MrSeb writes: "Engineers at Caltech and the University of Victoria in Canada have smashed their own internet speed records, achieving a memory-to-memory transfer rate of 339 gigabits per second (5.3GB/s), 187Gbps (2.9GB/s) over a single duplex 100-gigabit connection, and a max disk-to-disk transfer speed of 96Gbps (1.5GB/s). At a sustained rate of 339Gbps, such a network could transfer four million gigabytes (4PB) of data per day — or around 200,000 Blu-ray movie rips. These speed records are all very impressive, but what’s the point? Put simply, the scientific world deals with vasts amount of data — and that data needs to be moved around the world quickly. The most obvious example of this is CERN’s Large Hadron Collider; in the past year, the high-speed academic networks connecting CERN to the outside world have transferred more than 100 petabytes of data. It is because of these networks that we can discover new particles, such as the Higgs boson. In essence, Caltech and the University of Victoria have taken it upon themselves to ride the bleeding edge of high-speed networks so that science can continue to prosper."
Top Ten Things Overheard At The ANSI C Draft Committee Meetings:
(8) I'm on the committee and I *still* don't know what the hell
#pragma is for.