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

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

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[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.)
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[Case Study] Application of Optimization Technology to Race Cars

Optimize race car suspension components! Meeting multiple design requirements!

This document introduces a case study on applying modeFRONTIER to MSC.ADAMS for various optimizations related to race car suspension. In the suspension system, which is governed by various factors such as load on the front and rear wheels, moments during cornering, and stress during acceleration, it is necessary to simultaneously satisfy multiple design requirements. The various optimization algorithms, response surface methods, and statistical processing functions offered by modeFRONTIER are recognized as effective even in the highly demanding world of racing. 【Case Study】 ■ Software Used: modeFRONTIER, MSC.ADAMS ■ Challenge: Simultaneously satisfy multiple design requirements ■ Effect: Various optimization algorithms, response surface methods, and statistical processing functions are effective *For more details, please refer to the external link or feel free to contact us.

Company：IDAJ
Price：Other

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[Case Study] Optimization of Hydrocarbon Reforming Reaction Process

Introducing an optimization case that performed comprehensive result evaluation with rich post-processing features!

We will introduce a case where our "modeFRONTIER" was applied to optimize the hydrocarbon reforming reaction process. By coupling with the detailed chemical reaction analysis program CHEMKIN, we varied the pressure P, preheating temperature Tin, amount of oxygen, and amount of water vapor to explore the operating point where the H2 concentration is maximized and the CH4 and CO concentrations are minimized. This problem is highly nonlinear, and as a result of multi-objective optimization, it was found that the set of optimal solutions becomes discrete between CO and CH4. Even in such cases, by utilizing the rich post-processing capabilities of modeFRONTIER, comprehensive result evaluation becomes possible. 【Case Study】 ■ Software Used: modeFRONTIER, CHEMKIN ■ Objective: To explore the operating point where the H2 concentration is maximized and the CH4 and CO concentrations are minimized ■ Result: It was found that the set of optimal solutions becomes discrete between CO and CH4 ■ Effect: Comprehensive result evaluation is possible by using the rich post-processing capabilities *For more details, please refer to the external link or feel free to contact us.

Company：IDAJ
Price：Other

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[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

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[Case Study] Front Beam Shape Optimization by FIAT

Introduction of a case where automatic exploration of the optimal shape for the chassis part of a vehicle was achieved!

We would like to introduce a case study from FIAT that applies our "modeFRONTIER" to the shape optimization of the chassis part of vehicles. By using material properties and dimensions as design variables, we are exploring designs that maintain energy absorption rates during collisions while being lightweight. However, applying collision phenomenon simulations to automated exploration calculations was highly burdensome. Therefore, we first simulated 90 designs using the Latin hypercube method with simulation tools, generated a response surface based on the results obtained, and applied that approximation function as a virtual solver to automatically search for the optimal solution. 【Case Study】 ■ Software Used: modeFRONTIER, MSC.Nastran, Raddioss ■ Objective: To explore lightweight designs that maintain energy absorption rates during collisions ■ Challenge: The burden of applying collision phenomenon simulations to automated exploration calculations is high ■ Methodology - Simulated 90 designs using the Latin hypercube method with simulation tools - Generated a response surface - Applied the approximation function as a virtual solver ■ Result: Achieved automatic exploration of the optimal solution *For more details, please refer to the external link or feel free to contact us.

Company：IDAJ
Price：Other

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[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

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[Case Study] Optimization of Refrigerator Shape by Electrolux

Introducing a case study that utilizes multidimensional display chart features for optimizing refrigerator shapes!

We would like to introduce a case study from Electrolux that applies our "modeFRONTIER" to the optimization of refrigerator shapes. When designing the performance of a refrigerator, factors such as the thickness of the insulation, the shape, position, and size of the evaporator are considered. Additionally, it is necessary to optimize the temperature distribution and flow velocity distribution inside the refrigerator while minimizing power consumption as much as possible. By using our "STAR-CD" and "modeFRONTIER," it is possible to narrow down suitable shape candidates in light of these trade-off relationships. When there are three or more objective functions, the multidimensional display chart of "modeFRONTIER" proves effective. [Case Study] - Software Used: modeFRONTIER - Objective: Narrow down candidates for optimal shapes - Effect: Compare preferred solutions using a multidimensional display chart *For more details, please refer to the external link or feel free to contact us.

Company：IDAJ
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Design optimization support tools - List of Manufacturers, Suppliers, Companies and Products | IPROS GMS

Design optimization support tools Product List

Multi-Objective Robust Design Optimization Support Tool 'modeFRONTIER'

[Optimization Case] Streamlining Circuit Design

[Case Study] Application of Optimization Technology to Race Cars

[Case Study] Optimization of Hydrocarbon Reforming Reaction Process

[Case Study] Robust Optimization of ABS Control Parameters

[Case Study] Front Beam Shape Optimization by FIAT

[Case Study] Optimization of IPM Motor Shape

[Case Study] Optimization of Refrigerator Shape by Electrolux

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