We have compiled a list of manufacturers, distributors, product information, reference prices, and rankings for Simulator.
ipros is IPROS GMS IPROS One of the largest technical database sites in Japan that collects information on.

Simulator Product List and Ranking from 45 Manufacturers, Suppliers and Companies

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

Simulator Manufacturer, Suppliers and Company Rankings

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

  1. null/null
  2. タナック 岐阜本社 Gifu//Medical and Welfare
  3. アイロック 本社 Aichi//Automobiles and Transportation Equipment
  4. 4 Comet Technologies Japan K.K. Comet Yxlon Kanagawa//Testing, Analysis and Measurement
  5. 5 エムティエスジャパン Tokyo//Testing, Analysis and Measurement
Go to Company Ranking

Simulator Product ranking

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

  1. Factory Layout Simulator
  2. X-ray reflow simulator Comet Technologies Japan K.K. Comet Yxlon
  3. [Case Study] Toyota Motor Corporation Driving Simulator エムティエスジャパン
  4. 4 [Demo unit available] LED Solar Simulator LumiSun-50 オプトシリウス
  5. 5 T3R simulator アイロック 本社

Simulator Product List

46~60 item / All 387 items

Displayed results
[Case Study] Biomedical Testing Lab "Spinal Wear Simulator"

[Case Study] Biomedical Testing Lab "Spinal Wear Simulator"

The industry's first simulator designed to replicate the complex loads and movements of the spine.

The functions of the biomedical testing lab, which serves a variety of purposes, have been enhanced. The "unidirectional load frame" can be used for testing biomaterials such as polyethylene, bone cement, and PEEK, as well as for testing soft tissues, calcified tissues, actual specimens, and syringes. Additionally, the "axial/torsional load frame" can be used for more extensive practical tests on the spine and buttocks. When embarking on tests for new applications, it often begins with devising new data collection algorithms, ultimately involving 50 to 60 steps in the testing process. However, using MTS software allows for smooth processing of such tasks. For more details, please download the catalog or feel free to contact us.

  • Testing Equipment and Devices
  • Strength Testing Equipment

Added to bookmarks

Bookmarks list

Bookmark has been removed

Bookmarks list

You can't add any more bookmarks

By registering as a member, you can increase the number of bookmarks you can save and organize them with labels.

Free membership registration
[Case Study] Toyota Motor Corporation Driving Simulator

[Case Study] Toyota Motor Corporation Driving Simulator

To drive more safely and comfortably, we pursue a test environment that is as close to real driving conditions as possible!

The driving simulator, which pursues an environment that is as close to real driving as possible, is essential for experiments aimed at making driving safer and more comfortable. We aim for the integrated development of higher-level preventive safety technologies. By controlling the 12 degrees of freedom composed of 5 layers, we can combine these degrees of freedom to control appropriate motions that faithfully simulate the "sense of speed during driving," "acceleration and deceleration feel," and "ride comfort" based on the driving operations of the simulated vehicle installed in the dome. [Contents] - MTS's global achievements - Excellent motion system - Process for implementation - What the actual simulator is like - Future product development - Future market expansion ■□━━━━━━━━━━━━━━━━━・・・・・‥‥‥……… Why was MTS technology adopted by TOYOTA? Please take this opportunity to download the catalog to learn about the reasons, examples, and future developments. Alternatively, feel free to contact us. ■□━━━━━━━━━━━━━━━━━・・・・・‥‥‥………

  • Vibration Testing

Added to bookmarks

Bookmarks list

Bookmark has been removed

Bookmarks list

You can't add any more bookmarks

By registering as a member, you can increase the number of bookmarks you can save and organize them with labels.

Free membership registration
[Case Study] Testing Laboratory Specialized in Orthopedic Devices for the Spine

[Case Study] Testing Laboratory Specialized in Orthopedic Devices for the Spine

High-precision long-term wear and fatigue testing on the lumbar spine and cervical region! Capable of mounting six test specimens, providing a statistically valid sample size.

We have prepared a module that allows for high-precision long-term wear and fatigue testing of both lumbar and cervical vertebrae in the lab, and also accommodates the important requirement of SpineServ for multiple test specimens by enabling the attachment of six test specimens. The shaker can uniformly apply bending, lateral bending, and axial rotation motions to all six test specimens simultaneously. *For more details, please contact us or refer to the catalog.*

  • Testing Equipment and Devices
  • Strength Testing Equipment
  • simulator

Added to bookmarks

Bookmarks list

Bookmark has been removed

Bookmarks list

You can't add any more bookmarks

By registering as a member, you can increase the number of bookmarks you can save and organize them with labels.

Free membership registration
Air Core ePost Tire Contact Surface Input Road Simulator

Air Core ePost Tire Contact Surface Input Road Simulator

Reproducing road surface shapes and irregularities with high precision! Significantly reducing operational and maintenance costs for vehicle testing!

Our "ePost System" is a road simulator suitable for vehicle testing (BSR, NVH tests) that can reproduce road conditions. The "Model 320 ePost Tire Contact Surface Input Road Simulator" can accurately reproduce road shapes and irregularities, allowing for highly reliable vehicle structure testing. This "Air Core" model employs a hybrid actuator that combines linear electromagnetic and pneumatic systems. Compared to hydraulic simulators, it significantly reduces operational and maintenance costs. 【Features】 ■ Supports noise, squeak, and rattle (BSR) as well as NVH testing ■ Achieves an environmentally friendly testing environment with a clean system ■ Can be installed in environmental chambers ranging from -40°C to 70°C ■ Offers three models to accommodate a wide range of vehicle sizes *For more details, please download the PDF or contact us.

  • Testing Equipment and Devices
  • Vibration Testing

Added to bookmarks

Bookmarks list

Bookmark has been removed

Bookmarks list

You can't add any more bookmarks

By registering as a member, you can increase the number of bookmarks you can save and organize them with labels.

Free membership registration
Lithography Simulator PROLITH

Lithography Simulator PROLITH

Virtual Lithography Simulator

The lithography simulator expresses the imaging by the exposure optical system and the process of photoresist exposure and development through numerical calculations on a computer, and calculates the shape of the photoresist after development. It has become an indispensable tool for research, development, and manufacturing in lithography.

  • Spectroscopic Analysis Equipment
  • Other core systems

Added to bookmarks

Bookmarks list

Bookmark has been removed

Bookmarks list

You can't add any more bookmarks

By registering as a member, you can increase the number of bookmarks you can save and organize them with labels.

Free membership registration
Driving Simulator "OP-ROAD"

Driving Simulator "OP-ROAD"

You can visually confirm the planned linear path with the APS-MarkIV using a driving simulator.

This system generates a three-dimensional model from the design data of the road and railway alignment planning system "APS-MarkIV" and displays a driving image. It can create a three-dimensional model from the design data planned and examined with APS-MarkIV, allowing for driving simulations. During discussions and consensus-building, stakeholders can share three-dimensional models and driving videos, enhancing the efficiency and sophistication of road design. ● It allows for the confirmation of harmony between horizontal and vertical alignments and visibility checks using videos and still images. ● Fixed targets can be set at the positions of forward targets and measurement points during simultaneous driving, which can be used for visibility checks. ● The dual-screen simultaneous driving function makes it easy to compare and examine routes. ● It can simulate driving through intersections, box culverts, and interchanges (IC/JCT).

  • 2D CAD Construction

Added to bookmarks

Bookmarks list

Bookmark has been removed

Bookmarks list

You can't add any more bookmarks

By registering as a member, you can increase the number of bookmarks you can save and organize them with labels.

Free membership registration
Thin-film solar cell simulator

Thin-film solar cell simulator

Device analysis tool for thin-film solar cells

The features of device modeling are introduced using APSYS for various physical models and quantum tunneling. The model and material absorption properties for a-Si are explained using a-Si, muC-Si, a-SiGe, and ITO/ZnO. As modeling results for a-Si PIN solar cells, examples of calculations for dual junction muC-Si/a-Si and triple junction a-Si/a-SiGe/a-SiGe tandem solar cells are presented. By combining 2D/3D ray tracing and FDTD modules, it is possible to efficiently design and analyze thin-film solar cells on Si substrates using APSYS.

  • simulator

Added to bookmarks

Bookmarks list

Bookmark has been removed

Bookmarks list

You can't add any more bookmarks

By registering as a member, you can increase the number of bookmarks you can save and organize them with labels.

Free membership registration
Multi-junction solar cell simulator

Multi-junction solar cell simulator

Device analysis tool for multi-junction solar cells.

An example of 2D/3D simulations of single-junction and multi-junction compound semiconductor solar cells is presented. A non-local tunnel junction model was calibrated through experiments. The solar spectrum was used as a bias to analyze the external quantum efficiency. The I-V characteristics, Isc, Voc, and quantum efficiency showed consistency between modeling and experimental results. From the modeling results of multiple suns, it was shown that the optimal number of suns varies with the spacing of the contact pads, and the effects of different series resistances were demonstrated.

  • simulator

Added to bookmarks

Bookmarks list

Bookmark has been removed

Bookmarks list

You can't add any more bookmarks

By registering as a member, you can increase the number of bookmarks you can save and organize them with labels.

Free membership registration
Laser Irradiation Contact Solar Cell Simulator

Laser Irradiation Contact Solar Cell Simulator

Device analysis tool for laser-irradiated contact solar cells.

An example of the laser fired contact (LFC) process using the Crosslight process simulator CSuprem and the device simulator APSYS is illustrated. Ultimately, the LFC structure was incorporated into the rear-contacted cells (RCC) device in APSYS, successfully modeling the solar cell performance. The reasonable performance of the RCC device with LFC was demonstrated. The results discuss the actual laser pulse irradiation and suggest the possibility of Al atoms diffusing into the molten Si. 2D/3D modeling of solar cells with LFC is possible using Crosslight's CSuprem and APSYS.

  • simulator

Added to bookmarks

Bookmarks list

Bookmark has been removed

Bookmarks list

You can't add any more bookmarks

By registering as a member, you can increase the number of bookmarks you can save and organize them with labels.

Free membership registration
Device simulator for sapphire substrate LED using FDTD.

Device simulator for sapphire substrate LED using FDTD.

FDTD method analysis tool for LEDs with two different surface structures.

Two types of LED device structures with different surface shapes were simulated using the FDTD method in APSYS, resulting in an angle-dependent light intensity distribution. The differences in surface shape are reflected in the light intensity. A 3D structure can be simulated using the same method as in 2D.

  • simulator

Added to bookmarks

Bookmarks list

Bookmark has been removed

Bookmarks list

You can't add any more bookmarks

By registering as a member, you can increase the number of bookmarks you can save and organize them with labels.

Free membership registration
Phosphor LED light ray tracing simulator

Phosphor LED light ray tracing simulator

Light ray tracing simulation analysis tool for LED coated with phosphor.

Introducing techniques for analysis procedures. Analyzing ray tracing and displaying the plots of the obtained results. (Angle distribution of LED output. Profile of absorbed power density in yellow/red phosphors. Spectrum of all light outputs.)

  • simulator

Added to bookmarks

Bookmarks list

Bookmark has been removed

Bookmarks list

You can't add any more bookmarks

By registering as a member, you can increase the number of bookmarks you can save and organize them with labels.

Free membership registration
3D Device Simulator for Nano Wire/Nano Tube LED

3D Device Simulator for Nano Wire/Nano Tube LED

Numerical analysis tool for GaN-based nanowire or nanotube devices.

Efficient analysis of GaN substrate nanowire and nanotube structures for LEDs using the device simulator (APSYS). Examples of device modeling and simulation are presented. A single nanotube with 15,000 mesh points in the quantum well was calculated as a test. The typical I-V characteristic calculation took about 20 minutes on a laptop with OS: Windows 7 and CPU: i5. The physical models and numerical analysis functions used in APSYS include "self-consistent calculations of the drift diffusion model combined with quantum mechanics," "utilization of polarization charges in polar and semi-polar forms," "thermal model," "IQE drop due to EBL doping, band offset, and polarization charges," and "extraction calculations using FDTD," among others.

  • simulator

Added to bookmarks

Bookmarks list

Bookmark has been removed

Bookmarks list

You can't add any more bookmarks

By registering as a member, you can increase the number of bookmarks you can save and organize them with labels.

Free membership registration
Organic LED simulator

Organic LED simulator

Physical models and analyses for calculations using various types of organic LEDs as examples.

Introducing various simulations of organic LEDs (Organic Light-Emitting Diodes) using the Crosslight device simulator APSYS. Quantum drift-diffusion model and analysis for organic semiconductors. Light extraction through 3D ray-tracing (non-microcavity mode). Modeling of electroluminescent spectra accompanied by Frenkel excitons. Calculations including microcavity effects. Application to active matrix organic EL (AMOLED). Analysis of white organic EL (WOLED) using a triple diffusion layer. Comparison of characteristics of low-voltage PIN structures with simulation and experimental results. Analysis of tandem organic EL (OLED).

  • simulator

Added to bookmarks

Bookmarks list

Bookmark has been removed

Bookmarks list

You can't add any more bookmarks

By registering as a member, you can increase the number of bookmarks you can save and organize them with labels.

Free membership registration
Photonic crystal LED device simulator

Photonic crystal LED device simulator

Device modeling and analysis tools for photonic crystal LEDs

This introduces the points of modeling and analysis examples of photonic crystal LEDs (PhCLED). It considers simulations based on photonic crystal LEDs with DBR. (2D/3D drift-diffusion model. Band analysis through physical simulation. Spontaneous emission and guided mode. Consideration of the depth of air holes, etc.) Additionally, it presents an analysis of guided multimodes using InGaN photonic crystal LEDs. The results of these simulations are consistent with reported theories and experiments.

  • simulator

Added to bookmarks

Bookmarks list

Bookmark has been removed

Bookmarks list

You can't add any more bookmarks

By registering as a member, you can increase the number of bookmarks you can save and organize them with labels.

Free membership registration
High Brightness Light Emitting Diode Device Simulator

High Brightness Light Emitting Diode Device Simulator

3D modeling tool for high-brightness light-emitting diodes (SLED)

Explanation of a theoretical model based on Green's function theory. Analysis using test devices. (Profile of lateral mode, gain, band diagram, carrier distribution under different injections, spatial hole burning, I-V characteristics, L-I curve, 3D effects on amplifier spontaneous emission.)

  • simulator

Added to bookmarks

Bookmarks list

Bookmark has been removed

Bookmarks list

You can't add any more bookmarks

By registering as a member, you can increase the number of bookmarks you can save and organize them with labels.

Free membership registration

Search Keywords Related to Simulator

COPYRIGHT © 2001-2025 IPROS CORPORATION ALL RIGHTS RESERVED.