Last Updated: Aggregation Period:Jan 14, 2026~Feb 10, 2026
This ranking is based on the number of page views on our site.
Last Updated: Aggregation Period:Jan 14, 2026~Feb 10, 2026
This ranking is based on the number of page views on our site.
Last Updated: Aggregation Period:Jan 14, 2026~Feb 10, 2026
This ranking is based on the number of page views on our site.
31~60 item / All 745 items
Windows application for analysis and simulation of in-vehicle Ethernet (100BASE-T1/1000BASE-T1).
ANDi (Automotive Network Diagnoser) is a testing and simulation software for ECUs equipped with 100Base-T1, 1000Base-T1, and CAN/CAN-FD. It has features such as traffic logging and analysis, sending and receiving over Ethernet and CAN, and bus simulation (RBS).
Simulation software for analyzing, evaluating, and optimizing the entire casting process.
MAGMASOFT is a casting process simulation software that supports a wide range of casting processes, including sand casting, die casting, precision casting, and continuous casting. It is equipped with high-end features that allow for the analysis and evaluation of not only flow and solidification but also processes such as heat treatment, machining, residual stress, and deformation cracking. With an easy-to-use GUI and result evaluation features, it enables the visualization and optimization of casting challenges effortlessly through its standard optimization functions. *All product names, company names, service names, and logos mentioned are trademarks or registered trademarks of their respective companies.*
It is possible to simulate powder flow, solid-gas two-phase flow, solid-liquid two-phase flow, gas-liquid two-phase flow, and solid-gas-liquid three-phase flow!
iGRAF is a multiphysics software capable of simulating powder flow, solid-gas two-phase flow, solid-liquid two-phase flow, gas-liquid two-phase flow, and solid-gas-liquid three-phase flow. This product incorporates physical models published in prestigious international academic journals, ensuring reliable numerical analysis results. It enables not only the analysis of single-phase powders but also the analysis of multiphase flows from two-phase flows such as "powder-gas," "powder-liquid," "gas-liquid," to three-phase flows like "powder-gas-liquid." 【Features】 - Capable of analyzing multiphase flows from two-phase to three-phase, not just single-phase powder analysis - Optimized for parallel processing, resulting in no loss even with 20 cores - Capable of large-scale analysis at actual machine scale on a single machine - Can analyze both dry and wet grinding machines - Capable of analyzing mechanical classification such as vibrating screens and airflow-based classification using cyclones *For more details, please refer to the PDF document or feel free to contact us.
Covers everything from detailed simulations to integrated simulations!
"GT-SUITE" is an automotive performance simulation tool developed by Gamma Technologies in the United States. It allows you to design vehicles on a computer and evaluate engine performance, fuel efficiency, noise, and cooling system performance under various driving conditions. We provide a true design tool for the automotive industry, which is in fierce technological competition, to enable new designs, shorten development times, and reduce costs. 【Features】 ■ Parts that make up complex systems can be modeled in detail as needed, and interactions between parts can be reproduced. ■ Versions are aligned across functions. ■ It can be used as a common tool across departments, serving as a "common language." ■ Data sharing becomes smooth, eliminating errors. ■ It allows for the sharing of virtual engine/vehicle models among engineers, which is crucial for excessive analysis. ■ It leads to cost reductions compared to using other software. *For more details, please download the PDF or feel free to contact us.
Adopted by a variety of device manufacturers! Applicable to all types of engines!
"GT-POWER" is an engine simulation software adopted by major engine manufacturers for engine design and development. It can predict the behavior of complex physical phenomena related to engines with very high accuracy. It is applicable to engines of all sizes and types, and is used by a wide variety of equipment manufacturers, ranging from passenger cars, trucks, motorcycles, motorsports, ships, locomotives, power generation, mining, construction, agriculture, to machinery used in lawns and gardens. 【Features】 ■ Adopted by major engine manufacturers ■ Captures wave dynamics from robust solutions of the Navier-Stokes equations ■ Supports engines of all sizes, from small general-purpose engines to large marine engines ■ Highly flexible and applicable to the analysis of progressive or non-standard concepts ■ Control library that supports the analysis of control devices for dynamic systems *For more details, please refer to the PDF materials or feel free to contact us.
Ideal for joint development! Flexible reaction rate analysis for post-processing equipment!
GT-SUITE has an integrated library of chemical reactions and after-treatment devices, allowing for the modeling of any after-treatment (AT) device individually or within an integrated system. Users can also utilize highly flexible features to modify or specify the involved chemical reaction mechanisms. The design of this library aligns with GT's goals, enabling the simulation of all scenarios for engine and vehicle systems using a single tool. Additionally, this library can be used to model AT systems alongside vehicles, engines, thermal management, and control systems, making it particularly suitable for collaborative development. **Key Features of the Library** - Specify chemical reaction mechanisms using the intuitive and flexible input method of the GT-ISE GUI. - Support for various catalysts and filters (TWC, DOC, LNT, DPF, Catalyzed-DPF, SCR-DPF, SCR, AOC, etc.), as well as future reaction devices. *For more details, please refer to the PDF materials or feel free to contact us.*
![[Case Study] Utilization in Proposals for Engine Systems](https://image.mono.ipros.com/public/product/image/e3b/2000426695/IPROS10391000550510810286.jpg?w=280&h=280)
Significantly reduce man-hours! Utilize simulations to understand compatibility and its mechanisms.
We would like to introduce a case where our products were utilized in the proposal of engine systems to Aisin Seiki Co., Ltd. The company has made proposals that include the compatibility values of VVT as well as those of other manufacturers' products. Moreover, since discussions must also encompass not only steady-state fuel economy points but also real driving conditions, meaning transient situations, the improvement of simulation technology is crucial. Tools such as GT-SUITE, CONVERGE, and modeFRONTIER are expected to be key assets in achieving these goals. [Features] ■ Simulation technology essential for proposals regarding the entire engine system ■ Optimization technology to accelerate front-loading *For more details, please refer to the PDF materials or feel free to contact us.
CNC manufacturers around the world have chosen Vericut for over 35 years, making their machining processes more efficient.
By using the CNC simulation software Vericut, you can simulate machining parts on your PC before actually processing them with a machine. This helps prevent errors, mistakes, and human errors that could lead to damage to machines, parts (workpieces), jigs, and tools, as well as accidents with machine tools. Additionally, not only does it prevent errors and mistakes, but by using the NC program optimization module (feed rate optimization), you can shorten the machining cycle time and improve machining efficiency. Furthermore, Vericut offers many convenient features, such as precise part measurement using the cutting model after simulation and support for creating various reports like inspection sheets and machining instructions. Vericut has a modular licensing management system, providing flexibility for implementation. You can purchase the necessary functions (modules) in the required quantities. Even after implementing Vericut, you can easily add modules by purchasing the necessary modules and simply adding the license file.
Improved drawing performance has increased operating speed. Setting up the turret lathe is also easier.
"VERICUT ver9.0" is an NC machining simulation software that allows for quicker screen operations such as rotation, zooming, and switching displays. The rendering is speedy, depicting the cutting process and machine smoothly. Obstacles in the line of sight can be easily removed, enabling clear confirmation of the process. There are also numerous options for measuring the geometry of parts or machines. Additionally, you can easily replay previews using a free app. 【Features】 ■ View operations can be performed without stopping the simulation ■ Major functions (such as material cutting) can be used in any view ■ Easy setup for turret lathes ■ Smooth program stop and restart ■ Realistic color representation with adjustable lighting *For more details, please refer to the materials. Feel free to contact us with any inquiries.
![[Case Study] Tool (1): Tungaloy Corporation](https://image.mono.ipros.com/public/product/image/1bc/2000614866/IPROS34677742184482783407.png?w=280&h=280)
A very effective verification tool for tracing the cause! Introducing a suitable tool that connects departments.
At Tangent Technologies Co., Ltd.'s Information Systems Department, we primarily use "Vericut" as a common simulation software for the group, mainly for checking machine interference and processing shapes. It allows for the confirmation of machine interference and enables the specification of many fast-forward points, leading to a significant reduction in processing time, and it is also possible to calculate estimated processing times. We have received feedback stating, "Being able to grasp the estimated manufacturing time in advance, even if it takes some effort, is an important factor for calculating manufacturing costs, so its contribution is very high." [Overview] - Reviewed the software used in-house and gradually transitioned to a common IMC group software. - Used mainly for checking machine interference and processing conditions as a common simulation software for the group. - Leads to a significant reduction in processing time and allows for the calculation of estimated processing times. *For more details, please refer to the PDF document or feel free to contact us.
![[Case Study] Prototype Processing: HILLTOP Corporation](https://image.mono.ipros.com/public/product/image/24e/2000614876/IPROS76873623157634365479.png?w=280&h=280)
Significantly reduces workload and working hours! Complex processing can be reproduced 100%.
We would like to introduce a case study from the manufacturing department of ILLTOP Corporation. To achieve unmanned processing, verification using simulation software is essential. By utilizing thoroughly verified data, we have created a state where accidents do not occur. However, when it comes to multi-tasking machines, the axis configuration becomes complex. We decided to implement "Vericut" because we judged that it would meet our expectations. Since the implementation, based on actual results, the workload and working hours of machine operators have decreased by 80-90%. Work in front of the machine has also significantly reduced, approaching a state where it only requires setting materials and tools and pressing a button. [Overview] ■ Decided to implement based on the judgment that it would meet our expectations ■ Workload and working hours of machine operators have decreased by 80-90% based on actual results ■ Approaching a state where it only requires setting materials and tools and pressing a button *For more details, please refer to the PDF document or feel free to contact us.
![[Case Study] Aluminum Processing (1): Shinwa Co., Ltd.](https://image.mono.ipros.com/public/product/image/9dd/2000614879/IPROS86206142848815905376.png?w=280&h=280)
An essential tool for simulating 5-axis machining! It also serves as an "educational tool" for learning machining.
Shinwa Co., Ltd. specializes in precision aluminum machining and possesses advanced production processing technology, including large and complex shapes with simultaneous 5-axis machining. By introducing "VeriCut," it has become a valuable educational tool for those who have no prior knowledge of machining, helping them deepen their understanding of the process. Additionally, the ability to check NC programs and perform interference checks before machining allows for a clear understanding of processing times, which is a significant advantage. "We find it easy to establish machining schedules, and it has been a great help," is feedback we have received. [Features] ■ Can also be used as an educational tool to deepen understanding of machining ■ An essential tool for simulating 5-axis machining *For more details, please refer to the PDF document or feel free to contact us.
![[Case Study] Aerospace (1): Mitsubishi Heavy Industries, Ltd.](https://image.mono.ipros.com/public/product/image/6e4/2000614885/IPROS40005235610802791236.png?w=280&h=280)
Belicut adds peace of mind! It brings benefits in terms of delivery time, quality, and cost.
At Mitsubishi Heavy Industries, Ltd., in the Civilian Aircraft Division of the Transportation and Logistics Domain, all created NC programs are verified using "Vericut." They are used for various purposes, including comparison checks with design models, cutting model comparisons between old and new data, interference checks, discussions with the site before processing, and training of younger employees. In particular, in terms of education, it serves as a meaningful training tool because it allows for confirmation of actual operations without damaging machines or tools. Additionally, with the capability for robot simulation, it has become possible to check for tool interference and understand the proximity distance to the workpiece, allowing for the confirmation of optimal processing conditions, which has resulted in a significant reduction in processing time. [Overview] - All created NC programs are verified using "Vericut." - Used for comparison checks with design models and cutting model comparisons between old and new data. - Serves as a meaningful training tool as it allows for confirmation of actual operations without damaging machines or tools. *For more details, please refer to the PDF document or feel free to contact us.
![[Case Study] Energy (1): Kawasaki Heavy Industries, Ltd.](https://image.mono.ipros.com/public/product/image/2fa/2000614888/IPROS63418657823012820855.png?w=280&h=280)
You can have effective conversations with on-site operators! It is an effective tool for accurately conveying program content.
Kawasaki Heavy Industries, Ltd. Gas Turbine & Machinery Company Gas Turbine Business Center was originally manufacturing impellers using casting, but wanted to process them with higher precision through machining. Naturally, it is essential to avoid tool breakage, machine stoppages, and failures. To minimize the impact on production through reliable pre-checks, we introduced "Vericut." Initially, we primarily used it for 5-axis machining of impellers and brisk components, but now we thoroughly conduct pre-verification with our product in all processes of manufacturing, regardless of whether they involve new or old parts, or 3-axis or 5-axis machining, before actual use on the production floor. [Overview] ■ Introduced to minimize the impact on production ■ Initially used primarily for 5-axis machining of impellers and brisk components ■ Now, thorough pre-verification is conducted in all processes of manufacturing before actual use on the production floor *For more details, please refer to the PDF document or feel free to contact us.
![[Case Study] Die Casting: Ryobi Limited](https://image.mono.ipros.com/public/product/image/f7a/2000614890/IPROS27030892126464915061.png?w=280&h=280)
The savior of the manufacturing site! By conducting simulations, defects are eliminated and the mental burden on the site is reduced.
At Ryobi Limited's Die Casting Division, Hiroshima Plant, the introduction of 3D CAD in the late 1990s prompted the promotion of direct engraving from modeling to molds. Initially, there were frequent machine and tool interferences due to modeling surface defects and CAM bugs causing path omissions. Due to reasons such as "high repair costs if the machine's spindle breaks" and "inability to meet scheduled production if functionality stops," we considered improvements and introduced our 'Vericut.' We have made it mandatory to simulate all NC data created and output by 3D CAD/CAM and incorporated it into the work procedures. As a result, we have achieved dramatic effects, eliminating any issues related to CAD/CAM. [Overview] ■ Issues - High repair costs if the machine's spindle breaks, and inability to meet scheduled production if functionality stops. ■ Results - Achieved dramatic effects, eliminating any issues related to CAD/CAM. *For more details, please refer to the PDF document or feel free to contact us.
![[Case Study] Precision Equipment: Yamagata Casio Co., Ltd.](https://image.mono.ipros.com/public/product/image/a9e/2000614892/IPROS08737835567658503505.png?w=280&h=280)
A reliable simulator! It avoids significant damage to machinery and greatly reduces check time.
We would like to introduce a case study from the Parts Division of Yamagata Casio Co., Ltd. The simulation component of the mold system "High Net Mold," developed with the aim of fully automating everything from mold design to manufacturing processes, is entirely handled by our 'Vericut.' Since its full-scale implementation, machine troubles have significantly decreased, and settings close to actual machines are now possible. This has led to a substantial reduction in check times. Additionally, it provides a great sense of security when performing "aggressive machining." [Overview] ■ Originally introduced Vericut, but started to utilize it more fully recently ■ Fully responsible for the simulation component of the mold system ■ Since full-scale implementation, machine troubles have significantly decreased *For more details, please refer to the PDF document or feel free to contact us.
![[Case Study] Aluminum Processing (2): Shinwa Co., Ltd.](https://image.mono.ipros.com/public/product/image/99a/2000614895/IPROS41944167214130335432.png?w=280&h=280)
Simulate large workpieces of several meters with certainty! Even with complex 5-axis machining, interference checks can be thoroughly performed.
At Shinwa Co., Ltd., we previously confirmed air cuts using actual machines, but it took time and there was a risk of overlooking programming errors and making assumptions during the work. Additionally, as parts became larger, the tension for operators naturally increased. To improve the environment, we introduced our 'VeriCut'. After the introduction, it took some time to get started, but once accustomed, it became a really user-friendly software, allowing even women with no machining experience to obtain a Level 2 qualification in machining centers. It also helps in understanding machine structures and is highly regarded as an educational tool. [Overview] - Previously, confirmations were made using actual machines for air cuts, but there were risks of overlooking programming errors and making assumptions during work. - It helps in understanding machine structures and is highly regarded as an educational tool. *For more details, please refer to the PDF document or feel free to contact us.
![[Aerospace Case Study] NC Simulation Software](https://image.mono.ipros.com/public/product/image/0e9/2000614899/IPROS86352026172319851057.png?w=280&h=280)
Belicut understands the essence of working machinery! We have achieved a smooth processing startup. Mitsubishi Heavy Industries, Ltd.
Mitsubishi Heavy Industries, Ltd. Aerospace Systems Division, Guidance and Engine Business Unit, engages in low-volume production of a wide variety of products, where defects are costly and have a significant impact on schedules, and collisions are absolutely unacceptable. Three years ago, we fully restructured the system and are currently using two "VeriCut" systems. We have prepared simulations for 70 types of machine tools and are effectively utilizing them for program interference checks. We have received feedback stating, "It addresses even macro variables and is very reliable software." [Overview] ■ Low-volume production of a wide variety of products, with defects being costly ■ Significant impact on schedules, and collisions are absolutely unacceptable ■ Prepared simulations for 70 types of machine tools ■ Effectively utilized for program interference checks *For more details, please refer to the PDF document or feel free to contact us.
![[Case Study] Improvement of Cycle Time through NC Cutting Simulation](https://image.mono.ipros.com/public/product/image/7a4/2000614906/IPROS35498898761263767897.png?w=280&h=280)
Easy, convenient, and highly scalable Velicut! It also helps reduce the burden on workers.
This is a case study introduction for Sakamoto Factory, Production Technology Department of Mino Industrial Co., Ltd. The company consistently carries out everything from casting to processing of aluminum die-cast products and has introduced "Vericut." As a result of the introduction, it has contributed to improvements in cycle time and reduced the burden on workers. "We have high expectations for the future evolution and support of Vericut, which we see as a 'magical machine software that can do anything,'" is the feedback we have received. *For more details, please refer to the PDF document or feel free to contact us.
Companies engaged in CNC machining around the world have chosen Vericut for over 35 years, making their machining operations more efficient.
Would you like to solve the problems of CNC machining? Non-functioning machines, damaged tools, expensive collision issues, discarded parts, prolonged test runs, wasted materials... These problems take away valuable time and costs. Vericut ensures machining accuracy by simulating the entire CNC machining process. It derives the "correct" result in a single machining operation.
Generate a three-dimensional shape model from continuous image data of CT or MRI.
High-performance features comparable to expensive 3D modeling systems are provided. Additionally, by using a 3D extraction function based on histograms, it is equipped with measurement capabilities for complex 3D shape extraction, 3D visualization, and CT/MRI slice images. The created 3D data can be output in STL or DXF formats. Furthermore, an optional feature for simulating the installation of artificial knee/hip joints is also available.
This article introduces a method for establishing a way to obtain deformation resistance that can be used in cutting processes using CAE software.
To handle cutting phenomena through simulation, it is necessary to have the material properties (deformation resistance) of the material, which significantly affects the results of CAE. The deformation resistance, a mechanical property of the material, is measured through material evaluation testing methods such as tensile and compression tests. However, since the deformation resistance during cutting processes involves high-speed and large deformations, it is considered difficult to address these conditions with tensile or compression tests under high strain rates, high strain, and high temperature. Our company has established a method for obtaining deformation resistance applicable to cutting processes using the CAE software "DEFORM," which will be introduced in this article. *For detailed information, please refer to the related links. For further inquiries, feel free to contact us.*
Protect tools and machine tools from collision accidents! We will explain the amazing features of the G-code simulation software "NC2Check"!
Marsugo is a document that picks up the functions and features of various products and introduces the "amazing!" aspects. This time, we will introduce the G-code simulation software "NC2Check." When processing complex shapes or using special jigs and clamps, there is a possibility of damaging the machine due to collisions or interference, making the verification process before actual machining a very important step. However, since the structure and operation differ depending on the machine, some may think, "I'm worried about the verification included with CAM..." or "Pre-verification on the actual machine takes time..." That's why we are introducing the simulation software "NC2Check," which adds on to Mastercam. It can simulate machine-specific operations that cannot be expressed in the simulation included with CAM, as it is based on the G-code calculated through post-processing, allowing for complete verification offline. The document provides detailed information about the simulation mechanism and usage procedures, so please take a look. *You can download the document using the button below.
![[Example] Lightweight design of rotating parts considering rigidity and manufacturing requirements.](https://image.mono.ipros.com/public/product/image/968/2000819152/IPROS75343793258239115311.png?w=280&h=280)
Introducing the lightweight design of rotating components while maintaining rigidity in their initial shape, taking into account various manufacturing requirements!
For rotating components such as wheels, advanced design is required that takes into account not only mechanical properties like rigidity, strength, and vibration characteristics, but also various manufacturing requirements and aesthetic considerations. Here, we present a case study of a motorcycle road wheel that was designed with manufacturing requirements in mind to achieve weight reduction. We established a Multi-Point Constraint (MPC) to maintain rotational symmetry while considering manufacturing requirements such as "the overall shape must be moldable" and "must have a certain minimum wall thickness." First, we created an initial model that is one-third periodic symmetric using rotational copying. Then, we added load and constraint conditions, outputting the data as Nastran data, and subsequently created and added the MPC for maintaining rotational symmetry using the post-processor TS Studio. As a result, we achieved approximately an 11% weight reduction while maintaining a rotationally symmetric shape. [Case Summary] ■ Analysis Model: Road Wheel ■ Result: Achieved approximately 11% weight reduction *For more details, please refer to the PDF document or feel free to contact us.
HELYX environment that puts OpenFOAM into practical use
The aerodynamic simulation software ELEMENTS, developed by Streamline Solutions in the United States, is an application compatible with open-source solvers that holds great potential. (Streamline Solutions is a joint venture between the UK-based Engys and the US-based Auto Research Center (ARC)). ELEMENTS is a groundbreaking solution that combines ARC's wind tunnel testing and analysis techniques specialized for vehicles with Engys's open-source utilization, CFD, FEA, design optimization, and adjoint technology.
[With simulation video] Experience a realistic recreation of current and future manufacturing and logistics sites; please watch the 3D logistics simulation.
RaLC is our original logistics simulation software that enables the preliminary verification of new logistics system establishment/reconstruction plans. It realistically reproduces the current and future logistics sites in a virtual space, making visible the issues and areas for improvement, such as potential bottlenecks and waste.
Building a 3D simulation model of the logistics site.
The logistics simulation software RaLC allows for the construction of 3D simulation models of logistics sites and enables various analyses through diverse output reports. Its basic operability conforms to Windows, making model creation easy with mouse operations. The fundamental operations of logistics are library-ized as units, and the simulation results can be viewed numerically through a wealth of reports. For more details, please contact us.
Example of simulation using RaLC
The logistics simulation software RaLC conducts simulations in the following manner to facilitate improvements on-site: 1. Determine the purpose of the simulation. 2. Prepare various data. 3. Create a model. 4. Execute the simulation and obtain results. 5. Analyze the simulation results. We will guide you through the actual flow of the simulation using part of a sample model. For more details, please contact us.
RaLC realizes the "five visualizations" of logistics sites.
Logistics simulation software RaLC is our original development that enables pre-validation of new or restructured logistics system plans. It realistically reproduces the current and future logistics environments in a virtual space, making visible the issues and improvement points such as latent bottlenecks and waste. For more details, please contact us.
Conducted simulations using actual shipping and receiving data on the model reproduced on RaLC.
To utilize the results of the logistics ABC (Activity Based Costing) analysis for work improvement, we will input location data (such as product names and quantities) from the WMS (Warehouse Management System) into a model recreated on RaLC and conduct simulations using actual inbound and outbound shipping data. This will allow us to verify the extent of the impact of the flow analysis results and location changes. For more details, please contact us.
