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soft(cae) - List of Manufacturers, Suppliers, Companies and Products

Last Updated: Aggregation Period:Sep 03, 2025~Sep 30, 2025
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soft Product List

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Today's ANSYS mission is 'without prototyping' (Tokyo Electron)

Today's ANSYS mission is 'without prototyping' (Tokyo Electron)

We would like to introduce an interview article with Mr. Kazuo Kibi from Tokyo Electron Limited!

I would like to introduce information that highlights how CAE and CFD are beneficial to society, including interesting application examples, primarily through articles from the information magazine "ADVANTAGE" published by ANSYS, Inc. and ANSYS Japan Co., Ltd. This time, we will present an interview article with Mr. Kazuo Kibi from Tokyo Electron Limited. The company holds the top share in Japan and the third largest share in the world as a semiconductor manufacturing equipment manufacturer. As a long-time user of ANSYS Fluent, the company utilizes simulation to clarify and predict phenomena occurring within their manufacturing equipment. They leverage simulation software from upstream to downstream in the design process, but now the management has assigned them a more challenging mission of "not creating prototypes." Creating prototypes requires enormous costs and time. Therefore, if they can avoid making prototypes, there is no doubt that they can achieve significant economic and time benefits. *For more details, please download the PDF or contact us.

  • Company:IDAJ
  • Price:Other
  • Development support tools (ICE, emulators, debuggers, etc.)
  • simulator
  • Other analyses

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Fusion360 Experience Course - From Creating Mechanical Parts to Assembly

Fusion360 Experience Course - From Creating Mechanical Parts to Assembly

By modeling parts and creating assemblies, you will be able to experience the design flow using Fusion 360.

Fusion360 is an integrated 3D CAD application that handles CAD, CAM, CAE, and rendering. Among its features, the hybrid modeling capability that supports solid, surface, polygon, and mesh modeling is based on innovative ideas that set it apart from traditional CAD products, earning high praise across various industries. Not only does it offer innovation, but it also includes traditional mechanical 3D CAD functionalities, allowing for advanced mechanical design, including individual part design, product assembly creation, and sheet metal functions, despite its price. In this seminar, you will experience the design flow using Fusion360 by modeling parts and creating assemblies. It is recommended for those considering the active adoption of 3D CAD, those who have hesitated due to cost, and those looking to reduce the operational costs of existing 3D CAD systems. Date: Saturday, May 26, 2018, from 13:30 to 16:30 *Fusion360 2018 will be used. *One computer (Windows) will be provided per person.

  • Technical Seminar
  • 3D CAD
  • 3D CAM

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Collaboration between CAESES and OpenFOAM in Blade Shape Optimization

Collaboration between CAESES and OpenFOAM in Blade Shape Optimization

Introduction to parameter control of script files and optimization execution during OpenFOAM integration!

This article focuses on the software connection in the shape optimization process using OpenFOAM and CAESES. The application targeted is a propeller blade, and the connection between external software and CAESES can be established quickly, allowing for the rapid initiation of automatic optimization and design considerations for the blade. The collaboration between CAESES and OpenFOAM has been utilized in various cases, and tutorials and sample files are available within CAESES. This collaborative system using open-source software is highly efficient and can greatly benefit from optimization calculations. *For more detailed information, please refer to the related links. For further details, you can download the PDF or feel free to contact us.*

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  • ブレード形状最適化におけるCAESESとOpenFOAMの連携7.png
  • Other analyses
  • Image analysis software

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Introduction to Ship Shape Optimization Method Using CAESES

Introduction to Ship Shape Optimization Method Using CAESES

Obtaining optimal candidate solutions through optimization calculations is an important step that marks the beginning of the concept in design development and the first step towards product improvement.

With the functional enhancements from the CAESES version upgrade and the development of external analysis software, optimization methods are not limited to a certain number and new methods are constantly being explored. There may be some who cannot envision the collaboration between optimization software like CAESES and the analysis software being used. Therefore, in this article, we will introduce two actual cases of ship shape optimization methods using CAESES. *For detailed content of the article, you can view it through the related links. For more information, please download the PDF or feel free to contact us.*

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  • Other analyses

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Parametric model of twin-skeg boats in CAESES

Parametric model of twin-skeg boats in CAESES

It is possible to flexibly control various parts related to hull characteristics!

We will introduce the parametric model of a twin-skeg vessel created by FRIENDSHIP SYSTEMS, the developer of the CAD + optimization software CAESES. In cases where the shape is symmetrical, only half of the hull is typically modeled. With CAESES, it is possible to robustly construct a model that incorporates the deformations anticipated by the user. *For more detailed information, please refer to the related links. For further details, you can download the PDF or feel free to contact us.

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  • Other analyses
  • Other CAD

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Propeller design for efoil using CAESES

Propeller design for efoil using CAESES

Here is a brief introduction to the design of the propeller included with the foil board!

Do you all know about "efoil"? An efoil is an electric foil board that allows you to experience the sensation of flying above the water. Here, we will introduce some aspects of the propeller design that comes with the foil board, as discussed by a CAESES user with FRIENDSHIP SYSTEMS, the developer of CAESES. *You can view the detailed content of the article through the related links. For more information, please download the PDF or feel free to contact us.*

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  • Other analyses
  • 3D Printer

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Noise reduction of axial fans using CAESES.

Noise reduction of axial fans using CAESES.

CAESES enables rapid evaluation of all ideas in the optimization process!

The design of axial flow fans generally needs to consider not only efficiency but also noise reduction. Reducing noise in axial flow fans is a rather complex and difficult issue when considering details, but there are some simple geometric methods that can lower fan noise in standard blade designs. The parametric modeling and optimization software CAESES provides a modeling toolbox for implementing various types of shapes and methods, automating the generation of blade geometry in simulation-driven optimization loops. This case study introduces improvements in noise levels and overall acoustic characteristics of axial flow fans utilizing CAESES. *For more detailed information, please refer to the related links. For further details, you can download the PDF or feel free to contact us.*

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  • fan

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Optimization of axial fans using TCFD and CAESES.

Optimization of axial fans using TCFD and CAESES.

The goal of the optimization calculation is to maximize fan efficiency at specific flow rates and increase airflow!

In this case, we will introduce the automatic optimization workflow for axial fan rotor blades developed by CFDSupport, the creator of TCAE, and FRIENDSHIP SYSTEMS, the creator of CAESES. The project began in response to requests from designers and manufacturers who have basic designs for axial fans and wish to improve existing products into more optimal shapes. *For detailed content of the article, you can view it through the related links. For more information, please download the PDF or feel free to contact us.*

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  • Structural Analysis
  • fan
  • Other analysis software

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Optimization of drone propeller shape

Optimization of drone propeller shape

Providing the right products to customers! Introducing the benefits and applications of CAESES at Parrot.

The French company Parrot, which specializes in the design and development of drones, uses CAESES for the design of drone propellers. The reason Parrot's engineers, who are experts in the drone market, adopted CAESES is to speed up the design process and provide customers with even more suitable products. Here, we will introduce the benefits and applications of CAESES at Parrot. *For detailed information, you can view the related links. For more details, please download the PDF or feel free to contact us.*

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  • ドローンのプロペラ形状の最適化3.png
  • ドローンのプロペラ形状の最適化4.png
  • ドローンのプロペラ形状の最適化5.gif
  • Structural Analysis
  • Software (middle, driver, security, etc.)

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Collaboration feature of CONVERGE and CAESES using the intake port.

Collaboration feature of CONVERGE and CAESES using the intake port.

Supporting development design operations! Introducing features that can be effectively utilized.

The optimization calculation software CAESES and the thermal fluid analysis software CONVERGE work together as a collaborative optimization system aimed at shape optimization and investigating the effects of design variables, providing support to engineers in the design and development field. In this article, we will introduce the functions that can be effectively utilized in CAESES when collaborating with CONVERGE, using intake port models and piston models. *For detailed content of the article, please refer to the related links. For more information, feel free to download the PDF or contact us.

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  • Other analysis software

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Optimization of Marine Propeller Blade Shape Using OpenFOAM

Optimization of Marine Propeller Blade Shape Using OpenFOAM

The blades used for calculations can be created using the "Generic Blade" feature of CAESES.

One of the advantages of CAESES is its optimization design through an automation system connected to CFD software. This article introduces the blade shape optimization of marine propellers using OpenFOAM and CAESES, which is currently in use. In CAESES, in addition to methods for designing parametric 2D and 3D models, it is also possible to connect with various external software. *For more details, you can view the related links. For further information, please download the PDF or feel free to contact us.*

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  • Software (middle, driver, security, etc.)
  • Other analyses

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Dimensional reduction of hull shape using principal component analysis in CAESES.

Dimensional reduction of hull shape using principal component analysis in CAESES.

Introducing the dimensional reduction function based on the drag optimization of KCS ships!

To optimize the hydrodynamic performance of the hull using the parametric modeling and optimization software CAESES, we first extract design variables related to the deformation of the hull's variable geometry. By increasing the number of design variables in this process, we can obtain a wider variety of deformation shapes, which in turn increases the likelihood of achieving better hull design proposals. However, the number of computational cases required for simulations (such as CFD analysis) increases exponentially (recommended number of cases S = 2^N, where N is the number of design variables), leading to significantly larger computational and time costs. To address this issue, CAESES5 offers a dimensionality reduction feature based on Principal Component Analysis (PCA) methods. *For more detailed information, please refer to the related links. For further details, feel free to download the PDF or contact us.*

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  • Other analyses

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Optimization of catalytic converter performance using CAESES.

Optimization of catalytic converter performance using CAESES.

Optimization of the duct of the catalytic converter using CAESES!

Designing engine components for automobiles often involves considering many constraints, making it a challenging task within development design work. One example is the duct located just before the catalytic converter. Due to space constraints, this component is often designed to be bent quite sharply, which makes it difficult to ensure that the flow distribution is sufficiently uniform. In other words, if the flow characteristics of the catalytic converter are poor, there is a possibility that performance will decrease and emissions will increase. In this case, optimization of the duct for the catalytic converter will be performed using CAESES. *For more details, please refer to the related links. For further information, feel free to download the PDF or contact us.*

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  • Other analysis software

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[Example] Parametric Modeling of Stators 'CAESES'

[Example] Parametric Modeling of Stators 'CAESES'

Create parametric and robust CAD models! Various types of complex freeform shapes can be realized.

We would like to introduce a case of parametric modeling of a stator using CAD and the optimization software "CAESES." Basically, the shape of the stator can be designed with many degrees of freedom, and as long as the new design candidates meet a series of geometric constraints, various types of complex free shapes can be realized. The final CAD model is controlled by a series of parameters for the blades and EWC, most of which are linked to distribution functions of cross-sectional profiles such as camber and thickness, defining radial deformations. 【Manufacturing Constraints for the Stator】 ■ 15 blades ■ Constant maintenance of the blade's axial chord ■ Minimum thickness requirements for the leading edge and trailing edge ■ Thickness and distance of two inner holes for fixing the blades ■ Installation constraints regarding plate dimensions ■ Radius reduction limits for the EWC *For more details, please download the PDF or feel free to contact us.

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  • Other analysis software

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Automatic Optimization using Adjoint Flow Solvers

Automatic Optimization using Adjoint Flow Solvers

It is possible to efficiently obtain optimal candidate geometry that can be directly supplied to the downstream CAD design process!

At FRIENDSHIP SYSTEMS, the developer of the CAD and optimization software CAESES, automatic optimization calculations were performed based on the shape sensitivity calculated by Adjoint Flow Solvers. The open-source optimization toolkit Dakota, integrated into CAESES, provides optimization methods that can directly accept gradient information obtained by combining shape sensitivity with CAD model parameters as input data. Based on this information, the algorithm selects parameters for design candidates created by CAESES, and calculations are performed using Adjoint Flow Solvers. *For more detailed information, please refer to the related links. For further details, you can download the PDF or feel free to contact us.*

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  • Other analysis software

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