Analysis software Product List and Ranking from 161 Manufacturers, Suppliers and Companies | IPROS

Last Updated: Aggregation Period:Feb 04, 2026~Mar 03, 2026
This ranking is based on the number of page views on our site.

Analysis software Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Feb 04, 2026~Mar 03, 2026
This ranking is based on the number of page views on our site.

  1. JIPテクノサイエンス Tokyo//Information and Communications
  2. 応用計測サービス Saitama//Other construction industries
  3. アドバンスドナレッジ研究所 Tokyo//Building materials, supplies and fixtures manufacturers
  4. 4 ミューテック Kanagawa//Facility Design Office
  5. 5 ウェーブフロント 本社 Kanagawa//others
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Analysis software Product ranking

Last Updated: Aggregation Period:Feb 04, 2026~Mar 03, 2026
This ranking is based on the number of page views on our site.

  1. PLAXIS Monopile Designer JIPテクノサイエンス
  2. General-purpose linear and nonlinear structural analysis system "DIANA" JIPテクノサイエンス
  3. High-speed general-purpose plasma analysis software 'VizGlow' ウェーブフロント 本社
  4. 3D Ground Analysis Software "PLAXIS 3D" JIPテクノサイエンス
  5. 4 "EnergyWin" power plant thermal efficiency analysis technical support 電力テクノシステムズ

Analysis software Product List

331~360 item / All 793 items

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Abaqus + α Solution "Fluid-Structure Interaction Analysis"

Abaqus + α Solution "Fluid-Structure Interaction Analysis"

Achieve highly accurate fluid-structure interaction analysis! Easily implement complex analysis settings!

IDAJ's "Fluid-Structure Interaction Analysis" achieves highly accurate fluid-structure interaction analysis by using dedicated software specialized for both fluid and structure. There is a wealth of practical experience in the automotive, aerospace, maritime, energy, architecture, electrical, and chemical industries. The operations and settings necessary for data mapping and interaction analysis are menu-driven, making it easy to perform complex interaction analysis setups. 【Features】 ■ More realistic CAE through coupled analysis with Abaqus and STAR-CCM+ ■ Contributes to modeling considering multi-physics ■ Import and export functionality in Abaqus format ■ One-way coupling functionality via data mapper ■ Unsteady two-way coupling functionality through direct co-simulation *For more details, please refer to the PDF materials or feel free to contact us.

  • Company:IDAJ
  • Price:Other
  • Scientific Calculation and Simulation Software
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Abaqus + α Solution "Shape Optimization"

Abaqus + α Solution "Shape Optimization"

Achieve design efficiency on CAE! Significantly reduce man-hours by effectively utilizing existing models.

At IDAJ, we propose to enhance design efficiency in CAE by effectively utilizing Abaqus models. By making effective use of existing models, we can significantly reduce the man-hours required for preparing parametric model creation. When integrated with modeFRONTIER, we provide designers with "hints" for optimization to address the multi-objective optimization problems encountered in design development. 【Features】 ■ Import Abaqus inp files and quickly modify shapes ■ No need for remeshing or boundary condition resetting after shape modification ■ Parameterization of shapes such as hex mesh models that are difficult to generate automatically ■ No need for complex script preparation to build optimization systems ■ Support for optimal design considerations using cutting-edge optimization methods and experimental design techniques *For more details, please refer to the PDF materials or feel free to contact us.

  • Company:IDAJ
  • Price:Other
  • Scientific Calculation and Simulation Software
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CAE Automation Process Construction System 'EASA'

CAE Automation Process Construction System 'EASA'

Simplifying the usage environment of software and databases! A system that streamlines usage.

In IDAJ's "EASA," you can easily build web-based applications that simplify the usage environment for software and databases, allowing for efficient utilization. The built applications can be deployed and used anywhere on the internet. Users can skip tasks such as reinstalling by rechecking how to use the application. 【Features】 ■ Achieves a seamless web usage environment for software and databases ■ Easy GUI construction with the application builder ■ Centralized management of data, users, and applications ■ Standard library that supports multiple languages *For more details, please refer to the PDF materials or feel free to contact us.

  • Company:IDAJ
  • Price:Other
  • Scientific Calculation and Simulation Software
  • Drawing, tracing, CAD
  • Other Software
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[FloTHERM Case Study] Coupled Analysis with +α Solution

[FloTHERM Case Study] Coupled Analysis with +α Solution

FloTHERM + α solution! Coupled analysis such as "thermal fluid-structure" is now possible!

"FloTHERM" is a design support tool specifically for electronic devices. By utilizing the FloTHERM + α solution, you can perform "multiphysics analysis" and "multidomain analysis." Our company responds to customer requests through the provision of software and consulting services. [Examples] ■ Multiphysics Analysis (Coupling of Different Physical Phenomena) ◎ Thermal Fluid-Structure - High-precision prediction of displacement and temperature within electronic device enclosures ◎ Thermal Fluid-Electromagnetic Field - Loss distribution data analyzed with electromagnetic field analysis software is transferred to FloTHERM via a data mapping tool. *For more details, please refer to the PDF materials or feel free to contact us.

  • Company:IDAJ
  • Price:Other
  • Scientific Calculation and Simulation Software
  • others
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Reduction of molding defects and improvement of mold life through the introduction of CAE technology.

Reduction of molding defects and improvement of mold life through the introduction of CAE technology.

Improving molding efficiency by maintaining and managing the mold at the appropriate temperature and reducing solidification time!

We propose "reducing molding defects and improving mold lifespan through the introduction of CAE technology." It is possible to transfer technology after you have implemented the software, and if you provide input data, we can offer consulting services that output data on thermal deformation due to differences in linear expansion rates of individual components that make up the mold, external forces (clamping force), contact and friction between components, and creep predictions on the product side. We have included a case study where mold warpage was reduced by 29%. 【Proposal Overview】 ■ To further improve the accuracy of mold temperature predictions and product molding predictions, we propose fluid analysis (CFD) and optimization technologies. <Proposal 1> - Utilizing the open-source general-purpose CFD software "iconCFD" to achieve large-scale calculations at low cost. <Proposal 2> - Utilizing the world-class leading tool for general fluid analysis "ANSYS Fluent." *For more details, please refer to the PDF document or feel free to contact us.

  • Company:IDAJ
  • Price:Other
  • Scientific Calculation and Simulation Software
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[Case Study] Cost Reduction and Performance Improvement of Hydraulic Control Equipment

[Case Study] Cost Reduction and Performance Improvement of Hydraulic Control Equipment

Introduce ANSYS Fluent to reduce costs and improve performance of hydraulic control equipment!

We would like to introduce a case where Rinsan Industries utilized 'ANSYS Fluent' for cost reduction and performance improvement of hydraulic control devices. The in-house flow calculation tool that had been used until now did not provide sufficient accuracy, and it was only used to confirm trends. However, with 'ANSYS Fluent,' a good accuracy of -1.4% has been achieved, and it is expected to be applicable to future analysis cases. Additionally, the number of prototypes has decreased, and there is no longer a need to wait for prototypes to be completed, which has contributed to a more efficient reduction in overall development costs. 【Features】 ■ Reduction of the number of prototypes and man-hours, and also used to avoid worst-case scenarios ■ Achieved good simulation accuracy of -1.4% ■ Can be used to identify and avoid anticipated worst-case scenarios through combinations of upper and lower limits of design tolerances ■ Now able to quantitatively confirm how well the design range fits within the required range *For more details, please refer to the PDF document or feel free to contact us.

  • Company:IDAJ
  • Price:Other
  • Scientific Calculation and Simulation Software
  • Analysis and prediction system
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Explanation material "Causes of Designer CAE Failures and Points of Success" *Currently distributed*

Explanation material "Causes of Designer CAE Failures and Points of Success" *Currently distributed*

Introducing the selection points for CAE with illustrations. Information on low-cost platforms equipped with abundant features is also included.

We are currently distributing materials that outline key points to consider for efficiently advancing product development using "CAE." The materials introduce common post-implementation concerns in a conversational format, while clearly explaining the points to consider in order to solve these issues, making it easy for beginners to understand. [Contents] ■ Story at the time of implementation (during/after implementation) ■ Common post-implementation concerns ■ Examples of points for success ■ Introduction to ANSYS Discovery *For more details, please refer to the materials. Feel free to contact us with any inquiries.

  • Company:IDAJ
  • Price:Other
  • Other Software
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Integrated Electromagnetic Field Analysis Solution Ansys Electronics

Integrated Electromagnetic Field Analysis Solution Ansys Electronics

A group of electromagnetic field analysis software that leads the industry with high speed and cost efficiency.

3D models of antennas, connectors, waveguides, motors, busbars, and a wide range of products such as circuit boards and semiconductor packages can be analyzed, and to accommodate various electromagnetic field analyses, we provide four software options: Ansys HFSS, Ansys Maxwell, Ansys SIwave, and Ansys Q3D Extractor, tailored to the analysis target. The low-frequency and high-frequency analysis spaces are distinguished by the size of the analysis space relative to the wavelength; in the low-frequency region, the electromagnetic field is uniformly distributed within the space, while in the high-frequency region, the electromagnetic field is distributed as waves. With Ansys's electromagnetic field solutions, you can efficiently analyze by selecting the appropriate software for the analysis space size and using solvers suited to the analysis target.

  • Company:IDAJ
  • Price:Other
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Digital Aerosol Photometer "Model 2i"

Digital Aerosol Photometer "Model 2i"

Supports measurements in harmful environments! Equipped with a color LCD display for easy operation.

The "Model 2i" is a cutting-edge and user-friendly digital aerosol photometer that serves as a mainstream filter leak testing device in countries around the world. It is designed with consideration for measurements in hazardous environments, such as facilities handling radioactive materials and highly pharmacologically active substances. Additionally, contaminated sampling parts can be safely replaced. Furthermore, our company also offers the "TDA series," a multi-dispersed aerosol generator. 【Features】 ■ Innovative user interface ■ Adoption of iProbe ■ Compatible with HEPA filter integrity testing ■ Enables more stable aerosol measurements ■ Suitable for measurements in harmful environments *For more details, please refer to the PDF materials or feel free to contact us.

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Image-based structural analysis software 'VOXELCON'

Image-based structural analysis software 'VOXELCON'

Easy modeling of any shape! 3D editing, analysis, measurement, and material property calculation of CT images based on images.

"VOXELCON" is a powerful image-based structural analysis software that directly models and utilizes CT images obtained from physical objects and STL data from CAD for analysis and measurement. It is equipped with a variety of reverse engineering functions as structural analysis and measurement features. It is effective in various scenarios, from cast products to composite materials, and from the design stage to quality control. Additionally, voxel segmentation is ultra-fast, capable of creating a mesh of 100 million voxels in just a few seconds, and is extremely robust, resulting in very few failures. 【Features】 ■ Direct use of physical data ■ Various reverse engineering functions ■ Ultra-fast and robust voxel segmentation ■ Large-scale solver included ■ Cutting-edge multi-scale analysis *For more details, please refer to the related links or feel free to contact us.

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[Case Study] Analysis of Complex Shape Models - Reducing Labor Costs -

[Case Study] Analysis of Complex Shape Models - Reducing Labor Costs -

"VOXELCON" is a structural analysis software that directly models STL data from CT and CAD for analysis and measurement purposes.

When creating an analysis model by mesh partitioning from a detailed CAD model created as design data, the following issues can be noted: - The number of elements becomes enormous, leading to high computational costs. - Mesh partitioning is difficult and requires the tips and techniques of experienced users. Additionally, the analysis results depend on the mesh partitioning. - In some cases, automatic element partitioning is not possible. However, even if you try to analyze using a simplified shape... - The effort required for simplification is significant. - Evaluating the impact of simplification on analysis accuracy is cumbersome. These issues can be resolved by VOXELCON's voxel mesh generation technology. Even complex shapes can be easily converted into analysis models, reducing the man-hours required for analysis. *For more details, please refer to the related links or feel free to contact us.

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[Case Study] Shape optimization for equalizing reaction forces ★ Detailed materials available

[Case Study] Shape optimization for equalizing reaction forces ★ Detailed materials available

Consider "reaction force" as a manufacturing requirement! Reduce the reaction force values at points with high fixed-point reaction forces!

We will perform non-parametric shape optimization to ensure that the reaction forces at the bolted fixed points are equal, and we will introduce a case that reduces the reaction force values at the locations with high fixed point reaction forces. The analysis model completely fixes four bolted points and applies a load of 1,000N in the Z-axis direction. In the evaluation of the initial shape, the reaction force value at the lower left part was the largest, reaching 415.1N. 【Case Overview】 ■Optimization Conditions - Objective Function: Volume Minimization - Constraints: Reaction force of 250N in the Z-axis direction at each fixed point, 3.0 times the compliance of the initial shape - Shape Variation Restrictions (constraints related to manufacturing requirements): Minimum thickness, maintaining the plane of the Z component on one side For further details, please refer to the PDF document or feel free to contact us.

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Example: Material Data Correlation - Identification of Heat Transfer Coefficient

Example: Material Data Correlation - Identification of Heat Transfer Coefficient

We identify parameters that change with environmental and analytical conditions. Not only the heat transfer coefficient but also the stress-strain curve in elastoplastic analysis can be identified!

The heat transfer coefficient depends on the surrounding environment and is not unique to the material, making it difficult to determine its value. If a heat transfer coefficient that can reproduce the measurement results can be identified, it is expected that good simulation results can be obtained for another model under similar environmental conditions. In this case, the general-purpose parameter optimization software "AMDESS" was linked with "Nastran" to identify the heat transfer coefficient. As a result, the temperature at the evaluation points matched the target value within an error of 0.3%, and the heat transfer coefficients for each surface were obtained. 【Optimization Conditions】 ■ Design Variables - Heat transfer coefficients for each surface (h1 to h6) - Range: 10.0 to 70.0 [W/m²K] ■ Objective Function: Minimize the squared error from the target temperature at each evaluation point = Bring the calculated temperature closer to the specified target temperature *For more details, please refer to the PDF document or feel free to contact us.

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[Example] Shape optimization considering stress

[Example] Shape optimization considering stress

Using "OPTISHAPE-TS"! Introducing optimization cases with different stress constraints based on model parts.

In strength design, stress serves as an important guideline. When performing strength assessments based on stress, it is necessary to change the evaluation stress values according to different parts, not just relying on the maximum value. In such cases, by specifying constraint stress values for each region, it is possible to obtain an optimal shape that constrains stress at multiple evaluation points and all locations. This time, we will introduce an optimization case that applies different stress constraints based on the model's parts. [Contents] ■ Overview ■ Analysis Model ■ Optimization Conditions ■ Results ■ Discussion *Detailed information about the case can be viewed through the related links. For more information, please feel free to contact us.

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[Case Study] Accuracy Verification of Stress Using Finite Covering Method (FCM)

[Case Study] Accuracy Verification of Stress Using Finite Covering Method (FCM)

Compared to the finite element method (FEM)! Verified with models using three patterns of voxel sizes.

Finite element analysis using voxels has the advantage of being easy to operate, fast, and not incurring human costs; however, it also has the disadvantage of causing stress wave phenomena. To eliminate this disadvantage, we apply the Finite Covering Method (FCM) to improve analysis accuracy. Here, we will verify how the analysis accuracy is improved by using the Finite Covering Method (FCM) while changing the mesh size and comparing it with the Finite Element Method (FEM). [Contents] ■ Overview ■ Analysis Model ■ Analysis Results *Detailed information about the case study can be viewed through the related links. For more details, please feel free to contact us.

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[Case Study] Accuracy Verification of Displacement and Temperature Using Finite Covering Method (FCM)

[Case Study] Accuracy Verification of Displacement and Temperature Using Finite Covering Method (FCM)

I will introduce the issues with voxel analysis and a case study applying FCM as a solution!

The displacement solution of static stress analysis, or the temperature solution of steady-state heat conduction analysis, generally does not produce significant errors as long as the shape is accurately represented. However, there are cases where errors can become substantial. When the original shape does not match the voxel pitch, discrepancies in the shape occur. Therefore, to achieve better accuracy in the analysis, it is necessary to refine the mesh, which increases the model size. Here, we will introduce a case study applying FCM as a solution to this issue. 【Contents】 ■ Overview - Issues with voxel analysis ■ Analysis Model - Boundary conditions ■ Analysis Results - Static stress analysis / Steady-state heat conduction analysis *Detailed information about the case study can be viewed through the related links. For more information, please feel free to contact us.

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Example: Injection Molding - Reducing clamping force to downsize the molding machine.

Example: Injection Molding - Reducing clamping force to downsize the molding machine.

We will collaborate with 3D TIMON to explore gate positions that can be injected even with small molding machines, thereby reducing production costs.

Optimizing molding conditions parametrically in resin flow analysis can be relatively easily achieved, but automatically changing the shape of the cavity and the arrangement of the runner while optimizing is challenging. To facilitate these optimizations, we developed "AMDESS for 3D TIMON" in collaboration with Toray Engineering Co., Ltd. Here, we will introduce a case study of optimizing the gate position to minimize clamping force while automatically re-modeling the runner when changing the gate position. [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.

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[Column] The Theory of OPTISHAPE-TS: Checkerboard Phenomenon

[Column] The Theory of OPTISHAPE-TS: Checkerboard Phenomenon

I will explain the difficulties of non-parametric optimization from another perspective!

In the previous sections, we explained that in non-parametric optimization, the number of design variables to be determined is large, meaning that the dimensionality of the search space is high, which is why optimization algorithms using sensitivity are employed. In this article, we will further explain the difficulties of non-parametric optimization from another perspective. Please feel free to download and take a look. [Contents] ■ Episode 4: The Difficulty of Non-Parametric Optimization Part 3 "Checkerboard Phenomenon" *For more details, please refer to the PDF document or feel free to contact us.

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[Technical Column] The Theory of OPTISHAPE-TS: "Time Complexity"

[Technical Column] The Theory of OPTISHAPE-TS: "Time Complexity"

A simple analysis example of using an optimization algorithm for the number of trials is also included!

In the previous discussions, I explained that non-parametric optimization, mathematically, is optimization focused on functions, and in practice, it becomes a problem of finding a number of design variables comparable to the scale of the finite element model (number of nodes, number of elements). In this article, I will explain the optimization algorithms for solving such problems. Please feel free to download and take a look. [Contents] ■ Episode 3: The Difficulty of Non-Parametric Optimization Part 2 "Time Complexity" *For more details, please refer to the PDF materials or feel free to contact us.

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[Technical Column] The Theory of OPTISHAPE-TS: "Shape Optimization"

[Technical Column] The Theory of OPTISHAPE-TS: "Shape Optimization"

An explanation of what the gradient method specifically entails! Introduction to a technical column.

In the previous four articles, we discussed the challenges of non-parametric optimization and the positioning of the H1 gradient method as a solution. From here, we will explain specifically what the H1 gradient method entails. Please feel free to download and take a look. [Contents] ■ Episode 6: The Emergence of the H1 Gradient Method and Its Background Part 1 "Shape Optimization" *For more details, please refer to the PDF document or feel free to contact us.

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[Column] The Theory of OPTISHAPE-TS: "What is H1 in the first place?"

[Column] The Theory of OPTISHAPE-TS: "What is H1 in the first place?"

An explanation of the function space H1 from several perspectives! Introduction to a technical column.

In the previous two articles, I explained what the H1 gradient method is in shape optimization and topology optimization, along with its historical background. In this article, I will explain what "H1" in the H1 gradient method refers to. Please feel free to download and take a look. [Contents] ■ Episode 8: What is the H1 Gradient Method? Part 1 "What is H1 in the first place?" *For more details, please refer to the PDF document or feel free to contact us.

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The theory of OPTISHAPE-TS: Evaluating the maximum value of the KS function.

The theory of OPTISHAPE-TS: Evaluating the maximum value of the KS function.

Introduction to the evaluation method for maximum values using something called the KS function!

In OPTISHAPE-TS, it is possible to evaluate the maximum values of functions distributed over the model, such as "maximum Mises stress" and "maximum displacement." However, if we literally use the maximum value as the evaluation function, we will not be able to evaluate the derivatives, making it impossible to determine sensitivity. This time, I will introduce a method for evaluating maximum values using a function called the KS function, which is adopted in OPTISHAPE-TS. Please feel free to download and take a look. [Contents] ■ Episode 18 Evaluating the Maximum Value of Functions: KS Function *For more details, please refer to the PDF document or feel free to contact us.

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Theory of OPTISHAPE-TS Compliance Sensitivity Part 3

Theory of OPTISHAPE-TS Compliance Sensitivity Part 3

Sensitivity of compliance for a one-dimensional cantilever beam! Explanation of the derivation approach.

In the previous article, we introduced the Lagrange multiplier method as a condition that the solutions of optimization problems with equality constraints should satisfy. This time, we will apply that concept to derive the sensitivity of compliance. Please feel free to download and take a look. [Contents] ■ Episode 25 Sensitivity of Compliance Part 3 "Lagrange Multiplier Method" *For more details, please refer to the PDF document or feel free to contact us.

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Theory of OPTISHAPE-TS Compliance Sensitivity Part 4

Theory of OPTISHAPE-TS Compliance Sensitivity Part 4

Introduction to a technical column on problems involving design variables represented by functions!

In the previous articles, we explained the compliance and its sensitivity when introducing two-dimensional design variables for a one-dimensional cantilever beam. This time, we will finally replace the design variables from a finite-dimensional vector to an infinite-dimensional function and construct the problem. Please feel free to download and take a look. [Contents] ■ Episode 26 Sensitivity of Compliance Part 4 "Problems with Design Variables Represented by Functions" *For more details, please refer to the PDF document or feel free to contact us.

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Thermal and fluid analysis software for design verification: FloEFD

Thermal and fluid analysis software for design verification: FloEFD

FloEFD is a user-friendly thermal and fluid analysis software for designers!

For example, when considering the thermal cooling of LEDs, when conceptualizing the design of blades, or when presenting the efficiency of a new heat exchanger at a design review, FloEFD will be a great assistant for you as a designer. It is fully integrated with 3D CAD (CATIA V5, Creo (formerly Pro/ENGINEER), NX), allowing you to set conditions directly on the model without the need to learn separate operations, enabling immediate thermal fluid analysis.

  • Other analytical equipment
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Abaqus Unified FEA, an integrated finite element analysis software.

Abaqus Unified FEA, an integrated finite element analysis software.

This is an introduction to a suite of integrated finite element method products consisting of Abaqus/CAE.

"Abaqus Unified FEA" is a complete solution for realistic simulation. It provides a powerful suite of solutions that covers a wide range of industrial applications, from routine analyses to advanced engineering problems. By organizing and integrating your processes and tools, you can improve inefficiencies, reduce costs, and secure competitiveness. 【Features】 ■ An integrated finite element method product group consisting of Abaqus/CAE, dedicated to pre/post processing for Abaqus ■ Achieves high-precision simulations ■ Significantly contributes to reducing development time and costs by decreasing the number of prototypes/experiments ■ Provides solutions for realistic simulation For more details, please contact us or download the catalog.

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HELYX

HELYX

HELYX is changing the world of open-source CFD.

HELYX is a tool for the practical application of the open-source OpenFOAM. It is a low-cost CFD software capable of handling large-scale computations, featuring an improved meshing function (enhanced snappyHexMesh), an extended solver, and a user-friendly GUI unique to HELYX, all of which have been improved in over 1000 aspects of OpenFOAM. == HELYX Product Composition == 1) Helyx-GUI (Unique HELYX Features) 2) Helyx-Core (Enhanced OpenFOAM Features) - High-performance snappyHexMesh improved from OpenFOAM - Various boundary conditions and solvers improved from OpenFOAM 3) Support and Tutorials ===================================

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CAE Technology Research Conference 2016 (Free Participation Fee)

CAE Technology Research Conference 2016 (Free Participation Fee)

The keynote speech will feature hot topics on the science of sports and presentations on fire simulation research.

CAE Utilization Technology Research Conference 2016 "Let's Talk about CAE in Kudanshita!" / "6th DADiSP Utilization Technology Research Conference" The CAE Utilization Technology Research Conference is celebrating its 6th year since the DADiSP Utilization Technology Research Conference. We have many user case studies planned. This event is packed with useful and up-to-date information on cloud CAE, composite materials, optimization, and more, which you won't hear elsewhere. ============================= ● Date and Time: August 5, 2016 (Friday) 10:00 AM - 5:30 PM (Networking event from 5:30 PM) ● Capacity: 80 participants ● Venue: Hotel Grand Palace 1-1-1 Iidabashi, Chiyoda-ku, Tokyo (• 1-minute walk from Kudanshita Station on the Tokyo Metro Tozai Line, Exit 7 (Fujimi Exit)) ● Registration: http://www.cae-sc.com/events/cae-conf-2016.html ■ Organized by: CAE Solutions Co., Ltd.

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Aspherix

Aspherix

Latest DEM analysis solver. Capable of simulating the shapes and mixing states of complex particles and powders in civil engineering, chemistry, food, pharmaceuticals, and more! Coupling with fluids is also possible.

Aspherix, released in 2020 by the Austrian company DCS, which promotes the open-source projects CFDEMproject and LIGGGHTS, is a commercial DEM analysis software designed to simulate complex particle shapes and particle behavior in multiphase flows through collaboration with CFDEMcoupling. The domestic distributor, CAE Solutions, will leverage its experience in contracted analysis and support for CFDEM, LIGGGHTS, and OpenFOAM to promote the use of particle and powder simulation, which is increasingly in demand in civil engineering, chemistry, food, and pharmaceuticals. Note: Product names and other terms are registered trademarks of their respective manufacturers and organizations.

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3D Ion Beam Trajectory Analysis Software / μ-Beam

3D Ion Beam Trajectory Analysis Software / μ-Beam

Consider the ion trajectories in electrostatic fields and magnetic fields, dielectrics, electrodes, conductors, coils, magnets, magnetic materials, and space charge!

μ-Beam is a three-dimensional trajectory analysis module for charged particles that takes into account space charge. It can simulate ion beam control. μ-Beam is the trajectory analysis module within the electromagnetic field analysis system μ-MF by Mutech. 【Features】 - Trajectory analysis of charged particles in electric and magnetic fields - Input functions for initial position, initial velocity, and assigned current of charged particles - Function to read condition setting CSV files from Excel - Specification of calculation range and automatic calculation stop function - Trajectory analysis considering classical and relativistic effects - The trajectory calculation method employs Runge-Kutta *For more details, please request materials or view the PDF data available for download.

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