I graduated in 1992 and made a short move to Caltech to study Computation and Neural Systems, a multidisciplinary degree which covers everything from information theory to computer graphics to neural networks to measuring the behavior of individual neurons in rats.  The core curriculum of Mudd was great preparation for this, giving me a broad enough background to do well across all of that.  I finished my Ph.D. in 1999, with a thesis titled “Real-Time Rule-Based Analysis and Generation of Music” — which also leveraged the music courses I took at Scripps.

I then moved up to Silicon Valley and worked for 6 years at Foveon, an image sensor / digital camera startup, where I wrote software and firmware for digital cameras.  With a physics degree, I understood not only the software, but also the semiconductor physics and optics that happen before the image is captured, and I was comfortable enough with an oscilloscope to do hardware debugging as well.  That flexibility is particularly important at a startup, where there are few enough engineers that everyone need to be good at several things.

After Foveon, I worked a year and a half at Carrier IQ, a startup which does cell phone-based diagnostics and analysis of Sprint's mobile phone network.  All those E&M courses helped me understand how CDMA and GSM work, so I could determine what types of information would be most useful to read from phones.

In 2007 I started at Google, where I've now been for 5 years.  I’ve worked on Google Earth, written Python-based build systems, and for the last 3 years I’ve been the firmware lead for Chrome OS, Google’s new open-source browser-based operating system.  And yes, I still have an oscilloscope at my desk.

In the 20 years since graduating with a physics degree from Mudd, I’ve been unemployed, well, never.  I’ve also never had a job title of “physicist” or “scientist” — but every physics course I took at Mudd has been useful at one time or another.

So what do I think about a physics education some 30+ years after graduation? Would I do it all over again? There's absolutely no question in my mind. For anyone entering virtually any of the engineering or science disciplines, with maybe the exception of organic chemistry, an undergraduate physics education is invaluable. I went on to the Department of Aeronautics and Astronautics at the Stanford School of Engineering for my Ph.D., and my HMC physics degree was a major advantage in practically every class I took and in my thesis research. In addition, in my years as a technical contributor, having the breadth and depth that a physics degree provides made me much more versatile than my colleagues who studied some branch of engineering. I was able to apply basic concepts from E and M, dynamics, optics, and even basic nuclear physics / relativity theory / quantum mechanics to solving problems and inventing new techniques. The ability to understand physical phenomena and apply basic principals to analysis and problem solving is directly related to the solid foundation that I got as a physics major. The colleague with whom I had my most successful collaboration, by the way, has a Ph.D. in physics (with engineering subjects, from the Sorbonne) and my former boss has a degree in Engineering Physics from Cornell---just indications of how a physics degree is a key building block to a successful technical career.

Congratulations on the department's recent vigorous activity! It sounds great in that it provides more research opportunities for undergraduates....

It turns out that Physics was a great intro for my particular job. I started as a digital electronics design engineer and the electronics part could be handled with the few courses HMC offered. The tough part was understanding the complex interrelationships of the functional blocks of the system. My physics background helped in this area although I did spend some intensive time reading electronics books. As time progressed, my job became more of an architectural endeavour and that was where physics really started to help: architecture involves understanding the big picture, not just the details of electronics but mechanical, thermal, software etc. At one time or another I have used almost every branch of technology. Only physics gives you enough understanding of theory to let you jump in and start swinging no matter where you land.