IBM Research, in collaboration with DARPA's Systems of Neuromorphic Adaptive Plastic Scalable Electronics (SyNAPSE) program, has reached another brain simulation milestone. Powered by its new TrueNorth system on the world's second fastest supercomputer, IBM was capable of crafting a 2.084 billion neurosynaptic cores and 100 trillion synapses -- all at a speed "only" 1,542 times slower than real life. The abstract explains that this isn't a biologically realistic simulation of the human brain, but rather mathematically abstracted -- and little more dour -- versions steered towards maximizing function and minimizing cost. DARPA's SyNAPSE project aims to tie together supercomputing, neuroscience and neurotech for a future cognitive computing architecture far beyond what's running behind your PC screen at the moment.
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K Roche 120000DEKY ROCHEK@uk.ibm.com Tags:  ibmresearch computing hpc cognitive darpa brain neuroscience supercomputer ibm truenorth 737 Visits
Here is one of those things that can either amaze or scare people, a thinking computer. Well it's not really, it is though a step on the way of brain simulation.
Great news for IBM supercomputers, not only taking the top position but also 3 out of the top ten and a total of 213 systems in the Top500.
Sequoia, an IBM supercomputer at Lawrence Livermore National Laboratory in California, was on June 18, 2012 named No. 1 on the TOP500, a list of the world’s fastest supercomputers. Sequoia — part of IBM’s BlueGene/Q line and based on the company’s POWER architecture — runs at more than 16 petaflops (or more than 16 quadrillion calculations a second). Lab and IBM Research leaders here mark a collaboration that has produced six of the most powerful supercomputers in the world over 14 years.