MARC H. EBERLE
123 Dove Valley Road
Pie Town, NM 87827
(575) 772-2941 Home
(505) 980-0223 Cell
SUMMARY:
Highly fluent C, C++, C#, Windows, LabVIEW, MATLAB, hardware, software and electrical engineer with 25+ years experience. Recent experience in designing and modeling circuits using pSpice. Fluent in parallel programming, IDL, X-Windows, Macintosh, and Unix. Familiar with firmware programming using FREESCALE, ACTEL, and ALTERA systems.
Q cleared.
EDUCATION:
M.S. in Electrical and Computer Engineering - University of New Mexico - 1992
B.S. in Engineering Science - California Polytechnic State University - 1984
General Electric Field Engineering Program - Basic and Advanced - Schenectady, NY - 1985
PUBLICATIONS:
The Functionality and Performance of the FORTE RF Antenna System - 1999
Will charged-particle systems redefine high-density storage? - Data Storage Magazine - 1997
Implementation of Model Reference Adaptive Controllers - UNM Master’s Thesis - 1992
PRODUCTS:
TOPO3D - High Performance, Vector, Interactive 3D Topo Maps – 1996
OptoMag – Optical magnetic mass flow controller. - 1995
TransferPRO for Windows - Macintosh to Windows File Transfer Package - 1993
AWARDS:
2010 R&D 100 Award Winner – Ultraconductus – The World’s Ultimate Electrical Conductor
EXPERIENCE:
LOS ALAMOS NATIONAL LABORATORY – International and Applied Technology Division – Applied Electromagnetics Group – R&D Engineer and Laser Safety Officer (1998 – Present)
Currently working on the Angelfire project developing C# and C++ code to view multiple streams of realtime video overlayed on a globe similar to Google earth. Other work includes automating a laser chemical vapor deposition system. Responsible for specifying, acquiring and developing the entire automation system which involves IR cameras to remotely measure the temperature of the laser/fiber reaction point inside a vacuum chamber. Developed an antenna model using Matlab and Simulink for an RF cell phone detection system. Developed software in IDL (Interactive Data Language) for analyzing telemetry data and mapping the response in 3D of an antenna satellite in low earth orbit (FORTE – Fast on Orbit Recording of Transient Events). Obtained the data for mapping the antenna pattern of the satellite using the Los Alamos Portable Pulsar – an electromagnetic pulse generator and 50 foot dish antenna used to send a high frequency, low duration pulse to the satellite. Also responsible for developing data acquisition and control user interfaces in Visual C++ and MATLAB for GPIB instrumentation.