Category: optis

OPTIS_SPEOS_CAA_V5_Based_v2017 _Manual_training_download_torrent

OPTIS_SPEOS_CAA_V5_Based_v2017 _Manual_training_download_torrent

SPEOS is the only optical solution integrated in your CAD software: CATIA V5, NX, Creo, and SOLIDWORKS.

At OPTIS, we know that optical simulation cannot be completely separated from the mechanical design world, because optics impacts on so many parts of the overall design process. Every simulation must be included in the CAD/CAM package, to consider the interactions of photons with mechanical geometries.


You can thus work with SPEOS at any stage of your design process to:

  • Better understand and control the behavior of light in your product
  • Easily improve your product to ensure its efficiency and compliance to standards

The intuitive approach of the SPEOS interface, associated with its advanced features, makes it easy to use for experts as well as non-specialists in optics, in a wide range of industries.

SPEOS improves the speed of design and rendering of optical and optoelectronic devices such as vehicle lights, displays, and cameras. Engineering designers can now model complex integrated mechanical and optical engineering tasks seamlessly with their CAD software.

Gain time and quality with High Performance Computing

SPEOS virtual simulation is largely used in industry today and it has a great impact on work habits: It allows users to explore and evaluate all any idea, faster than ever. The consequence, is an increasing demand for computing resources.

Imagine you can now obtain your simulation results within minutes instead of hours? What will be the impact on your design process?

This is now done! With no compromise on quality, SPEOS is now fully compatible with High Performance Computation! You distribute SPEOS calculation on several computers using “on Premises” or “in the Cloud” clusters.

In line with industrial timeframes, you can take full advantage

Choosing material textures has never been so easy

To assess your design, you need to experience different materials. Color is important and texture is key: grained, brushed, veined, there are more than 400 words to describe a texture. Texture will inspire your design and help to avoid bad surprises, like a dangerous reflection on the windshield of a car.

OPTIS has always been a leader in simulating materials. Thanks to “texture mapping” you can simulate the exact effect and the perception of textured materials.




ASAP NextGen, a product of more than 30 years of continuous development, is not only the next step in the evolution of the ASAP program, but a complete re-imagining of the ASAP environment. ASAP NextGen offers engineers and product designers a host of new features making it the easiest to use ASAP ever and greatly improving on the unmatched capability, flexibility, speed and accuracy for which ASAP has long been known. ASAP NextGen is a new paradigm in optical simulation software for predicting the real-world performance of automotive lighting, imaging systems, luminaires, lightpipes, bio-optic systems, medical devices, displays and coherent systems.


ASAP NextGen Features
Optics Manager

A brand new easy-to-use interface presenting users with a familiar CAD-like tree structure. Using simple menus, context sensitive dialogs and the included ASAP Catalogs, users can create a variety of optical surface and geometric entities, import CAD geometry, add optical properties, add a light source, and setup ray tracing and analysis options. Components are shown as nodes in the tree, and the new persistent 3D viewer automatically updates to reflect changes in the system prescription. The as-defined system can be run with a single mouse click and saved for later use. And the new Optics Manager in ASAP NextGen functions without a single line of script!

Automatic Script Creation

Speaking of script…ASAP NextGen offers another industry first for optical design software. Once systems are constructed in the Optics Manager, ASAP NextGen will automatically create a working script from the complete system prescription. Users needing access to ASAP’s powerful scripting language can immediately modify and run these scripts to add multi-variable analysis or optimization using the new Optimization Manager to their design tasks.

Parallel + Remote Distributed Processing

Introducing another new paradigm for ray tracing speed and efficiency, ASAP NextGen with CoreMax technology will automatically run parallel processes on all cores on a local PC as well as all cores on up to (5) Remote licenses of ASAP installed on the LAN. In addition, users can control the number of cores accessed on each machine. This combination of parallel and remote distributed processing is another industry first and will make ASAP NextGen the fastest ray tracer with the highest level of computing power of any commercial optical design software.

Workflow Manager

Provides quick and easy access to command menus for those users less comfortable with but who still need scripting in ASAP NextGen. Commands can be found in the Search box or in the Workflow Manager tree which has been organized around the standard 4-step simulation process in ASAP…geometry, sources, ray tracing and analysis. Menus are clearly labeled to show the exact information needed to construct the command and ASAP Help is built in to the Workflow Manager dialog. Completed commands are then automatically inserted at the cursor location of the active script.

Alternate Scripting Languages

Newly added support for C# and Iron Python as alternate scripting languages with built-in code parsing and debugging. Enhanced support for Visual Basic. Provides extensible code base for these languages.

Major Improvements to Existing Features

Script Editor

New extensible Script Editor with an improved user interface and more control over script syntax, appearance, and keyboard shortcuts. Provides one-click access to new Optimization and Macro Managers and $SCR Editor.


New optimization interface integrated directly into the Script Editor. Automatically parses INR script to find defined variables for use as Design Variables, Constraints, or Merit Functions. Optimization conditions and visual output at run-time are visible within the INR script window.

Macro Manager

New feature that automatically parses ASAP Scripts to find macro code which is presented as a list. One-click access to the list allows direct editing of each macro and changes are automatically updated to the Script Editor.

$SCR Editor

New $SCR Editor acts as a simple two-way forms editor with one-click access to text, integer, and floating point input. Editor automatically generates corresponding ASAP script and updates to script are automatically seen in the $SCR form.

RSoft_Photonic_System_Design_ Suite_ 2017_training_manual_torrent

RSoft_Photonic_System_Design_ Suite_ 2017_training_manual_torrent

RSoft Photonic System Design Suite Version 2017

Discrete Multi-Tone Modulation Format for Automotive and Ethernet Links

In the RSoft OptSim™ tool, new discrete multi-tone (DMT) modulation format functions are available in the digital signal processing library to model and simulate DMT-based data links. The DMT format uses light intensity for modulation over multiple subcarriers, which provides higher spectral efficiency. It is particularly useful for optimizing the performance of short-reach applications such as automotive data links, access networks as well as 100G and 400G Ethernet-based data center links.

Latest AIM Photonics Process Design Kit and PDAFlow Libraries for PIC Design

The RSoft OptSim Circuit tool includes the latest American Institute for Manufacturing Integrated Photonics (AIM Photonics) Process Design Kit (PDK), version 1.0b. The PDK helps PIC designers access leading-edge silicon photonics technology to generate PICs for fabrication through AIM Photonics multi-project wafer facilities. OptSim Circuit users will be able to access the PDK elements, generate schematics and simulate circuit performance prior to exporting net lists for mask generation. In addition, OptSim Circuit includes new and updated libraries for supporting PDAFlow-compatible PDKs for PIC fabrication.

New Design Features for Large-Core Multimode Fiber Optic Systems

The RSoft ModeSYS™ tool includes new features for the design and analysis of large-core multimode fiber optic systems used in applications ranging from mega data centers to automotive data links:

  • Support for large-core fiber power-versus-angle signal domain across select models. The feature extends the large-core multimode fiber’s numerically efficient power-versus-angle approach for signal propagation to other models in ModeSYS to model a complete data transmission link.
  • A new large-core connector model that is computationally more efficient than conventional spatial field-profile based connector models.

RSoft Photonic Component Design Suite Version 2017

New and enhanced features in the RSoft Photonic Component Design Suite version 2017 include:

  • Sentaurus TCAD interface usability improvements, including support for dispersive materials and dynamic updating of materials and simulation domain. The RSoft-Sentaurus TCAD interface enables unified simulation of advanced opto-electronic devices.
  • Support for general monitor objects in BeamPROP. This allows broader use of BeamPROP with the Sentaurus TCAD interface for applications such as waveguide photodetectors. Speeds simulations of waveguide photodetectors by as much as 100x.
  • Improved BSDF scattering calculation, including more robust scattering calculations of polarization-dependent effects.
  • Enhanced RSoft CAD environment hierarchy features, including the ability to publicize design variables and allow a wider range of variables such as material choice. This enhances the ability to generate reusable sub-circuits and is utilized in the unit cell library for the dynamic array feature.
  • Updated remaining 32-bit utilities, including MOST™, to 64 bit.



Automotive Forward, Rear and Exterior Lighting Design Software

The LucidShape product family provides a complete set of design, simulation and analysis tools for the development of automotive forward, rear and exterior lighting. Backed by cutting-edge, proprietary algorithms to calculate optical surfaces optimized for automotive applications, LucidShape empowers designers to develop, verify, visualize and deliver high-quality designs while reducing product development time.

LucidShape Updates

LucidShape version 2017 includes the following new features for automotive lighting design:

  • Automotive headlight analysis based on the U.S. Insurance Institute for Highway Safety (IIHS) headlight test guidelines. This allows designers to perform these types of analysis: Illuminance-based visibility range testing, glare test for oncoming traffic, and overall headlight results, ranging from good to poor.
  • The new MacroFocal Torus Optic tool, which creates pillow optics and cylinder flutes for decorative styling. It is particularly useful for designing signal lights and tail lights, but can also be used to create and adjust any pillowed surface on a grid. The Torus Optic tool works with the proprietary algorithms in LucidShape software to automatically calculate and construct optical surfaces based on user-defined illuminance and intensity patterns.
  • Improved organization and usability of the UV Data Properties dialog box. It has been rearranged into four sections to: ranges and presets, data display, overlay, and color tone mapping. In addition, the UV Data Properties dialog box now includes the ability to define presets for display properties and custom isolines.



LightTools: What’s New

LightTools 8.5 includes new and enhanced features for the design of optical components used in general lighting systems, freeform optics, light guides and backlit displays.

Conformal Surface Receivers

LightTools 8.5 introduces an expanded set of mapping options for surface receivers on non-planar surfaces, known collectively as conformal receivers. New in this version are spherical and UV mesh mapping options, which eliminate the need to project illuminance data collected on complex surfaces onto planar meshes, and make interpretation and optimization much easier. Designers can vary the number of bins in the mesh or set the desired bin size, and use the same filtering, analysis and optimization capabilities that exist for planar meshes. Conformal receivers can be particularly useful for analyzing complex elements such as freeform surfaces combined with LED sources.

Expanded Visualization of Illuminance Results

LightTools displays a raster image of illuminance output in its 3D Design view so that designers can visualize the orientation and distribution of illuminance data relative to model geometry. This capability has been expanded to receivers on most surface types in LightTools. In addition, the appearance of the illuminance data can be controlled by settings for color scheme, scaling, and linear and logarithmic settings, as well as contours, mesh lines, smoothing and lit effects.

Parameter Sensitivity Analyzer

The new Parameter Sensitivity Analyzer automates analysis of the impact of system variables on specified performance metrics, helping you quickly reach an optimal design solution. Key features include support for multiple configurations, parameter lists for non-uniformly spaced variable states and non-numeric variables, and the ability to run scripts after variable values are changed or after each evaluation cycle is complete. Supports multiple chart views for detailed performance analysis.

Improved Freeform Designer

The Freeform Designer assists with the design and optimization of freeform reflective and refractive optical surfaces based on an illuminance or intensity target distribution, source collection angle and distribution, as well as other geometry settings. A new conic lens option provides greater flexibility for surface definitions, including the ability to define a flat surface displaced from the source. The conic lens option is a powerful tool to increase the collection efficiency of point and extended light sources used in compact, energy-efficient illumination systems.

Enhanced Light Guide Designer

The design of light guides that are meant to emit light evenly along the length of the pipe can be a challenging design problem. The Light Guide Designer automates the design process, providing tools for constructing, analyzing and optimizing light pipes and their extraction features to improve output. New profile shapes, geometry controls and analysis improvements enhance the tool’s flexibility and ease of use, and provide more options for innovative shaping and improved efficiency.

Expanded Example Model Library

LightTools includes an extensive collection of example models that helps designers quickly build and simulate illumination designs. The library has been expanded with new models to help users take immediate advantage of new capabilities in version 8.5, including:

  • Conformal receiver example on the dome of an LED light bulb
  • 3D illuminance visualization example on the baffles and back reflector of a luminaire
  • Parameter sensitivity analysis example on a backlit display with LED edge sources. The analysis measures and optimizes luminance uniformity of the display while keeping LED source placement symmetric
  • Example models that demonstrates how to use the Light Guide Designer to create a square cross-section light guide with optimized spatial luminance and angular pointing as well as a light guide with user-defined profile shape and optimized light direction targets


Synopsys_Code v_11_training_manual_torrent

Synopsys_Code v_11_training_manual_torrent

CODE V: What’s New

Enhanced MTF Optimization

In CODE V version 11.1, optical designers can now directly access through-focus MTF during lens system optimization, which facilitates fast, accurate improvements to MTF symmetry over focus without the need to manually adjust lens system parameters. This feature can be particularly useful for determining the optimal location of sensors relative to compact camera modules to improve manufacturability.

Improved Visualization of Small Lenses

The CODE V visualization tools Display Lens (VIE) and Draw Lens (DRA) are enhanced in version 11.1 to improve rendering of small, highly aspheric lenses, such as those found in smartphones.

CODE V SpecBuilder and SpecEvaluator Tools

CODE V version 11.0 introduces the CODE V SpecBuilder™ and SpecEvaluator™ tools. Optical system designers typically use a table of specifications and goals to describe the requirements and design objectives for an optical system. In CODE V, you can use the SpecBuilder tool to create a Specifications and Goals Table. At any point in your project cycle you can use the SpecEvaluator tool to evaluate your optical system against specs and goals to help ensure that a design meets specs, as well as to maintain continuity and consistency between design versions, multiple designers and design phases.


The simple, intuitive CODE V SpecBuilder tool lets you quickly build a complete set of optical design project specifications and goals.

  • Provides a structured way to agree upon, document, track and report on requirements throughout the life of an optical design project
  • Includes a wide variety of specifications based on Synopsys optical engineering and industry expertise
  • In addition to a wide range of pre-built specifications, is highly customizable using CODE V Macro-PLUS™ to include specialized metrics
  • Brings high-level attention to the importance of defining and monitoring specifications at all stages of a design


The CODE V SpecEvaluator tool allows you to instantly assess your optical system design versus project specifications.

  • Single-click update runs evaluations to gauge design progress and help keep your project on track
  • Incorporates quality monitoring into the design process and helps manage project quality assurance to avoid errors or miscommunications, especially in multi-team environments



New tools tackle stray light and simulate more photoluminescent materials, plus mobility and usability improvements increase ease of use

New stray light analysis tools help identify and block unwanted rays in optical systems and streamline stray light analysis to deliver accurate, consistent results faster. Optical engineers working on biomedical, automotive lighting, and other applications that use phosphors and fluorescent materials can now model a wider range of these materials. Usability improvements include faster rendering of analysis windows, and faster results in Layout plots and Shaded Model plots when modifying designs. Plus, you can now transfer your soft key license from one computer to another in two easy steps. This release includes the new Bernhard Halle Lens Catalog, new Nikon Material Catalog, and updated catalogs from NHG, Ohara, Zeon, and Hoya.

OpticStudio 16.5’s new stray light analysis tools help identify and block unwanted rays in optical systems and streamline non-sequential stray light analysis to deliver accurate, consistent results faster. New capabilities include:

  • Measure the impact of mechanical mounts or the effects of stray light with the new   Non-sequential geometric MTF calculation
  • Isolate critical data quickly and specify the quantity of rays to investigate in Ray Database filesby by using new ZRD Filter strings
  • Quickly display stray light paths in the Layout and Shaded Model system viewers by using new Filter strings to limit the number of rays


Available in Premium Edition OpticStudio 15 introduced modeling for phosphors and fluorescent materials. Based on user feedback, we expanded this capability in OpticStudio 16.5 so you can model a wider range of phosphors and fluorescent materials. New capabilities include:

  • Simulate photoluminescence in non-scattering materials more accurately with the newly decoupled Mie scattering and wavelength shifting
  • Modify the color temperature of phosphors and fluorescent materials with the new Photoluminescence Mean Free Path setting
  • Use the new Photoluminescence Mie Particle Density setting to increase angular uniformity and reduce color-over angle effects


Zemax OpticStudio V15_SR1

OpticStudio 15 adds speed, capability, convenience, and flexibility to the most widely used optical and illumination design software in the industry.

  • Optimize classic lens designs 18x faster, easier, and with better results
  • Added mobility for multi-user network systems with software licensing
  • Incorporate high-resolution holograms and phase masks into optical system designs
  • Deeper, easier visualization of 2D/3D optical system designs
  • Faster Optimization for Classic Lens Designs (All Editions) – a new merit function wizard in OpticStudio 15.5 enables separate, user defined glass and air boundary constraints for each surface of an imaging or afocal system. Splitting the constraints into separate targets delivers speed improvements up to 18x faster with better results.
  • Deeper Visualization of 2D/3D Systems and Data (All Editions) – usability improvements in OpticStudio 15.5 enable you to see multiple aspects of your designs, easier, faster and with greater detail. Improvements include:
    • Active overlay for analyses to combine similar data onto a single plot for easy comparison.
    • 2D/3D layouts now support 3D space mouse devices and improved annotation for better visual control.
    • Through-focus-spot and full-field-spot analyses now support dynamic data visualization controls for deeper, detailed visual analysis.


LucidShape is the most powerful and advanced computer aided lighting (CAL) design software for automotive lighting design tasks. With dedicated algorithms optimized for automotive applications, LucidShape facilitates the design of automotive forward, rear and signal lighting, and reflectors.LucidShape_2.0

LucidShape FunGeo

LucidShape FunGeo is the ultimate tool to help you quickly and easily create reflector or lens geometry. It leverages proprietary algorithms that automatically calculate and construct optical geometries based on user-defined illuminance and intensity patterns. This unique, functional approach gives you the the freedom to focus on overall design objectives rather than the implementation details of complex optical components.


Accelerate LucidShape illumination simulations with GPUTrace and experience a quantum leap in speed! LucidShape is the first optical simulation software to take advantage of graphics processing unit (GPU) computing to deliver simulation speed increases by orders of magnitude compared to multithreading capabilities.

Visualize Module

LucidShape’s Visualize Module delivers high-speed photorealistic images of an automotive lighting system’s lit appearance, which demonstrate luminance effects when light sources in a model are illuminated. Because the Visualize Module depicts all interactions between system geometry and light sources, it provides designers with a physically correct diagnostic tool for evaluating how a lighting system will be perceived by the human eye. This is particularly important for evaluating automotive components such as turn signals and brake lights. The Visualize Module is a fast, reliable engineering tool that enables designers to perform design checks and make improvements early and often in the product development process.

2010 01 crack software download

2010-01-31 CSI Etabs 9.7
2010-01-30 Gerber.AccuMark.Family.v8.3
2010-01-29 SolidWorks 2010 SP2.1 Updates
2010-01-27 ESI Visual Environment v5.5 Win32_64
2010-01-27 FeatureCAM 2010 SP4 v16.4.0.20 Full Multilanguge
2010-01-26 Pitney Bowes MapInfo Pro 2010 v10.0.1.220
2010-01-26 Bentley.AutoPIPE.8i.v09.01.01.02
2010-01-25 Bentley.PULS.XM.V8.9.0.28
2010-01-25 Fluent Gambit v2.4.6
2010-01-24 PowerMILL v10.06 & SP5
2010-01-22 ESI PAM-STAMP 2G 2009 Win32&64
2010-01-21 CSI Safe v12.2.0
2010-01-20 Oasys GSA Suite v8.4 build 17
2010-01-19 Logopress3 2010 SP0.4 for SolidWorks 2009 SP5-2010 SP2
2010-01-18 PTC Pro Engineer Wildfire 5.0 M020
2010-01-17 Accelrys.Materials.Studio.v5.0.WiN32
2010-01-16 Aptech.GAUSS.v10.0.0.1276
2010-01-16 NCSS.PASS.2008.v8.0.13
2010-01-15 TracePro 6.0.1
2010-01-14 PTC.Pro.Toolmaker.v9.0.WiNNT2K
2010-01-14 Transmagic.Expert.v8.WiNNT2K
2010-01-13 PTC.PRO.ENGINEER.WILDFIRE.V4.M120. for win32 _win64
2010-01-12 SOLIDWORKS.V2010.SP2.0.UPDATE.ONLY for win32 &win64
2010-01-12 3DQuickForm v3.0.3 for SolidWorks
2010-01-11 Bentley RAM Concept V8i
2010-01-10 Mastercam.X4.Maintenance.Update.2
2010-01-10 Think3.ThinkDesign.2009.3.110.190.MULTILANGUAGE
2010-01-09 SAS.JMP.Statistical.Discovery.v8.0.2
2010-01-08 Camnetics.CamTrax64.v2010
2010-01-08 Camnetics.GearTeq.v2010
2010-01-08 Think3 Design Xpressions v1.107.78.2008
2010-01-08 Bentley InRoads Suite V8i (
2010-01-07 Autodesk AutoCAD MEP v2010
2010-01-07 Progman Oy MagiCAD 2009.5
2010-01-06 Vamos v5.7.2 for Catia v5R18
2010-01-06 Camworks 2009 SP2.2 Win32
2010-01-05 DP.Technology.ESPRIT.2009
2010-01-04 Chaos Systems TopoCAD 12.0
2010-01-03 SolidWorks Flow Simulation 2010 SP1.0
2010-01-02 SOLIDCAM2009_SP3
2010-01-01 SOLIDWORKS.V2010.SP.1.0.UPDATE.ONLY for win32 &win64