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Action PC Product List

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"DEFORM" plastic processing analysis simulation software operating PC

"DEFORM" plastic processing analysis simulation software operating PC

A plastic processing analysis software that visualizes metal deformation. It supports the optimization of forming processes such as forging, rolling, and cutting.

DEFORM is simulation software designed for high-precision analysis of deformation, stress, and temperature distribution in metal plastic processing. It supports a wide range of plastic processing processes such as forging, rolling, cutting, sintering, and joining, and achieves prototype reduction, process optimization, and quality improvement by numerically reproducing actual processing phenomena. ■ Main Features and Characteristics - High-precision process simulation for analyzing deformation, stress, and temperature distribution in metal plastic processing - Support for various plastic processing methods including forging, rolling, cutting, and extrusion - Visualization of load, friction, and stress concentration on molds to assist in extending mold life - Stabilization of quality through optimization of processing conditions, lubrication states, and temperature parameters - High-precision mesh generation and remeshing capabilities that accommodate complex shapes and multi-stage processes - Realistic deformation behavior reproduction through material models that consider temperature dependence - Equipped with a verified database that can be linked with experimental and manufacturing data - An analytical environment that supports a wide range of process design and optimization from research and development to production technology.

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  • DEFORM?.png
  • DEFORM?.png
  • Other analyses
  • Stress Analysis
  • Industrial PCs
  • Action PC

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PC for the operation of 'PhysicsAI' that accelerates design review with AI.

PC for the operation of 'PhysicsAI' that accelerates design review with AI.

"PhysicsAI" operational PC that allows AI to learn from CAE analysis results and conduct design reviews at dozens of times the speed.

PhysicsAI is an AI-based software for accelerating physical simulations that learns from past simulation data to quickly predict physical behavior for design shapes. Rather than replacing traditional CAE analysis, it utilizes accumulated analysis assets to streamline considerations in the early stages of design, achieving improved development speed while reducing the number of prototypes and analyses. ■ Main Features and Characteristics - AI learns from past CAE analysis results (structural, fluid, thermal, etc.) to quickly predict physical behavior. - By simply inputting a CAD model, results such as deformation, stress, and temperature are visualized instantly. - Design consideration speed is improved by tens to up to 1,000 times compared to conventional analysis. - Supports a wide range of CAE areas, including structural analysis, fluid analysis, and manufacturing process analysis. - Optimally suited for screening purposes in the early stages of design, accelerating optimization and design exploration. - Enhances quality and reproducibility through data-driven design utilizing CAE results. - Integrated with the HyperWorks platform, seamlessly linking with existing analysis workflows. - Applicable to a wide range of engineering uses, including research and development, manufacturing technology, and design departments.

  • PhysicsAI?.png
  • Magnetic field analysis/electromagnetic wave analysis
  • Structural Analysis
  • Thermo-fluid analysis
  • Action PC

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Pharmaceutical Industry: Solubility Prediction Software "HSPiP" Operating PC

Pharmaceutical Industry: Solubility Prediction Software "HSPiP" Operating PC

If you analyze the solubility, dispersibility, and affinity of substances using Hansen solubility parameters!

To efficiently absorb poorly water-soluble drugs (APIs) in the body, improving solubility is one of the most important challenges in drug discovery. Regarding solubility prediction necessary for the development of solid dispersions, nanoparticle formulations, and solubilization techniques (methods to make drugs dissolve more easily), the software "HSPiP" that analyzes the solubility, dispersibility, and affinity of substances using Hansen solubility parameters is commonly used. The operation of HSPiP (Hansen Solubility Parameters in Practice) relies heavily on a high-performance CPU, which is the most important factor for processing speed, and large-capacity memory and fast SSD storage are recommended. Taking these points into full consideration, we have selected a recommended PC.

  • Other PCs and OA equipment
  • Action PC

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PC for operating the shock analysis software 'Radioss' for the automotive industry

PC for operating the shock analysis software 'Radioss' for the automotive industry

Quickly perform collision, drop, and destruction analysis to improve automobile safety.

In the automotive industry, safety is one of the most important issues. To enhance occupant protection performance during collisions, it is necessary to accurately understand the vehicle's collision and destruction behavior and reflect this in the design. There is a demand to visualize behaviors under extreme conditions, which are difficult to reproduce through experiments alone, digitally, enabling safety and reliability evaluations without relying on prototypes or actual tests. Altair Radioss is software that accurately reproduces high-speed and large deformation phenomena such as collisions, drops, and destruction, contributing to reduced development costs and improved product quality. 【Application Scenarios】 - Automotive collision safety design - Evaluation of occupant protection performance during collisions - Evaluation of parts' impact resistance - Strength evaluation of vehicle body structures 【Effects of Implementation】 - Reduction of collision analysis time - Shortening of design cycles - Improvement of product safety - Reduction of development costs

  • Radioss?.png
  • Radioss?.png
  • Structural Analysis
  • Thermo-fluid analysis
  • Action PC

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PC for operation of the collision analysis software 'HYCRASH' for the automotive industry

PC for operation of the collision analysis software 'HYCRASH' for the automotive industry

Automatically generate initial conditions for Ansys LS-DYNA! Quickly respond to vehicle design changes.

In the automotive industry, ensuring collision safety is the top priority. Since vehicle design changes occur frequently, a rapid response is required. To enhance the accuracy of collision analysis, it is essential to consider the initial conditions of press-formed materials, such as sheet thickness and plastic strain. However, traditional analysis methods necessitate changes to the analysis model and re-simulation with each design change, hindering quick responses. HYCRASH addresses this issue by automatically generating initial conditions for Ansys LS-DYNA. 【Usage Scenarios】 - Collision analysis in automotive manufacturers - Rapid analysis response during design changes - Utilization of press forming simulation results 【Benefits of Implementation】 - Improved analysis accuracy - Reduced design period - Efficient response to design changes

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  • HYCRASH2.JPG
  • Structural Analysis
  • Mechanism Analysis
  • Analysis Services
  • Action PC

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PC for Digimat material modeling analysis for the automotive industry

PC for Digimat material modeling analysis for the automotive industry

Supporting lightweighting of automobiles through composite material simulation.

In the automotive industry, weight reduction is essential for improving fuel efficiency and performance. The use of composite materials is an effective means of achieving weight reduction, but predicting material properties poses a challenge. Digimat's operation PC performs material property predictions considering the microstructure of composite materials, supporting product design. 【Application Scenarios】 * Development of automotive parts using composite materials * Optimal design based on material properties * Balancing weight reduction and performance 【Effects of Implementation】 * Optimization of material selection * Streamlining of the design process * Reduction of product development time

  • Applied PC_Digimat2.JPG
  • Structural Analysis
  • Mechanism Analysis
  • Stress Analysis
  • Action PC

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PC for Operation of Composite Material Analysis 'J-Composites' for Automobiles

PC for Operation of Composite Material Analysis 'J-Composites' for Automobiles

Recommended PC for accelerating composite material analysis, J-Composites

In the automotive industry's collision safety evaluation, accurate analysis of composite materials is essential. To achieve a balance between vehicle lightweighting and safety, it is necessary to predict the behavior of composite materials in detail and conduct optimal design. J-Composites Dynamic PC provides high computational power and stability to address this challenge. By using J-Composites/Form Modeler, it is possible to easily set up complex composite laminate models and export them as input files for LS-DYNA. This allows for more accurate prediction and evaluation of defects such as wrinkles during collisions, contributing to the design of safer vehicles. 【Application Scenarios】 - Automotive collision safety simulations - Component design using composite materials - Vehicle development that balances lightweighting and safety 【Benefits of Implementation】 - Improved collision safety - Streamlined design processes - Reduced product development time

  • Applied PC_J-Composites2.JPG
  • Stress Analysis
  • Structural Analysis
  • Action PC

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Multi-physics coupled analysis simulation software "COMSOL" operating PC

Multi-physics coupled analysis simulation software "COMSOL" operating PC

Overwhelming calculation speed! Strongly supports collision analysis!

In the automotive industry, collision analysis requires accurate simulation of complex physical phenomena for vehicle safety evaluation. It is particularly important to reproduce elements such as deformation, stress, and energy absorption during a collision with high precision. The accuracy of the simulation is directly linked to design optimization and safety improvement, making a high-performance PC essential. Our COMSOL operational PCs address these challenges and enable more efficient analysis. 【Usage Scenarios】 - Evaluation of automotive collision safety - Optimization of vehicle body structure - Analysis of energy absorption performance during collisions 【Benefits of Implementation】 - Reduction in analysis time - Shortening of design cycles - Improvement in product safety

  • Desktop PC
  • Action PC

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PC for PIX4D series operation at construction sites

PC for PIX4D series operation at construction sites

Streamlining progress management at construction sites with drone image analysis!

In the construction industry, accurate information gathering and rapid analysis are essential for progress management. Based on high-resolution image data captured by drones, it is necessary to understand the progress of construction and to detect delay risks early. The PIX4D series operation PCs are designed to address these challenges. 【Usage Scenarios】 - Visualization of overall progress at construction sites - Measurement of earthworks in civil engineering - Understanding site conditions for safety management 【Benefits of Implementation】 - Improved accuracy in progress management - Enhanced work efficiency - Cost reduction

  • Industrial PCs
  • Action PC

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Barracuda VR Operating PC for Automotive Use

Barracuda VR Operating PC for Automotive Use

Supporting the enhancement of automobile performance through particle fluid analysis.

In the automotive industry, improving combustion efficiency and responding to exhaust gas regulations are important challenges. To achieve high performance, it is necessary to accurately understand the complex fluid behavior inside the engine and to carry out optimal design. The Barracuda Virtual Reactor operating PC contributes to solving these challenges by simulating the behavior of fluids containing particles in detail. 【Use Cases】 - Engine combustion analysis - Exhaust system design - Optimization of fuel injection systems 【Benefits of Implementation】 - Improved combustion efficiency - Compliance with exhaust gas regulations - Reduced product development time

  • Applied_Barracuda Virtual Reactor_2.JPG
  • Thermo-fluid analysis
  • Stress Analysis
  • Contract Analysis
  • Action PC

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PC for PhysicsAI operation for automobiles

PC for PhysicsAI operation for automobiles

AI accelerates CAE analysis and speeds up design considerations.

In the automotive industry, collision analysis requires repeated complex simulations for safety evaluation. Long analysis times become a challenge with each design change, often leading to delays in the development cycle and increased costs. The PhysicsAI operating PC learns from past CAE analysis data and streamlines the consideration of designs in the early stages, achieving improved development speed. 【Use Cases】 - Evaluation of collision safety - Optimization of body structure - Efficiency in parts design 【Benefits of Implementation】 - Reduction in design consideration time - Decrease in the number of prototypes and analyses - Shortening of the development period

  • PhysicsAI?.png
  • Magnetic field analysis/electromagnetic wave analysis
  • Structural Analysis
  • Thermo-fluid analysis
  • Action PC

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PC for operating the shock analysis software 'Radioss' for the aerospace industry.

PC for operating the shock analysis software 'Radioss' for the aerospace industry.

Accelerating collision, drop, and destruction analysis to support lightweight design in the aerospace field.

In the aerospace industry, reducing the weight of aircraft structures is essential to achieve both safety and fuel efficiency. In particular, evaluating the strength of structures against collisions and impacts is a critical issue during the design phase. Altair Radioss accurately simulates high-speed and large deformation phenomena such as collisions, drops, and failures, enabling safety and reliability assessments without relying on prototypes or physical tests. 【Application Scenarios】 - Collision safety design of aircraft components - Impact resistance evaluation of composite materials - Structural analysis in lightweight design 【Benefits of Implementation】 - Shortened development time - Improved design quality - Cost reduction

  • Radioss?.png
  • Radioss?.png
  • Structural Analysis
  • Thermo-fluid analysis
  • Action PC

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Multi-scale analysis 'J-OCTA' operational PC for the automotive industry

Multi-scale analysis 'J-OCTA' operational PC for the automotive industry

Supporting lightweighting of automobiles through property prediction of polymer materials.

In the automotive industry, reducing vehicle weight is a crucial challenge for improving fuel efficiency and minimizing environmental impact. To achieve weight reduction, it is essential to adopt lighter materials while maintaining strength. J-OCTA simulates the properties of polymer materials such as resins and rubbers to support optimal material selection. This helps reduce the number of experiments and contributes to shortening the development period. 【Application Scenarios】 - Design of components using polymer materials - Prediction and optimization of material properties - Development of lightweight materials 【Benefits of Implementation】 - Increased efficiency in material development - Reduction in development costs - Improvement in product performance

  • Applied PC_J-OCTA2.JPG
  • Structural Analysis
  • Mechanism Analysis
  • Stress Analysis
  • Action PC

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PC for AnyBody Motion for Automotive

PC for AnyBody Motion for Automotive

Simulating human movement and supporting design based on ergonomics.

In the field of ergonomics within the automotive industry, there is a demand for improvements in driver comfort, safety, and operability. In particular, designs that reduce fatigue during long drives and minimize the impact on the body during accidents are crucial. The AnyBody Motion PC can simulate in detail the muscle activity, joint loads, and fatigue risks based on a human musculoskeletal model. This enables more ergonomically sound automotive designs. 【Application Scenarios】 - Optimization of driving posture - Evaluation of pedal and steering operability - Seat design - Assessment of occupant protection performance during collisions 【Benefits of Implementation】 - Reduction of driver fatigue - Improvement in safety - Shortening of product development time - Enhancement of design quality

  • Applied_AnyBody_2.JPG
  • Other analyses
  • Structural Analysis
  • Contract Analysis
  • Action PC

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PC for AnyBody Motion for Manufacturing Industry

PC for AnyBody Motion for Manufacturing Industry

Simulate human movement to reduce work burden.

In the manufacturing industry, there is a demand for reducing the burden on workers and improving safety. In particular, tasks that are repetitive or require physically demanding postures can increase the risk of occupational accidents. The AnyBody motion PC helps identify high-burden tasks by simulating muscle activity and joint loads during work, aiding in the improvement of work postures and procedures. 【Application Scenarios】 - Evaluation of work postures on the production line - Ergonomic design of tools and equipment - Visualization of worker fatigue levels 【Benefits of Implementation】 - Reduced risk of occupational accidents due to decreased burden on workers - Improved work efficiency - Enhanced product quality

  • Applied_AnyBody_2.JPG
  • Other analyses
  • Structural Analysis
  • Contract Analysis
  • Action PC

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Barracuda VR Operating PC for Petrochemical Use

Barracuda VR Operating PC for Petrochemical Use

Supporting process optimization in petrochemical plants through particle fluid analysis.

In the petrochemical industry, efficient operation of plants and ensuring safety are essential. In particular, optimizing reaction processes is crucial for improving productivity and reducing costs. The Barracuda Virtual Reactor operating PC supports process optimization through the simulation of particle-fluid systems such as fluidized bed reactors. 【Usage Scenarios】 - Design and scale-up of fluidized bed reactors - Process optimization - Troubleshooting 【Benefits of Implementation】 - Plant efficiency - Cost reduction - Improved safety

  • Applied_Barracuda Virtual Reactor_2.JPG
  • Thermo-fluid analysis
  • Stress Analysis
  • Contract Analysis
  • Action PC

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Barracuda VR Operating PC for Pharmaceuticals

Barracuda VR Operating PC for Pharmaceuticals

Efficiently optimizing pharmaceutical processes with particle fluid analysis.

The pharmaceutical industry is demanding improvements in the efficiency of new drug development and manufacturing processes. In particular, the optimization of reaction processes is essential for enhancing product quality and reducing costs. The Barracuda Virtual Reactor operating PC simulates the complex coupled behavior of particles and fluids in systems such as fluidized bed reactors, assisting in process optimization. 【Use Cases】 - Design and scale-up of fluidized bed reactors - Process optimization - Troubleshooting 【Benefits of Implementation】 - Increased process efficiency - Improved product quality - Cost reduction

  • Applied_Barracuda Virtual Reactor_2.JPG
  • Thermo-fluid analysis
  • Stress Analysis
  • Contract Analysis
  • Action PC

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