Key Features LaserFX is an interactive high-energy laser (HEL) lethality assessment tool used at the U.S. Air Force Research Laboratory (AFRL) Directed Energy Effects Branch (RDLE). Supports the existing assessment process and enhances productivity...
SURVICE is developing LaserFX, a set of tools used by the Air Force Research Laboratory Directed Energy Directorate (AFRL/RDLE) for the assessment of vulnerability to laser effects. LaserFX employs fast ray-tracing techniques, advanced physically...
The featured article in the March issue of Manufacturing Engineering magazine discusses the growing importance of metrology equipment in the field of aircraft manufacturing. The article also features several innovative technologies, including SURVICE...
The featured article in the March issue of Manufacturing Engineering magazine discusses the growing importance of metrology equipment in the field of aircraft manufacturing. The article also features several innovative technologies, including SURVICE
SURVICE’s PMC operation out of Socorro and Albuquerque, NM, applies physically-based modeling and advanced mathematics toward solving complex engineering problems in computer software. We have a long-established history of supporting DoD and industry...
Taught by former OSD Director of Live Fire for DOT&E, Mr. James F. O’Bryon, this 3-day, intensive Short Course takes a multifaceted look at the legislation, directives, requirements, preparation, execution numerous lessons learned from Live Fire
Ron Dexter presented a paper on SURVICE's High Energy Laser (HEL) damage modeling and test project at the Directed Energy Professional Society (DEPS) Annual Directed Energy Science and Technology Symposium held March 9-13 at West Point. The DEPS
Join Christiaan Gribble (SURVICE Applied Technology Operation) on April 12-16 to discover RTX-enabled ray tracing for nongraphics applications as he presents an overview of our ray-based simulation research and development network. This conference is
The need for a standardized, ray-based simulation application programming interface (API) is stronger than ever. As such, an API will facilitate the expanding role of ray tracing throughout scientific workflows, from data evaluation and insight
