We have compiled a list of manufacturers, distributors, product information, reference prices, and rankings for Simulation Software.
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Simulation Software Product List and Ranking from 176 Manufacturers, Suppliers and Companies | IPROS GMS

Last Updated: Aggregation Period:Jan 14, 2026~Feb 10, 2026
This ranking is based on the number of page views on our site.

Simulation Software Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Jan 14, 2026~Feb 10, 2026
This ranking is based on the number of page views on our site.

  1. FsTech Kanagawa//software
  2. アスペンテックジャパン/AspenTech Tokyo//software
  3. ウェーブフロント 本社 Kanagawa//software
  4. 4 シュレーディンガー Tokyo//software
  5. 5 IDAJ Kanagawa//software
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Simulation Software Product ranking

Last Updated: Aggregation Period:Jan 14, 2026~Feb 10, 2026
This ranking is based on the number of page views on our site.

  1. Aspen Plus process simulation software アスペンテックジャパン/AspenTech
  2. Design and Optimization of VOITH Linear Jet FsTech
  3. Engine simulation software "GT-POWER" IDAJ
  4. 4 Virtual Control Program Verification
  5. 5 Satara Phoenix WinNonlin

Simulation Software Product List

451~480 item / All 745 items

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Secondary battery model

Secondary battery model

Simulations of secondary batteries using 1D and 2D models enable the development of optimal systems and the reduction of development time.

A detailed explanation of the development and system simulation of secondary batteries based on "gPROMS." You can view a case study on lead-acid battery modeling. There is a library for lead-acid batteries. For lithium-ion batteries, we provide support through custom modeling. By combining 1D and 2D models for verification, it is possible to calculate more accurate data and comprehensively consider the physical and chemical phenomena occurring in each battery component. We can also address issues related to battery operation. <1D Model> Mass balance of components Electrolyte and solid phase potentials - Ohm's law and concentrated solution theory Charge conservation (electrical neutrality) Electric double layer at the electrode/electrolyte interface Changes in porosity and loss of electrode surface area Electrochemical reactions - Butler-Volmer equation Sub-models connected through boundary condition systems Battery capacity loss <2D Model> 2D profiles of current, potential, and component concentration Ion transport represented by a more advanced approach: Maxwell-Stefan-Plank diffusion

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[Online Event] gPROMS Software Product Training

[Online Event] gPROMS Software Product Training

Regardless of your license usage, anyone interested in gPROMS, including companies, researchers, and students, is welcome to participate!

At SPSE, we regularly conduct product demonstrations and practical training for our products. The participation fee is free, so please feel free to join us. You will have the opportunity to use the software! ■ Introduction to gPROMS Process Model-based process engineering (batch and continuous processes) Catalyst reactor, adsorption separation, and membrane separation model library ■ Custom Modeling ■ Bioprocess Models ■ gPROMS Formulated Products Crystallization Analysis ■ gPROMS Formulated Products Oral Absorption Analysis *Please note that registration may take some time. We recommend applying early.

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Optimization of Low-Density Polyethylene (LDPE) Autoclave Reactor

Optimization of Low-Density Polyethylene (LDPE) Autoclave Reactor

It is possible to shorten the development time of new polymer grades, optimize reactor design, and maximize production volume while maintaining polymer properties.

A new feature has been added to gPROMS ProcessBuilder: "Optimization of Low-Density Polyethylene (LDPE) Autoclave Reactors." 【Advanced Polymer Thermodynamics】 The SAFT equation of state represents molecules as chains of different functional groups, accurately modeling branching and capturing precise polymer characteristics across the entire molecular weight distribution (MWD). This approach is ideal for polymer modeling. 【Complete MWD Modeling】 Detailed kinetic modeling considers the fundamental polymerization reaction steps in chemically initiated free radical polymerization. This model uses a fixed pivot method to predict the time evolution of the entire molecular weight distribution (MWD). 【CFD-Linked Multi-Zone Approach】 Advanced process modeling provides a means to understand the impact of changes in operating conditions on the shape of the MWD. 【PSE Consulting Services】 Consulting services provided by a specialized team ensure the swift and high-quality execution of projects.

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Spray Drying Spray Dryer Model

Spray Drying Spray Dryer Model

Pre-testing in simulations allows for risk avoidance in scaling up. We offer consulting services. Monthly contracts available.

The spray dryer allows for the consideration of product quality variation control and equipment scale-up (enlargement) by simulating factors that influence particle size control, moisture content control, and particle shape during the manufacturing process. In modeling, the particle size distribution is calculated based on the Population Balance equation, and the drying process of the particles is also taken into account. Additionally, representing adhesion to the walls is an important requirement in the simulation. With the integration of Siemens' STAR-CCM+, it is possible to analyze the actual gas flow in detail, which can be used for considerations of scale-up and operational improvements. This is an optional feature of gPROMS FormulatedProducts. *For more details, please download the catalog or contact us.

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Tohoku Univ. Technology : Knocking prediction method : T22-260

Tohoku Univ. Technology : Knocking prediction method : T22-260

High precision knocking prediction method reproducing DNS

 Although the knocking phenomenon is a hindrance to the improvement of the thermal efficiency of the engine, the detailed mechanism of the occurrence of knocking has been difficult to fully understand due to the complex interaction of hydrodynamics and chemical reactions.  The inventors performed DNS (Direct Numerical Simulation) to calculate the basic equations of a reactive fluid, and confirmed the agreement with experimental data of knocking for the first time in the world [1]. Further, by analyzing the mechanism of the occurrence of knocking in detail, it was found that there was a "critical condition" in which a flame, which is a combustion chemical reaction wave, could not exist as a flame and had to transition to severe overall ignition under extreme conditions. From this, an equivalent theory of ignition and flame was constructed, and the conditions for the occurrence of knocking were successfully derived [2].  The present invention makes it possible to predict the occurrence of knocking accurately and relatively simply, which has been impossible until now.

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Easily add characters and give various movement instructions! Golaem

Easily add characters and give various movement instructions! Golaem

Implemented real-time crowd simulation features available within Unreal Engine.

"Golaem" allows you to easily increase the number of characters from a few to thousands or tens of thousands, and enables various movements. Simulation is now possible on Unreal Engine, with enhanced previz/layout features. Additionally, when combined with the new Layout layer, it becomes even easier to verify crowd movements before rendering, speeding up the iterative process. 【Features】 ■ Real-time simulation on Unreal Engine ■ Viewport visual diversity ■ DOF/fog support in the viewport ■ Trigger visual feedback ■ Group Trajectory Edit Layer *For more details, please refer to the related links or feel free to contact us.

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Press forming simulation software 'AutoForm' *Case study collection available

Press forming simulation software 'AutoForm' *Case study collection available

What is the solution that covers the entire process chain from the design of press-formed parts to mass production?

"AutoForm" is a press forming simulation software that minimizes rework in the manufacturing process. It has a fast calculation speed, and operation is as simple as following the guidance and using the default settings. This allows for better parts to be brought to market in a shorter time and at a lower cost. - There is an increasing number of difficult-to-form materials such as high-strength steel and complex-shaped parts. - There is a desire to shorten production preparation time. - There is a lot of variability in overseas production. Are you facing challenges in the increasingly difficult development of automotive press-formed parts? [Recommended for those who] - Want to operate easily - Want to increase calculation speed - Want to quickly identify the causes of variability and solve them efficiently On this page, you can download a collection of case studies that include examples such as the "utilization by Peugeot-Citroën," which has aimed to shorten lead times and development periods within a limited timeframe, and reduce costs for trials and production. *If you would like technical materials or domestic case studies, please contact us using the button below.

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Analytical engineering improvement, robustness analysis, mass production support (process planning and cost verification)

Analytical engineering improvement, robustness analysis, mass production support (process planning and cost verification)

It helps to improve and verify the molding process, reducing or eliminating the percentage of defective parts.

It helps to improve and verify the molding process, reducing or eliminating the percentage of defective parts. This solution supports the standardization, optimization, and visualization of press molding production operations using simulations. It can primarily be utilized in three scenarios: SPI (Statistical Process Improvement), robustness analysis, and trial/production support. ○ SPI (Statistical Process Improvement) Automatically calculates continuous combinations of all conditions based on experimental design. It allows for the evaluation of verification results in a visually comprehensible manner using statistical methods. ○ Robustness Analysis Defines and calculates the range of variations that can realistically occur, simulating actual production at a higher level. ○ Trial/Production Support Enables prior knowledge of which parameters to change and in what direction to achieve better results in response to issues that arise on-site.

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Press Molding Simulation Technology Information [AF Newsletter No. 1]

Press Molding Simulation Technology Information [AF Newsletter No. 1]

Supporting Japan's "monozukuri" through digitalization!

○ Launch of the email newsletter ○ Responding to the needs of the manufacturing site! ○ Supporting the "manufacturing" of Ford Germany through digitalization!

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Strengthening competitiveness through maintaining profitability and productivity Case study video <Customer case>

Strengthening competitiveness through maintaining profitability and productivity Case study video <Customer case>

A case study video showcasing how Walker Tool & Die, a manufacturer of steel and aluminum products, utilizes AutoForm has been released.

Walker Tool & Die, which manufactures steel and aluminum products, has released a case study video showcasing their use of AutoForm. They have utilized AutoForm for many years to verify the press forming process and material usage, achieving high-precision estimates. They place great importance on overwhelming calculation speed and the accuracy of the results. Currently, the case study video from Walker Tool & Die is available for viewing.

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Simplifying the modeling of cooling water channels in hot press forming.

Simplifying the modeling of cooling water channels in hot press forming.

AutoForm has further enhanced its capabilities in hot press forming simulation by utilizing cutting-edge technology.

By using AutoForm, automotive manufacturers and suppliers can reliably design the processes for hot press-formed parts required for new car models. Additionally, it allows for the consideration of cooling water channels, enabling more accurate and easier prediction/detection of the location and size of hotspots that occur on the mold surface.

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AutoForm NEWS No.30

AutoForm NEWS No.30

Introducing examples of how AutoForm has contributed to the education of young engineers.

Dear users, this is the quarterly publication "AutoForm NEWS" delivering information about AutoForm. It features an interview with Mr. Alper Güner, a Technical Product Manager specializing in hot press forming technology. 【Table of Contents】 ● [Case Study] Witec Co., Ltd. Significant reduction in analysis time and effective training for young engineers ● Engineer Interview Insights from an expert in hot press forming ● Efficient press forming simulation along the press forming process chain *For more details, please contact us.

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[Case] Improved simulation accuracy in aluminum press forming.

[Case] Improved simulation accuracy in aluminum press forming.

Significant improvement in simulation accuracy! Introducing use cases of TriboForm.

We would like to introduce a case where the simulation accuracy in aluminum press forming has significantly improved through the use of "TriboForm," which we handle. Regarding the aluminum hood outer that was confirmed during the trial, no defects were detected in the initial stage of the forming simulation. However, by using "TriboForm" to examine the actual tribological behavior, we were able to address this issue. 【Features of TriboForm】 ■ User-friendly software that accurately reproduces complex tribological phenomena ■ Efficient simulation, visualization, and evaluation of friction and lubrication conditions ■ Easy integration with representative simulation software ■ Improved accuracy of press forming simulations ■ Reduction in the number of costly mold modifications during trials and production *For more details, please refer to the PDF materials or feel free to contact us.

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Friction and Lubrication Simulation Software 'TriboForm'

Friction and Lubrication Simulation Software 'TriboForm'

Achieving a new level of simulation accuracy! Simulating friction and lubrication conditions.

TriboForm is software that can quickly simulate the coating of molds, lubrication, surface characteristics of materials, friction of new sheet materials, and ultimately the quality of products in the press forming process. By considering the effects of tribology more realistically, it enables a new level of simulation accuracy. TriboForm products enhance the AutoForm product line. 【Features】 ■ Accurate representation of complex tribological phenomena ■ Simulation, display, and evaluation of friction and lubrication conditions ■ Easy integration with representative simulation software ■ Avoid costly mold modifications during trials and production *For more details, please refer to the PDF materials or feel free to contact us.

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Presentation of Case Studies: Introduction of Successful Examples of Cost and Process Reduction Using AutoForm!

Presentation of Case Studies: Introduction of Successful Examples of Cost and Process Reduction Using AutoForm!

A simulation software that contributes to quality improvement and lead time reduction by optimizing the press molding die process! We present case studies that summarize solutions to challenges!

We will present a collection of successful domestic and international case studies on the implementation of AutoForm, including examples of addressing mass production defects using AutoForm press forming simulation, shortening delivery times and improving quality through the introduction of CAE, and successfully promoting digital twin processes using AutoForm to reduce time and costs. 【Featured Cases】 ■ Response to mass production defects using AutoForm-Sigma at a major Tier 1 parts supplier (domestic case) ■ Gaining trust from clients through shortened delivery times and improved quality with the introduction of AutoForm (domestic case) ■ Reduction of time and costs utilizing digital die spotting (international case) ■ Mindset for successful simulation: A team leader from Renault Group advocates for a 70% reduction in man-hours (international case) ■ Hyundai's NC group successfully reduced man-hours by 50% in trim line deployment through CAE digital engineering (international case) *If you would like a collection of case studies, please refer to the PDF document or feel free to contact us.

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[Case Study] Identifying factors that affect mass production defects through molding simulation!

[Case Study] Identifying factors that affect mass production defects through molding simulation!

Nissan Motor Co., Ltd. identifies factors affecting the mass production cracking of panels through molding simulation!!

Nissan Motor Co., Ltd. utilized the robust analysis simulation software "AutoForm-Sigma" to examine the factors affecting mass production cracks in order to reduce the occurrence of panel mass production cracks at its manufacturing plants. By incorporating mass production variations into the simulation, we present a verification case that reproduced the mass production crack location with a probability of 52.9%. *For more details, please refer to the PDF document or feel free to contact us.*

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The Reality of Die Spotting: A Case Study of an Italian Mold Manufacturer

The Reality of Die Spotting: A Case Study of an Italian Mold Manufacturer

In exploring the possibility of time reduction, we focused on the entire spotting process.

The Fourth Industrial Revolution, commonly known as Industry 4.0, aims to accelerate design and production. Digitalization, smart factories, digital twins, and AI are methods to efficiently and effectively advance the entire process chain from product design to mass production. Although the use of press forming simulation software is progressing, the trial-out phase of molds still relies heavily on manual work and is significantly dependent on the experience of the operators. *For more details, please refer to the related links. Feel free to contact us for more information.

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[Customer Case] Significant Reduction in Tryout Frequency

[Customer Case] Significant Reduction in Tryout Frequency

A case where the assembly process of the white body was accurately predicted, significantly reducing the number of trial runs.

We would like to introduce a case where Starq Y-Tec Co., Ltd. significantly reduced the man-hours leading to the final product by utilizing "AutoForm Assembly." We verified whether the software could accurately reproduce defects and challenges that may arise in the assembly process. Additionally, actual parts were measured before running the simulation. We compared the simulation results with the actual measured values of the parts to validate the accuracy of the simulation. Measurements were taken at a total of 104 locations, with 80 locations showing a difference of less than 0.5mm, and among those, 56 locations had a difference of less than 0.3mm, demonstrating the ability to create models of very complex processes and make predictions. [Verification Details] - Can defects and challenges that may arise in the assembly process be accurately reproduced? - Actual parts were measured before running the simulation. - The simulation results were compared with the actual measured values of the parts to verify accuracy. *For more detailed information about the case, please refer to the related link. For further inquiries, feel free to contact us.*

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3DEXPERIENCE DELMIA <Equipment Planning>

3DEXPERIENCE DELMIA <Equipment Planning>

Ideal for use in overall layout and flow verification! Inverse kinematics for robotic arms and similar applications is also possible.

"3DEXPERIENCE DELMIA" creates and verifies virtual models of manufacturing equipment. It creates kinematic models of equipment and manages motion controller definitions and groups. Additionally, it supports inverse kinematics for robotic arms and allows for the definition of conveyors used in simulations, with various types available for selection. 【Features】 ■ Creation and verification of virtual models of manufacturing equipment ■ Utilization in overall layout and flow verification ■ Creation of kinematic models of equipment ■ Definition of motion controllers and group management ■ Support for inverse kinematics for robotic arms ■ Definition of conveyors for use in simulations, with various types available for selection *For more details, please refer to the PDF document or feel free to contact us.

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3DEXPERIENCE DELMIA <Layout/Flow Verification>

3DEXPERIENCE DELMIA <Layout/Flow Verification>

Calculate the operating rate of the project! We will optimize line layout and resources by improving examination accuracy.

"3DEXPERIENCE DELMIA" conducts layout considerations for lines, assembly stations, etc. It is possible to start the definition from a 2D layout plan. It defines branching conditions, buffer capacity, transport time, input intervals, processing time, and the distribution of transport times. Additionally, it can calculate discrete simulations between processes and the operating rates of the processes. 【Features】 ■ Define the layout of the entire line to each station ■ It is also possible to start the definition from a 2D layout plan ■ Definition of branching conditions, buffer capacity, and transport time ■ Definition of input intervals, processing time, and the distribution of transport times ■ Calculate discrete simulations between processes and the operating rates of the processes ■ Optimization of line configuration and resources through improved consideration accuracy *For more details, please refer to the PDF materials or feel free to contact us.

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3DEXPERIENCE DELMIA <Resource Verification Robot>

3DEXPERIENCE DELMIA <Resource Verification Robot>

Visualization of the robot's operational range! Achieving the identification and resolution of issues in the early stages of programming.

Resource verification using the 3D simulation "3DEXPERIENCE DELMIA," introducing "robots." Simulating and optimizing the operation of work cells. Predicting the robot's movements and cycle times, and generating robot programs offline. Enabling the identification and resolution of issues in the early stages of programming. 【Features】 ■ Visualization of the robot's operational range ■ Design and verification of work cell layout ■ Simulation and optimization of work cell operations ■ Prediction of robot movements and cycle times ■ Generation of robot programs offline *For more details, please refer to the PDF document or feel free to contact us.

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Welding deformation and residual stress simulation software 'ASU/WELD'

Welding deformation and residual stress simulation software 'ASU/WELD'

A series of welding distortion and residual stress simulation software that can be utilized to improve the efficiency of jig design. We will introduce examples of welding distortion based on clamping conditions.

The "ASU/WELD" series visualizes the effects of welding thermal distortion in advance and guides the welding process, enabling reductions in prototype costs and shortening of delivery times. ■ Product Introduction - "ASU/WELD-Express," a software for analyzing inherent distortion in a short time. - "ASU/WELD-Master," a thermal elastic-plastic analysis software capable of detailed evaluation of welding deformation and residual stress. ■ Challenges and Issues Faced by Welding Engineers - Shortening delivery times and reducing man-hours in the welding process. - Product dimension defects due to welding distortion. - Decreased structural strength due to residual stress. This is recommended for those facing the above challenges. For detailed product information, please download the catalog or contact us.

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New Version 2025 Edition Press Forming Simulation Software

New Version 2025 Edition Press Forming Simulation Software

A press molding simulation software that can take mold deformation into account and incorporates a wealth of know-how!

The new version of the 2022 press forming simulation software "ASU/P-form" features a solver that employs a "static explicit method" and a user-friendly pre-post interface. Developed in Japan, where press processing technology is advanced, "ASU/P-form" incorporates a wealth of know-how and combines ease of use with high-precision analysis, making it an accessible CAE tool for anyone involved in press processing, from mold design engineers to on-site manufacturing technicians and production personnel. 【Features】 ■ Solver utilizing "static explicit method" ■ User-friendly interface ■ Ease of use and high-precision analysis *For detailed product information, please download the catalog or contact us.

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High performance and longevity of turbo machinery through retrofit optimization.

High performance and longevity of turbo machinery through retrofit optimization.

Notice of Webinar on June 22, 2021 (Tuesday) at 11 PM! You can learn how to use optimization tools.

The aging of machinery is a challenge for engineers. To maximize the lifespan of turbo machinery, minimize losses, and apply new technologies, upgrading flow paths through CFD simulation, optimizing blades, and designing seal leaks are very effective measures. Cadence Design Systems and Concepts NREC provide all the necessary tools to design extremely complex shapes and analyze them with high precision to optimize performance within constraints. In a 30-minute webinar, you can learn how to operate AxCent, OMNIS/Turbo, and the optimization kernel Minamo. [Content] ■ Calculate and analyze the performance of steam turbines ■ Generate parametric models with AxCent ■ Redesign turbines with new blades, flow paths, and seals through optimization *For more details, please refer to the related link page or feel free to contact us.

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Kvaser: A widely used CAN solution around the world.

Kvaser: A widely used CAN solution around the world.

Providing high-quality, low-cost CAN interface solutions with groundbreaking technology!

This catalog features a variety of products developed by Kvaser. Starting with the high-speed USB interface "Kvaser Leaf Light HS V2," we also offer the "Kvaser Memorator Pro 2xHS v2," a two-channel CAN bus interface that also functions as a standalone data logger. Additionally, we have the "Kvaser Hybrid Pro CAN/LIN," a versatile CAN interface that can handle CAN FD, CAN, and LIN, making it an essential item for all engineers involved in automotive communication. 【Featured Products】 ■ Kvaser Leaf Series ■ Kvaser USBcan Series ■ Kvaser Memorator Series ■ Kvaser Hybrid Series ■ Kvaser PCI Series ■ Other specialized CAN interface products *For more details, please refer to the PDF document or feel free to contact us.

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ADAS/AD Open Integrated Test Platform

ADAS/AD Open Integrated Test Platform

Virtual test driving supports the development of ADAS/AD.

Our CarMaker, TruckMaker, and MotorcycleMaker can easily reconstruct test scenarios that replicate overall traffic flow and complex road environments. As an open integrated testing platform, CarMaker, TruckMaker, and MotorcycleMaker provide the best environment for functional testing in the ADAS/AD domain. 【Features】 ■ Conduct reproducible automated tests ■ Utilize detailed scenarios that include many objects and road users based on maneuvers, events, and scenarios ■ Utilize map data: generate detailed road networks from sources like ADAS RP ■ Automatically transfer accurate scenarios based on real vehicle tests to the virtual environment ■ Simulate integrated sensors using excellent environmental and sensor models ■ Verification of collision avoidance systems, emergency automatic braking, etc., is also possible ■ Can also be used to promote collaboration in CASE.

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Simulation Software

Simulation Software

You can efficiently test the entire vehicle system using a virtual environment at all stages of the development V-cycle!

CarMaker, TruckMaker, and MotorcycleMaker provided by IPG Automotive enable virtual testing from the early stages before the development of physical prototypes, incorporating both virtual components and physical components into virtual prototypes. Additionally, they support various standards, specifications, and interfaces, allowing for quick and easy integration of the simulation environment into existing tool environments. The results of the simulations are automated and reproducible. 【Features】 ■ Simulation possible in an office environment (on PC) ■ Significant time savings through real-time simulation ■ Reduction in man-hours ■ System verification of the entire vehicle before prototype creation *For more details, please refer to the PDF materials or feel free to contact us.

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Benefits of the Open Integrated Test Platform for Powertrain 2

Benefits of the Open Integrated Test Platform for Powertrain 2

No need for prototype production! RDE simulation that reduces man-hours and costs.

The "Open Integrated Testing Platform" provided by IPG Automotive does not require the creation of prototypes. It offers a real-time simulation environment with virtual vehicle prototypes equipped with HV, EV, and conventional powertrains. As a result, it significantly contributes to reducing man-hours and costs. 【Features】 ■ Reduction of man-hours ■ Cost reduction ■ No need to create prototypes ■ Simulation possible in an Office environment (PC) ■ Shortened simulation time *For more details, please refer to the PDF document or feel free to contact us.

  • Testing Equipment and Devices
  • Development support tools (ICE, emulators, debuggers, etc.)
  • Simulation Software

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