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Analysis software(3d) - List of Manufacturers, Suppliers, Companies and Products

Last Updated: Aggregation Period:Oct 15, 2025~Nov 11, 2025
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Analysis software Product List

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[Data] Mechanism Analysis Software "RecurDyn"

[Data] Mechanism Analysis Software "RecurDyn"

The power to continue challenging the creation of new value! Enriching people and the Earth with value generated from small, compact, and precise innovations.

In this document, we have included USER INTERVIEWS related to the motion analysis software "RecurDyn." We introduce user interviews conducted at Hitachi Construction Machinery Co., Ltd.'s Tsuchiura Plant and at Seiko Epson Corporation's Hirooka and Fujimi offices. Additionally, we have information about online content and an introductory seminar on motion analysis. We encourage you to read it. [Contents] ■ USER INTERVIEW Hitachi Construction Machinery Co., Ltd. ■ USER INTERVIEW Seiko Epson Corporation ■ Introduction to Online Content ■ Information on the Introductory Seminar on Motion Analysis ■ Introductory Seminar on Motion Analysis to be held in Nagoya in 2025 *For more details, please download the PDF or feel free to contact us.

  • Other analysis software

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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 cavity shape and runner layout while optimizing is challenging. To facilitate these optimizations, we developed "AMDESS for 3D TIMON" in collaboration with Toray Engineering Co., Ltd. Here, we present 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.

  • Structural Analysis

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Optimization of the piston bowl

Optimization of the piston bowl

In the development of engine combustion processes, 3D CFD analysis is an important tool!

Diesel engines need to focus on reducing fuel consumption while maintaining high performance standards. From this perspective, direct-injection turbo diesel engines are one attractive solution, and when developing these engines, reducing fuel consumption and maintaining high performance standards, along with reducing exhaust emissions, become important challenges. Both issues of fuel consumption and emissions can be addressed through mechanisms within the engine. In the development of the engine combustion process, 3D CFD analysis is an important tool that allows for the investigation of flow within the cylinder, the formation and combustion of the internal mixture, as well as the formation of exhaust products. *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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Eddyfi Magnifi 5.0 ECT Data Acquisition and Analysis Software

Eddyfi Magnifi 5.0 ECT Data Acquisition and Analysis Software

Powerful. Efficient. Intuitive. Equipped with AI-ECT module.

For the past 10 years, the Magnifi software, which is a market leader with innovative and advanced features, has continued to empower non-destructive inspectors around the world. • Ready to use on-site A well-organized, easy setup workflow • High precision Automatically detects and marks signals for defects, tube sheets, and supports • Enjoy excellent data quality Verification and automatic screening of full-length tube inspection data • Quickly grasp critical indications Streamlined grouping of indications and tube classification features • Reduce the risk of missing defects An AI-based detection module that finds more indications An AI tool developed as an assist feature, ensuring analyst involvement and complete control

  • Flaw detection testing
  • Image Processing Equipment
  • Defect Inspection Equipment

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[Example] Particle-PLUS DC Magnetron Sputter 3D

[Example] Particle-PLUS DC Magnetron Sputter 3D

"Particle-PLUS" specializes in plasma analysis within vacuum chambers and can quickly perform simulations such as film deposition rates.

"Particle-PLUS" is a simulation software suitable for research, development, and manufacturing of devices and materials using plasma. - It specializes in low-pressure plasma analysis. - By combining axisymmetric models with mirror-symmetric boundary conditions, it can quickly obtain results without the need for full device simulations. - It excels in plasma simulations for low-pressure gases, where calculations with fluid models are challenging. - It supports both 2D and 3D, allowing efficient analysis even for complex models. - As a strength of our in-house developed software, customization to fit the customer's equipment is also possible. ◆ Supports various applications ◆ - Magnetron sputtering - PVD, plasma CVD - Capacitive coupled plasma (CCP) - Dielectric barrier discharge (DBD) - Electrophoresis, etc. ◆ Outputs various calculation results ◆ - Potential distribution - Density distribution/temperature distribution/generation distribution of electrons and ions - Particle flux and energy flux to the walls - Energy spectrum of electrons and ions at the walls - Density distribution/temperature distribution/velocity distribution of neutral gas, etc. *For more details, please feel free to contact us.

  • Other analyses

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Example: Particle-PLUS: GEC-CCP Device Plasma Analysis

Example: Particle-PLUS: GEC-CCP Device Plasma Analysis

Introduction to Particle-PLUS Analysis Case: "Plasma Analysis of GEC-CCP Device" 3D Simulation Case

This is a 3D analysis case related to CCP (Capacitively Coupled Plasma) etching, which is one of the representative dry etching methods. Particle-PLUS specializes in plasma analysis within vacuum chambers and can perform simulations of etching rates and other parameters at high speed. ◇ Features of 'Particle-PLUS' - Excels in low-pressure plasma analysis. - By combining axisymmetric models with mirror-symmetric boundary conditions, it can obtain results quickly without the need for full device simulations. - Specializes in plasma simulations for low-pressure gases, where fluid modeling is challenging. - Supports both 2D and 3D, allowing efficient analysis even for complex models. - As a strength of our in-house developed software, customization to fit customer devices is also possible. ◆ Outputs various calculation results ◆ - Potential distribution - Density distribution/temperature distribution/generation distribution of electrons and ions - Particle flux and energy flux to the walls - Energy spectrum of electrons and ions at the walls - Density distribution/temperature distribution/velocity distribution of neutral gas and more. *For more details, please feel free to contact us.

  • Other analyses

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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 capabilities. 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, with 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.

  • Structural Analysis

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I want to understand the movement of the resin inside the mold.

I want to understand the movement of the resin inside the mold.

Task: "I want to understand the movement of resin inside the mold."

Injection molding is performed within a closed mold throughout the entire process from resin filling to cooling. As a result, it is said to be very difficult to identify the factors causing defects in the molded products. In some cases, the know-how of experienced technicians on-site can be utilized to improve defects, but because this know-how is a black box, sharing information becomes challenging. For example, when significant warping occurs in a product, various potential causes can be cited, such as whether it is due to the fibers of the reinforcing material or temperature differences. However, determining the cause and making improvements based solely on the molded product is considered difficult without incurring substantial human and time costs. Therefore, visualizing the interior of the mold has become necessary for improving productivity, reducing costs, and developing high-value-added products.

  • simulator

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Meshman_ParticleGen_HPC ver.2.2

Meshman_ParticleGen_HPC ver.2.2

Quickly generate lattice models from STL files for particle methods, finite difference methods, and voxel methods!

"Meshman_ParticleGen_HPC ver.2.2" is a CAE software handled by Insight Inc. It allows for data generation even for model shapes that contain numerous internal cavities, and can generate particle layers of up to three layers both outside and inside the shape. Additionally, the software features the ability to run without a GUI via command line, as well as a function to display the generated particle model in a simple 3D view after particle generation. [Features] ■ High reliability of particle data generation algorithms ■ Ability to generate models from multiple volume shapes ■ Capability to generate partial particle models within specified coordinate ranges ■ Ability to create particle models that are translations of the original shape ■ Ability to calculate the distance from the original shape and the normal vector for each particle *For more details, please refer to the PDF materials or feel free to contact us.

  • simulator
  • Structural Analysis
  • Other analyses

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MixIT: Mixing Tank Analysis Software

MixIT: Mixing Tank Analysis Software

Reduction of total production costs! It is a collaborative mixed analysis and scale-up tool.

"MixIT" is a mixing tank analysis software that offers a unique combination of databases, correlations, and (automated) CFD modules. It is designed to enable comprehensive and easy mixing tank analysis by leveraging laboratory and plant data, empirical correlations, and advanced 3D CFD models. Additionally, it integrates knowledge management tools and mixing science to provide an environment that can be deployed across the entire organization. 【Features】 ■ Reduction of total production costs ■ Visualization of the relevance of recipes, processes, and product characteristics ■ Deep insights into mixing performance using detailed 3D CFD analysis ■ Reduction of uncertainty during scale-up and technology transfer ■ Reduction of CFD simulation time from 2 weeks to 5-6 hours *For more details, please download the PDF or feel free to contact us.

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Accelerating FDTD calculations with GPU

Accelerating FDTD calculations with GPU

Improvement of processing speed in FDTD calculations using GPUs

The 3D lens structure and CIS 3D CMOS image sensor are picked up as benchmark examples. The GPU version of Crosslight's FDTD shows a 66-fold improvement in processing for 3D real device structures. The benchmark results achieved processing speeds equivalent to a Core i7 3930K PC with 10 clusters (equivalent to 60 cores) using an inexpensive GPU card.

  • simulator

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Offline post-processing analysis software WCAPRO

Offline post-processing analysis software WCAPRO

Ability to acquire operational skills in a short period.

Offline post-processing analysis software that can perform various analyses and post-processing on analysis result data using a standalone PC.

  • Image analysis software

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Analysis Software | SimWise 4D for Alibre

Analysis Software | SimWise 4D for Alibre

From virtual prototyping of shapes to virtual prototyping of performance: A comprehensive solution for designers in mechanism and stress analysis.

SimWise 4D for Alibre is a software tool that simulates and verifies the performance of mechanical parts and assemblies. In designs composed of numerous mechanical components, fundamental concerns arise such as "Will it function?" or "Will it break?" and obtaining answers to these questions becomes a challenge. By using SimWise 4D for Alibre, it is possible to clarify functional performance and strength performance at the design stage before manufacturing physical prototypes for laboratory or field testing. This allows for the exploration of many design options with high cost-effectiveness without the need to manufacture physical prototypes until the intended performance is achieved.

  • simulator
  • Stress Analysis
  • Structural Analysis

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Example: Silent Design of Electromagnetic Field Reactor

Example: Silent Design of Electromagnetic Field Reactor

By integrating various software such as CAD, magnetic field analysis, and acoustic analysis, a wide range of optimization can be achieved!

This example introduces the integration of three software programs to reduce noise without compromising the electrical performance of a reactor. First, the general-purpose parameter optimization software "AMDESS" rewrites the VB script file of the 3D CAD software "SolidWorks" with trial dimensions and modifies the model dimensions. Next, the electromagnetic field analysis software "JMAG" communicates with "SolidWorks" to import the CAD model, performs meshing and analysis, and "AMDESS" extracts responses from the analysis results of "JMAG." As a result, starting from 30 samples using Latin hypercube sampling, a 31% reduction in sound pressure was achieved through six updates of the response surface. 【Optimization Conditions】 ■ Design Variables: Core dimensions D1 to D4 ■ Objective Function: Minimization of reactor sound pressure ■ Constraint Functions: Inductance greater than or equal to the initial value, core volume less than or equal to the initial value ■ Approximation Model: RBF *For more details, please refer to the PDF document or feel free to contact us.

  • Other analyses
  • Contract Analysis
  • simulator

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