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Emulation of the mouse brain on the BlueGene L supercomputer
scientists used the power of the BlueGene L supercomputer to research and
simulate brain function. To begin with, researchers tried to create and study
mouse brain model.
Cortical Simulator or Mouse-Scale Cortical
Simulator “is a rather difficult project with
using the supercomputer BlueGene L, since in the course of its implementation its creators
there were many nuances. The difficulty lies in
the fact that there are many elements in the system that should
interact with each other, and in accordance with those principles,
which work in the brain of the same mouse.
During the work, only half of the brain was simulated, as the source notes.
This is about 8 million. neurons, each of which has up to 8000 synapses (6300 in
experiment), nerve endings. In turn, this, as noted
researchers, created an eerie amount of computation and required huge resources
BlueGene L, which was used to build the neural system, represented
4096 processors, each of which had 256 MB of memory at its disposal. To comply
proportions and recreate half the activity of the mouse brain
(approximately, of course, as far as possible), the BlueGene L computer worked in
laboratory for 10 seconds at a speed ten times slower than normal
conditions when solving resource-intensive tasks. This corresponded to approximately one
(!) a second of a rodent’s brain in real conditions, scientists report.
During the experiments, scientists using their model observed the emergence and
movement of nerve impulses, as in the biological brain. Although
some elements of the mental activity of the mouse brain were successfully imitated,
to resemble real brain activity, the researchers note
the computer model is still far away, since it was not possible to recreate the structures
nerve connections that work in the real mouse brain. Work on it
can be much more difficult and longer than this little experience.
In the plans of scientists from the laboratory of the IBM Almaden Research Lab and the University of Nevada
further acceleration of the computing system and an increase in
the likelihood of the results of the model’s work in order to better resemble the real
thought processes in the brain.
James Frye, Rajagopal Ananthanarayanan
and Darmendra S. Modha (Dharmendra S Modha) published data on their work in
article “Towards Real-Time, Mouse-Scale Cortical Simulations”.