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In times of increasing cost and time pressures in production, along with ongoing globalization, logistics is a key factor in the success of a company. Money can be lost daily through inefficient schedules, local instead of global optimization, inefficient resource allocation, and poor productivity. The need to deliver just-in-time (JIT) or just-in-sequence (JIS), introduce Kanban, plan and build new production lines, and manage global production networks requires objective decision criteria to help management evaluate and compare alternative approaches. Plant Simulation is a discrete-event simulation tool that helps you to create digital models of logistic systems (such as production), so that you can explore a system’s characteristics and optimize its performance. These digital models allow you to run experiments and what-if...

The PC operating program DIGSI 4 is the user interface to the SIPROTEC devices, regardless of their version. It is designed with a modern, intuitive user interface. With DIGSI 4, SIPROTEC devices are configured and evaluated – it is the tailored programfor industrial and energy distribution systems. Simple protection setting From the numerous protection functions it is possible to easily select only those which are really required. This increases the clearness of the other menus. Device setting with primary or secondary values The settings can be entered and displayed as primary or secondary values. Switching over between primary and secondary values is done with one mouse click in the tool bar. Assignment matrix The DIGSI 4 matrix shows the user...

With new tools and technologies, the latest release of NX delivers productivity throughout product development. See how NX can help you accelerate your design, engineering, and manufacturing processes.NX is an integrated product design, engineering and manufacturing solution that helps companies deliver better products faster and more efficiently.NX for Design is an integrated product design solution that streamlines and accelerates the product development process for engineers who need to deliver innovative products in a collaborative environment. Unlike CAD-only solutions and closed enterprise solutions, NX for Design offers the highest level of integration between development disciplines in an open, collaborative environment.NX solutions for simulation include NX CAE, which is a modern, multi-discipline CAE environment for advanced analysts, workgroups, and designers who need...

Solid Edge ST7 includes hundreds of customer requested enhancements and delivers fast and flexible 3D modeling, streamlined design management, powerful new apps and an amazing user experience that empower you to re-imagine what’s possible. Take your designs to the next level with faster, more flexible 3D modeling and beautiful photo-realistic rendering. Get more productive with powerful new apps for design, manufacturing, and collaboration. Unleash your creative potential with easier access and our most intuitive user interface yet.Product:Siemens.SolidEdge.ST7 Lanaguage:english Platform:WIN32&WIN64 Size:6.5 GB

Tecnomatix is a comprehensive portfolio of digital manufacturing solutions that deliver innovation by linking all manufacturing disciplines together with product engineering – from process layout and design, process simulation and validation, to manufacturing execution. Built upon the open product lifecycle management (PLM) foundation called Teamcenter manufacturing platform, Tecnomatix provides the most versatile set of manufacturing solutions on the market today.Manufacturing companies in a variety of industries are addressing the ergonomic aspects of manual operations during the early stages of product design and manufacturing planning. Jack and Process Simulate Human enable you to improve the safety, efficiency and comfort of your workplace environment using digital human models. You can analyze your workplace environments with virtual people that can scale to match...

Tecnomatix Plant Simulation 11 Technological Release (TR) 2 provides a number of new and improved features.As the program changed at a number of places, you might have to adapt simulation models you created in previousversions of Tecnomatix Plant Simulation, when you open them in Tecnomatix Plant Simulation 11.2.Eminent Changes in Plant Simulation 11 TR2The most eminent and noticeable new feature in Tecnomatix Plant Simulation 11 TR2 is the Ribbon Bar. New Material Flow FeaturesIn Tecnomatix Plant Simulation 11 TR2 we added these features to the material flow objects:• We added the optional parameter EndSim to the method stop of the EventController.• We added check box Part can only enter on cycle of the Cycle.Changed Material Flow FeaturesIn Tecnomatix Plant Simulation...

Whatˇs New in FEMAPFEMAP 11.1.2 includes enhancements and new features, which are detailed below:Performance GraphicsLayupsTools – Element QualityFEMAP 11.1 includes enhancements and new features, which are detailed below:User InterfaceModel MergeGeometryMeshingElementsPropertiesLoads and ConstraintsConnections (Region, Properties, and Connectors)Groups and LayersViewsOutput and Post-ProcessingGeometry InterfacesAnalysis Program InterfacesToolsOLE/COM APIPreferencesFEMAP 11.0 includes enhancements and new features, which are detailed below:User InterfaceGeometryMeshingElementsMaterialsPropertiesAeroelasticityLoads and ConstraintsConnections (Region, Properties, and Connectors)Views11.1-2 Finite Element ModelingOutput and Post-ProcessingGeometry InterfacesAnalysis Program InterfacesToolsOLE/COM APIPreferencesFEMAP 10.3.1 includes enhancements and new features, which are detailed below:User InterfaceMeshingLoads and ConstraintsViewsOutput and Post-ProcessingGeometry InterfacesAnalysis Program InterfacesOLE/COM APIPreferencesFEMAP 10.3 includes enhancements and new features, which are detailed below:User InterfaceGeometryMeshingElementsMaterialsPropertiesAeroelasticity – New for 10.3!Loads and ConstraintsConnections (Connection Region, Properties, and Connectors)Groups and LayersViewsOutput and Post-ProcessingGeometry InterfacesAnalysis Program InterfacesToolsOLE/COM APIPreferencesWhatˇs New...

The versatility of LMS Samcef Wind Turbines allows you to analyze the behavior of any wind turbine concept. You can build simulation models using the predefined parametric models and/or integrate new components and subassemblies. Based on the LMS Samtech Caesam platform, LMS Samcef Wind Turbines facilitates a coherent engineering process – from concepts to component details – to produce a high fidelity model that you can exercise extensively for design and certification purposes.Early Design MaturityWind Turbines Early Design Maturity LMS Samcef Wind Turbines provides fully coupled simulations of the mechatronic wind turbine system. The wind turbine model contains: Aerodynamic, hydrodynamic and hydrostatic loads Finite element components Multibody elements Controller The implementation of LMS Samcef Wind Turbines allows a change of...

The LMS Samtech Samcef Solver Suite is based on the finite element method (FEM) and covers a wide range of mechanical, thermal and thermo-mechanical applications – from basic to very advanced – primarily in the aerospace, defense and automotive industries. You can apply the mechanical FEM solver solutions to linear applications such as linear static computations, modal and buckling analyses, linear dynamic simulations, super element generation, random excitations and shock responses. Nonlinear transient simulations can also be performed within this family of solutions. Material nonlinearities, geometric nonlinearities, contact conditions, large rotations and kinematic constraints can be taken into account. A dedicated module also exists for high-speed rotating machines. Thermal simulations allow solving transient analysis including convection, conduction, radiation and ablation.Product:Siemens.LMS.Samcef.rev15.1-1.Win64...

NX Nastran solves structural analysis problems for linear and nonlinear analysis, dynamic response, rotor dynamics, aeroelasticity and optimization. The NX Nastran 9.1 release further increases the types of solutions you can perform, along with a number of computational performance and engineering workflow improvements as highlighted by the examples below:Discipline and Physical Domain ExtensionNX 9.1 – Simulation – Nastran – Discipline and Physical Domain ExtensionSpeed-dependent bearing properties for rotor dynamics allow you to more realistically simulate bearings in rotating systems, such as aircraft engines. Properties of the bearing are speed-dependent and support the inherent cross-directional coupling stiffness and viscous damping.Greater flexibility to model multi-rotor systems allows you to describe speeds of all rotors independently. This means you can model multiple rotors...