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IBM Builds First Graphene Integrated Circuit
AffidavitDonda writes "IBM researchers have built the first integrated circuit (IC) based on a graphene transistor. The circuit, built on a wafer of silicon carbide, consists of field-effect transistors made of graphene. The IC also includes metallic structures, such as on-chip inductors and the transistors' sources and drains. The circuit the team built is a broadband radio-frequency mixer, a fundamental component of radios that processes signals by finding the difference between two high-frequency wavelengths."
Remember when it used to be first, by a huge margin?
C is still more wisely used by a huge margin. Just because you "enterprise" developers don't use it (despite the infrastructure of your managed languages being written in C and C++) doesn't change that.
Within a generation, it'll be in the same class as FORTRAN - only used to support legacy apps.
Yeah right. What are you going to write your kernels in? What are you going to use for those millions if not billions of microcontrollers that will still be in use that can't run a JVM? What exactly are you going to write your VMs and interpreters in? Right, they will have to be written in a C or C++ and assembly.
Wow, you're full of shit. Graphene isn't useful for digital circuits at all (at least yet) because it has crappy on-off ratios, but GHz are most definitely useful for radio work.
Remember how everybody's using their mobiles for everything these days, and streaming video keeps getting more popular and higher bitrate? Well, when you run out of spectrum below 5GHz (where all mobile networks currently operate), getting up into the 10-100GHz range is extremely useful to provide that extra bandwidth.
Since nobody but actual electrical engineers seems to know anything about radio anymore (used to be a common hobby for geeks, but I guess it's not "cool" anymore), let me explain one application of a mixer like the one described in TFA. You can use it to make a transverter, which takes a signal from your UHF radio (maybe a mobile phone, wifi card, whatever), and kicks it up to ~10GHz for transmission. And flips received signals back down to the original ~2GHz band.
Not impressed? Sure, 10GHz isn't much, we can easily beat that already -- it's only a prototype. But it's quite likely we'll have 100GHz-1THz in the lab inside a year, and on the market in ~5. There's a whole lot of bandwidth north of 30GHz, and (as long as you stay out of absorption bands like O2 at 60GHz, which limit you to short-range stuff like wifi/bluetooth replacements), it's eminently usable for urban cellular networks -- if you have the ICs to handle it.