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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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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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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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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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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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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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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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CELSIUS Features:
- Easily assign boundary conditions such as temperature, heat flux, temperature gradient, convective and radiative heat exchange
- Assign heat sources in the form of volume heat and surface heat
- Material table stores thermal conductivity, specific heat, mass density or absorption and scattering coefficients
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We place free at your disposal a multitude d´outils essential.
The tools idéals for manufacturer, office d´étude or service handling.
Example: CD-ROM with calculator of load according to weight of the load, angles, standard d´élingage,...
and selection of the product corresponding to your need.
This CD-ROM puts to you free with provision data D.A.O. 2D and 3D of the rings of lifting, their obstructions, CMU according to 14 d´élingage types, d application examples, vidéos, d´emploi modes, documentations,...
More than 250 various examined rings of lifting...
The integrated computation software enables you to inform & find in a d´étapes minimum the solution with your need. Intelligent! it takes into account the parameters necessary (weight, Nb points of fixing, angles of inclination,...) of your project, attachment units which you use.
More than 600 various sights of draftsmanship can be exported free in files DXF in data 2D and innovation: geometrical data 3D in format JGES.
L utilisator of software CAD can then freely import these data in his software preferred, finished waste of time & tiresome modelings!
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The Acoustics Module is a world-class solution to all your acoustics modeling needs. Easy-to-use application modes provide the tools to model acoustic wave propagation in air, water, other fluids—and even solids.
It is designed specifically for those who work in classical acoustics with devices that produce, measure, and utilize acoustic waves. Just a few application areas from the audio industry include speakers, microphones, and hearing aids, while those for noise control can address muffler design, sound barriers, and building acoustics.
The modeling of acoustics-structure interaction is easily done with the Acoustics Module. This capability is particularly attractive for appli-cations such as the design of sonar transducers in medical and non-destructive testing applications as well as those used for noise and vibration analyses.
This module also features a special interface for modeling aeroacoustics, which is especially useful for the control of aircraft engine noise. In addition, its general multiphysics ability enhances classical acoustics with further accuracy.
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FiberSIM®: The World's Leading Software for Composites
Powered by VISTAGY's unique EnCapta® technology, FiberSIM® has become the world's leading software for composites engineering-used by numerous leading manufacturers in the aerospace, automotive, marine and medical equipment industries. The FiberSIM suite of software supports all of the unique and complex design and manufacturing methodologies necessary to engineer innovative, durable and lightweight composite products and parts.
It's also the only comprehensive software suite that addresses the entire composites engineering process, from conception, laminate definition and ply creation through simulation, documentation and manufacturing. FiberSIM is integrated into the leading commercial CAD systems (CATIA V4, CATIA V5, NX and Pro/ENGINEER) to help you capture a truly complete digital product definition. And FiberSIM goes beyond CAD to create a customized environment that enables you to 'work how you think' when designing innovative, bleeding-edge products that create a competitive advantage.
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The AC/DC Module sets the stage for modeling the performance of capacitors, inductors, motors, and microsensors. Although these devices are principally characterized by electromagnetics, they are also affected by other types of physics. Thermal effects, for instance, can change electrical properties of materials, while electromechanical deflections and vibrations in generators need to be fully understood during any design process.
The capabilities of the AC/DC Module span electrostatics, magnetostatics, and electromagnetic quasi-statics with unlimited couplings to other physics.
When considering your electrical components as part of a larger system, the AC/DC Module provides an interface with SPICE circuit lists where you choose circuit elements for further 2D or 3D FEA modeling. Then you can take your analysis beyond the conventional by running a single simulation of a mixed system of lumped and high-fidelity models.
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AVL BOOST – Advanced Engine Cycle, Aftertreatment and Duct Acoustic Simulation
AVL BOOST is an advanced and fully integrated “Virtual Engine Simulation Tool” with advanced models for accurately predicting engine performance, acoustics and the effectiveness of exhaust gas after treatment devices. It supports engine development such that for a given vehicle concept, the required torque and power can be delivered in combination with optimized emissions, fuel consumption and passenger comfort (acoustics and transient behavior).
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Dynamics and Acoustics of Power Unit and Subsystems
AVL EXCITE is the perfect tool for vibration and acoustic analysis of power units and has been chosen by the majority of engine manufacturers worldwide as their main platform for strength and durability and NVH simulations of power units.
High Fidelity System Simulation
Complete systems and individual components with various modeling depth levels can be built or scaled for each stage of the development process. The models can be adapted to meet the requirements made of them, ensuring the optimum balance between simulation effort and accuracy.
Powertrain Engineering Inside
With many years of experience in the field of engine development, AVL’s software uses accurate and validated mathematical models to provide calculation results that are as realistic as possible. AVL simulation solutions are highly application oriented.
Close Link to Testing
The EXCITE Designer tool provides results in a format that enables an electric motor to reproduce the torsional vibrations of a combustion engine on the transmission test bed. In this way, AVL EXCITE enables customers to save time and costs during the testing phase of a project.
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For a statistical analysis of the measuring values the standard deviation of each measurement is displayed graphically. Measuring time and number of measurement for averaging can be set by the user via PC. The software for the A/S module can be configured at user's discretion.
Via pulse outputs RS 422 and frequency output the measuring value is transformed into a frequency and carried to the evaluation and display unit, like computer, frequency counter, and similar devices where they are processed, linearised, and displayed.
The factory default calibration is based on test stands that have been certified by the German Federal Institute for Physics and Technology (PTB). Therefore the measuring results can be reconverted into national standards.
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Basic Information
News: Release CRUISE Version v3.1
- Energy Flow Graphics - The Tool for Fast Analysis of Vehicle Drivelines
- DCT, DCT Control and AMT Control - New Components for New Drivetrains
- Combined Results Chart
- CRUISE Data Search and Data Comparison
- C-Function Mode in Function Component
Consistent Simulation Models and Application-focused Workflows
AVL CRUISE supports everyday tasks in vehicle system and driveline analysis throughout all development phases, from concept planning through to launch and beyond. Its application envelope covers conventional vehicle powertrains through to highly-advanced HEV systems.
CRUISE offers a streamlined workflow for all kinds of parameter optimization and component matching – guiding the user through to practical and attainable solutions. Due to its structured interfaces and advanced data management, AVL CRUISE has established itself as a data communication and integration tool for different teams within world-leading OEMs and their suppliers. This facilitates consistent target definition and the traceability of the decisions made in reaching the best overall results for the developed product.
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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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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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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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Dynamic Simulation of Valvetrain
The cam lobe profiles are pre-specified to meet the performance and durability development targets. The dynamic behaviour of the valve train is verified using sophisticated analysis methods and tools available in the AVL TYCON software package. The valve train is optimised for low weight, friction and wear, yet meeting the durability target and considering the production capability and material properties.
The entire valve train including the camshaft drive (chain,belt or gears) is optimised to avoid excessive vibrations and dynamic forces in the system, which lead to premature failure and excessive noise. The analysis is validated by advanced measurement techniques capturing the dynamics of valve train components supports.
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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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Unlike other computational fluid dynamics programs, COSMOSFloWorks combines a high level of functionality and accuracy with ease-of-use.
Fully embedded inside of SolidWorks, COSMOSFloWorks is perfect for the engineer who needs flow analysis, but is not necessarily an expert in the field of fluid simulation. A goal-oriented approach allows you to easily gain insight into the performance of your design under real world conditions.
COSMOSFloWorks can be used in a diverse array of applications and has been designed to be extremely flexible. Whether you are developing a valve for medical industry, a HVAC duct, an electronic enclosure cooling system, an automobile component, the wing of an airplane, or an exhaust valve, using COSMOSFloWorks early in the product development cycle can help you build a better product in less time.
COSMOSFloWorks customers are using the software to build better products in the following industries - Valve/Regulator, Medical, Electronics, HVAC, Automotive, Defense, Aerospace, Oil and Gas, Plastic Extrusion and Food Processing.
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SolidWorks® Flow Simulation is the first and easiest fluid-flow simulation and thermal analysis program fully embedded within SolidWorks software.
SolidWorks Flow Simulation eliminates the need to modify your design for a different computational fluid dynamics (CFD) application saving considerable time and cost.
With its CFD analysis capabilities, you can simulate liquid and gas flow in real world conditions, run “what if” scenarios, and quickly analyze the effects of fluid flow, heat transfer, and related forces on immersed or surrounding components. Fluids of interest for analysis range from air, water, liquid chemicals, and gases to juice, ice cream, honey, plastic melts, toothpaste, blood, and others.
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Simulation Premium
One of the most comprehensive and sophisticated Finite Element Analysis (FEA) packages available, SolidWorks® Simulation Premium integrates completely with SolidWorks CAD software.
Bring highly advanced validation tools to your design teams at a fraction of the cost of most high-end FEA programs.
Any engineer can easily apply SolidWorks Simulation Premium to perform tough validation tasks like these:
- Study the performance of your designs for excessive deflections and stresses under dynamic loads.
- Perform nonlinear analysis–including impact–on plastics, rubbers, polymers, and foam.
- Conduct contact analysis coupled with nonlinear materials.
- Evaluate the behavior of composite materials.
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