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I still love the semiconductor industry.
I spent 15 years at IBM, then five years at Freescale Semiconductor.
We have been a fabless semiconductor company for a number of years now.
One of the key things is, when you look at semiconductor companies, it's all about experience.
The Xbox is how the computer will be built in the next 20 years. More semiconductor capacity will go to the user experience.
Everyone in the semiconductor industry, everyone in the technology industry, would benefit from more diversity in the business.
My project was radiation damage of Si and Ge by energetic electrons, critical for the use of the recently developed semiconductor devices for applications in outer space.
The high-tech business, the semiconductor business, it's very competitive. You're out there every day slugging it out, no different from players slugging it out on the ice.
Broadcom is the descendent of a nearly 60-year-old unit of the original Hewlett-Packard. Semiconductor companies are like enterprise software companies: they don't die easily.
It was at Bell Labs that I first made direct contact with real semiconductor experts and thus began to fully understand what amazing materials they were and what they could do.
In the late 1960s, red and the low green LEDs and the infrared semiconductor lasers had already been developed, but there was no prospect of practical blue light emitters, even in the '70s.
They were the largest semiconductor maker in the world up until about 1980. I'm not sure that that can be re-gained again, but their progress in the last few years has been very impressive.
The next major explosion is going to be when genetics and computers come together. I'm talking about an organic computer - about biological substances that can function like a semiconductor.
Semiconductor research and the Nobel Prize in physics seem to be contradictory since one may come to the conclusion that such a complicated system like a semiconductor is not useful for very fundamental discoveries.
Well, I think first of all, probably the most fundamental thing is that we are a mixed-signal analog semiconductor company, which, along with some of the other well-known names in the industry, enjoys very good economics.
Manufacturing takes place in very large facilities. If you want to build a computer chip, you need a giant semiconductor fabrication facility. But nature can grow complex molecular machines using nothing more than a plant.
People usually compare the computer to the head of the human being. I would say that hardware is the bone of the head, the skull. The semiconductor is the brain within the head. The software is the wisdom. And data is the knowledge.
In order for the United States to do the right things for the long term, it appears to be helpful for us to have the prospect of humiliation. Sputnik helped us fund good science - really good science: the semiconductor came out of it.
For me, the ability to use semiconductor sequencing to provide a medical diagnosis in just a few hours that once took days is a crucial step in saving the lives of patients. This is particularly significant for the treatment of sepsis, where every minute matters.
Chips will continue to shrink, of course. We, along with other semiconductor companies, are continuing to push toward the next goal of 10 nm, but going beyond 10 nm will require the development of new technologies, materials, and manufacturing processes that are still being perfected.
The electronics industry expanded rapidly and the seeds for the semiconductor and software revolution were planted. The postwar period also saw the suburbanization of America, the rise of the homeowner, the build-out of the interstate highway system, and the rise of automobile culture. Credit availability expanded dramatically.