Analysis Software Product List and Ranking from 44 Manufacturers, Suppliers and Companies

Last Updated: Aggregation Period:Sep 17, 2025~Oct 14, 2025
This ranking is based on the number of page views on our site.

Analysis Software Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Sep 17, 2025~Oct 14, 2025
This ranking is based on the number of page views on our site.

  1. ウェーブフロント 本社 Kanagawa//others
  2. 日本イーエスアイ Tokyo//others
  3. JIPテクノサイエンス Tokyo//Information and Communications
  4. ユニオンシステム Osaka//Information and Communications
  5. 5 ミューテック Kanagawa//Facility Design Office

Analysis Software Product ranking

Last Updated: Aggregation Period:Sep 17, 2025~Oct 14, 2025
This ranking is based on the number of page views on our site.

  1. "EnergyWin" power plant thermal efficiency analysis technical support 電力テクノシステムズ
  2. Rust Degree Automatic Assessment Solution "AIJO Check Rust" COMSYS JOHO SYSTEM Corporation
  3. Thermodynamic analysis software "CaTCalc" 計算熱力学研究所
  4. 4 3D Ground Analysis Software "PLAXIS 3D" JIPテクノサイエンス
  5. 5 AirMagnet Wi-Fi Analyzer Pro 東洋計測器

Analysis Software Product List

16~30 item / All 640 items

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[Case Study] Stress Analysis of a Crankshaft through Reverse Engineering

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

Model Creation and Structural Analysis from CT Images We will introduce an example of reverse engineering that measures the shape of a product (actual item) and uses it for direct analysis. Generally, creating a model for analysis from X-ray CT scan images requires a very labor-intensive process of generating a CAD model from the extracted surface. However, at VOXELCON, we can directly create a surface model from the image data of the X-ray CT scanner and apply boundary conditions directly on the surface model, allowing for voxel analysis without additional steps. This significantly reduces the man-hours required for reverse engineering. Here, we will present an example of creating a model from artificially generated tomographic images, simulating the tomographic images from an X-ray CT scanner, and performing static stress analysis. *For more details, please refer to the related links or feel free to contact us.*

  • Analysis and prediction system

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[Example] Evaluation of macro physical properties using actual data

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

In material design, investigating the macroscopic mechanical properties of porous materials such as ceramics and foamed metals, as well as composite materials represented by FRP, is extremely important. When actual samples are available, it is generally possible to measure them through experiments; however, depending on the properties of the materials and the condition of the samples, experiments may not always be easy. Here, we will introduce an example of calculating the macroscopic physical properties of a sample by analyzing the tomographic images obtained from scanning the actual sample with a micro X-ray CT scanner, using VOXELCON's image-based modeling and homogenization analysis functions. Note: The physical properties of the original materials constituting the porous materials and composite materials are assumed to be obtained in advance. *For more details, please refer to the related links or feel free to contact us.

  • Analysis and prediction system

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[Example] Analysis of Warping in Electronic Circuit Boards

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

At VOXELCON, we perform thermal stress analysis using the temperature distribution from steady-state heat conduction analysis as a thermal load, allowing for easy weakly coupled analysis of steady-state heat conduction and thermal stress. Here, we will introduce an example of warpage analysis of an electronic substrate using a simple model. *For more details, please refer to the related links or feel free to contact us.*

  • Analysis and prediction system

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[Example] Calculation of Equivalent Stiffness of Sandwich Structural Panels

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

The sandwich structure, which consists of a core material sandwiched between surface panels to form a unified structure, is widely used in various fields as it offers a lightweight design with high bending stiffness. However, in cases where the core is composed of multiple materials rather than a single material, the equivalent properties of the sandwich structure cannot be derived from simple laminate theory. In this example, we will use VOXELCON's homogenization analysis function to calculate the equivalent property values of a core made of composite materials, and we will introduce an example of bending analysis of the sandwich structure using a simplified model based on the obtained material property values. *For more details, please refer to the related links or feel free to contact us.*

  • Analysis and prediction system

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[Example] Equivalent permeability coefficient and micro flow velocity distribution of porous media.

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

With the increasing use of composite materials and porous materials, the importance of evaluating the properties of their microstructures is growing. In this example, we will introduce the calculation of the equivalent permeability coefficient and micro velocity distribution of a porous body as an example of evaluating the flow characteristics of microstructures using the homogenization method of VOXELCON. *For more details, please refer to the related links or feel free to contact us.*

  • Analysis and prediction system

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[Example] Topology optimization of large-scale models

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

VOXELCON is equipped with topology optimization using the level set method. In this topology optimization, a target volume is set, and a shape is sought that maximizes stiffness (minimizes displacement at load points) under that volume constraint. Since structural optimization involves repeated structural analysis, the computation time can be very long. Additionally, the structural analysis specialized for voxels is characterized by good parallelization efficiency and low memory consumption, allowing for analysis of large-scale problems in a realistic time frame. The topology optimization feature also supports parallel execution on GPUs, so we will also introduce the computation time. *For more details, please refer to the related links or feel free to contact us.*

  • Analysis and prediction system

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

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

"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 complex structure plate (hereinafter referred to as "honeycomb panel") that includes honeycomb core material, using Quint products "VOXELCON," "AMDESS," and "OPTISHAPE-TS." [Workflow] ■1. Experimental mode analysis of the honeycomb panel ■2. Calculation of material parameters for the 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.

  • Scientific Calculation and Simulation Software
  • Other Software

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[Case Study] Shape Optimization to Improve Natural Frequency ★ Detailed Materials Available

Control the natural frequency while considering the MAC value. Utilize parallelization to handle large-scale models in a short time.

By changing the shape, we improve the natural frequency and resonance frequency. Additionally, we have added conditions to allow for die-cutting in accordance with manufacturing requirements. In recent years, the performance of PCs has increased, and the scale of models required for finite element analysis has also grown larger. In such cases, significant time savings can be achieved by utilizing parallelization. This time, we performed shape optimization on a large-scale model with over one million nodes using parallelization. 【Analysis Model】 ■ Elements: Tetrahedral second-order elements ■ Number of elements: 653,931 ■ Number of nodes: 1,026,428 <Related Keywords> - Rib shape - Matching considering MAC values - Controlling eigenvalues *For more details, please refer to the PDF document or feel free to contact us.

  • Scientific Calculation and Simulation Software

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[Case Study] Shape Optimization of Spot-Welded Flat Plate Stiffeners ★ Detailed Materials Available

Shape optimization of quadrilateral shell elements! It is also possible to optimize the thickness simultaneously!

As an example of shape optimization analysis for shell elements, we will focus on the reinforcing material of a square plate assumed to be the "center pillar" that constitutes the body of an automobile. "OPTISHAPE-TS" has a function that maintains the cross-sectional shape, allowing for the avoidance of complex cross-sectional shapes of the material during the shape optimization process. In the shape optimization process, RBE3 elements and their surrounding elements are automatically treated as spot welds, and constraints are set so that only rigid body motion is possible in those areas. In other words, while the position of the spot welds may move, the size and shape of the welds are constrained to remain unchanged. [Analysis Model] ■ Elements: Quadrilateral shell elements ■ Number of nodes: 47,425 ■ Number of elements: 46,440 *For more details, please refer to the PDF materials or feel free to contact us.

  • Scientific Calculation and Simulation Software

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Example: Warpage Countermeasures for Connectors in Injection Molding

By collaborating with 3D TIMON, we automatically adjust the thickness of the solid element model, thereby suppressing warping deformation.

Here is an example of minimizing warpage by changing the thickness of solid elements. The analysis was conducted using the "Basis Vector Method," which modifies the shape by moving the nodes of the finite element model without using CAD. Several patterns (basis vectors) of the desired shape were prepared from the initial model and combined. As a result of the optimization, the sum of squares of warpage improved by 33% to 4.9480e-004 compared to the initial shape, and the maximum warpage (mm) improved by 12% to 3.8607e-002. [Case Overview] ■ Optimization Conditions - Design Variables: Thickness A, B - Sampling: Initially LHS 20 points, Approximate optimal solution + 10 recommended points - Approximate Model: CRBF (Convolutional RBF) ■ Analysis: Basis Vector Method *For more details, please refer to the PDF document or feel free to contact us.

  • Other Software

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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 how to integrate 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, changing the model dimensions. Next, the electromagnetic field analysis software "JMAG" communicates with "SolidWorks" to import the CAD model, perform 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 above initial value, core volume below initial value ■ Approximation Model: RBF *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: "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.

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[Technical Column] The Theory of OPTISHAPE-TS: "What is Gradient Method?"

Based on the formulation of optimization problems, let's briefly explain what the gradient method is!

In the previous articles, we explained the "H1" in the H1 gradient method. I hope you have deepened your understanding of the concept of function spaces. From this time onward, I would like to explain the remaining "gradient methods" over several articles. To begin with, this article will discuss an overview of gradient methods. Please feel free to download and take a look. [Contents] ■ Episode 14 What is H1 Gradient Method Part 7 "What is Gradient Method" *For more details, please refer to the PDF document or feel free to contact us.

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The theory of OPTISHAPE-TS: The relationship between three functions and H1.

A subtle relationship with three functions commonly encountered in the field of engineering! Introducing in a column.

In the previous session, we explained norms and inner products in function spaces. Finally, to help you gain a deeper understanding of the concept of function spaces, we will discuss the subtle relationships with three functions that frequently appear in the field of engineering (for example, control engineering and vibration engineering). Please feel free to download and take a look. 【Contents】 ■ Episode 13: What is the H1 Gradient Method? Part 6 "The Relationship Between Three Functions and H1" *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: Lagrange Multiplier Method

An explanation of the general concept of the Lagrange multiplier method through a simple problem! Introduction to a technical column.

The discussion about deriving the sensitivity of compliance began from the previous article. This time, I would like to take a break from the derivation of sensitivity and explain the Lagrange multiplier method itself. Please feel free to download and take a look. [Contents] ■ Episode 24: Lagrange Multiplier Method *For more details, please refer to the PDF document or feel free to contact us.

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