We have compiled a list of manufacturers, distributors, product information, reference prices, and rankings for soft.
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soft Product List and Ranking from 369 Manufacturers, Suppliers and Companies | IPROS GMS

Last Updated: Aggregation Period:Jun 10, 2026~Jul 07, 2026
This ranking is based on the number of page views on our site.

soft Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Jun 10, 2026~Jul 07, 2026
This ranking is based on the number of page views on our site.

  1. フォトン Kyoto//software
  2. ウェーブフロント 本社 Kanagawa//software
  3. B7 Tokyo//software
  4. 日本イーエスアイ Tokyo//software
  5. 5 イー・アイ・ソル Tokyo//Testing, Analysis and Measurement

soft Product ranking

Last Updated: Aggregation Period:Jun 10, 2026~Jul 07, 2026
This ranking is based on the number of page views on our site.

  1. Thermal image analysis software "EI-STUDIO" for FLIR thermal cameras. イー・アイ・ソル
  2. VillageVIEW TS Protocol Analysis Software ヴィレッジアイランド
  3. 3D Electromagnetic Wave Analysis Software (Frequency Response) WAVEjω フォトン
  4. 4 Analysis software "BELMaster"
  5. 5 Impact and Collision Analysis Software PAM-CRASH 日本イーエスアイ

soft Product List

691~720 item / All 1469 items

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

I will introduce the issues of 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 rarely produces errors as long as the shape is represented accurately; however, there are problems where the errors can become significant. 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 details, please feel free to contact us.

  • Structural Analysis
  • soft

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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
  • soft

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[Technical Column] The Theory of OPTISHAPE-TS: "Waving Phenomenon"

The Difficulty of Nonparametric Optimization! Introduction to a Technical Column

In the previous discussion, I explained that the checkerboard phenomenon is a challenging issue in topology optimization. I also discussed the technique of filtering as a workaround, but highlighted the difficulty in finding the right balance. A completely different approach has been proposed to avoid the checkerboard pattern without modifying the optimization problem. The idea is to have design variables at the nodes rather than at the elements, and to interpolate within the elements using a C^0 continuous function. Please feel free to download and take a look. [Contents] ■ Episode 5: The Difficulty of Non-Parametric Optimization Part 4 "Wavy Phenomenon" *For more details, please refer to the PDF document or feel free to contact us.

  • Structural Analysis
  • soft

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[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 space to be explored 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.

  • Structural Analysis
  • soft

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

What does "optimizing a function" mean? An explanation from the perspective of the difficulties it presents.

In the previous article, I briefly explained non-parametric optimization. In that context, I mentioned that non-parametric optimization is a method for optimizing functions. In this article, I will explain what "optimizing a function" means, in order to deepen your understanding of the challenges it presents. Please feel free to download and take a look. [Contents] ■ Episode 2: The Challenges of Non-Parametric Optimization Part 1 "Optimization of Functions" *For more details, please refer to the PDF document or feel free to contact us.

  • Structural Analysis
  • soft

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

An explanation of what the H-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.

  • Structural Analysis
  • soft

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Theory of OPTISHAPE-TS Compliance Sensitivity Part 3

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

In the previous article, we introduced the Lagrange multiplier method as a condition that solutions must satisfy in optimization problems with equality constraints. 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.

  • Structural Analysis
  • soft

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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 materials or feel free to contact us.

  • Structural Analysis
  • soft

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3D General-purpose Thermal Fluid Analysis Software

A thermal fluid analysis software that anyone can use! Implementation is possible at a cost of several hundred thousand yen!

● The thermal fluid analysis software "PHOENICS" is equipped with pre-processing, post-processing, and solver programs as standard (※). (※) Basic flow of PHOENICS: Setting analysis conditions ⇒ Modeling ⇒ Running analysis ⇒ Processing results ● It is capable of pre-processing tasks such as shape definition, data import from CAD, mesh creation, and setting analysis conditions, as well as post-processing tasks like displaying results such as temperature distribution maps, pressure contours, and velocity vectors after analysis. ● PHOENICS incorporates initial values, physical property values, boundary conditions, and many other functions, allowing users to customize PHOENICS and create their own dedicated calculation modules. ● Therefore, it is a versatile thermal fluid analysis software designed with ease of use in mind for both beginners and advanced users, making it accessible to a wide range of users. ● With PHOENICS, it is possible to implement it for several hundred thousand yen. For more information on other features and characteristics, please contact us.

  • Thermo-fluid analysis
  • Other analyses
  • soft

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Software "Easy Acquisition"

Easily perform statistics and quality control with simple operations! Uses a standard Excel worksheet.

"Easy Acquisition" is a software for basic measurement and SPC (Statistical Process Control and Quality Control) by Marpos. It has been specially developed for simple applications that involve static data acquisition or manual dynamic acquisition (sampling rate of 40 samples/second). The main features include excellent versatility and operability, allowing users to easily create various functions in VBA language on Excel macros according to their application needs. 【Features】 ■ For basic measurement and SPC (Statistical Process Control and Quality Control) by Marpos ■ Runs on Excel and can use general Excel worksheets ■ Operating environment ・OS environment: Windows XP SP3 / Windows 7 32-bit and 64-bit versions ・Microsoft Excel 2010 or later 32-bit Standard Edition license *For more details, please refer to the PDF document or feel free to contact us.

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  • Other operation management software
  • Process Control System
  • soft

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Electromagnetic field analysis software 'Altair Feko'

You can use multiple frequency domain/time domain EM solvers with a single license.

"Altair Feko" is an electromagnetic field analysis software that features multiple analysis methods and allows the use of two types of analysis methods for a single problem, which is a remarkable characteristic. Unlike previous electromagnetic field analysis software, it can perform analyses across a very wide frequency range without compromising accuracy. It can be applied to antenna design and antenna placement, among other uses. 【Features】 ■ GPU acceleration for solvers ■ A fully parallel processing solver optimized to utilize multiple distributed memory CPU resources ■ An optimized out-of-core solver that derives solutions even when reaching the limits of RAM *For more details, please refer to the PDF materials or feel free to contact us.

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

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3D Ion Beam Trajectory Analysis Software / μ-Beam

Consider the ion trajectories in electrostatic 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 documentation or view the PDF data available for download.

  • Electron beam lithography equipment
  • soft

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3D Finite Element Method Electromagnetic Field Analysis Software / μ-MF

After confirming the basic characteristics with μ-EXCEL, proceed to more detailed three-dimensional analysis! Easy and fast calculations for electrostatic fields, static magnetic fields, alternating magnetic fields, and magnetic hysteresis analysis!

Three-dimensional electromagnetic field analysis is indeed difficult. Therefore, we have devised a way for simple problems to be easily set up and analyzed by beginners, while also allowing for more advanced analyses. μ-MF is an FEM electromagnetic field analysis system optimized for solving user-specific problems through the objectification of a subdivided module group. In μ-MF, when you set the type of problem using a wizard-style GUI, it guides you through the condition settings. Depending on the type of analysis, it combines subdivided solver modules to achieve the most efficient analysis. 【Features】 - Customizable object-oriented system - Capable of analyzing large-scale problems with over one million unknowns on a PC - High-speed computation using fast matrix solvers (ICCG, MRT) - Equipped with the latest technologies for coupled problems and material modeling - Comprehensive options for iron loss analysis and trajectory analysis - Modules starting from 900,000 yen - Rental: 450,000 yen per year, starting from 45,000 yen per month Furthermore, - We provide professional consulting that delves into your specific problems - We also offer contract analysis and custom development at affordable prices *For more details, please contact us or refer to the PDF data.

  • Magnetic field analysis/electromagnetic wave analysis
  • soft

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3D Microwave and Optical Wave Analysis Software / μ-WAVE

FDTD method (Finite-Difference Time-Domain), equipped with orthogonal grid pre-post processing, for high-speed analysis of electromagnetic fields in the time domain!

The optical wave and microwave analysis software μ-WAVE is a highly practical electromagnetic wave simulation tool. μ-WAVE quickly analyzes the electromagnetic field distribution in the time domain. 【Features】 - Adopts FDTD and CIP methods for analysis - High-speed computation for problems on the scale of 10 million cells (when using FDTD) - Realizes infinite boundaries without PML (when using CIP) - The time step determined by the Courant condition remains unchanged even with partially small cells (significantly reduces computation time) (CIP) - Evaluates wideband absorption and scattering characteristics in a single calculation - Comes standard with a dedicated GUI designed for ease of use - Priced from 3.15 million yen *For details, please request materials or view the PDF data available for download.

  • Magnetic field analysis/electromagnetic wave analysis
  • soft

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3D Induction Heating and Temperature Analysis Software / μ-TM

Powerful complex heating coil shapes, high-frequency heating, temperature, heat generation, and magnetic field distribution are visible!

Induction heating is utilized in various machinery and equipment. It ranges from cooking with IH heating to machining, pressing, and casting. The challenges include the complex arrangement of induction heating coils, making model definition difficult, and the need for analyses that consider temperature dependence; otherwise, discrepancies with actual temperature distributions may arise. μ-TM addresses these challenges by being a dedicated module for induction heating. **Features** - Seamless magnetic field analysis and unsteady temperature analysis using induction heating coils - Simplified modeling as coils can be set independently of finite elements - Further reduction of analysis workload with a condition-setting menu tailored to specific problems - For beginners, a combination with our in-house developed orthogonal grid mesher, AirCube, is recommended - For precise model shapes, a combination with Femap is suggested Additionally, - We provide professional consulting that delves into customer issues - We also offer contract analysis and custom development at low costs *For more details, please request materials or view the PDF data available for download.*

  • Casting Machine
  • soft

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Suitable for motor vector magnetic characteristic analysis: Iron loss analysis tool / μ-E&S

Aiming for low loss, accurately measure the actual state of electromagnetic materials and grasp and analyze their vector magnetic characteristics!

Iron loss evaluation, which has been a bottleneck in motor analysis. Conventional methods only consider iron loss as a function of magnetic flux density, resulting in low accuracy. However, accurately determining the magnetic field and magnetic flux density to calculate iron loss is achieved through "vector magnetic characteristic analysis." This allows for the calculation of high-precision distributions of magnetic fields, magnetic flux densities, and iron losses that are not achievable with other software. Vector magnetic characteristics refer to the properties that take into account the relationship between the magnetic field H and magnetic flux density B of electromagnetic steel materials, considering their direction (vector). The finite element method electromagnetic field simulator that incorporates this characteristic is “μ-E&S.” 【Features】 - High-precision calculation of magnetic field vectors is possible by considering vector magnetic characteristics. - Rotating magnetic fields and hysteresis can be calculated. - It is designed as an easy-to-use tool specifically for iron loss evaluation. *For more details, please request materials or view the PDF data available for download.

  • Magnetic field analysis/electromagnetic wave analysis
  • soft

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Electrode Surroundings, Electric Field and Potential Distribution Analysis Due to Charge / μ-Excel Electrostatic Field Version

You can see the electrostatic field distribution of dielectrics, metals, floating conductors, electrode potentials, and charge configurations!

μ-Excel is analysis software that uses a two-dimensional (or axisymmetric) finite element method. The μ-Excel series consists of individual packages for each analysis theme, allowing for smooth analysis through customized input and output screens for each theme. Additionally, it utilizes Excel macros in the GUI, enabling users to operate it seamlessly with familiar Excel. It is evolving into a rich variety of themes, not only for electromagnetic field analysis but also for heat, structure, fluid, and electromagnetic waves. Please look for the series that fits your theme (currently, there are a total of 11 series). 【Features】 - Electrostatic field analysis - Calculation of electric field, potential distribution, and electric field vector - Setting the relative permittivity of composite dielectrics and the potential of electrodes - Consideration of anisotropy in permittivity - Ability to set charge density * It can be introduced at a lower price compared to other analysis software. The academic version is even more advantageous! * For details, please contact us or download the PDF.

  • simulator
  • soft

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Magnetosputtering and magnetic shield magnetic field distribution / μ-Excel static magnetic field version

Visualizing the magnetic field distribution of coils, permanent magnets, and nonlinear magnetic materials, as well as the saturation state of magnetic materials! "Static Magnetic Field Version" for magnet sputtering devices and magnetic shielding devices.

μ-Excel is analysis software that uses a two-dimensional (or axisymmetric) finite element method. The μ-Excel series consists of individual packages for each analysis theme, allowing for smooth analysis through customized input and output screens for each theme. Additionally, it utilizes Excel macros in the GUI, enabling operation in a familiar Excel environment without any discomfort. It is evolving into a rich variety of themes, not only for electromagnetic field analysis but also for heat, structure, fluid, and electromagnetic waves. Please look for the series that matches your theme (currently, there are a total of 11 series). 【Features】 - Calculation of spatial magnetic fields and fields within magnetic materials - Output of magnetic field distribution, magnetic field lines, and magnetic field vectors - DC excitation using magnets and coils - Nonlinearity and magnetic saturation of magnetic materials *It can be introduced at a lower cost compared to other analysis software. The academic version is even more economical! *For more details, please contact us or download the PDF.

  • simulator
  • soft

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Current flow in liquids, conductors, semiconductor bulk analysis / μ-Excel electrostatic current version

Easy operation! Visualize potential, electric field, and current distribution using parameters such as insulators, conductive liquids and solids, electrode potential, and conductivity!

μ-Excel is analysis software that uses a two-dimensional (or axisymmetric) finite element method. The μ-Excel series consists of individual packages for each analysis theme, allowing for smooth analysis from customized input and output screens tailored to each theme. Additionally, it utilizes Excel macros in the GUI, enabling operation in a familiar Excel environment without discomfort. It is evolving into a rich variety of themes, not only for electromagnetic field analysis but also for heat, structure, fluid, and electromagnetic waves. Please look for the series that matches your theme (currently, there are a total of 11 series). 【Features】 - Analysis of current flow in conductive materials - Calculation of electric field, potential distribution, and current vectors - Setting of conductivity and electrode potentials *It can be implemented at a lower cost compared to other analysis software. The academic version is even more advantageous! *For more details, please request materials or view the PDF data from the download.

  • simulator
  • soft

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『熱・電磁界/電磁場解析ソフト』フリーのデモ版・無料体験版

今すぐダウンロード!【Excelベースのシミュレーションソフト】~現場の担当者でも手軽に使えます~

『μ-Excel』は、「解析ソフトは高額」という常識を覆す、低価格の熱・構造・電磁界解析ソフト。 Excel上で作動するので、使いなれた操作感で本格的なシミュレーションができます。 【こんなお困り事ありませんか?】 ・高額な解析ソフトほどの高度機能は必要としていない… ・解析結果を今すぐ欲しい… ・解析ソフト操作方法の習得が心配… そんな方へ、サブスクリプションサービスがお勧めです!  ■なんと9,800円で1か月使い放題  ■磁場解析と温度解析とか、複数のテーマを選べます  ■Excelでの作動。使いなれた操作感で本格的なシミュレーションが可能 無料体験版のWebダウンロード! ▽https://www.mutec.org/m_excel_trial.html で今すぐダウンロード!▽ ▽操作感は動画でもご覧になれます【解析ノウハウ.com】で検索!▽       誘導加熱版(体験版あり)/静磁場版(体験版あり)/静電場版(体験版あり)/熱伝導版(体験版あり)/ 電磁力版/着磁トルク版/応力版/誘導機版/金型冷却版/誘電体応力版/イオンビーム版

  • simulator
  • soft

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Vector Magnetic Characteristic Analysis 【Analysis Case Study Material 1】

An example of analysis using a model of non-oriented electrical steel sheet shaped into a ring is presented!

This document presents an analysis example using a model of isotropic electromagnetic steel plates shaped into a ring. It provides a detailed explanation of the ring model voltage source, as well as comparison results with measured values of the hysteresis curve. 【Contents】 ■1.1 Analysis Model and Objectives ■1.2 Analysis Conditions and Calculation Time ■1.3 Magnetic Field Distribution and Iron Loss Distribution Results ■1.4 Alternating Magnetic Flux and Rotating Magnetic Field Results ■1.5 Comparison Results with Measured Values of the Hysteresis Curve ■1.6 Current Waveform Results ■1.7 Interface Settings Screen *For more details, please refer to the PDF document or feel free to contact us.

  • PM motor
  • soft

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Document 'What is Vector Magnetic Characteristic Analysis'

Publication of an explanation of vector magnetic characteristic analysis technology for the realization of high-efficiency motors!

This document explains the vector magnetic characteristic analysis technology for achieving high-efficiency motors. This technology is supported by Professor Masato Enokizono (Emeritus Professor at Oita University, currently the representative of the Vector Magnetic Characteristic Technology Research Institute), and we have cited information from the Vector Magnetic Characteristic Technology Research Institute, which is headed by the professor. [Contents] 1. The target is the reduction of iron loss in electromagnetic steel sheets. 2. Iron loss is the sum of eddy current loss and hysteresis loss. 3. Vector magnetic characteristics of electromagnetic steel sheets. 4. Conventional measurements are scalar magnetic measurements. 5. Developed vector magnetic measurements. 6. Actual measurement results. 7. Database creation as magnetic characteristics. *For more details, please refer to the PDF document or feel free to contact us.

  • PM motor
  • soft

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Data 'Vector Magnetic Property Analysis Technical Column'

Publication on vector magnetic characteristic analysis technology for achieving high-efficiency motors!

This document is a technical column edited and compiled based on the content related to "Vector Magnetic Characteristic Analysis" mentioned in past newsletter columns. We would like to disseminate information about the importance of vector magnetic characteristic analysis technology for achieving high-efficiency motors. [Contents] ■1. Vector Magnetic Characteristic Analysis Technology - Prologue - ■2. Top Runner Method and IE4 ■3. Inverter Technology and Energy Saving ■4. Will Increasing Size Lead to IE3? ■5. Electrical Steel Sheets are Excellent ■6. Focus on the Vector Magnetic Characteristics of Electrical Steel Sheets *For more details, please refer to the PDF document or feel free to contact us.

  • PM motor
  • soft

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The operation is simple, check it out in the video! 'Heat, Structure, and Electromagnetic Field Analysis Software' STEP 0

[Excel-based simulation software] Check out the operation feel in the video now! A free trial version is also available! Limited-time campaign too!

"μ-Excel" is a low-cost thermal, structural, and electromagnetic field analysis software that overturns the common belief that analysis software is expensive. It operates on Excel, allowing for genuine simulations with a familiar user experience. You can check the operation experience through videos for each work step! The video available here is "Step 0: Introduction" - taking the "Magnetic Torque Version" of the "μ-Excel" series as an example, we will introduce its features that gently guide you through 2D axisymmetric analysis using the finite element method via Excel macros. ▽▼▽ Please also check out other videos! ▼▽▼ ▼ Step 0: Introduction Step 1: Starting Excel Step 2: Model Creation Step 3: DXF Import Step 4: Mesh Creation Step 5: Execute Calculation Step 6: Add Materials Step 7: Display Results Step 8: Create Graphs Step 9: Save with Name Step 10: Surface Flux Calculation Step 11: Torque Calculation

  • Magnetic field analysis/electromagnetic wave analysis
  • soft

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The operation is simple, check it out in the video! 'Heat, Structure, and Electromagnetic Field Analysis Software' STEP2

[Excel-based simulation software] Check out the user experience in the video now! Free trial version available for download! Limited-time campaign too!

"μ-Excel" is a low-cost thermal, structural, and electromagnetic analysis software that overturns the common belief that analysis software is expensive. It operates on Excel, allowing for professional simulations with a familiar user experience. You can check the operation experience through videos for each work step! The video available here is "Step 2 Model Creation" - taking the "Magnetic Torque Version" of the "μ-Excel" series as an example, we will introduce the steps to build a model using the included modeler with points, lines, and surfaces. ▽▼▽ Please also check out other videos! ▼▽▼ Step 0 Introduction Step 1 Starting Excel ▼Step 2 Model Creation Step 3 DXF Import Step 4 Mesh Creation Step 5 Execute Calculation Step 6 Add Materials Step 7 Display Results Step 8 Create Graphs Step 9 Save As Step 10 Surface Flux Calculation Step 11 Torque Calculation

  • Magnetic field analysis/electromagnetic wave analysis
  • soft

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The operation is simple, check it out in the video! 'Heat, Structure, and Electromagnetic Field Analysis Software' STEP3

[Excel-based simulation software] Check out the operation feel in the video now! Free trial download available! Limited-time campaign too!

"μ-Excel" is a low-cost thermal, structural, and electromagnetic analysis software that overturns the common belief that analysis software is expensive. It operates on Excel, allowing for professional simulations with a familiar user experience. You can check the user experience through videos for each work step! The video available here is "Step3 DXF Import." - Taking the "Magnetization Torque Version" of the "μ-Excel" series as an example, we will introduce how you can import DXF files drawn in CAD, making model creation more efficient. - ▽▼▽ Please also check out other videos! ▼▽▼ Step0 Introduction Step1 Starting Excel Step2 Model Creation ▼Step3 DXF Import Step4 Mesh Creation Step5 Execute Calculation Step6 Add Materials Step7 Display Results Step8 Create Graphs Step9 Save with Name Step10 Surface Flux Calculation Step11 Torque Calculation

  • Magnetic field analysis/electromagnetic wave analysis
  • soft

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