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Matrox Imaging Library (MIL)
Write your application using Matrox Imaging Library (MIL), a high-level programming library for image capture, image processing, pattern recognition, registration, blob analysis, edge extraction and analysis, measurement, character recognition, 1D and 2D code reading, calibration, graphics, image compression, image display, and archiving.
MIL-Lite
MIL-Lite is a complete software development toolkit for image acquisition, transfer and display control. ActiveMIL-Lite, a collection of ActiveX controls for managing image capture, transfer and display is bundled with MIL-Lite.
Matrox Inspector
Build your proof-of-concept demonstration in no time, using Matrox Inspector Windows®-based prototyping software that provides interactive access to a large set of imaging operations.
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ANSYS FLUENT software contains the broad physical modeling capabilities needed to model flow, turbulence, heat transfer, and reactions for industrial applications ranging from air flow over an aircraft wing to combustion in a furnace, from bubble columns to oil platforms, from blood flow to semiconductor manufacturing, and from clean room design to wastewater treatment plants. Special models that give the software the ability to model in-cylinder combustion, aeroacoustics, turbomachinery, and multiphase systems have served to broaden its reach.
Today, thousands of companies throughout the world benefit from the use of ANSYS FLUENT software as an integral part of their design and optimization phases of product development. Advanced solver technology provides fast, accurate CFD results, flexible moving and deforming meshes, and superior parallel scalability. User-defined functions allow the implementation of new user models and the extensive customization of existing ones. ANSYS FLUENT’s interactive solver set-up, solution, and post-processing make it easy to pause a calculation, examine results with integrated post-processing, change any setting, and then continue the calculation within a single application. Case and data files can also be read into ANSYS CFD-Post for further analysis with advanced post-processing tools and to compare results from different cases side-by-side.
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AMPERES Features:
- Direct links to major CAD packages for true representation of complex geometric shapes
- Static and phasor analysis modes
- Simulate non-linear, permanent magnet and lossy magnetic materials
- Export data to spreadsheet and other software programs for further analysis
- Display results with graphs, colour maps, animations, and contour, arrow or vector loci plots
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The Global Standard for Engineering Calculations
Today's top engineers use Mathcad to perform, document and share calculation and design work. The unique Mathcad visual format and scratchpad interface integrate standard mathematical notation, text and graphs in a single worksheet - making Mathcad ideal for knowledge capture, calculation reuse, and engineering collaboration.
Mathcad is engineering calculation software that drives innovation and offers significant personal and process productivity advantages for product development and engineering design projects. Unlike proprietary calculating tools and spreadsheets, Mathcad lets engineers design and document engineering calculations simultaneously with comprehensive applied math functionality and dynamic, unit-aware calculations.
Benefits
- Easy to learn and use - no special programming skills required
- Increases productivity, saving engineers time and reducing errors
- Improves verification and validation of critical calculations
- Promotes calculation best practices and reuse of calculation content
- Complete documentation of calculations supports standards compliance
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Model-Based Design
Designers of embedded control system software face difficult challenges. In addition to the need to complete projects at low cost and within tight schedules, embedded control system software designers must provide predictable performance and competitive features for the products they deliver. Traditional methods of designing, testing, and implementing embedded control systems cause designers to wait until late in the design effort, when actual or prototype products and real-time embedded targets become available, to find out if software really works as it was intended to. Only then, as system integration occurs, can the designer uncover the errors that may have found their way into the product during the early design stages.
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Structural mechanics solutions from ANSYS offer best-in-class simulation tools for product design and optimization that increase productivity, minimize physical prototyping and help deliver better and innovative products in less time. These solutions tackle real-world analysis problems by making product development less costly and more reliable.
ANSYS structural mechanics solutions offer a broad spectrum of capabilities covering a range of analysis types, elements, contact, materials, equation solvers and coupled physics capability all targeted toward understanding and solving complex design problems.
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COMSOL Multiphysics is a modeling package for the simulation of any physical process you can describe with partial differential equations (PDEs). It features state-of-the-art solvers that address complex problems quickly and accurately, while its intuitive structure is designed to provide ease of use and flexibility.
You can easily model most phenomena through predefined modeling templates. Modifying these to specific applications is possible through equation-based modeling capabilities.
To deal with the increasing demand for realistic representations of the world around us, you can easily model systems of coupled physics phenomena. COMSOL Multiphysics provides a friendly, fast and versatile environment for multiphysics modeling.
Fast results and unprecedented flexibility make COMSOL Multiphysics the ideal modeling and simulation software for research, product development, and education.
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SimMechanics™ extends Simscape™ with tools for modeling three-dimensional mechanical systems within the Simulink® environment. Instead of deriving and programming equations, you can use this multibody simulation tool to build a model composed of bodies, joints, constraints, and force elements that reflects the structure of the system. An automatically generated 3-D animation lets you visualize the system dynamics. You can import models complete with mass, inertia, constraint, and 3-D geometry from several CAD systems.
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Companies today face a constant pressure to shorten time-to-market and increase innovation while also keeping tight control over product development costs. As a result, simulation has become a key product development activity.
However, in some cases, simulation has also become a process bottleneck and has not delivered the anticipated efficiency and productivity gains. There are several issues: stand-alone CAE tools are designed for specialists, thus limiting wider adoption; companies use multiple design and simulation software leading to numerous, error-prone data transformations; different work groups prepare models independently, duplicating effort and making it difficult to understand design trade-offs; and simulation environments are disconnected from the rest of the product lifecycle including requirements, engineering workflows and manufacturing.
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Vehicle Flow Dynamics
Unleash the power of FIRE's CFD solver. New meshing techniques enable model creation in a matter of hours. Reliable results are available in record time.
Solutions for human comfort and safety
Cooling or heating the vehicle interior quickly is often not sufficient to achieve human comfort, because comfort does not only depend on the temperature level. Therefore, FIRE calculates not only temperature and velocity distribution, but also human comfort indices, validated with the world's most sophisticated thermal manikins.
Dirt on the windscreen, side windows and side mirrors is a problem for vehicles of all classes. Safety demands clear visibility for all cars even under adverse weather conditions. The industry leading multiphase capabilities combined with the advanced turbulence models of FIRE accurately calculate dirt accumulation.
Acceleration through automation
Adequate cooling of engine components and auxiliaries is a major challenge in today's cramped underhoods. FIRE provides results quickly by using a unique and highly automated approach for CAD data preparation and to create computational grids for underhood compartments, internal and external aerodynamics.
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Product Line
SolidWorks gives you choices of 3D CAD, Design Validation, and Project Data Management software, plus Product Documentation software. No matter what size your business is, you can have exactly the tools you need to design better products.
Mechanical CAD
SolidWorks Premium
SolidWorks Premium software integrates a broad range of mechanical CAD, design validation, product data management, design communication, and CAD productivity tools in a single, affordable easy to use package.
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Simulate More Reliably
Industry Standard Engineering Analysis Solutions
MSC.Software's engineering analysis technologies serve as the rock-solid foundation for the most reliable enterprise simulation results. MSC's best-in-class, industry-standard analysis technology, including Nastran, Adams, Marc, Dytran, Easy5, and Patran, power the advanced simulation capabilities of SimEnterprise Solutions.
Covering the full spectrum of engineering analysis from structural linear, nonlinear, and explicit nonlinear to computational fluid dynamics, fluid structure interaction, and more, MSC.Software's engineering analysis tools help you analyze virtually any product design, from the simplest components to complex assemblies. These technologies have become the standard for mechanical, structural, and mutli-body dynamics simulation in several industries, and manufacturers depend on these tools for highly reliable virtual test results.
As an integral part of your simulation environment, these analysis tools can be used standalone, or as part of a broader MD simulation solution. Whether there is an expert analyst or a designer using an MSC workspace environment, commonality of the underlying solver foundation ensures repeatable results and maximum reliability and performance.
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Accelerating Design Innovation with MD Nastran
With increased demand for fast and robust system simulations, manufacturers need a solution that can handle complex, large-scale problems with ease and accuracy.
MD Nastran - Multidiscipline Simulation from the Industry Leader
By delivering the most comprehensive set of simulation and analysis technologies, MD Nastran offers true multidiscipline simulation in one, fully-integrated system. It is the most powerful simulation solution with a broad set of analysis capabilities based on proven of technologies and industry leadership of over four decades.
Comprehensive Solution for Next-Generation Design and Development
Designed for manufacturers who need to perform interoperable, multidisciplinary analyses on ever-more complex models, MD Nastran offers key capabilities that drive efficiency and streamline processes:
- Broad Analysis Capabilities - Supports key engineering disciplines that provide the basis for a superior multidiscipline simulation system.
- Integration - Unparalleled support for interaction between multiple disciplines in simulations that facilitates true multidisciplinary analysis.
- Optimization - Multidisciplinary optimization capabilities with combined sizing, shape, and topology optimization, special constraints and response functions across disciplines.
- High Performance Computing - Optimized for parallel and 64-bit supercomputing environments.
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ANSYS Multiphysics software offers a comprehensive product solution for both multiphysics and single-physics analysis. The product includes structural, thermal, fluid and both high- and low-frequency electromagnetic analysis. The product also includes solutions for both direct and sequentially coupled physics problems including direct coupled-field elements and the ANSYS multi-field solver.
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ANSYS BladeModeler software is a specialized, easy-to-use tool for the rapid 3-D design of rotating machinery components. Incorporating ANSYS, Inc.'s extensive turbomachinery expertise into a user-friendly graphical environment, the software is used to design axial, mixed-flow and radial blade components in applications such as pumps, compressors, fans, blowers, turbines, expanders, turbochargers, inducers and others.
ANSYS BladeModeler can take existing blade geometry designs created in other tools, and prepare the design data for rapid or detailed simulation and analysis. Or the meanline sizing tools from PCA Engineers that are integrated in ANSYS BladeModeler can be used to provide initial blade geometry designs for subsequent analysis and optimization. In either case, an initial blade geometry design can be further modified and extended using the rich set of tools and functions for designing rotating machinery blades within ANSYS BladeModeler. All accomplished in a user environment tailored to rotating machinery, with an intuitive interface and using industry-specific language that blade designers expect.
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PRINCIPLE OF OPERATION:
The reason for a stencil is reproduced precisely on all electroconducting metals thanks to a reaction between an electrical current and an electrolyte.
APPLICATION:
Marking of a squaring or a network of circles on test tubes intended to be deformed and controlled.
ADVANTAGES:
- Instantaneous, indelible Marking and of very high resolution,
- Possible Marking on all electroconducting metals,
- No deformation of the marked support,
- Noncorrosive Marking,
- Various levels of power available for the small ones and great zones of marking,
- High-resolution of the stencils,
- Great lifespan of the stencil: 7.000 markings,
- Various types of screens available: squaring, network of circles....
- Catch in easy and instantaneous hand,
- Portable System delivered with a cary case,
- Many accessories available for the tramage (rollers of marking, electrolytes...),
-...
ÖSTLING, world leader of electrolytic marking proposes to you the most complete range of systems and accessories of the market.
ÖSTLING: Your Partner Marking
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The daily work of engine development for both design specialist and test bed engineers requires an efficient simulation tool for piston movement analysis. For determining characteristics of mono and articulated pistons, EXCITE Piston&Rings offers fast execution times and verified results.
Stricter emission standards have caused the reduction of lube oil consumption to become a major task in the development of modern engines. Because the sealing effect of piston rings in reciprocating engines has a major impact on blow-by and lube oil consumption, an accurate calculation of piston ring dynamics is required for successful cylinder kit design. A number of programs enable trend calculations of piston ring dynamics and blow-by. With AVL EXCITE Piston&Rings, absolute values for inter-ring pressures, ring movement and blow-by, as well as reliable trends for lube oil consumption, proven in several projects, can be achieved.
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Speed the process for complex mold design
thinkdesign provides powerful tools for mold making applications. thinkdesign can create cores and cavities of varying complexity. Look into solutions that help both the product designer and skilled mold maker dramatically reduce the time required for complex mold design.
In these injection mold demonstrations, you will get a firsthand look at the powerful tools within thinkdesign for mold making applications. With thinkdesign, you can create cores and cavities of varying complexity. And you will see the K-MOLD plug-in in action. Adding K-MOLD helps simplify the creation of the mold base and helps you analyze a part before you create the mold.
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Eureka now include a reliable and flexible visual postprocessor module for CATIA and PRO-MANUFACTURING having the following features:
. Supports all classes of machine tools: mills, lathes, mill-lathes with any number of linear or rotary axes.
· Arc fitting of point to point data in any plane.
· 5 axes drilling cycles (drill, face, tap, bore, ream, brkchp, deep, csync).
· Automatic support of co-linear axes.
· Quill axis support.
· Subprograms.
· Origins.
· Automatically check axes limits.
· Motion time, rapid time, tool change time.
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RAD-CON offers process optimization software for bell annealing that increases throughput, decreases energy consumption, and improves quality. The dynamic thermodynamic model calculates optimal heating and cooling times as well as process decision to improve cleanliness and sticker brake performance.
Although typically used for production, the product can also be used to simulate the annealing process for training and research / development. This tool allows new cycle development and process capacity calculations.
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Process Improvement (BPI)
Business Process Improvement (BPI) is a systematic approach to help organizations change the way it does business or literally transform their business from top to bottom. Organizations looking to improve their processes to impact their bottom line answer several questions:
Who are we? What do we do? Why do we do it?
Who are our customers?
How do we do our jobs better?
Lanner offers comprehensive support for business process improvement. From analysis of the current process structure right through to the implementation of improvements, our technology and services solutions will guide you every step of the way. In addition, Lanner specializes in assessing e-business change through accurate modeling to ensure new planned processes will work. Some of our most successful BPI solutions are:
Productivity Improvement
People and Transportation Flow
Supply Chain and Logistics
Maintenance Planning
Resource Planning
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SimXpert - Harness the Power of Integrated Simulation Environment
SimXpert is a fully integrated multidiscipline simulation environment. Integrated with MSC's advanced multidiscipline (MD) solver technologies, SimXpert provides an efficient end-to-end solution that gives users native CAD access with bi-directional interoperability, pre-processing, solving, post processing, report generation, and automation capabilities within a single easy-to-use solution.
For more information: http://www.mscsoftware.com/products/simxpert.cfm
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As leading providers of CFD and PLM solutions, respectively, ANSYS, Inc. and Dassault Systèmes have worked together to bring you FLUENT for CATIA V5 technology. As a partner in the Dassault Systèmes´ Software Community Program, ANSYS is uniquely positioned to provide its leading flow modeling technology within the V5 PLM environment. The ANSYS and Dassault Systèmes collective objective is to enable PLM companies to optimize product performance early in the design cycle. FLUENT for CATIA V5 software accomplishes this vision by providing you with the best integration of CFD into PLM in the industry.
FLUENT for CATIA V5 combines the world's most widely used and powerful CFD code, FLUENT 6.3, with the leading CATIA V5 PLM software environment from Dassault Systèmes. It is fully associative to the PLM data structures. FLUENT for CATIA V5 software provides fluid flow analysis in the CATIA working environment and is a dramatic step forward for the use of CFD in the design process. FLUENT for CATIA V5 allows engineers, especially in the automotive and aerospace industries, to achieve significant product design improvements and cost savings. It helps engineers test conceptual designs at the earliest possible stages of the product development cycle in a PLM workflow environment. The unified optimization process provided by FLUENT for CATIA V5 technology leads to improved product quality, faster time to market, and reductions in large downstream manufacturing costs.
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The lirix3 software is the optimal tool to drive the Xiril pipetting robotic workstation through any demanding application.
Focusing on the every day routine work of thousands of laboratories around the globe, Xiril has developed the new lirix3 software to control the entire Xiril product line. The lirix3 software is straightforward, yet as flexible as the Xiril robotic workstation itself. With this high performance combination in
your hand, you are ready to automate all of your demanding assays.
More than a pipette
• Wide range of highly flexible pipetting options
• Liquid class library
• Clot detection
• Sensitive pressure based liquid level detection
• Easy layout configuration with drag and drop functionality
• Graphical support of pipetting actions
Flexible
• No programming skills needed
• Method is created in few mouse clicks
• Off-line programming of methods possible
• Labware library is freely extendable
• Simple teaching concept for new items
• Possible integration of external modules
• Enables import and export of data
Robust
• Fully traceable with audit trail
• Extended user management
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Simulate More Productively with SimManager R3
SimManager R3 helps engineering and manufacturing companies to simulate more collaboratively and more productively by managing all of their simulation content, methods, and processes. These capabilities will help end-users to spend less time looking for the information they need to do their jobs, automate time-consuming and repetitive tasks, and ultimately get more consistent and reliable results. Engineering organizations are able evaluate more design alternatives without increasing time or resource requirements, leading to innovative product designs and lasting competitive advantage.
For more information :http://www.mscsoftware.com/products/simmanager.cfm
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The pressure to shorten time-to-market while improving product performance and quality is driving the use of digital prototyping throughout the product lifecycle. As a result, simulation data management is becoming increasingly important. According to research firm AberdeenGroup, best-in-class companies are almost twice as likely as the industry average to manage simulation and product data relationships.
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ANSYS AQWA addresses the vast majority of analysis requirements associated with the hydrodynamic assessment of all types of offshore/marine structure including:
* SPARs
* FPSOs
* Semi-Submersibles
* Tension Leg Platforms
* Ships
* Renewable Energy Devices
* Breakwaters
Two packages are available.
ANSYS AQWA Diffraction provides an integrated facility for developing the primary hydrodynamic parameters required for undertaking complex motions and response analysis. Model creation can be performed through a connection with ANSYS DesignModeler with the new AQWAWB application or via ANSYS Mechanical tools using a provided ANSYS APDL macro. Hydrodynamic analysis results (i.e., motions and pressures) can be transferred to ANSYS, ASAS or generically defined FE models for subsequent structural analysis.
ANSYS AQWA Suite extends ANSYS AQWA Diffraction to include analysis capabilities for global performance of moored and/or connected systems subject to random sea states. Simulations may be static, or dynamic in the frequency and/or time domain. More advanced requirements, such as dynamic position systems and energy dissipation can be accomplished through a User Defined Function.
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ANSYS Structural software addresses the unique concerns of pure structural simulations without the need for a lot of extra tools. The product offers all the power of nonlinear structural capabilities — as well as all linear capabilities — in order to deliver the highest-quality, most reliable structural simulation results available.
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This module is specialized in the analysis of components and subsystems where it is necessary to evaluate structural deformations. It also contains special application modes for the modeling of shells, beams and plates.
Application modes in this module solve stationary and dynamic models, and let you perform eigenfrequency, parametric, quasi-static and frequency-response analyses. 3D solid as well as 2D plane stress, plane strain and axisymmetric analyses also allow the specification of elastoplastic and hyperelastic material laws as well as large deformations.
The Structural Mechanics Module works in tandem with COMSOL Multiphysics and the other discipline-specific modules to couple structural analysis to any multiphysics phenomenon.
Application Examples
Acoustic-structure interaction
Biomechanics and bioengineering
Buckling analysis
Elasto-plastic and hyperelastic analysis of materials
Electromechanical machinery
Fatigue analysis
Fluid-structure interaction (FSI)
Fracture mechanics
Multiphysics contact
Piezoelectric effects
Polymer mechanics
Stress-optical effects
Thermal friction
Thermal-structural interaction
Viscoelasticity and thermal creep
Viscoplasticity
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MECANO Structure is a solver dédicated to the analysis of nonlinear structures.
MECANO Structure allows you to perform the static and dynamic analyses of non linear structures. Large displacements and large rotations are supported by all finite elements. Materials can be non linear as well (hyper-elastic, elasto-plastic, visco-plastic, visco-elasto-plastic, user defined, composites...).
Rigid-flexible and flexible-flexible 2D and 3D contact/friction conditions are also available.
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Calculation, Simulation, Modeling software
