Optimization Software Product List and Ranking from 44 Manufacturers, Suppliers and Companies

Last Updated：Nov 12, 2025 Aggregation Period:Oct 15, 2025～Nov 11, 2025
This ranking is based on the number of page views on our site.

Optimization Software Manufacturer, Suppliers and Company Rankings

Last Updated：Nov 12, 2025 Aggregation Period:Oct 15, 2025～Nov 11, 2025
This ranking is based on the number of page views on our site.

くいんと Tokyo//software
FsTech Kanagawa//software
テクノロジック Tokyo//CAD/CAM
4 ブロードリーフ Tokyo//software
5 ネオ Kanagawa//Industrial Machinery

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Optimization Software Product ranking

Last Updated：Nov 12, 2025 Aggregation Period:Oct 15, 2025～Nov 11, 2025
This ranking is based on the number of page views on our site.

3D relief sculpture software テクノロジック
Experimental Design & Optimization Software 'MODDE' インフォコムサイエンスグループ
Profile Grinding Machine Chart Plotter - NTP-5 ネオ
General-purpose optimization software 'fxLooper' Anotherworker
4 Structural optimization software "HiramekiWorks" 構造計画研究所

Optimization Software Product List

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Structural optimization software "HiramekiWorks"

Equipped with two types of non-parametric structural optimization techniques! Responding to practical needs in the design field!

"HiramekiWorks" is a structural optimization software for SOLIDWORKS add-ins. It allows for the creation of design shapes that enable product lightweighting and cost reduction while meeting design standards. In addition to topology optimization for conceptual design, it also includes shape optimization for detailed design, addressing practical design needs such as lightweighting and stress reduction. 【Features】 ■ Automatic regeneration of solid models after optimization calculations ■ Resulting models can be used directly as analysis data ■ Optimization calculations can be executed under the analysis conditions of SOLIDWORKS Simulation ■ Includes shape optimization for detailed design ■ Addresses practical design needs such as lightweighting and stress reduction *For more details, please refer to the PDF materials or feel free to contact us.

Company：構造計画研究所
Price：Other

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SOLIDWORKS Add-in Structural Optimization Software

Achieve increased product strength and weight reduction! Equipped with two types of optimization technologies.

Our company handles the SOLIDWORKS add-in structural optimization software 'HiramekiWorks'. This product allows for structural optimization calculations to be performed on CAD models created in SOLIDWORKS. After the optimization is complete, it automatically generates a solid model from the optimization results and outputs it in SOLIDWORKS. It is equipped with two types of optimization techniques for shape optimization, allowing users to gain ideas for improving shapes in various design scenarios while leveraging the unique features of each technique. 【Features】 ■ Performs structural optimization calculations on CAD models created in SOLIDWORKS ■ Automatically creates solid models after optimization execution ■ Seamlessly edits design data and executes analysis after optimization ■ Equipped with two types of optimization techniques: topology optimization and shape optimization ■ Enables improvements in product strength and weight reduction *For more details, please refer to the PDF materials or feel free to contact us.

Company：構造計画研究所
Price：Other

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[Case Study] Optimization of a daylighting device that delivers sunlight deep into the room.

It is suitable for confirming whether the shape examined from a human perspective is appropriate or not!

We would like to introduce a case where Taisei Corporation utilized 'modeFRONTIER' for optimizing a daylighting device that delivers sunlight deep into the room. By guiding daylight to the ceiling surface of the room while technically cutting the light that enters the human eye, we analyzed the shape of the daylighting device using the lighting optical evaluation software "Lighting Simulator CAD," ultimately arriving at a shape for which a patent is currently being applied. After completing these tasks, questions remained regarding whether the shape considered by humans is suitable, and whether we would need to repeat the trial and error of drafting and analysis for new shape considerations in the future. By utilizing 'modeFRONTIER' and "Lighting Simulator," we were able to confirm the validity of the human-drafted shape with both tools producing similar shapes. [Features of modeFRONTIER] ■ A new optimization tool that supports "thinking" ■ Richly equipped with unique methods and functions to meet the needs of design and development sites ■ Construction of a distributed execution environment using multiple machines without relying on general NQS *For more details, please refer to the PDF document or feel free to contact us.

Company：IDAJ
Price：Other

Other analyses
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Educational Phase Optimization Software "OPTISHAPE-ES"

A perfect introductory software for phase optimization for those who are just starting optimization or for students!

OPTISHAPE-ES is a topology optimization program designed for beginners in optimization. Additionally, it offers simple operations to suggest layouts as one of the design ideas for your project. With its integrated pre-post capabilities, both condition setup and analysis execution can be operated very easily. The topology optimization technology of the structural optimization software OPTISHAPE-TS has been improved for beginners, and by selecting essential functions, it is available for free download from the product site. *Element limit: 7,000. *For more details, please refer to the related links or feel free to contact us.

Company：くいんと
Price：Other

Structural Analysis

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General-purpose parameter optimization software "AMDESS"

Improve work efficiency with a dedicated GUI! Efficiently analyze multiple challenges such as performance, cost, and safety.

"AMDESS" is a general-purpose parameter optimization software aimed at achieving optimization easily and in a short time. It can be executed easily using an Excel-based interface, automating the input and output to streamline design improvements and decision-making. By using approximate models for the relationships among multiple parameter responses, it derives suitable values that meet requirements for various problems, providing hints to designers. 【Features】 ■ Sequential update response surface method ■ Dedicated GUI/interface for improved work efficiency ■ Compatible with various pre-post and solvers ■ Recommended for nonlinear problems *For more details, please refer to the related links or feel free to contact us.

Company：くいんと
Price：Other

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[Example] Shape optimization to match the natural frequency with experimental measurement results.

Efficiently considering multiple constraints, control the eigenvalues of automotive brake components!

We present an analysis example applying the non-parametric shape optimization function of "OPTISHAPE-TS," which employs an algorithm based on the smoothing gradient method (force method) to match multiple natural frequencies in automotive brake components. The optimization conditions were set to target the natural vibration modes from the 7th to the 21st, aiming to match their natural frequencies to the target values (considering MAC values) while keeping the volume unchanged. As a result, a final shape was obtained where each eigenvalue and volume matched their respective constraint values with an accuracy within 0.01%. In this case, the control of eigenvalues was performed using specified initial shape ratios, but analyses can also be conducted using absolute values or combinations of other controls such as nodal positions of natural vibration modes and frequency responses. This can be utilized for controlling eigenvalues and avoiding resonance. For more details, please refer to the PDF materials or feel free to contact us.

Company：くいんと
Price：Other

Structural Analysis
Contract Analysis
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[Case Study] Shape optimization of an arm considering layout constraints due to component interference.

Shape optimization is suitable for improvements from existing shapes! A case that achieved approximately 40% weight reduction.

We will introduce a case of arm optimization considering interference conditions. To obtain a shape that does not interfere with the designated area, we create a mesh of the designable region. By specifying this model as the "deviation designated area," we optimize the shape to ensure it does not extend beyond this region (does not deviate). As a result, we achieved a lightweight shape that meets various constraints without deviating from the specified area. Shape optimization is suitable for improving existing shapes, and by adding multiple constraints such as stress constraints and manufacturing requirements, it is possible to conduct more detailed examinations. *For more details, please refer to the PDF document or feel free to contact us.*

Company：くいんと
Price：Other

Structural Analysis

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Example: Press Processing - Optimization of Press Processing Conditions

Optimize the press processing conditions to improve wrinkle height and strain.

Press processing is a method used in the manufacturing of various industrial products, including automobiles. Since this press processing is often used for mass-produced products, it is desirable to thoroughly examine the processing conditions in advance using CAE. In this case, we optimized the processing conditions by linking the general parameter optimization software "AMDESS" with the explicit dynamic analysis software "Abaqus/Explicit Student Edition" (from SIMULIA, USA). We added recommended points based on the density of the data points we had previously investigated! We devised a way to avoid falling into local solutions. As a result, we achieved a maximum equivalent plastic strain reduction of 9% while satisfying all constraints. [Analysis Model] ■Blank - Number of nodes: 505 - Number of elements: 400 - Young's modulus: 2.1×10^11 [Pa] - Poisson's ratio: 0.3 *For more details, please refer to the PDF document or feel free to contact us.

Company：くいんと
Price：Other

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Example: Material Data Correlation - Identification of Heat Transfer Coefficient

We identify parameters that change with environmental and analytical conditions. Not only the heat transfer coefficient but also the stress-strain curve in elastoplastic analysis can be identified!

The heat transfer coefficient depends on the surrounding environment and is not unique to the material, making it difficult to determine its value. If a heat transfer coefficient that can reproduce the measurement results can be identified, it is expected that good simulation results can be obtained for another model under similar conditions. In this case, the general-purpose parameter optimization software "AMDESS" was linked with "Nastran" to identify the heat transfer coefficient. As a result, the temperature at the evaluation points matched the target value within an error of 0.3%, and the heat transfer coefficients for each surface were obtained. 【Optimization Conditions】 ■ Design Variables - Heat transfer coefficients for each surface (h1 to h6) - Range: 10.0 to 70.0 [W/m2k] ■ Objective Function: Minimize the square of the error from the target temperature at each evaluation point = Bring the calculated temperature closer to the specified target temperature *For more details, please refer to the PDF document or feel free to contact us.

Company：くいんと
Price：Other

Other analyses
Contract Analysis
simulator

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[Example] Topology optimization considering manufacturing requirements

Initial design proposals and significant contributions to cost reduction! Introducing the topology density variation limitation feature such as 'cross-section'!

Topology optimization is a method for determining the necessity or redundancy of materials (member layout) that contributes to lightweight and high-rigidity product design, such as seeking structures that maximize rigidity under a certain weight limit. While it allows for significant structural changes compared to the initial structure, it can also result in outcomes that are difficult to manufacture or lead to complex structures with high manufacturing costs. To avoid such situations, the topology optimization in 'OPTISHAPE-TS' utilizes a topology density variation limitation feature, enabling optimization while satisfying manufacturing requirements. [Contents] ■ Overview ■ Topology Density Variation Limitation Feature ■ Discussion *Detailed case information can be viewed through the related links. For more information, please feel free to contact us.

Company：くいんと
Price：Other

Structural Analysis
Stress Analysis
Contract Analysis

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CAE Contract Analysis ★ Experienced technical staff support various problem-solving.

Leveraging years of experience in the manufacturing industry, we handle everything from data creation to analysis and report preparation according to your challenges and objectives. ★Case studies on problem-solving available★

If you are working on structural optimization, such as lightweight design, strength improvement, and vibration issues, and are facing challenges with your approach, or if you are exploring image processing, modeling, and analysis from 3D printer shapes or CT scan data, our experienced technical staff will take care of everything from model and data creation to analysis and report preparation (of course, we can also handle just part of the process). If you have any concerns, please feel free to contact us. It is perfectly fine if your issues are vague and specific details have not been determined yet. We will discuss the details and propose methods that align with your needs. ◎ Main Achievements - Various lightweight designs - Strength improvement - Reverse design - Avoidance of resonance - Numerical fitting - Warpage suppression and weld control - Noise and vibration reduction - CAD model generation for optimized shapes - Reinforcement design - Reduction of mesh creation man-hours - Optimization of plastic molding conditions - Simulation model creation - Editing STL data for 3D printer shapes And many more. ★ A collection of case studies on various problem-solving is currently available ★ Please take a look at the PDF download.

Company：くいんと
Price：Other

Analysis Services
Structural Analysis
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Simulation process automation and design optimization software Isight

Automatic execution, exploration of design space, and search for optimal solutions that satisfy constraints will be performed.

Dassault Systèmes/SIMULIA's "Isight" is a software robot that automates the analysis process for optimal design. It builds simulation process flows in collaboration with various CEA applications (Abaqus), CAD, in-house codes, Excel, and more, automatically executing explorations to identify optimal design proposals. This enables improved efficiency and reduces human errors, allowing for the consideration of more design proposals. 【Components】 ■Design Gateway - Creates simulation process flows ■Runtime Gateway - Executes, evaluates, and processes the created simulation workflows ■Process Component - Explores better solutions For more details, please contact us or download the catalog.

Company：CAEソリューションズ
Price：Other

Other embedded systems (software and hardware)

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Base Configuration Tool SFLO

SFLO is a tool used for supply chain design and analysis by leveraging optimization methods, as well as for facility location analysis.

SFLO (Smart Facility Location Optimizer) is a decision support system for facility placement that utilizes optimization methods. It calculates the optimal locations for factories and distribution centers, as well as their production and processing capacities, for companies that manufacture products and manage logistics both domestically and globally, and determines the optimal allocation between distribution centers and customers. SFLO is also used as a strategic logistics network design tool, helping to design supply chains that minimize total logistics costs while adhering to various constraints and creating new project proposals. SFLO has already been utilized in many cases, achieving significant cost reductions (10-15%).

Company：サイテック・ジャパン
Price：Other

Other production management systems

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iMachining

Automatically calculates tool rotation speed, feed speed, step-over adjustment, and cutting depth!

"iMachining" is an optimized tool path that enhances the profitability and competitiveness of operating NC machine tools more than ever before. It features an astonishing effect that can reduce machining time by up to 90%, with the ability to select shapes and automatically protect machining shape models. Additionally, it can eliminate all air cuts through small step-up leftover machining and a stock model that is automatically updated, along with a mode that processes only the leftover material. 【Features】 ■ Shape selection and automatic protection of machining shape models ■ Optimized machining for each Z step using proven "iMachining 2D" technology ■ Deep rough machining across the entire tool length, achieving reduced cycle times and improved tool life ■ Leftover machining with small step-ups ■ Further reduction of cycle times with optimized constant scallop *For more details, please refer to the PDF document or feel free to contact us.

Company：ソリッドキャムジャパン
Price：Other

Other CAM related software

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