That's the hard part. To make something like this into a real product it would need the full support of one of the top semiconductor companies. This is one of the main reasons the technology hasn't left academia.
The device you describe is very hard to make. The one I'm thinking of can be done in a relativity a large geometry with standard CMOS methods and achieve THz performance. If I could get a demonstration of that it would rock the industry. I've been a member of the IEEE electron devices group for 20 years and there are plenty of papers that show what I want to do is feasible and yet there is no device like the one I want to make.
I already have this figured out. You are missing one key concept that makes nano tubes very fast. How can I get funding to make this happen?
That's the hard part. To make something like this into a real product it would need the full support of one of the top semiconductor companies. This is one of the main reasons the technology hasn't left academia.
The device you describe is very hard to make. The one I'm thinking of can be done in a relativity a large geometry with standard CMOS methods and achieve THz performance. If I could get a demonstration of that it would rock the industry. I've been a member of the IEEE electron devices group for 20 years and there are plenty of papers that show what I want to do is feasible and yet there is no device like the one I want to make.
I would be happy to have a meeting to discuss this further! What is your email so we can schedule something?
I sent you a Linkedin request the other day with a link to my proposal. Thanks
Hi Steve, I didn't receive a request. We are "Opened Hardware" on Linkedin, and feel free to email colby@openedhardware.com with the proposal