List of ANSYS Optical Measurement Device Customers
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Since 2010, our global team of researchers has been studying ANSYS Optical Measurement Device customers around the world, aggregating massive amounts of data points that form the basis of our forecast assumptions and perhaps the rise and fall of certain vendors and their products on a quarterly basis.
Each quarter our research team identifies companies that have purchased ANSYS Optical Measurement Device for Optical Simulation and Design from public (Press Releases, Customer References, Testimonials, Case Studies and Success Stories) and proprietary sources, including the customer size, industry, location, implementation status, partner involvement, LOB Key Stakeholders and related IT decision-makers contact details.
Companies using ANSYS Optical Measurement Device for Optical Simulation and Design include: ASML, a Netherlands based Manufacturing organisation with 44027 employees and revenues of $35.89 billion, Cornell University, a United States based Education organisation with 11062 employees and revenues of $5.76 billion, EMCORE Corporation, a United States based Aerospace and Defense organisation with 387 employees and revenues of $110.0 million and many others.
Contact us if you need a completed and verified list of companies using ANSYS Optical Measurement Device, including the breakdown by industry (21 Verticals), Geography (Region, Country, State, City), Company Size (Revenue, Employees, Asset) and related IT Decision Makers, Key Stakeholders, business and technology executives responsible for the PLM and Engineering software purchases.
The ANSYS Optical Measurement Device customer wins are being incorporated in our Enterprise Applications Buyer Insight and Technographics Customer Database which has over 100 data fields that detail company usage of PLM and Engineering software systems and their digital transformation initiatives. Apps Run The World wants to become your No. 1 technographic data source!
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| Logo | Customer | Industry | Empl. | Revenue | Country | Vendor | Application | Category | When | SI | Insight |
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ASML | Manufacturing | 44027 | $35.9B | Netherlands | Ansys Inc. | ANSYS Optical Measurement Device | Optical Simulation and Design | 2014 | n/a |
In 2014, ASML integrated ANSYS Optical Measurement Device into its engineering toolchain for Optical Measurement and Simulation. The initial deployment targeted the creation of a complex multitool thermo-opto-mechanical model to evaluate CO2 laser beam quality in a high power mirror system, positioning ANSYS Optical Measurement Device as the core multiphysics simulation engine for optical metrology workflows.
The implementation included multiphysics thermal and structural coupling combined with optical propagation and beam quality analysis capabilities, configured to represent mirror heating, deformation, and resulting optical aberrations. Functional modules and capabilities implemented included finite element thermal and structural solvers, optical measurement instrumentation interfaces, beam propagation and wavefront analysis routines, and model parameterization to support iterative design studies and sensitivity analysis.
Integration architecture linked ANSYS simulation outputs with ZEMAX optical prescriptions, Matlab processing scripts, and SigFit beam profile fitting tools to create a coordinated thermo-opto-mechanical workflow. Data exchange between the tools enabled transfer of deformed surface maps from ANSYS into ZEMAX for optical performance evaluation, Matlab for signal processing and automation, and SigFit for empirical beam quality fitting, supporting engineering and optical metrology teams responsible for high power laser subsystem development.
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Cornell University | Education | 11062 | $5.8B | United States | Ansys Inc. | ANSYS Optical Measurement Device | Optical Simulation and Design | 2018 | n/a |
In 2018, Cornell University deployed ANSYS Optical Measurement Device to support research and engineering measurement workflows. The ANSYS Optical Measurement Device was applied as an Optical Measurement and Simulation tool to bridge experimental optics and simulation-driven analysis across campus research programs.
The implementation emphasized optical modeling, wavefront analysis, interferometry simulation, sensor measurement emulation, and post-processing visualization capabilities, configured to support laboratory measurement protocols and experimental validation workflows. The deployment leveraged the breadth of Ansys capabilities referenced by users, enabling simulation to measurement correlation with broader finite element analysis and computational fluid dynamics outputs where researchers required multi-physics context.
Operational coverage targeted research laboratories and academic engineering and physical sciences groups, with primary users including faculty researchers, graduate students, and core instrumentation facilities. The system was used to standardize experimental measurement procedures, support advanced coursework in optics, and enable repeatable laboratory workflows.
Governance focused on configuration management, standardized measurement and calibration protocols, and researcher training to ensure reproducible results and proper instrument handling. Data handling and workflow documentation practices were emphasized to align optical measurement activities with research governance and academic publishing requirements.
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EMCORE Corporation | Aerospace and Defense | 387 | $110M | United States | Ansys Inc. | ANSYS Optical Measurement Device | Optical Simulation and Design | 2018 | n/a |
In 2018, EMCORE Corporation deployed ANSYS Optical Measurement Device to support the design and development of Fiber Optics Guidance FOG and navigation systems built to Mil-Std-810. The ANSYS Optical Measurement Device was applied within EMCOREs Optical Measurement and Simulation toolset to underpin structural, thermal, and thermomechanical design activities for inertial measurement units IMUs and related opto mechanical assemblies.
EMCORE used the ANSYS Optical Measurement Device alongside COMSOL for finite element analysis driven model development, implementing thermal and structural experiments at component, subsystem, and system levels to validate FEA models. The implementation supported vibration, shock, acoustic, and thermal analysis and testing workflows, correlating measured optical and sensor outputs with simulation results to iterate mechanical and thermal design.
Operational coverage included product engineering and mechanical design teams responsible for IMU development, additive manufacturing of metallic and polymeric components, and hermetic and non hermetic Lithium Niobate modulator design. Engineering maintained product drawings, BOMs, and engineering specifications in a PLM system, while the product technical lead managed device requirements, DVT and V&V execution, customer interface, contractors for optical transceiver development, and supplier relationships.
Governance and process changes centered on embedding simulation led verification into design reviews and test plans, formalizing requirements and V&V flows that tied ANSYS Optical Measurement Device outputs to laboratory test execution. The deployment emphasized model validation workflows and cross functional coordination between simulation engineers, test labs, and supply chain for optical transceiver and modulator components.
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