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Structural analysis software Product List and Ranking from 26 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.

Structural analysis 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. null/null
  2. 先端力学シミュレーション研究所 Tokyo//IT/Telecommunications
  3. エヌ・エス・ティ Tokyo//software
  4. 4 センチュリテクノ Tokyo//software
  5. 5 SCSK デジタルエンジニアリング事業本部 Tokyo//software
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Structural analysis 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. Large-scale structural analysis software ADVENTURECluster SCSK デジタルエンジニアリング事業本部
  2. [CAE Solution Case] Visualization of Vacuum/Pressure Forming 先端力学シミュレーション研究所
  3. Molecular structure analysis software for ceramics, etc. - CASTEP -
  4. Introduction to a top-class finite element solver. エヌ・エス・ティ
  5. 4 Organic/Inorganic Molecular Structure Analysis Software - DMol3

Structural analysis software Product List

61~90 item / All 108 items

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[Column] The Theory of OPTISHAPE-TS: Checkerboard Phenomenon

[Column] The Theory of OPTISHAPE-TS: Checkerboard Phenomenon

I will explain the difficulties of non-parametric optimization from another perspective!

In the previous sections, we explained that in non-parametric optimization, the number of design variables to be determined is large, meaning that the dimensionality of the space to be explored is high, which is why optimization algorithms using sensitivity are employed. In this article, we will further explain the difficulties of non-parametric optimization from another perspective. Please feel free to download and take a look. [Contents] ■ Episode 4: The Difficulty of Non-Parametric Optimization Part 3 "Checkerboard Phenomenon" *For more details, please refer to the PDF document or feel free to contact us.

  • Structural Analysis
  • Structural analysis software

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[Technical Column] The Theory of OPTISHAPE-TS: "Optimization of Functions"

[Technical Column] The Theory of OPTISHAPE-TS: "Optimization of Functions"

What does "optimizing a function" mean? An explanation from the perspective of the difficulties it presents.

In the previous article, I briefly explained non-parametric optimization. In that context, I mentioned that non-parametric optimization is a method for optimizing functions. In this article, I will explain what "optimizing a function" means, in order to deepen your understanding of the challenges it presents. Please feel free to download and take a look. [Contents] ■ Episode 2: The Challenges of Non-Parametric Optimization Part 1 "Optimization of Functions" *For more details, please refer to the PDF document or feel free to contact us.

  • Structural Analysis
  • Structural analysis software

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[Technical Column] The Theory of OPTISHAPE-TS: "Shape Optimization"

[Technical Column] The Theory of OPTISHAPE-TS: "Shape Optimization"

An explanation of what the H-gradient method specifically entails! Introduction to a technical column.

In the previous four articles, we discussed the challenges of non-parametric optimization and the positioning of the H1 gradient method as a solution. From here, we will explain specifically what the H1 gradient method entails. Please feel free to download and take a look. [Contents] ■ Episode 6: The Emergence of the H1 Gradient Method and Its Background Part 1 "Shape Optimization" *For more details, please refer to the PDF document or feel free to contact us.

  • Structural Analysis
  • Structural analysis software

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Theory of OPTISHAPE-TS Compliance Sensitivity Part 3

Theory of OPTISHAPE-TS Compliance Sensitivity Part 3

Sensitivity of compliance for a one-dimensional cantilever beam! Explanation of the derivation concept.

In the previous article, we introduced the Lagrange multiplier method as a condition that solutions must satisfy in optimization problems with equality constraints. This time, we will apply that concept to derive the sensitivity of compliance. Please feel free to download and take a look. [Contents] ■ Episode 25: Sensitivity of Compliance Part 3 "Lagrange Multiplier Method" *For more details, please refer to the PDF document or feel free to contact us.

  • Structural Analysis
  • Structural analysis software

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Theory of OPTISHAPE-TS Compliance Sensitivity Part 4

Theory of OPTISHAPE-TS Compliance Sensitivity Part 4

Introduction to a technical column on problems involving design variables represented by functions!

In the previous articles, we explained the compliance and its sensitivity when introducing two-dimensional design variables for a one-dimensional cantilever beam. This time, we will finally replace the design variables from a finite-dimensional vector to an infinite-dimensional function and construct the problem. Please feel free to download and take a look. [Contents] ■ Episode 26 Sensitivity of Compliance Part 4 "Problems with Design Variables Represented by Functions" *For more details, please refer to the PDF materials or feel free to contact us.

  • Structural Analysis
  • Structural analysis software

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Introduction to a top-class finite element solver.

Introduction to a top-class finite element solver.

A solution that incorporates high reliability, proven results, and the latest analytical technologies abundantly.

NASTRAN is an analysis program born from a space program where failure is not an option, and for over 40 years, it has maintained high reliability and a proven track record in meeting the stringent demands of various fields such as aerospace/defense, construction, automotive, shipbuilding, machinery, and electrical/electronics. Simcenter Nastran inherits this high reliability and proven track record while incorporating the latest analysis technologies, making it a solution suitable for the 21st century. 【Features】 - Supports large-scale problems and advanced nonlinear analysis - Flexible selection of the number of implementations based on analysis content - Operates on multiple operating systems such as Windows, UNIX, and Linux - Supports 64-bit modules, memory-shared parallel processing, and parallel processing on cluster machines 【Available Analyses】 - Linear static analysis: SOL101 - Eigenvalue analysis: SOL103 - Buckling analysis: SOL105 - Steady-state heat conduction analysis: SOL153 - Transient heat conduction analysis: SOL159 - Linear transient analysis: SOL109/112 - Frequency response analysis: SOL108/111 - Response spectrum analysis: SOL109/112, etc. *There are also various other modules available, so please contact us for more detailed information.

  • Other analyses
  • Structural analysis software

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[Example] Efficiency improvement of repetitive calculations using the super element function.

[Example] Efficiency improvement of repetitive calculations using the super element function.

Reduce the computational load of large-scale models!! It can also be utilized for information security!!

**Case Overview** ■Product Name: Simcenter Femap with Nastran ■Industry: Mechanical Components The super-element feature of Simcenter Nastran reduces computational load by dividing large models for analysis or by simplifying parts of the model (external super-elements), thus making the analysis model smaller and shortening computation time when changes are made to other parts. In this case, we validated the analysis accuracy and evaluated the reduction in computation time by simplifying the unchanged boss section as an external super-element and analyzing it in conjunction with the mesh model of the blade section during the eigenvalue design of the fan blades. This method saves computation time, especially in design phases where performance evaluations and repeated calculations at the component level are common, and the more unchanged parts there are, the more significant the benefits. Additionally, by converting in-house component models into super-elements and providing them to other companies, the shapes can be treated as black boxes, thus enhancing information security. □ For other features and details, please refer to the catalog.

  • Other machine elements
  • Structural analysis software

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[RecurDyn Case Study] Hitachi Construction Machinery Co., Ltd.

[RecurDyn Case Study] Hitachi Construction Machinery Co., Ltd.

A case where it was found that high load and high stress occurred in drilling operations that were not anticipated by using actual data.

We would like to introduce a case where our "RecurDyn" was implemented at Hitachi Construction Machinery Co., Ltd., which is engaged in the manufacturing and sales of construction machinery. The introduction of our product was prompted by the idea that if we could effectively use data obtained from sensors at the site of ultra-large excavators, we could evaluate the structures even without being present. After the implementation, we are utilizing our product to conduct coupled analysis of mechanisms and structural analysis for strength evaluation of the boom and arm of front structures known as loader type and backhoe type. 【Case Overview】 ■ Reason for Implementation: We believed that if we could completely reproduce the loads, postures, and movements obtained from sensors at the site in a simulation model, we could understand the stresses on the structures. ■ Results - The analysis accuracy has reached nearly 90%. - Due to the fast computation time, we are able to grasp loads in various postures. *For more details, please download the PDF or feel free to contact us.

  • Mechanism Analysis
  • Software (middle, driver, security, etc.)
  • Structural analysis software

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[RecurDyn Implementation Case] Seiko Instruments Inc.

[RecurDyn Implementation Case] Seiko Instruments Inc.

Introducing an example of the development of a chronograph utilizing the trident return-to-zero structure!

We would like to introduce a case where our "RecurDyn" was implemented at Seiko Instruments Inc. The company's watch division had confidence that the product could be used for production equipment development following structural analysis, but there was a period of stagnation due to the difficulty in setting parameters to reproduce minute behaviors. Subsequently, it was utilized in the development of chronograph mechanisms. By using this product, various trajectories and shape patterns could be verified in advance. [Case Overview] ■ Reason for Implementation: There was confidence that it could be used for production equipment development following structural analysis. ■ Results: In the development of chronograph mechanisms, various trajectories and shape patterns could be verified in advance. *For more details, please download the PDF or feel free to contact us.

  • Mechanism Analysis
  • Software (middle, driver, security, etc.)
  • Structural analysis software

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[Structural Analysis Example] Forging Analysis

[Structural Analysis Example] Forging Analysis

The "MPP version of LS-DYNA" offers a remeshing feature that takes into account the density of the mesh!

In calculations involving large deformations, such as forging analysis, remeshing during the computation process is effective. In the standard remeshing function of LS-DYNA, the parts subject to remeshing are uniformly remeshed regardless of areas with large or small deformations, which can lead to a significant increase in the number of elements and potentially longer computation times. On the other hand, the "MPP version of LS-DYNA" offers a remeshing function that takes into account the density of the mesh. This allows for efficient progress in calculations involving large deformations. 【Features of MPP version LS-DYNA】 ■ Remeshing function that considers the density of the mesh is available ■ Efficiently advance calculations involving large deformations *For more details, please refer to the related links or feel free to contact us.

  • Structural Analysis
  • Structural analysis software

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Structural analysis software for designers, Altair Inspire.

Structural analysis software for designers, Altair Inspire.

Generative Design / Topology Optimization / Rapid Simulation

Altair Inspire is a structural and mechanical analysis software developed by Altair, a pioneer in topology optimization, for designers. It allows design engineers, product designers, and architects to easily and efficiently create and validate designs with excellent structural characteristics. Inspire utilizes the design concept generation and analysis technologies of Altair OptiStruct, which leads the industry, as well as motion analysis technology based on MotionSolve. The software is easy to learn and, when combined with existing CAD tools, helps reduce rework in structural design, costs, development time, material usage, and product weight. ■ Key Features of the Product - Generation and analysis of structurally efficient concepts - Support for optimization and analysis of parts and assemblies - Quick and easy cleanup and defeaturing (removal of unnecessary parts) of problem areas within shapes - Understanding of behavior for linear static analysis and modal analysis - User-friendly interface that can be learned in a short time - Analysis of complex mechanisms and verification and application of loads

  • Structural Analysis
  • Mechanism Analysis
  • Stress Analysis
  • Structural analysis software

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Solid Edge Simulation (Analysis Package)

Solid Edge Simulation (Analysis Package)

Embedded in Solid Edge, utilizing simulation technology Simcenter Femap and Nastran for designers.

Solid Edge Simulation is equipped with the industry-standard solver NASTRAN and utilizes Femap technology for pre- and post-processing, allowing for the creation of thin plate meshes and the ability to change mesh sizes on a per-part basis. 【Key Points for Selection】 - The technology of Femap with NX NASTRAN is integrated into the Solid Edge interface, making the analysis features user-friendly even for beginners. - Automatic mesh generation - Flexible mesh size adjustments in manual mode - User-friendly UI and analysis features focused on design - Types of analysis: ○ Linear static analysis ○ Linear buckling analysis ○ Eigenvalue analysis ○ Heat conduction analysis (steady/transient) ○ Optimization ○ MOTION analysis ○ Vibration response analysis Additionally, coupled analyses such as: ○ Linear static analysis + steady heat conduction ○ Linear buckling analysis + steady heat conduction are possible. - Scalable integration with the higher-level Femap is available. The Solid Edge Premium package primarily supports linear static analysis and MOTION analysis. For more details, please download the catalog or contact us.

  • Company:TAC
  • Price:Other
  • 3D CAD
  • Structural analysis software

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3DEXPERIENCE SIMULIA <buckling, special elements, etc.>

3DEXPERIENCE SIMULIA <buckling, special elements, etc.>

We also ensure consistency with the user interface used by design engineers!

"3DEXPERIENCE SIMULIA" is an enhanced version of "Generative Part Structural Analysis" equipped with multiple analyses for static, frequency, and buckling analysis. It is a product tailored to the needs of analysis specialists, while also ensuring consistency with the user interface used by design engineers. With "SIMULIA," designers can perform advanced analyses themselves, allowing for repeated cycles of design, analysis, and redesign to improve quality. 【Features】 ■ Equipped with multiple analyses for static, frequency, and buckling analysis ■ Ensures consistency with the user interface used by design engineers ■ Improves product performance and reduces physical prototypes ■ Allows designers to perform advanced analyses themselves ■ Enables repeated cycles of design, analysis, and redesign to enhance quality *For more details, please refer to the PDF document or feel free to contact us.

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  • Other analyses
  • Structural Analysis
  • Other operation management software
  • Structural analysis software

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3DEXPERIENCE SIMULIA <Nonlinear Analysis>

3DEXPERIENCE SIMULIA <Nonlinear Analysis>

Provides advanced contact features! Models the nonlinear elasticity of material plasticity and superelastic materials.

"3DEXPERIENCE SIMULIA" extends the capabilities of "CATIA V5 Analysis," enabling more advanced simulations that include nonlinear effects. It primarily models the plasticity of materials such as metals and the nonlinear elasticity of hyperelastic materials like rubber. In "Nonlinear Structural Analysis," it also offers more advanced contact features, such as the automatic creation of contact surfaces based on the proximity of geometries. 【Features】 ■ Enables more advanced simulations that include nonlinear effects (such as large displacements and material nonlinearities) ■ Primarily models the plasticity of materials such as metals and the nonlinear elasticity of hyperelastic materials like rubber ■ Provides more advanced contact features, including the automatic creation of contact surfaces based on the proximity of geometries *For more details, please refer to the PDF document or feel free to contact us.

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  • Other analyses
  • Structural Analysis
  • Other operation management software
  • Structural analysis software

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General-purpose structural analysis software "ASU/ISTR" for structure, heat transfer, and vibration.

General-purpose structural analysis software "ASU/ISTR" for structure, heat transfer, and vibration.

A dedicated pre/post-processor that supports the practical use of the free solver FrontISTR, capable of large-scale analysis of various engineering problems such as structural, heat transfer, and vibration analysis.

ASU/ISTR has packaged the free general-purpose structural analysis software FrontISTR, developed by FrontISTR Commons (Representative Director: Professor Hiroshi Okuda, The University of Tokyo), into a Windows version with pre- and post-processing capabilities for easy use by anyone. - Covers the main features of FrontISTR - Equipped with a robust automatic solid mesh generation function that supports multi-part models, allowing for immediate analysis setup and execution once CAD data is provided. - The open-source solver can be used commercially at no cost, and license fees do not increase even for large-scale problems. - A basic material database is provided, supporting isotropic and orthotropic materials. - We also offer customization development of pre- and post-processing to fit your unique workflow. - Utilizes our GUI platform ASU/GROOVE, which has over 140 successful implementations. - Our company has members who are part of the FrontISTR solver development team, capable of addressing advanced technical requests, such as adding unique calculation routines to the solver.

  • Structural Analysis
  • Stress Analysis
  • simulator
  • Structural analysis software

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[ASU/V-Struct Implementation Case] Kawanishi Industrial Co., Ltd.

[ASU/V-Struct Implementation Case] Kawanishi Industrial Co., Ltd.

Technical data presentation in progress! Practical application of simulation technology for improving the automotive headlining molding process.

We would like to introduce a case study of the implementation of the structural analysis software 'ASU/V-Struct' at Kawanishi Industrial Co., Ltd., a global comprehensive manufacturer. At the company, due to the viscoelastic nature of the headlining (ceiling material) molding, it was difficult to make predictions through simulations, resulting in significant time and costs for evaluations using actual parts, which posed challenges to development speed. After the implementation, factors related to moldability were identified, and pre-simulation evaluations became possible, leading to a significant improvement in production stability, with almost no need for rework after molding. Details of the expected effects of CAE and the development overview can be found in the PDF document, so please take a look. [Challenges] ■ Significant time and costs incurred for evaluations using actual parts ■ Increased demand for further improvement in development speed *For more details, please download the PDF or feel free to contact us.

  • Structural Analysis
  • simulator
  • Structural analysis software

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"SimGlycan" Glycan & Glycopeptide Structure Analysis Software

"SimGlycan" Glycan & Glycopeptide Structure Analysis Software

Tools for glycomics using mass spectrometry data of glycan chains and glycopeptides.

It automatically reads MS/MS and MSn data obtained from major manufacturers' mass spectrometers to predict glycan structures. Furthermore, it comprehensively supports glycopeptide analysis using LC-MS/MS data. SimGlycan matches the experimentally obtained MS/MS data with its proprietary database and ultimately generates a ranked list of candidate structures.

  • Separation device
  • Analytical Equipment and Devices
  • Other environmental analysis equipment
  • Structural analysis software

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"SimLipid" lipid structure analysis software

"SimLipid" lipid structure analysis software

Software tool for lipidomics using mass spectrometry data of lipids.

High-throughput identification and quantification of lipid species can be performed from MS data such as LC-, MALDI-, ESI-, precursor ion scans, and neutral loss scans. We support all data types from major mass spectrometry manufacturers, including Triple Quad, qTOF, TOF, QqTOF, ion mobility, and ITMS systems, aiming to provide a complete solution for discovery lipidomics and targeted lipidomics research.

  • Separation device
  • Analytical Equipment and Devices
  • Other environmental analysis equipment
  • Structural analysis software

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CAE: Material property settings in the plastic domain

CAE: Material property settings in the plastic domain

Approximate the plasticity domain with a single straight line! We will use a method called "two-line approximation" to reduce computation time.

Many resins have properties in both the elastic region and the plastic region. In the elastic region, the strain returns to zero when the stress is removed, resulting in linear behavior. However, in the plastic region, the strain does not return to zero when the stress is removed, leading to nonlinear behavior. To perform calculations in the nonlinear region during structural analysis, it is necessary to input material properties. However, inputting properties for the nonlinear region requires entering strain values for each stress point, which is quite cumbersome. Additionally, the computation time becomes longer. To simplify the input of material properties, we use a method called "two-line approximation" to shorten the computation time. This approach replaces the properties of the resin from the yield point to the fracture point with a single straight line (tangent modulus). This method is particularly suitable for quickly checking design values in models with a large number of elements and significant computational scale. *For more details, please refer to the related links or feel free to contact us.*

  • Structural Analysis
  • Structural analysis software

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ISCEF Utilization Case / Gate and Sluice Analysis

ISCEF Utilization Case / Gate and Sluice Analysis

From creating gate models, analysis, plasticity checks, buckling checks, and post-processing! We will introduce examples of the structural analysis software ISCEF suitable for large-scale structures.

We would like to introduce a case study on the use of the structural analysis software 'ISCEF' suitable for civil structures. As an accessory to dams, gates play a significant role in ensuring the safety of downstream areas. Therefore, gates must be designed to withstand major earthquakes without failure, and finite element analysis is an effective method for verifying this. Our company undertakes a series of tasks related to gate analysis, including model creation, analysis, plasticity checks, and buckling checks. [Gate Analysis] ■ Eigenvalue Analysis ■ Static and Dynamic Analysis ■ Plasticity and Buckling Checks *For more details, please refer to the PDF document or feel free to contact us.

  • Contract Analysis
  • Structural Analysis
  • Structural analysis software

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Utilization examples / Gatepost analysis * Model creation (M-Φ Fiber model)

Utilization examples / Gatepost analysis * Model creation (M-Φ Fiber model)

Static and dynamic analysis of important related structures of dams, such as gate pillars and weirs! Structural analysis software 'ISCEF' suitable for civil engineering structures.

We would like to introduce a case study on the use of the structural analysis software 'ISCEF', which is suitable for civil engineering structures. The gatepost is the part that serves as the pillar for the gate and the superstructure. If the gatepost itself is damaged, it will become impossible to open and close the gate, leading to an inability to adjust the water level, which in the worst-case scenario could result in the collapse of the dam. Therefore, improvements in seismic resistance are required for this important related structure of the dam. Our company undertakes tasks such as creating models of gateposts (M-Φ model, fiber model), conducting capacity analysis using the horizontal load-bearing method, and performing dynamic analysis. 【Gatepost Analysis】 ■ Eigenvalue Analysis ■ Static and Dynamic Analysis *For more details, please refer to the PDF document or feel free to contact us.

  • Contract Analysis
  • Structural Analysis
  • Structural analysis software

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Contracted Analysis Services for Structures and Ground

Contracted Analysis Services for Structures and Ground

Many achievements in dam gates, tunnels, water intake towers, and steel structures. Materials with examples of adoption and analysis are available!

Our company offers a "Contract Analysis Service for Structures and Ground" using the finite element method. We support analyses using our proprietary software "ISCEF," as well as "Abaqus" and "Nastran." We have a wealth of experience with clients including government agencies, independent administrative institutions, educational institutions, general contractors, and civil engineering consultants. 【Functions of the Structural Analysis Software "ISCEF"】 - 3D analysis / 2D analysis / frame analysis - Static analysis / dynamic analysis / eigenvalue analysis - Time history response analysis / frequency response analysis - Linear analysis / nonlinear analysis (concrete [unreinforced, reinforced], steel materials, ground, contact problems) - Safety evaluation support functions (stress calculation, buckling calculation, stability calculation) 【Achievements with Abaqus】 - Elasto-plastic large deformation analysis of steel girders - Seismic evaluation of road signs - Tunnel excavation analysis - Load capacity evaluation of grout joints in monopiles - Collision simulation of steel columns ★ You can view case studies of civil structures analyzed using "ISCEF" by downloading the PDF. Additionally, many technical materials for CAE engineers are also available!

  • Contract Analysis
  • Other contract services
  • Structural analysis software

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