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SE-31 Simulation-driven shape optimization with CAESES - Introductory

This course gives you an introductory overview of the major functions and features found within CAESES

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SE-31 Simulation driven shape optimization with CAESES introductory training

Training Information

  • Duration:

    2 days

  • Prerequisite:

    Good knowledge of CAE simulation is preferred as well as basic knowledge of CAD modelling. No previous experience using CAESES is required.

  • Course:

    SE-31 Simulation-driven shape optimization with CAESES - Introductory

  • When:
    Add to calendar 2018/10/11 09:00 2018/10/12 18:00 SE-31 Simulation-driven shape optimization with CAESES - Introductory This course gives you an introductory overview of the major functions and features found within CAESES
    https://www.dnvgl.com/training/se-31-simulation-driven-shape-optimization-with-caeses-introductory-17559
    This only adds the training to your calendar, please remember to register for this training.
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Available dates and venues

Dates
Venue
Register by
Course fee
Computer
Dates
11-12 October 2018
Venue
DNV GL office, Busan, Korea (in Korean)
Register by
16 September 2018
Course fee
KRW 800 000 per person, including lunch (excluding tax)
Computer
Need to bring own laptop (with Windows 7 or 8)
Dates
23-24 October 2018
Venue
Kobe, Japan
Register by
30 September 2018
Course fee
JPY 100 000 per person, including lunch (excluding tax)
Computer
Need to bring own laptop (with Windows 7 or 8)

Description

This course gives you an introductory overview of the major functions and features found within CAESES. You will learn how to create parametric models which are ready to be used in the automation process. A general introduction to the software connector will be given in order to provide guidelines on how to couple CAESES with your simulation software of choice. Optimization algorithms, DoE, and post-processing will also be touched upon.

Learning objectives

Learn the basic principles of using CAESES for automated shape optimization studies. Typical industrial applications include reducing the resistance of your hull-form, maximizing the efficiency of your pump, lowering the pressure losses through your duct or manifold, or improving the sea-keeping behaviour of your offshore platform.

Target group

CAE engineers who have a solid background in simulation (e.g. CFD, FEA, seakeeping) and are using these codes to drive their mechanical or hydrodynamic designs.

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