Join us at our headquarters for TracePro Spring Training Courses 2018. TracePro is a flexible and powerful ray tracing program based on ACIS®, the industry-standard solid modeling kernel. It predicts intensity patterns in candelas and calculates illuminance on any surface. TracePro can model any surface type, and any surface can be made a source of light. TracePro features an easy and fun to use, state-of-the-art graphical Windows interface and strong data exchange capabilities with CAD and lens design software
We strongly recommend students take, or have taken the Introduction 2 day course in the past, before moving on to the more advanced classes. Please contact us if there are any questions on these courses.
A student taking all four days of training will leave with a full and complete knowledge of TracePro and its features and capabilities, and be ready to use that knowledge on a daily basis.
Introduction to TracePro: April 10th and 11th, 2018
Days 1 and 2 of our Introduction to TracePro training is an excellent option for users who have little or no experience with TracePro, as well as long- time users. The feedback we receive from this training is that everyone learns something new. We will cover all aspects of TracePro during these two days. In the first day of this two-day course we will take a TracePro model from beginning to end, starting with importing, defining, and modifying the geometry, then applying properties, defining sources, running the raytrace, and analyzing the results. Day 2 will focus on more advanced features in TracePro such as custom property creation, the macro language, Importance Sampling, advanced raytrace options, and the TracePro utilities.
Optimization with TracePro: April 12th and 13th, 2018
Days 3 and 4 is our course on Optimization in TracePro. The first day of this intensive hands-on course will cover the theory behind optimization and then provide a full overview of the 2D and 3D optimizers available in TracePro. All aspects of the optimization process, including creating the geometry, applying properties, setting up sources, and defining optimization targets will be addressed. After that we will work though several optimization examples featuring lenses, reflectors, and light guides. Day 4 picks up where the first day of this session leaves off and will cover more advanced topics in the TracePro optimizers including using the Scheme macro language to expand the capabilities of the optimizers. Additional hands-on examples will be presented including tolerancing with the optimizer and using the optimizer to select the best surface and/or material properties to meet a user defined goal.
Classes will be held at the Lambda Research Corporation headquarters from 9AM to 4:30PM every day. Directions will be provided on request.
Lodging is available at nearby hotels. Attendees are responsible for their own room arrangements and should make reservations directly with the hotel
Introduction to TracePro:
Ray tracing Overview and Principles
Importing geometry and creating geometry in TracePro
Analyzing the results
Introduction to TracePro
Review of Day 1 and Questions
Creating custom properties
The Scheme macro language and macro recorder
Raytrace options and settings
Additional analysis tools including ray tables and path sorting
Optimization with TracePro
Principles of optimization
Overview of the 2D and 3D optimizers in TracePro
Creating geometry in the optimizers
Defining optimization goals and targets
Optimization examples including lens, reflector, and light guide example
Optimization with TracePro
Using the Scheme macro language in the TracePro optimizers
Tolerancing and sensitivity analysis
Optimizing the position and rotation of CAD imported objects in TracePro
Selecting the best surface and material properties using the optimizer
Please note that the Introduction to TracePro course should be considered a pre-requisite for the third and fourth days of training.