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CAINE
2006
2006
A novel parallel hardware and software solution for a large-scale biologically realistic cortical simulation
This research addresses a major gap in our conceptual understanding of synaptic and brain-like network dynamics. Over the course of several years we have designed and implemented increasingly complex and powerful brain-like simulators which apply recent advances in computer and networking technology towards the goal of understanding brain function in terms of pulse-coded information networks. These simulations have been run on increasingly powerful clusters of computers. Currently we have a cluster of 128 processors with a total of 256 GB of RAM and more than a Terabyte of disk storage, interconnected with a Myrinet 2000 highspeed/low-latency interconnection network. On this cluster we are able to run simulations on the order of 3 million synapses per processor, with the capability of receiving stimulus input from remote devices.
Real-time TrafficBrain-like Network Dynamics | CAINE 2006 | CAINE 2007 | Powerful Brain-like Simulators | Pulse-coded Information Networks |
| Added | 30 Oct 2010 |
| Updated | 30 Oct 2010 |
| Type | Conference |
| Year | 2006 |
| Where | CAINE |
| Authors | Frederick C. Harris Jr., Mark C. Ballew, Jason Baurick, James Frye, Lance Hutchinson, James G. King, Philip H. Goodman, Rich Drewes |
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