Simulation Software Product List and Ranking from 41 Manufacturers, Suppliers and Companies

Last Updated：Oct 01, 2025 Aggregation Period:Sep 03, 2025～Sep 30, 2025
This ranking is based on the number of page views on our site.

Simulation Software Manufacturer, Suppliers and Company Rankings

Last Updated：Oct 01, 2025 Aggregation Period:Sep 03, 2025～Sep 30, 2025
This ranking is based on the number of page views on our site.

アスペンテックジャパン/AspenTech Tokyo//software
FsTech Kanagawa//software
null/null
4 IDAJ Kanagawa//software
5 シュレーディンガー Tokyo//software

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Simulation Software Product ranking

Last Updated：Oct 01, 2025 Aggregation Period:Sep 03, 2025～Sep 30, 2025
This ranking is based on the number of page views on our site.

Aspen Plus process simulation software アスペンテックジャパン/AspenTech
Engine simulation software "GT-POWER" IDAJ
Thermal Fluid Simulation Software 'AICFD' FsTech
4 Offline programming of arc welding robots
5 Process simulation software Aspen HYSYS アスペンテックジャパン/AspenTech

Simulation Software Product List

136～150 item / All 659 items

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Press forming simulation software 'AutoForm'

Presentation of success stories from major automobile manufacturers. Review of the press forming process to achieve cost reduction and productivity improvement! Numerous achievements in enhancing ROI (return on investment).

The review of the press forming process in automobile manufacturing greatly contributes to improving ROI (return on investment). The press forming simulation software 'AutoForm' has significantly improved calculation speed, reducing the confirmation time for die face design from one week to half a day. Furthermore, it is very easy to operate, requiring only simple settings according to the guidance provided. The reliance on craftsmanship for fine-tuning has been greatly reduced, leading to a significant decrease in waste from design to mass production. 【Features】 ◎ Reliable response to short delivery times ◎ Intuitive and easy operability ◎ Comprehensive support system ◎ Over 3,000 users across more than 700 companies in 40 countries worldwide, etc. 【Usage Scenarios】 - Want to investigate the root cause when problems occur - Want to improve yield - Want to verify springback tendencies, robustness, formability, etc. - Want to review the entire press forming process and compare costs of each step, etc.

Company：オートフォームジャパン
Price：Other

Other CAD related software
Other analyses

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AutoForm-PhaseChange Plug-In

Introduction of software that considers phase transformation between quenching and thermal deformation after cooling.

The "AutoForm-PhaseChange Plug-In" is software that, when combined with the AutoForm-Thermo Plug-In, allows for realistic simulation of the hot press forming process for ultra-high-strength steel materials. In the automotive industry, the hot press forming process is crucial for meeting the requirements of improved collision safety levels and weight reduction. 【Features】 ■ Realistic simulation of hot press forming and quenching processes ■ Forming of complex-shaped parts with suppressed springback effects ■ Press-formed parts that meet target local strength characteristics ■ Improved accuracy in collision analysis 【Main Functions】 ■ Rapid simulation of direct and indirect hot press forming processes ■ Complete thermo-mechanical coupled simulation considering phase-dependent material properties ■ Phase transformation during quenching and thermal deformation after cooling ■ Support for tailored tempering processes ■ Graphic display of final part characteristics, including thickness distribution, strain-stress distribution, and distribution and ratio of different material phases, along with the resulting hardness.

Company：オートフォームジャパン
Price：Other

Press Dies
Mold Design
Stress Analysis

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Introduction to Press Forming Simulation [AutoForm Pareto Principle]

Promoting a change in industry awareness towards achieving improved accuracy in press forming simulation through the AutoForm Pareto Principle!

Introduction to the Pareto Principle introduced in press forming simulation. By understanding this principle, you can efficiently enhance the accuracy of press forming simulations. 【Contents】 1. About the Pareto Principle in forming simulation 2. Reasons to focus on setting "essential parameters" in process simulation 3. The next level of "critical parameters" for more accurate simulation considerations 4. The third group of "important parameters" handled by the AutoForm Pareto Principle model 5. Strengthening press forming simulation through the addition of robustness analysis, which is responsible for the comprehensive expansion of the accuracy index with the final level of "detailed parameters" 6. The last parameters in the accuracy indicators of simulation: tribology and contact surface pressure

Company：オートフォームジャパン
Price：Other

simulator
Software (middle, driver, security, etc.)
3D CAD

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Presenting Case Study Collection! 'AutoForm Customer Success Case Study Collection 2022'

Simulation software that contributes to the optimization of the press molding die process! We are offering a collection of success stories summarizing case studies from both domestic and international examples, along with our collaboration with AutoForm!

We are pleased to present the 2022 edition of successful AutoForm implementation case studies, both domestic and international, including examples of initiatives aimed at expanding the use of AutoForm for business process innovation, case studies on reducing man-hours for mold alignment work utilizing CAE, and collaborative project examples with overseas companies applying digital twins and robust engineering models (REM). 【Featured Cases】 ■ Application to ultra-high tensile springback prediction and unexpected cracking prediction during mass production ■ Improvement of prediction accuracy for forming inflow using high-order friction coefficients ■ Achieving overall optimization from process planning to mold manufacturing through the application of AutoForm-ProcessDesigner for CATIA and new prospective flow ■ Reducing assembly man-hours in the finishing process through modeling of "shape relief" using AutoForm ■ A press forming method that keeps the outer panel of Class A aluminum hoods within tolerance during the first mold trial (overseas case) ■ Suppressing springback without corrective adjustments to the hood outer (overseas case) *If you would like a copy of the case study collection, please feel free to contact us or view the PDF materials.

Company：オートフォームジャパン
Price：Other

simulator
Press Dies

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Digital Productivity Examination of Press Molding Dies and Assembly [Case Study]

AutoForm press and assembly solutions that deliver actual results in digitalization!

As expectations for productivity improvements through digital means grow, AutoForm is also expanding its solutions from press forming simulation to assembly production, including proposals for digital process twins and robust engineering models (REM). This document will explain the important factors in digital considerations for press parts and assembly at AutoForm, as well as provide specific operational methods. 【Contents】 ■ Definition of prediction accuracy in simulation ■ Robust engineering models (REM) and digital process twins ■ Example of Coulomb friction coefficient and TriboForm model ■ Optimization of assembly processes *For more details, please refer to the PDF document or feel free to contact us.

Company：オートフォームジャパン
Price：Other

simulator

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Lecture Report: Estimating Mass Production Defect Causes, Digital Innovation in Mold Manufacturing

Report on the identification of factors for mass production of molds at the user meeting, digitalization of business processes, and case studies on the use of hemming in assembly!

On September 29, 2023 (Friday), we held the AutoForm User Conference "AutoForUm 2023" at Bellesalle Akihabara. We received presentations from four user companies that went beyond the scope of press forming simulation, showcasing the latest application use cases. In this report on the user conference, we would like to introduce an overview of the presentations and the atmosphere of the venue for those users who unfortunately could not attend. - Estimation of mass production cracking factors using AutoForm-Sigma: Nissan Motor Co., Ltd. - Improving operational efficiency using AutoForm-Sigma – Moving away from existing examination methods from initial considerations to TRY: Honda Motor Co., Ltd. - Digital innovation in mold manufacturing – Front-loading of business processes using AutoForm: Minami Co., Ltd. - Introduction of the hood forming process utilizing hemming simulation: Toyota Motor Corporation.

Company：オートフォームジャパン
Price：Other

Press Dies
Mold Design
Stress Analysis

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3DEXPERIENCE DELMIA <Resource Verification and NC Processing>

Programs and simulations for working machinery! Contributing to the improvement of NC program accuracy.

We would like to introduce resource verification for "NC machining" using the 3D simulation tool '3DEXPERIENCE DELMIA'. It fully supports milling, turning, and mill-turn operations. It integrates turning and milling processes into a single NC program and defines the NC program in the context of a virtual NC machine. It verifies high-speed and collision-free accurate tool paths, contributing to the improvement of NC program accuracy. 【Features】 ■ Full support for milling, turning, and mill-turn operations ■ Integration of turning and milling processes into a single NC program ■ Definition of NC programs in the context of a virtual NC machine ■ Machining simulation integrated with material removal ■ Creation of cutting tools and tool assemblies using ISO 13399 standards *For more details, please refer to the PDF document or feel free to contact us.

Company：兼松エレクトロニクスデジタル・サービス本部
Price：Other

Process Control System
Other production management systems
Other operation management software

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3DEXPERIENCE DELMIA <Resource Verification and Workability>

Access and edit variables based on 103 types of anthropometry! Supports the creation of accurate mannequin models.

We would like to introduce the verification of work environments that consider workability and safety using the 3D simulation "3DEXPERIENCE DELMIA." This enables the early identification of ergonomic issues. It supports the creation of accurate mannequin models and conducts simulations and verifications of work processes. Additionally, it allows access to and editing of variables based on 103 types of anthropometry. 【Features】 ■ Supports the creation of accurate mannequin models ■ Allows access to and editing of variables based on 103 types of anthropometry ■ Simulates and verifies work processes ■ Verifies visibility, reach, space, posture, comfort, and safety based on ergonomics *For more details, please refer to the PDF document or feel free to contact us.

Company：兼松エレクトロニクスデジタル・サービス本部
Price：Other

Process Control System
Other production management systems
Other operation management software

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Taking measurement technology to the next level.

Improvement of process and quality assurance using high-end chromatic aberration confocal sensors.

To meet the need for speeding up production processes, data from ultra-fast inline measurements is essential. Such technology requires non-contact, high precision, as well as robustness, high reliability, and high-resolution 3D imaging. Our "Chromatic Aberration Confocal Sensor" can meet these requirements. Equipped with high-performance optical lenses, our chromatic aberration confocal sensor focuses not at a single point but at multiple distances along the optical axis, allowing it to focus across all wavelengths of visible light. This multifunctional optical sensor opens up new dimensions in measurement technology. In addition, we also offer products such as the "CLS-C Line Sensor," "C Point Sensor," and "Chromatic Aberration Point Sensor." 【Features】 ■ Capable of measuring various materials: transparent/opaque, diffuse/reflective surfaces, absorbing surfaces, etc. ■ Prevention of shadowing effects through coaxial measurement ■ Wide tolerance and high NA allow for measurements at up to 45° on reflective surfaces and over 80° on diffuse surfaces ■ Ultra-fast multi-point line sensor enables parallel measurement of multiple points *For more details, please refer to the PDF document or feel free to contact us.

Company：プレシテック・ジャパン
Price：Other

Sensors

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Welding deformation and residual stress simulation software 'ASU/WELD'

A series of welding deformation and residual stress simulation software that allows for actual machine evaluation. We will introduce case studies that improve the challenges faced by welding engineers!

The "ASU/WELD" series visualizes the effects of welding thermal distortion in advance and guides the welding process, enabling reductions in prototype costs and shortened delivery times. ■ Product Introduction - "ASU/WELD-Express," a software for analyzing inherent distortion in a short time. - "ASU/WELD-Master," a thermal elastic-plastic analysis software capable of detailed evaluation of welding deformation and residual stress, among others. ■ Challenges and Issues Faced by Welding Engineers - Shortening delivery times and reducing man-hours in the welding process. - Product dimension defects due to welding deformation. - Decreased structural strength due to residual stress. This is recommended for those facing the above challenges. For detailed product information and examples of improvements to these issues, please download the catalog or contact us.

Company：先端力学シミュレーション研究所
Price：Other

Other analyses
Analysis Services
Image analysis software

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CAE Proxy Solution that speeds up simulations by 1000 times

From creating learning models to consulting! Achieving real-time simulations.

Are you involved in CAE and facing these concerns? - Parameter studies take too much time - I want to speed up routine CAE work - The calculation speed is insufficient for real-time CAE usage The CAE proxy solution can solve these problems! The CAE proxy solution is a consulting service that uses deep learning to substitute simulations.

Company：先端力学シミュレーション研究所
Price：Other

simulator
Analysis Services
Other information systems

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Case study of gate position optimization using a super high-speed resin flow simulator.

Instantly calculate the resin filling path predicted from the product shape. Optimization of gate positions and adjustment of weld lines can be done quickly.

Real-time level predictions of time-history flow paths in resin injection molding have become possible through our unique calculation algorithm, which focuses on the effects of product shape, injection position, and injection volume ratio. In addition to initial scheme considerations, seamless collaboration with ASU/MOLD allows for rapid narrowing down of cases for detailed analysis, thereby reducing lead times.

Company：先端力学シミュレーション研究所
Price：100,000 yen-500,000 yen

simulator

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Hydrodynamic performance of underwater lift surfaces in high-speed navigation.

The optimal solver for hydrodynamic investigation of waterborne lift surfaces.

Using Navier-Stokes-based CFD simulations, two standard problems were studied, and the hydrodynamics of submerged lift surfaces were investigated. (1) Flow around a three-dimensional submerged lift surface with an elliptical shape and a constant camber wing cross-section. (2) Flow around a two-dimensional symmetric wing cross-section. The dependence of the resulting hydrodynamic loads on changes in velocity and angle of attack was examined under fully submerged conditions that allowed for the occurrence of cavitation. A comparison of results obtained from numerical simulations and measurements from experiments conducted in a pressurized test tank facility was presented.

Company：日本ケイデンス・デザイン・システムズ社
Price：Other

Thermo-fluid analysis

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Reduction of work time through fully automated mesh generation for fluid analysis simulation.

【Gift of Case Studies!】Complete automation from time-consuming CAD maintenance to mesh generation! Proven results that have accelerated creation time by 60 times!

Fluid analysis simulations take a lot of time from CAD modifications to mesh generation. Additionally, mesh generation requires skilled artisans to spend a significant amount of time, which poses a considerable burden on companies. Cadence's "Omnis/AutoMesh" can fully automate the mesh creation process, which previously took a long time from CAD modifications. With the ability to build a fully automated fluid analysis system through batch processing, tasks that would typically take a month can now be completed in just half a day, significantly reducing work time. 【Features】 ■ Fully automated mesh creation ■ No need for CAD cleanup ■ High-speed generation of large meshes through distributed parallel processing ■ Mesh generation primarily using hexahedra ■ Ability to modify and add shapes using CAD functions, etc. *For more details, please download the PDF or contact us.