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Design optimization support tools - List of Manufacturers, Suppliers, Companies and Products

Design optimization support tools Product List

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Multi-Objective Robust Design Optimization Support Tool 'modeFRONTIER'

Multi-Objective Robust Design Optimization Support Tool 'modeFRONTIER'

Supports optimization of multi-objective functions! Commercial robust optimization tool.

"modeFRONTIER" is a general-purpose design support tool developed by the Italian optimization technology specialist ESTECO s.r.l. It supports multi-objective optimization and has continued to incorporate our methods, algorithms, and result processing functions since its launch in 2001, primarily in collaboration with various universities. In addition to merely outputting optimal solutions, it has newly introduced the CAP function to assist designers in contemplating why a solution is optimal, evolving further as a decision support tool. 【Features】 ■ Equipped with advanced optimization methods, experimental design methods, and response surface approximation methods ■ Supports multi-objective robust design optimization and multi-objective tolerance design optimization ■ Includes a variety of post-processing functions such as statistical analysis, multivariate analysis, and CAP ■ Interface compatible with Japanese (Windows) and English environments ■ Standardly equipped with dedicated nodes for direct access to various tools (such as CATIA V5, ANSYS Workbench, MATLAB, LabVIEW, etc.) *For more details, please download the PDF or feel free to contact us.

  • Company:IDAJ
  • Price:Other
  • Other analyses
  • Contract Analysis

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[Optimization Case] Streamlining Circuit Design

[Optimization Case] Streamlining Circuit Design

What is the method to increase the efficiency of circuit design by 10 times?! Solved with modeFRONTIER!

The adjustment of inverter circuit parameters used in various products greatly affects the performance of the products. Therefore, we propose the multi-purpose robust design optimization support tool "modeFRONTIER." This tool automatically searches for resistance values and voltages that minimize losses and strain rates, enabling the efficiency of circuit design. 【Case Study】 ■ Issue: Efficiency of circuit design ■ Proposed Product: Multi-purpose robust design optimization support tool "modeFRONTIER" ■ Benefits: Automatic search for resistance values and voltages that minimize losses and strain rates *For more details, please refer to the PDF materials or feel free to contact us.

  • Company:IDAJ
  • Price:Other
  • Development support tools (ICE, emulators, debuggers, etc.)
  • simulator
  • Other analyses

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[Case Study] Optimization of Thermal Analysis for Brembo Disc Brakes

[Case Study] Optimization of Thermal Analysis for Brembo Disc Brakes

Introducing a case study that achieved multi-purpose function optimization of disc brakes!

We would like to introduce a case study from Brembo using our "modeFRONTIER" for improving the performance of disc brakes. The goal was to minimize the corning angle caused by heat generation and also to minimize the deformation of the disc brake itself through multi-objective function optimization. For shape modification and mesh generation, we used CATIA V5, Patran, and ICEM, and established an automated calculation execution environment using LSF for parallel computing. In this problem, "modeFRONTIER" successfully explored the Pareto optimal solutions using nine design parameters, and it has been recognized as a very significant tool in design development. 【Case Study】 ■ Software Used: modeFRONTIER, MSC.Nastran, ICEM ■ Challenge: Multi-objective function optimization ■ Result: Automatic exploration of Pareto optimal solutions using nine design parameters *For more details, please refer to the external link or feel free to contact us.

  • Company:IDAJ
  • Price:Other
  • Other analyses
  • simulator

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[Analysis Case] Exploration of Optimal Conditions for CVD Etching Process

[Analysis Case] Exploration of Optimal Conditions for CVD Etching Process

Exploring optimal conditions! Introducing examples of utilizing multi-dimensional display charts!

We will introduce a case study of exploring optimal conditions for the etching process, coupled with the detailed chemical reaction analysis program CHEMKIN. In the problem setup, we varied the raw gas supply amount (SCCM) and oxygen concentration, aiming to find the operating point where the outlet C2F6 concentration and CF4 concentration are minimized, while maximizing the etching rate (minimizing the film formation rate). As a result of the calculations, it became clear that there is a trade-off relationship between C2F6 concentration and etching rate. Subsequently, we successfully extracted preferred solutions from the multidimensional display chart of "modeFRONTIER." [Case Study] - Software Used: modeFRONTIER, CHEMKIN - Objective: Exploration of optimal conditions for the etching process - Effect: Comparison of preferred solutions using multidimensional display charts *For more details, please refer to the external link or feel free to contact us.*

  • Company:IDAJ
  • Price:Other
  • Other analyses
  • simulator

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[Case Study] Streamlining the Evaluation of Pedestrian Protection Performance and Further Technical Advancement

[Case Study] Streamlining the Evaluation of Pedestrian Protection Performance and Further Technical Advancement

Reduced performance prediction for each model from approximately 40 hours to 10 seconds! Performance evaluation possible without using CAE.

We would like to introduce a case where Honda R&D used our AI consulting services to streamline pedestrian protection performance evaluation and further deepen their technology. The company attempted to explore solutions from both pedestrian protection and rigidity perspectives, but felt there were limitations to this approach. Therefore, they tried a technique that involved machine learning to reproduce various conditions. As a result of the implementation, the performance prediction time, which previously took about 40 hours per model, was reduced to approximately 10 seconds. 【Case Study】 ■ Software Used: modeFRONTIER ■ Objective: To explore solutions from both pedestrian protection and rigidity perspectives ■ Challenge: There may or may not be common design variables in optimization calculations ■ Method: Constructing an agent that can evaluate performance without using CAE ■ Result: Reduced performance prediction time from about 40 hours per model to approximately 10 seconds *For more details, please refer to the PDF document or feel free to contact us.

  • Company:IDAJ
  • Price:Other
  • Other analyses
  • simulator

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[Case Study] Optimization of Common Rail Injection System

[Case Study] Optimization of Common Rail Injection System

Introducing examples of optimization for fuel injection systems!

We would like to introduce a case study of optimizing an injection system through the coupling of our "modeFRONTIER" and "AVL-Hydsim." We are optimizing parameters such as Nozzle Opening Pressure (NOP), average pressure at SAC, pressure fluctuation amplitude, and spray quantity. "modeFRONTIER" is a highly effective tool not only for engine-related applications but also for fuel injection systems like this. [Case Study] ■ Software Used: modeFRONTIER, AVL-Hydsim *For more details, please refer to the external link or feel free to contact us.

  • Company:IDAJ
  • Price:Other
  • Other analyses
  • simulator

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[Case Study] Robust Optimization of ABS Control Parameters

[Case Study] Robust Optimization of ABS Control Parameters

We will introduce a case that achieved the minimization of braking distance and lateral sway!

We will introduce a case study of optimizing ABS control parameters using the automotive vehicle motion simulation tool "CarSim." The ground contact conditions are a very important factor, and the friction coefficient (μ) between the tires and the road surface has many uncertainties due to road conditions. Therefore, it is desirable to select parameters that are as robust as possible against the μ value in response to the requirement for shortening the braking distance. Additionally, ensuring straight-line stability during sudden braking on uneven μ roads is also important, which necessitates optimization that considers the need to minimize both braking distance and lateral deviation. By using the multi-objective robust optimization function of "modeFRONTIER," we were able to explore ABS control parameters that excel in straight-line stability and braking performance. 【Case Study】 ■ Software Used: modeFRONTIER, CarSim, MATLAB/Simulink ■ Challenge: Minimize both braking distance and lateral deviation ■ Result: Successfully explored ABS control parameters with excellent straight-line stability and braking performance *For more details, please refer to the external link or feel free to contact us.

  • Company:IDAJ
  • Price:Other
  • Other analyses
  • simulator

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[Case Study] Optimization of IPM Motor Shape

[Case Study] Optimization of IPM Motor Shape

You can choose a design that satisfies the designer's preferences from among the Pareto optimal solutions!

Our "modeFRONTIER" demonstrates great power in the development of high-performance motors with new shapes. Not only can material properties be treated as variables, but shape dimensions can also be treated as variables, allowing for the selection of designs that satisfy the designer's preferences from the Pareto optimal solutions through multi-objective optimization. Our strength lies in our ability to provide optimization tools while possessing expertise in mesh control. [Case Study] ■ Software Used: modeFRONTIER, J-MAG Studio ■ Objective: Development of high-performance motors with new shapes ■ Effects - Treating material properties and shape dimensions as variables - Executing multi-objective optimization - Selecting designs that satisfy the designer's preferences from the Pareto optimal solutions *For more details, please refer to the external link or feel free to contact us.

  • Company:IDAJ
  • Price:Other
  • Other analyses
  • simulator

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[Case Study] Optimization of Defroster Shape

[Case Study] Optimization of Defroster Shape

Introducing a case of optimizing the shape of the defroster nozzle!

We will introduce a case study where our "modeFRONTIER" was applied to optimize the shape of the defroster nozzle. The air conditioning in a vehicle's cabin plays a role in ensuring passenger comfort and visibility, and fluid analysis can predict the temperature distribution caused by airflow and hot/cold air. Regarding visibility, the goal is to eliminate fogging on the front and side windshields, for which the design of the defroster nozzle is crucial. By investigating and predicting the temperature distribution of the airflow ejected from the defroster nozzle along the windshield surface, we can optimize the shape of the defroster while considering the fog removal pattern. [Case Study] - Software Used: modeFRONTIER, ANSYS CFX - Objective: Ensuring passenger comfort and visibility through vehicle cabin air conditioning - Challenge: Optimization of the defroster nozzle shape - Result: Achieved shape optimization considering the fog removal pattern *For more details, please refer to the external link or feel free to contact us.

  • Company:IDAJ
  • Price:Other
  • Other analyses
  • simulator

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