ASAP Pro

Capability

The product of more than 30 years of continuous development, ASAP is able to simulate the physics of more optical systems than any other program available. ASAP unites geometrical and physical optics with full 3D models of optical and mechanical systems. Built-in graphical tools allow visualization of model geometry, ray-trace details, and results analysis. ASAP handles it all, including scattering, diffraction, reflection, refraction, absorption, polarization, and Gaussian beam propagation.

Flexibility

ASAP is now interoperable with many CAD programs. ASAP can be configured to open native CAA V5 CATIA® files from the program by Dassault Systemes, to write ASAP-specific GTX files from within SolidWorks®, the program by SolidWorks Corp., to write ASAP-specific IGES files from within Rhinoceros®, the program by McNeel Associates, and to import IGES files from other CAD programs — numerous options for accurate, seamless geometry transitions into ASAP.

ASAP is also able to import (and export) complex vector field distributions from the finite-difference, time-domain code FDTD Solutions™, by Lumerical. Together, ASAP and FDTD Solutions are able to handle both macroscopic optical systems and microstructures in an elegant manner. No other software combination spans such a large optical space.

Speed

The speed-optimized ASAP non-sequential ray-tracing engine is the fastest available, and without the accuracy-compromising surface approximations of other programs. Model almost any conceivable geometry in a single working model, and analyze the behavior of your system in hours instead of weeks.

Accuracy

Optical system designers in 35 countries rely on ASAP for virtual prototyping with great accuracy and confidence. ASAP will model the finest details, which means you can depend on your simulation results to mirror real-world performance.

ASAP Benefits

With ASAP, you get the most sophisticated software program available for creating optical solutions in-house — everything you need to create without compromise and reduce your product development timeline.

Benefits

Comprehensive modeling capabilities for producing groundbreaking, innovative optical designs without costly experimental prototyping iterationsExclusive interoperability features to address a whole range of problems inaccessible with other software programsThe fastest non-sequential ray-tracing engine availableResults you can count on every time

ASAP PRO

This PRO edition of ASAP is everything you need to turn your creative visions into working prototypes, taking into consideration the most complex of optical phenomena and interoperability challenges.

ASAP PRO Features

As the name implies, ASAP PRO is for your toughest optical engineering challenges

ASAP® PRO combines the design power in the standard edition of ASAP with sophisticated features for modeling coherent systems, including Gaussian beam propagation, finite-difference beam-propagation, double-precision ray tracing, and polarization ray tracing. The resulting package is everything you need to turn your creative visions into working prototypes, taking into consideration the most complex of optical phenomena and interoperability challenges.

In addition to fully-featured CAD interoperability and wave optics power, ASAP PRO will import lens-design application files from CODE V®, OSLO®, SYNOPSYS™, and ZEMAX®, and is interoperable with the finite-difference time-domain code FDTD Solutions™. Together, ASAP and FDTD Solutions handle both macroscopic systems and microstructures in an elegant manner — a first in the optics industry. No other software combination spans such a large optical space.

ASAP PRO includes a distributed-processing capability allowing you to complete big design jobs in a fraction of the time required by other tools — spawn up to 5 additional ASAP sessions on your Local Area Network (LAN), without leaving your desk.

Key ASAP PRO Features

NEW Run ASAP on 64-bit Windows Vista/7 Business and Ultimate EditionsNEW Model both TIR and scatter at rough surface interfacesNEW Define nonlinear system object arrays using the ARRAY commandNEW Create Abg (linear-shift invariant) and K-Correlation scatter modelsENHANCED Use sources by Bridgelux, Cree, Lumileds, Nichia, and OSRAMENHANCED Use the enhanced ZEMAX-to-ASAP translator to create INR filesBuild system models requiring large numbers of objects and sourcesModel optical and mechanical system componentsModel imaging systems, illumination systems, and light-concentrating devicesModel visible, ultraviolet, and infrared radiation in optical systemsModel surface (BRDF) and volume scatter (pre-defined or custom)Model propagation in optical fibers and fiber couplingModel radiometry of complex systems, including radianceVisualize, analyze, and monitor light distributions using conformal radiometryModel polarization and coherent effects in optical systemsCharacterize liquid crystal materials using the ASAP Liquid Crystal Cell (LCC)Define uniaxial materials with the ASAP General Uniaxial Medium (GUM)Simulate devices and track polarization information in Stokes-vector modeModel components that alter degree and state of polarization as MUELLER devicesModel display backlight units with polarization recyclingRender system geometry, raytraces, and light sourcesPropagate and analyze wavefronts using Gaussian-beam decompositionPropagate in microstructures using the ASAP beam-propagation methodPerform double-precision ray traces and analyze individual ray historiesPerform numerical and graphical CIE/Chromaticity analysesOptimize optical systems with the ASAP Optimization interfaceSave, review, and resume optimizations in progress with ASAP .osf filesTolerance optical systems in the ASAP Builder interface or scriptsImport systems from CODE V®, OSLO®, SYNOPSYS™, and ZEMAX®Import/export complex vector-field distributions from FDTD Solutions™Import measured source data such as Radiant Sources™Import/Export Photometric Data in EULUMDAT and IES LM-63-02Import data from images using the BRO Digitizer™Use SolidWorks® 3D CAD software with ASAP (license optional)Write ASAP-specific GTX files from within SolidWorksAssign object and layer names in SolidWorksWrite ASAP-specific IGES files from within Rhinoceros®Import/Export IGES files using the ASAP smartIGES™ translatorImport geometry and optical properties using the XML file formatIntegrate scripts in Python, VBscript, Jscript, and other languagesUse pre-defined LED, CCFL, incandescent, and arc sourcesDrag-and-drop sources, lenses, glasses, scatter models, and coatingsBegin your simulation with one of 600+ example filesPerform distributed processing tasks using the enhanced REMOTECreate your own custom workspace within ASAP