We have compiled a list of manufacturers, distributors, product information, reference prices, and rankings for Analysis software.
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Analysis software Product List and Ranking from 297 Manufacturers, Suppliers and Companies

Last Updated: Aggregation Period:Dec 10, 2025~Jan 06, 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:Dec 10, 2025~Jan 06, 2026
This ranking is based on the number of page views on our site.

  1. null/null
  2. インフォコム サイエンスグループ Tokyo//software
  3. ウェーブフロント 本社 Kanagawa//software
  4. 4 ミューテック Tokyo//software
  5. 5 日本ケイデンス・デザイン・システムズ社 Kanagawa//software
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Analysis software Product ranking

Last Updated: Aggregation Period:Dec 10, 2025~Jan 06, 2026
This ranking is based on the number of page views on our site.

  1. Multivariate analysis software "SIMCA" インフォコム サイエンスグループ
  2. Lighting and optical analysis software "Lighting Simulator CAD" Camerium
  3. Utilizing borehole data with Surfer ヒューリンクス
  4. 4 Integrated proteomics analysis software "PEAKS" インフォコム サイエンスグループ
  5. 5 Electromagnetic field analysis software Ansys Maxwell

Analysis software Product List

151~165 item / All 1301 items

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Musculoskeletal modeling system "AnyBody"

Musculoskeletal modeling system "AnyBody"

Freely customize analysis models and output data! Software for analyzing muscle behavior.

"AnyBody" is software that analyzes muscle behavior, which is the source of human motion, using a human musculoskeletal model. It inputs movements obtained from measurements or movements defined by the user into a detailed musculoskeletal model, and calculates the muscle activity and muscle strength required to realize that movement, as well as various quantities generated within the human body (joint reaction forces, joint moments, energy consumption) through inverse dynamics analysis. Additionally, it can import 3D CAD shapes of industrial products and surrounding environments for analysis. 【Features】 ■ Highly reliable musculoskeletal model ■ Robustly solves complex movements/closed-loop conditions/indeterminate conditions ■ All input conditions and definitions are viewable and editable ■ Provides models as open source that can withstand extensive validation ■ Used as a tool by researchers worldwide and published in numerous research papers *For more details, please refer to the related links or feel free to contact us.

  • Mechanism Analysis

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[Case Study of Thermal Fluid Analysis] Analysis of Coating Die using AcuSolve

[Case Study of Thermal Fluid Analysis] Analysis of Coating Die using AcuSolve

Conducting thermal fluid analysis of the slot die! It is possible to calculate the temperature changes of the ink and the die.

This article introduces a case study of thermal fluid analysis of a coating die using AcuSolve. Using the general-purpose thermal fluid analysis software AcuSolve, we conduct thermal fluid analysis of a slot die, allowing inks with different physical properties and temperatures to flow in from the inlet. We investigate the spread of the resin and the temperature changes of the mold. We can visualize the spread of the fluid flowing through a narrow channel by coloring it and observing the fluid that enters from a specific inlet. 【Contents】 ■ Overview ■ Model Description and Calculation Conditions ■ Physical Property Values ■ Analysis Results ■ Conclusion *Detailed information about the case study can be viewed through the related links. For more information, please feel free to contact us.

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

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[Technical Column] Musculoskeletal Analysis - Unraveling the Mechanisms of Human Movement

[Technical Column] Musculoskeletal Analysis - Unraveling the Mechanisms of Human Movement

There are broadly two types of approaches! They can be applied to various research fields related to humans.

In this column, we will explain "musculoskeletal analysis," which is a type of CAE in the field of bioengineering. Musculoskeletal analysis involves creating a human model (musculoskeletal model) composed of muscles and bones to replicate human movements, and it calculates the muscle activity during these movements and the forces acting on various parts of the model. The analysis uses motion capture data measured from the subject's movements. We invite you to read on. 【Contents】 ■ What is musculoskeletal analysis? ■ Analysis methods ■ Application fields ■ Conclusion *For more detailed information about the column, please refer to the related links. Feel free to contact us for further inquiries.

  • Other analyses

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[Technical Column] Wave Generation Function of OpenFOAM

[Technical Column] Wave Generation Function of OpenFOAM

An explanation of the basic wave generation function and application examples are provided! By using OpenFOAM, various fluid analyses can be conducted.

The license-free general-purpose thermal fluid analysis software "OpenFOAM" has a wave generation function implemented, which provides the ability to generate specific waveforms such as Stokes waves and cnoidal waves, as well as features to prevent reflected waves at boundaries. The sample is an overtopping analysis of a wave-dissipating block calculated using the wave generation function. In this column, we will introduce a basic explanation of the wave generation function and application examples for OpenFOAM users. For more details, please refer to the related links. We encourage you to read it. [Contents] ■ Overview of the wave generation function ■ Other related functions ■ Application examples of the wave generation function *For detailed content of the column, please refer to the related links. If you have any questions, feel free to contact us.

  • Other analyses

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Ground-Structure Coupled Seismic Analysis Software 'ACS SASSI'

Ground-Structure Coupled Seismic Analysis Software 'ACS SASSI'

Introducing a completed SSI seismic analysis tool in the nuclear structure project!

"ACS SASSI" is a seismic analysis software for ground-structure interaction (SSI) that operates on Windows OS, capable of linear-nonlinear and deterministic-probabilistic analyses. Development is still actively ongoing, providing a unique and powerful set of SSI analysis features based on the original SASSI code by a certain professor at the University of California. This product includes advanced SSI analysis capabilities for seismic design and probabilistic safety assessment of nuclear power plant structures. 【Features】 ■ Excellent operability ■ Visualization of various responses ■ Animation, bubble plots, and contour displays ■ Consideration of interactions between multiple structures (SSSI analysis) ■ Ability to handle coherence/incoherence analysis models ■ Calculation of ground impedance ■ Time history can be added/subtracted, and weighted superposition of response spectra or SRSS method can be used ■ Conversion of analysis models from ANSYS format to ACS SASSI format ■ V&V (Verification and Validation) *For more details, please refer to the related links or feel free to contact us.

  • Image analysis software

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Nonlinear structural analysis software 'Ansys LS-DYNA'

Nonlinear structural analysis software 'Ansys LS-DYNA'

We have a rich variety of over 200 material property models! It is possible to configure various materials.

"Ansys LS-DYNA" is a general-purpose structural analysis software that accurately analyzes nonlinear phenomena such as collision and drop problems, plastic processing issues, and coupled problems involving heat and fluids. It is equipped with numerous practical functions for product design and strength evaluation, offering versatility across a wide range of industrial fields and purposes. It is utilized in various phases of the production process, including development, design, prototyping, and manufacturing, to help shorten lead times, reduce costs, and ensure quality. 【Features】 ■ Implemented and used by many companies and research institutions around the world ■ Covers structural analysis to coupled analysis with heat and fluids in a single software ■ Equipped with scalable domain decomposition parallel computing capabilities (SMP/MPP) ■ Comes standard with a dedicated pre- and post-processor (LS-PREPOST) ■ Major pre- and post-processors support LS-DYNA's input and output data *For more details, please refer to the related links or feel free to contact us.

  • Structural Analysis

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General-purpose thermal fluid analysis solver 'Altair AcuSolve'

General-purpose thermal fluid analysis solver 'Altair AcuSolve'

Introducing a solver that adopts the finite element method to calculate unknowns (such as pressure, velocity, and temperature) at the nodes!

"AcuSolve" is Altair's powerful computational fluid dynamics (CFD) tool. With robust and scalable solver technology, it enables easy execution of flow, heat transfer, turbulence, and non-Newtonian fluid simulations. Validated physical models can be applied to unstructured meshes, allowing for efficient high-precision analysis. 【Features】 ■ Utilizes the finite element method, calculating unknowns at nodes ■ Accurately captures the distribution near walls, which is crucial for fluid phenomena ■ Exhibits high convergence for both steady and unsteady states ■ Provides fast analytical solutions ■ Supports efficient computational methods and parallel computing platforms *For more details, please refer to the related links or feel free to contact us.

  • Structural Analysis

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High-frequency electromagnetic wave analysis software 'Altair Feko'

High-frequency electromagnetic wave analysis software 'Altair Feko'

Analysis across a very wide frequency range without loss of accuracy! Equipped with windscreen antenna functionality.

"Altair Feko" is an electromagnetic wave software that features "a comprehensive set of multiple analysis methods" and "the ability to utilize two types of analysis methods for a single problem." It includes functions such as automation and simplification of electromagnetic wave analysis, modeling of arrays and infinite periodic structures, and a cable modeling interface. By recording repetitive tasks such as model creation, meshing, and settings, and automating post-processing, it enhances operational efficiency, facilitates knowledge sharing, and ensures the transmission of analysis procedures. 【Function Examples】 ■ Automation and simplification of electromagnetic wave analysis ■ Cable modeling interface ■ Modeling of arrays and infinite periodic structures ■ Optimization ■ Windscreen antenna functionality *For more details, please refer to the related links or feel free to contact us.

  • Structural Analysis

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LS-DYNA dedicated pre-processor 'ARUP software'

LS-DYNA dedicated pre-processor 'ARUP software'

Evaluation of analysis results is possible with simple operations!

The direct interface with the impact and structural analysis software Ansys LS-DYNA allows for the extremely efficient setup and evaluation of large and complex automotive crash analysis models, and is designed to enable easy operation for evaluating analysis results related to vehicle behavior and occupant injury values.

  • Structural Analysis

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Structural Analysis Example: Plastic Processing

Structural Analysis Example: Plastic Processing

Ideal as a development and design tool! When performing plastic deformation analysis with "LS-DYNA," it is done using dynamic explicit methods.

In plastic processing analysis, the nonlinearity due to contact becomes a significant challenge, and the sudden large forces and friction that occur at the moment of contact are factors that complicate the convergence of the solution. For example, in sheet forming analysis, the contact forces between the blank material and the tool, as well as the contact forces of the draw bead that control the material flow, are the key points that control formability. Therefore, it is important to seek solutions efficiently, in addition to ensuring accuracy. When analyzing with "LS-DYNA," the explicit method allows for obtaining solutions without performing convergence calculations, making it possible to predict the required work hours, and it can be said to be suitable as a development and design tool. [Explicit Method for Analysis with LS-DYNA] - Allows for obtaining solutions without performing convergence calculations, enabling work hour predictions. - Suitable as a development and design tool. *For more details, please refer to the related links or feel free to contact us.*

  • Structural Analysis

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[Fluid-Structure Interaction Case] Destruction Behavior of Reinforced Concrete Slabs Due to Underwater Explosion

[Fluid-Structure Interaction Case] Destruction Behavior of Reinforced Concrete Slabs Due to Underwater Explosion

The water confinement effect is more powerful compared to air explosions! This is a case that shows the destruction situation of the RC version is significantly different.

This is a case study that examines the destruction behavior characteristics of reinforced concrete slabs (RC slabs) due to underwater explosions through numerical simulations using coupled structural-fluid analysis. The explosive used is the H51 model (Pentolite 51g), and the pressure calculations for the model utilize the JWL (Jones-Wilkens-Lee) equation of state. For water, the compressibility is taken into account using the GRUNEISEN equation of state. As a result, in the case of underwater explosions, the RC slab experiences shear failure due to the immense pressure from the water's confinement, while in the case of aerial explosions, craters, spall failures, and cracking occur on both the top and bottom surfaces of the RC slab. [Analysis Settings] - The explosive is the H51 model (Pentolite 51g), and the pressure calculations for the model utilize the JWL equation of state. - For water, the compressibility is taken into account using the GRUNEISEN equation of state. *For more details, please refer to the related links or feel free to contact us.*

  • Structural Analysis

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『SOLIDWORKS Simulation』

『SOLIDWORKS Simulation』

Properly understand design to promote technological innovation that wins in the market!

"SOLIDWORKS Simulation" is a tool for improving quality, reducing costs, and shortening delivery times in manufacturing. It is fully integrated with "SolidWorks CAD," which is used by many designers, allowing for the verification of maximum design proposals in the shortest time without the troubles of critical data conversion between different tools. Additionally, by continuously refining its features based on feedback from many customers who use it every year, it can always be utilized as a new and high-quality design environment. 【Features】 ■ An easy-to-use tool that designers can handle themselves ■ Convenience of improving design proposals based on calculated answers ■ A product lineup that balances versatility and expandability ■ A tool that allows focus on timely prototyping ■ An optimal solution to minimize implementation risks and maximize benefits *For more details, please refer to the PDF document or feel free to contact us.

  • 3D CAD

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White Paper Presentation!! "Analysis Guide for Mechanical Designers"

White Paper Presentation!! "Analysis Guide for Mechanical Designers"

White Paper Presentation!! "Analysis Guide for Mechanical Designers"

White Paper Available Now!! This guide explains the key performance-related issues faced by mechanical designers and manufacturers, and introduces the benefits of using SOLIDWORKS analysis software throughout the product development cycle. SOLIDWORKS software can be applied to a wide range of issues in all fields of mechanical design, from automated machining to packaging machinery. With powerful analysis capabilities such as static analysis, motion analysis, thermal analysis, vibration analysis, fluid analysis, and nonlinear analysis, this software enables you to meet the design specifications of the products you are developing while ensuring reliability in the field. *For more details, please refer to the materials. Feel free to contact us with any inquiries. ▼The white paper can be downloaded from the link below▼

  • 3D CAD
  • Other CAD
  • Other CAD related software

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Impact and Collision Analysis Software PAM-CRASH

Impact and Collision Analysis Software PAM-CRASH

Next-generation impact and collision analysis software that demonstrates high reproducibility in impact and collision problems.

PAM-CRASH is a next-generation impact and collision analysis software that demonstrates high reproducibility in shock and collision problems. Its application range extends beyond just impact and collision to include phenomena involving strong nonlinearity such as geometric nonlinearity, material nonlinearity, and contact, enabling fast and high-precision analysis. ◆ Advanced contact detection algorithms ◆ New material models ◆ Spot welding models ◆ DMP performance ◆ Excellent user interface ◆ Collision analysis considering work hardening ◆ Abundant material models *For more details, please contact us or download the catalog.

  • Other analyses
  • simulator

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High-precision casting analysis software ProCAST

High-precision casting analysis software ProCAST

It is possible to predict defects during press molding and casting, as well as deformation and residual stress state during welding and heat treatment.

ESI's metal processing solutions enable the prediction of defects during pressing and casting, as well as the prediction of deformation and residual stress states during welding and heat treatment. In the welding of pressed parts, even higher precision analysis is possible through the coupling of pressing simulation and welding simulation. ■ Webinar Title: Innovations in Simulation Technology for the Future of Manufacturing Virtual simulation technology supporting the automotive, aerospace, and heavy machinery industries Overview: We will introduce the latest information on virtual simulation technology and virtual prototyping in a series format. With ESI Group's technology, it is possible to shorten development time, reduce prototypes, optimize designs, improve manufacturing processes, and enhance safety and performance. Release Date: September 23, 2024 *For more details, please refer to the PDF document or feel free to contact us.

  • Structural Analysis

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