We have compiled a list of manufacturers, distributors, product information, reference prices, and rankings for CAE software.
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CAE software Product List and Ranking from 13 Manufacturers, Suppliers and Companies

Last Updated: Aggregation Period:Dec 03, 2025~Dec 30, 2025
This ranking is based on the number of page views on our site.

CAE software Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Dec 03, 2025~Dec 30, 2025
This ranking is based on the number of page views on our site.

  1. null/null
  2. エヌ・エス・ティ Tokyo//software
  3. テラバイト Tokyo//software
  4. 4 テクノスター Tokyo//software
  5. 5 アルテアエンジニアリング Tokyo//software
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CAE software Product ranking

Last Updated: Aggregation Period:Dec 03, 2025~Dec 30, 2025
This ranking is based on the number of page views on our site.

  1. [Example] Analysis of Aluminum Frame Structure エヌ・エス・ティ
  2. General-purpose CAE software "Jupiter" [ domestically developed in-house ] テクノスター
  3. GUI software for OpenFOAM users テラバイト
  4. Artificial Intelligence 'Ansys SimAI'
  5. 5 Ansys Cloud Solution

CAE software Product List

46~60 item / All 172 items

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[Example] Model correlation of plates containing honeycomb core material.

[Example] Model correlation of plates containing honeycomb core material.

We want an analytical model where the natural frequency matches the measured values!

"Model correlation" refers to the process of reviewing various possible errors and correctly reflecting them in the analytical model. If there are measured values and an error-free analytical model, it becomes possible to apply this to further simulations, thereby demonstrating the true value of the simulation. Therefore, by combining Quint products, we propose an experimental vibration characteristic and an error-free analytical model = an optimal model correlation. In this case study, we derived an analytical model that reproduces the vibration characteristics of a plate with a complex structure, including a honeycomb core material (hereinafter referred to as "honeycomb panel"), using Quint products "VOXELCON," "AMDESS," and "OPTISHAPE-TS." [Workflow] ■1. Experimental modal analysis of the honeycomb panel ■2. Calculation of material parameters for a simplified model ■3A. Identification of material parameters ■3B. Identification through model shape modification *For more details, please refer to the PDF document or feel free to contact us.

  • Structural Analysis
  • Contract Analysis
  • Analysis Services

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[Case Study] Evaluation of the Physical Properties of Composite Materials Using Modeling Functions

[Case Study] Evaluation of the Physical Properties of Composite Materials Using Modeling Functions

Using the script function of VOXELCON! Here is an example of evaluating its physical properties through homogenization analysis.

Using the flexible modeling and scripting features of "VOXELCON," you can randomly vary the arrangement and scaling of the given basic shapes to generate models. Here, we will introduce an example of randomly generating a micro model of composite materials and evaluating its physical properties through homogenization analysis. If you have any questions or concerns, please feel free to contact us. 【Contents】 ■ Overview ■ Analysis Model (Micro Model) ■ Homogenization Analysis Results ■ Discussion *Detailed information about the case study can be viewed through the related links. For more details, please feel free to contact us.

  • Structural Analysis

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Example: CAD Integration - Dimension Optimization Linked with SOLIDWORKS

Example: CAD Integration - Dimension Optimization Linked with SOLIDWORKS

By using the SOLIDWORKS API, you can automate dimension changes and reduce operations.

To change dimensions through dimensional optimization, there are two methods: one is to directly modify the CAD model and remesh it, and the other is to change the mesh itself (morphing). Many CAD systems support scripting languages for manipulating CAD models, allowing external programs to operate on CAD models using these scripts. Here, we will introduce an example of dimensional optimization using a VBA macro that integrates SolidWorks (SolidWorks Japan Co., Ltd.) with 'AMDESS'. 【Contents】 ■ Overview ■ Analysis Model ■ Optimization Conditions ■ Results ■ Discussion *Detailed information about the case study can be viewed through the related links. For more information, please feel free to contact us.

  • Structural Analysis

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[Technical Column] The Theory of OPTISHAPE-TS

[Technical Column] The Theory of OPTISHAPE-TS

A column explaining the theory used in optimization functions: "H1 Gradient Method."

Since the release of the initial version, we have frequently received questions from customers about the theories underlying our optimization. From the user's perspective, it is understandable to feel hesitant about using software without a clear understanding of the theoretical background. In this technical column, we will explain the theories used in the optimization features of OPTISHAPE-TS as clearly as possible. Please feel free to download and take a look. [Contents] ■ Episode 1: Introduction to Non-Parametric Optimization *For more details, please refer to the PDF document or feel free to contact us.*

  • Structural Analysis

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[Technical Column] The Theory of OPTISHAPE-TS "Space"

[Technical Column] The Theory of OPTISHAPE-TS "Space"

An explanation of the concept of "space" in modern mathematics! Introduction to a technical column.

In the previous article, I provided an overview of the function space known as H1. As I mentioned briefly, there is a significant difference between the "space" that engineers think of and the "space" in modern mathematics. This time, I will explain the concept of "space" in modern mathematics. Please feel free to download and take a look. [Contents] ■ Episode 9: What is the H1 Gradient Method? Part 2 "Space" *For more details, please refer to the PDF document or feel free to contact us.

  • Structural Analysis

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[Technical Column] Theory of OPTISHAPE-TS Bead Optimization

[Technical Column] Theory of OPTISHAPE-TS Bead Optimization

You can change the characteristics of a structure without increasing the thickness of the thin plate! Introducing a widely used method.

This time, we will introduce bead optimization, which is one of the non-parametric optimizations of OPTISHAPE-TS. A bead refers to a small uneven shape applied to a thin plate structure. Since it can change the characteristics of the structure without increasing the thickness of the thin plate, the processing of bead generation has become a widely used method in various applications. [Contents] ■ Episode 19: Bead Optimization *For more details, please refer to the PDF document or feel free to contact us.

  • Structural Analysis

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The theory of OPTISHAPE-TS: Manufacturing constraints in H1 gradient method.

The theory of OPTISHAPE-TS: Manufacturing constraints in H1 gradient method.

A method with a very high degree of freedom compared to parametric optimization! Introduction to a technical column.

This time, we will introduce the theory of manufacturing constraints in non-parametric shape optimization using OPTISHAPE-TS. Non-parametric optimization, including shape optimization, offers a much higher degree of freedom compared to parametric optimization, which results in unique shapes. Please download and check out the continuation of the column. [Contents] <Chapter 20: Manufacturing Constraints in H1 Gradient Method> ■ Limitations due to penalty terms in the H1 gradient method ■ Limitations based on the evaluation function *For more details, please refer to the PDF document or feel free to contact us.

  • Structural Analysis

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OpenFOAM Training Course

OpenFOAM Training Course

Carefully selected learning topics are provided.

You will learn the basic operations from installing OpenFOAM, creating models, to visualization.

  • Thermo-fluid analysis

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Highly anticipated! SIMULIA Simpoe-Mold release

Highly anticipated! SIMULIA Simpoe-Mold release

Latest software supporting plastic product design, production technology through injection molding, and mold design exhibited at MEDTEC Japan 2016.

We will be exhibiting at MEDTEC Japan 2016!! ============================ ■ Dates: April 20 (Wednesday) - 22 (Friday), 2016 ■ Location: Tokyo Big Sight, East Halls 4, 5, and 6 ■ Our booth number: 5211 ============================ We will be showcasing and demonstrating CAE software for the design of medical devices using advanced materials such as plastics and composites.

  • Other analyses

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Preparation for the Mechanical Engineering Technologist Exam!

Preparation for the Mechanical Engineering Technologist Exam!

The Japan Society of Mechanical Engineers' Computational Mechanics Engineer Examination is approaching on December 10th (Saturday), and we have planned a seminar that will also serve as exam preparation.

■Details■ Date: November 22, 2016 (Tuesday) / November 29, 2016 (Tuesday) Time: 13:30 - 16:30 (Registration starts at 13:00) Venue: CAE Solutions Inc. (Our company) Iidabashi Office, 5th Floor Training Room 2-1-10 Iidabashi, Chiyoda-ku, Tokyo

  • Structural Analysis
  • Other analyses

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[Case Study] Heat Transfer and Thermal Stress Analysis - Casting Cooling Simulation

[Case Study] Heat Transfer and Thermal Stress Analysis - Casting Cooling Simulation

Efficiently perform analysis by conducting thermal stress analysis with Simcenter Femap and Nastran!!!

◆◆Publication Content◆◆ ○Casting cooling simulation using heat transfer and thermal stress analysis (Simcenter Nastran SOL 159/SOL 401) ○Keywords: Nonlinear thermal stress analysis, casting heat transfer, cooling rate, residual stress, shrinkage cavity, solidification shrinkage cavity ○Case Summary ●For other features and details, please refer to the catalog.

  • Stress Analysis

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