the ways in which the design space can be explored.

    Upon completion of this course you will be able to:

    • Automate a series of functions to create a Sim-flow;
    • Add components to a Sim-flow;
    • Set up the core component;
    • Configure components to pass data to/from each other;
    • Execute a Sim-flow;
    • Visualize Sim-flow results;
    • Evaluate design alternatives;
    • Create a Sim-flow to capture a process, by integrating various software in the company;
    • Perform Design Optimization and gain Design Space understanding by using various techniques such as DOE, Optimization, Monte Carlo etc.

    AVAILABLE RELEASES
    SIMULIA 2023, SIMULIA 2022, SIMULIA 2021, SIMULIA 2020, SIMULIA 2019, SIMULIA 2018

    Optimizing Engineering Methods with Isight

    This course will provide a brief overview of Isight and optimization before moving on to discuss nonlinear optimization theories and applications. Topics such as techniques for design space searching, multi-objective optimization, optimization strategy, and multidisciplinary optimization will be covered during the seminar. Attendees will learn key differences between the optimization algorithms offered by Isight, how to choose the preferred method depending on the problem, how to remedy issues with run time performance, and other topics relevant to improving the usage and value of Isight for real engineering optimization problems.

    Upon completion of this course you will be able to:

    • How does exploring the design space can assist with optimization;
    • The capabilities of different optimization techniques and exploration strategies;
    • Methodologies for Multidisciplinary Design Optimization (MDO).

    AVAILABLE RELEASES
    SIMULIA 2023, SIMULIA 2022, SIMULIA 2021, SIMULIA 2020, SIMULIA 2019, SIMULIA 2018

    Uncertainty Quantification with Isight

    This course introduces Isight users to methods dealing with statistical behavior as a result of variability in the system. It discusses why uncertainty quantification (UQ) analysis is important, presents concepts and methods in Isight to do UQ analysis, and shows users how to use Isight’s open architecture to integrate their own algorithms into components as plugins.

    Upon completion of this course you will be able to:

    • Use various Isight components to perform stochastic analysis;
    • Understand concepts used in Taguchi, reliability and Six Sigma methods.

    AVAILABLE RELEASES
    SIMULIA 2023, SIMULIA 2022, SIMULIA 2021, SIMULIA 2020

    CST Studio Suite – Charged Particle Dynamics

    Throughout this course you will become familiar with the use of the Charged Particle Module. You will be able to use and run the different solvers available within the CST STUDIO SUITE environment. This training course is well suited for the design of vacuum electronic devices, the Accelerator community and any applications taking into account the propagation of a charged particle beam under vacuum or a dispersive media like a plasma. The Multipactor analysis is also one of the capabilities of this tool.

    Upon completion of this course you will be able to:

    • Understand how to define a Particle Source and apply the Available Emission Models to it;
    • Load Different Types of Precalculated Fields for the Particle Simulation;
    • Use the Different Postprocessing Capabilities to read out Fields and Particle Result Data;
    • Use and run the Tracking and the PIC solver. Be familiar with the Wakefield analysis for Accelerator components;
    • Characterize material properties such as the secondary electron emission.

    AVAILABLE RELEASES
    SIMULIA 2022, SIMULIA 2021, SIMULIA 2020, SIMULIA 2019

    CST Studio Suite – EDA / SI-PI

    This course describes and demonstrates how to use CST for Signal Integrity/high speeds technology. The course will go over some fundamentals of how to set-up and run an electromagnetic simulation – it will take the viewpoint of how to do this for electronics applications and spends a good amount of time on features and tools that are helpful and specific for this area.

    Upon completion of this course you will be able to:

    • Be able to perform basic functions in terms of modeling, setup of simulation, importing layout boards and analyzing pre- and postprocessing results;
    • Get an overview on suitable solvers for specific SI/PI applications;
    • Know how to set up and run the solvers and tools for different SI and PI.

    AVAILABLE RELEASES
    SIMULIA 2022, SIMULIA 2021, SIMULIA 2020, SIMULIA 2019

    CST Studio Suite – EMC/EMI

    This course covers the EMC Module providing an overview on how simulation can be applied towards electromagnetic compatibility (EMC) design and analysis for emissions and immunity, conducted and radiated.

    Upon completion of this course you will be able to:

    The EMC Module expands upon the CORE Module basics to provide an overview on how simulation can be applied towards electromagnetic compatibility (EMC) design and analysis. Upon completion, you will understand the different solvers, sources and outputs for EMC simulation, and you will be able to set up simulations for emissions and immunity, shielding effectiveness, 3D EM and circuit co-simulations, and cable modeling.

    AVAILABLE RELEASES
    SIMULIA 2022, SIMULIA 2021, SIMULIA 2020, SIMULIA 2019

    Introduction to CST Studio Suite

    Throughout this course you will become familiar with the basic usage of CST STUDIO SUITE in terms of its modeling and simulation capabilities. Participants will learn about the general setup, submission, and result analysis procedures for high-frequency 3D electromagnetic simulations. This class will also introduce the various high frequency solvers available CST MICROWAVE STUDIO and provide a behind the-scenes look into the FIT and FEM algorithms for the general purpose Time-Doman and Frequency Domain solvers respectively.

    Upon completion of this course you will be able to:

    • Navigate the general layout of the CST SUTDIO SUITE interface;
    • Generate CAD geometries within the native modeling interface;
    • Set up the project environment with the desired units, frequency settings, background materials and boundary conditions;
    • Understand the various material types that exist and how to define them;
    • Setup excitations using lumped elements and waveguide ports;
    • Setup result monitors to obtain 2D/3D field data;
    • Choose and set up the most appropriate solver and algorithm for high frequency applications;
    • Run Time-Domain (FIT) and Frequency-Domain (FEM) simulations including parametric sweeps and optimizations;
    • Analyze simulation results such as S-parameters, voltages, currents, 3D nearfields and farfields;
    • Extract data from the standard result set through the use of post-processing templates.

    AVAILABLE RELEASES
    SIMULIA 2023, SIMULIA 2022, SIMULIA 2021, SIMULIA 2020, SIMULIA 2019, SIMULIA 2018

    CST Studio Suite – Low Frequency

    This course aims to improve users’ experience with the tools in CST Studio Suite dedicated to electromagnetic simulation of low-frequency and static applications. After a short overview of the basic usage of CST Studio Suite, the course focuses on the various available sources and solvers in CST EM Studio.

    Upon completion of this course you will be able to:

    • Be able to perform basic functions in terms of modeling, setup of simulation, and analyzing pre- and postprocessing results;
    • Get an overview on static and low frequency solvers available in CST EM STUDIO;
    • Understand how to set-up and run simulations for different static and low frequency applicaitons.

    AVAILABLE RELEASES
    SIMULIA 2022, SIMULIA 2021, SIMULIA 2020, SIMULIA 2019

     

    CST Studio Suite – Multiphysics

    This course describes how to use CST’s Multiphysics Studio to perform thermal and mechanical analysis. The course reviews the basic concepts of heat transfer and mechanical behaviors of materials, then explains the sources, boundary conditions, meshing and solver options available in MPS, and illustrates the steps of an EM-Thermal-Mechanical coupled simulation.

    Upon completion of this course you will be able to:

    • Obtain basic thermal and mechanical theories;
    • Get an overview of CST’s Multiphysics Studio’s capabilities;
    • Understand basic sources, boundary conditions, meshing options and solver options in CST Multiphysics Studio;
    • Be able to run an EM-Thermal-Mechanical coupled analysis.

    AVAILABLE RELEASES
    SIMULIA 2021, SIMULIA 2020, SIMULIA 2019

    CST Studio Suite – Microwave and Antenna

    Throughout this course you will become familiar with the high frequency solvers used to simulate different type of antennas. This course will also discuss more specific topics like antenna matching network and SAR calculations in the human body.

    Upon completion of this course you will be able to:

    • Construct & simulate antennas using different solvers;
    • Visualize & extract primary results (S-Parameters, Nearfield distribution, Farfield) & more advanced results using postprocessing (i.e. Potential Bandwidth, SAR);
    • Handle imported CAD models;
    • Design simple matching network;
    • Use the Hybrid Solver to simulate more complex RF Systems.

    AVAILABLE RELEASES
    SIMULIA 2022, SIMULIA 2021, SIMULIA 2020, SIMULIA 2019

    CST Studio Suite – Spark3D

    Throughout this course you will become familiar with the Spark3D interface and how to perform basic functions in terms of modeling, setup of simulation, and analyzing pre-/post-processing results. This course also provides a general introduction to Multipactor and Corona discharge effects.

    Upon completion of this course you will be able to:

    • Understand basic modeling and simulation setup within Spark3D;
    • Analyze Spark3D results;
    • Understand general aspects of Multipactor and Corona discharge effects.

    AVAILABLE RELEASES
    SIMULIA 2022, SIMULIA 2021, SIMULIA 2020

    Introduction to Opera-2d

    Throughout this course you will become familiar with the Opera-2d interface and scripting language and learn how to perform basic functions in terms of modeling, meshing, configuring, solving, and displaying the results.

    Upon completion of this course you will be able to:

    • Introduction to Opera-2d pre and post-processing;
    • Introduction to Electromagnetics and FE Analysis;
    • Advanced GUI Features (Parametrized models, Scripting);
    • Introduction to Opera-2d solvers;
    • Multiple hands-on sessions using typical models or your own device.

    AVAILABLE RELEASES
    SIMULIA 2022, SIMULIA 2021

    Introduction to Opera-3d

    This three-day course covers all main aspects of the finite element modelling process and is aimed at providing sufficient information and hands-on experience to put you on track to successfully analyse your own devices.

    Upon completion of this course you will be able to:

    • Introduction to Opera-3d software;
    • Introduction to the Geometric Modeller;
    • Introduction to Computational Electromagnetic, Thermal and Stress Analyses;
    • Introduction to the Finite Element Method;
    • Introduction to the Post-Processor;
    • Command Interpreter and Expression Analyser;
    • Conductors & circuits;
    • Modelling considerations for electromagnetic models;
    • Multiple hands-on sessions using typical models or you own device.

    AVAILABLE RELEASES
    SIMULIA 2022, SIMULIA 2021, SIMULIA 2020

    Magnet Simulation with Opera

    This two day course covers Opera’s capabilities for designing and simulating magnet technology applications, typically for MRI and NMR magnet systems, particle accelerator magnets, electron beam lithography and microscopy, spectroscopy, ion implanters and others. Throughout this advanced course you will extend your knowledge of simulations using Opera, both 2d and 3d, to modeling of magnets in various applications and postprocessing of the results.

    Upon completion of this course you will be able to:

    • Overview of magnet technology systems and applications;
    • Coil modelling;
    • Permanent magnets;
    • Modelling and meshing;
    • Fields and harmonics;
    • Inductance, capacitance and resistance evaluation;
    • Eddy current analysis;
    • Power dissipation and thermal analysis;
    • Calculating forces on coils and stress analysis;
    • Shielding AC and DC fields;
    • Accelerator Magnet Systems.

    AVAILABLE RELEASES
    SIMULIA 2022, SIMULIA 2021, SIMULIA 2020

    Multiphysics Analysis with Opera-3d

    This two-day course covers Opera’s capabilities for coupling electromagnetics, thermal and stress analyses to solve multiphysics problems. Lectures and practical sessions are designed to give you both theoretical background and hands-on experience in modelling various multiphysics scenarios.

    Upon completion of this course you will be able to:

    • Thermal Analysis;
    • Mechanical Analysis (static and modal stress);
    • Coupling electromagnetic and thermal analyses;
    • Coupling electromagnetic and mechanical analyses;
    • Using Python to couple complex multiphysics problems;
    • Case studies of coupled electromagnetic and thermal analyses: particle beam heating, induction heating and quench simulations;
    • Case studies of coupled electromagnetic and mechanical analyses: split pair magnet coil and synchronous reluctance motor.

    AVAILABLE RELEASES
    SIMULIA 2022, SIMULIA 2021, SIMULIA 2020

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