Training- CST & Abaqus

ADCOM offer a variety of training courses for beginners and advanced users. Customized courses can be tailored to meet customer specific needs.

Certified Education Partner by Dassault Systemes.



CST Basic Courses:

At: March 16-17 2020 – 2 days basic course – Local courses in Ramat-Gan Israel in Hebrew.

Course objectives – Throughout this course you will become familiar with the CST STUDIO SUITE interface and how to perform basic functions in terms of modeling, setup of simulation, and analyzing pre-/post-processing results. This class will also briefly discuss the various high frequency solvers available in CST MICROWAVE STUDIO and provide a behind-the-scenes look into the FIT and FEM algorithms.

Targeted audience – Electromagnetic Simulation Analysts

Prerequisites – None


  • Lesson 1               Introduction & Built-in Help
  • Lesson 2               Basic & Advanced Modeling Techniques
  • Lesson 3               CST MICROWAVE STUDIO Solver Overview
  • Workshop 1        Coax Connector
  • Lesson 4               Simulation and Project Settings: Ports, Materials & Boundary Conditions
  • Lesson 5               High Performance Computing
  • Workshop 2        Power Splitter OR Workshop 3   PCB Boardlevel EMC
  • Lesson 6               Results Handling & Template-based Postprocessing
  • Lesson 7               Optimizer Overview

For Registration – please send us E-mail to:


CST STUDIO SUITE – Low-Frequency

At: March 30 2020

Course objectives  This training 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 over the basic handling of CST STUDIO SUITE, the training will focus on the various available sources and solvers in CST EM STUDIO.

Targeted audience – Low Frequency Electromagnetic Simulation Analysts

Prerequisites – none


  • Lesson 1 Introduction & Built-in Help
  • Lesson 2 Basic & Advanced Modeling Techniques
  • Lesson 3 CST EM STUDIO Modeling
  • Lesson 4 Solver Overview
  • Lesson 5 Source Definition
  • Lesson 6 Boundaries & Symmetries
  • Lesson 7 Material Definition
  • Lesson 8 Meshing Overview
  • Lesson 9 Result Handling & Post-Processing
  • Workshop 1 Linear Actuator
  • Workshop 2 Inductive Sensor
  • Workshop 3 Electrostatic Power Transfer

Price: 2000 NIS + VAT per participate.


  • At: April 27 2020

Course objectives  –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.

Targeted audience – This training class is intended for Engineers involved in electromagnetic compatibility (EMC), electromagnetic interference (EMI), electrostatic discharge (ESD), electromagnetic environmental effects (E3) and antenna integration.

Prerequisites – CST STUDIO SUITE Training: CORE Module

Agenda –

  • Lesson1: Introduction, Solver Choice for EMC Applications
  • Lesson2: Configuration Wizard (hands on)
  • Lesson3: Meshing Overview
  • Lesson4: CST DESIGN STUDIO – Circuit and System Level Simulations
  • Example1: Mini Workshop Example – True Transient Co-Simulation
  • Lesson5: Sources and Outputs for EMC Simulation
  • Example2: Full Workshop Example (1)
  • Lesson6: EDA Import
  • Example3: Mini Workshop Example (optional) – Import of PCB
  • Lesson7: CST CABLE STUDIO – Introduction and Workflow Overview
  • Example4: Full Workshop Example (2)


CST STUDIO SUITE – Antenna Placement Training

  • At: May 25 2020
    • Lesson 1 Introduction to Antenna Placement
    • Lesson 2 Solver Overview
    • Lesson 3 CAD Import
    • Lesson 4 Surface Mesh
    • Lesson 5 Hybrid Simulation
    • Workshop 1 Antennas on Glider
    • Workshop 2 Antennas on Ship


Course objectives (2 days) – Upon completion of this course you will be able to run Signal Integrity (SI) and Power Integrity (PI) Analyses on Printed Circuit Boards and Interconnects: Understand fundamentals of 2D transmission line theory and 3D full wave analysis, Perform simulations in time and frequency domain, Visualize and evaluate simulation results and optimize the PCB layout.

Targeted audience – PCB layout engineers and SI/PI/EMC simulation analysts


  • Lesson 1               Introduction & Built-in Help Mechanism
  • Lesson 2               Solver Overview
  • Lesson 3               Circuit Simulation Overview
  • Workshop 1        Circuit Simulation
  • Lesson 4               EDA Workflow Integration
  • Workshop 2        Import and Export
  • Lesson 5               Modeling Techniques
  • Workshop 3        Differential Via Pair
  • Workshop 4        Connector
  • Lesson 6               DC IR Drop and Power Integrity Overview
  • Workshop 5        DC IR Drop and Power Integrity
  • Lesson 7               Short recapitulation of Lesson 6
  • Workshop 6        Decap Optimization
  • Lesson 8               Signal Integrity Overview
  • Workshop 7        SI TD Analysis
  • Workshop 8        SI FD Analysis
  • Lesson 9               CST MWS Solver Overview
  • Workshop 9        SerDes Full Channel Analysis
  • Lesson 10             PCB Rule Check Overview
  • Workshop 10      EMC SIPI Rule Check Analysis

 Abaqus Training:

Introduction to Abaqus

  • At: TBA 2020

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.


Modeling Rubber and Viscoelasticity with Abaqus

  • At: TBA 2020

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