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Engineering: Machine Design Maplesoft’s suite of tools for modeling and analyzing engineering systems relieves the burden that is typically associated with using traditional simulation tools to develop high-fidelity models. Maplesoft’s next-generation graphical tools for model development and analysis dramatically reduce the time and cost of up-front analysis, virtual prototyping, and parameter optimization of system designs. Maple and MapleSim are used extensively for designing multi-domain systems where kinematic, dynamic, and thermal behaviors need to be considered. The suite includes tools for easily transferring your work into your existing design toolchain, including SolidWorks®, AutoDesk Inventor®, and Siemens® NX®. MapleSim High-performance multi-domain modeling and simulation. Maple The essential technical computing software for today’s engineers. MapleSim Connector Automatic generation of Simulink® S-functions from MapleSim models. The generated ANSI-C code is compatible with Simulink® Coder™ for simulation on supported platforms such as dSPACE, xPC Target, and B&R Automation Studio Target for Simulink®. MapleSim Control Design Toolbox A solid set of essential control design tools that extend MapleSim's exceptional plant modeling capabilities to support control design. MapleSim Connector for LabVIEW™ and NI VeriStand™ Software Include high-fidelity MapleSim models in your LabVIEW VIs and NI VeriStand Applications. The generated code is highly optimized for execution on all floating-point real-time processors from National Instruments. Structural Mechanics for Maple Allows the calculation of statics and dynamics of spatial beam structures including discrete masses and inertias in points, springs and dampers. Optimus Identify optimal design parameters for complex Maple and MapleSim design problems. (Third-party product) Mechanical Cam Profile Tension-Controlling Roll-to-Roll Model Contact Models LQR Control Deisgn for an Inverted Pendulum on a Cart System Hydraulic Cylinder Circuit with In/Out Switch Control Dynamic Response of a Planar Seven-Body Mechanism Control of a Compliant Belt-Drive System Windshield Wiper Mechanism MapleSim Helps Improve Your Golf Game Cleveland Golf explores ways to increase the performance of their drivers using MapleSim. Ulysse Nardin lengthens the running time of new watches using Maple Maple doubles the operating time of watches using symbolic calculation techniques. Excavator Component Supplier Reduces Effort Modeling the mechanical, hydraulic, and electrical components of an excavator. Modifying a Comprehensive Touch Screen Model The challenge of creating a model of a capacitive touch screen. Increasing the Loading Capacity of Hydraulic Scissor Lift Using MapleSim to calculate the pressures and forces in hydraulic cylinders.   See other examples Recorded Webinar: Introduction to Modeling Multibody Systems with MapleSim Recorded Webinar: Introduction to MapleSim and Maple for Engineering Professionals Video: Introduction to MapleSim White Paper: MapleSim - Technical Superiority in Multi-Domain Physical Modeling and Simulation Blog: So a door slammed shut on me... Plant Modeling Consortium: An association of leading organizations promoting the development of new design techniques for automotive and related industries The Maple Reporter: Subscribe to the Maple Reporter for monthly product news, product tips & techniques, training, upcoming events and more MaplePrimes: Blogs, forums, help, musings, anwers... all things Maple and math The Evolution of Multi-Domain Modeling and Simulation  View this recorded webinar