Henry Markram's Human Brain Project in Lausanne, is competing for funding from the FET Flagship Initiative, to the tune of 1 billion Euros, disbursed over a ten year period. Markram's goals are extremely ambitious, and unprecedented. He aims to model the human cerebral cortex to an exquisite degree of precision. Markram expects that his model of the human brain will be so exact, that he will be able to study inaccessible brain diseases and devise impossible brain cures by using his model. He may be right. But in only ten years?
Scientists are paying particular attention to the cerebral cortex. This layer on the outside of brain, only a few millimeters thick, is the most important condition of it evolution. It is the starting point for efforts to understand what makes us tick -- and for endeavors to find solutions when things go wrong. Our brain builds its version of the universe in the cerebral cortex. The vast majority of what we see doesn't enter the brain through the eye. It is instead is based on the impressions, experiences and decisions in our brain.
Markham already completed important preparatory work for the computer modeling of the brain with his Blue Brain Project, an attempt to understand and model the molecular makeup of the mammalian brain. He modeled a tiny part of a rat brain, a so-called neocortical column, at the cell level. To understand what one of these columns does, it's helpful to imagine the cerebral cortex as a giant piano. There are millions of neocortical columns on the surface, and each of them produces a tone, in a manner of speaking. When they are simulated, the columns produce a symphony together. Understanding the design of these neocortical columns is a holy grail of sorts for neuroscientists.
It is important to understand the rules of communication among the nerve cells. The individual cells do not communicate at random, but instead seek specifically targeted communication partners. The axes of nerve cells intersect at millions of different points, where they can form a synapse. This makes communication between individual neurons possible. In a recent article in the journal Proceedings of the National Academy of Sciences, Markram writes that such connections are also developed entirely without external influence. This could indicate a sort of innate knowledge that all people have in common. Markram refers to it as the "Lego blocks" of the brain, noting that each person assembles his own world on the basis of this innate knowledge. _Spiegel
The object of study for the Human Brain Project may be the most complex dynamic system in the universe. The attempt would be impossible without the most sophisticated computing hardware and software available. And one must have more than a mere fistful of Euros to acquire such advanced goodies.
Modeling all of this in a computer is extremely complex. Markram's current model encompasses tens of thousands of neurons. But this isn't nearly enough to come within striking range of the secret of our brain. To do that, scientists will have to assemble countless other partial models, which are to be combined to create a functioning total simulation by 2023.
The supercomputers at the Jülich Research Center near Cologne are expected to play an important role in this process. The brain simulation will require an enormous volume of data, or what scientist Markram calls a "tsunami of data." One of the challenges for scientists working under Thomas Lippert, head of the Jülich Supercomputing Centre, is to figure out how to make the computer process only a certain part of the data at a given time, but without completely losing sight of the rest. They also have to develop an imaging method, such as large, three-dimensional holograms, to depict the massive amounts of data.
All it takes is a look at the work of Jülich neuroscientist Katrin Amunts to understand the sheer volume of information at hand. The team she heads is compiling a detailed atlas of the human brain. To do so, they cut a brain into 8,000 slices and digitized them with a high-performance scanner. The brain model generated in this way consists of cuboids, each measuring 10 by 10 by 20 micrometers, and the size of the data set is three terabytes. Brain atlases with higher resolutions, says Amunts, would probably consist of more than 700 terabytes _Spiegel
The answer to the question posed above is: No, this goal cannot be met within a time frame of ten years. Because the challenge is not merely quantitative -- a matter of compiling the precise assembly of terabytes to create a brain atlas. The goal is to create a dynamic, interactive model of incredible plasticity -- a model which changes itself moment to moment. The "700 terabyte" requirement mentioned above is just the starting point -- the bare beginning -- in the assembly of such a dynamic and ever-changing model.
Blog Archive
-
▼
2011
(3266)
-
▼
October
(487)
- Lindsay Lohan Family
- Lindsay Lohan Fashion Week 2011
- Lindsay Lohan Face 2
- Lindsay Lohan Face 1
- Lindsay Lohan Fashion
- Lindsay Lohan Fashion Week
- Lindsay Lohan Elle
- Lindsay Lohan Eyes 2
- Lindsay Lohan Eyes 1
- Lindsay Lohan Emma Stone
- Lindsay Lohan Dark Hair
- Lindsay Lohan Dress
- Lindsay Lohan Court
- Lindsay Lohan Costume
- Lindsay Lohan Coke
- Lindsay Lohan Car
- Lindsay Lohan Tattoo
- Lindsay Lohan Boots
- Lindsay Lohan Brother
- Lindsay Lohan Brown Hair
- Lindsay Lohan Boyfriend
- Lindsay Lohan Black Hair
- Lindsay Lohan Before And After Drugs
- Lindsay Lohan As A Child
- Lindsay Lohan At Kim Kardashian's Wedding
- Lindsay Lohan And Mom Kiss
- Lindsay Lohan And Her Mom
- Lindsay Lohan And Mom
- Lindsay Lohan Before And After
- Lindsay Lohan Mean Girls
- Lindsay Lohan Drugs
- Lindsay Lohan Hair
- Lindsay Lohan Red Hair
- Lindsay Lohan Sister
- Lindsay Lohan 2011
- Lindsay Lohan 4
- Lindsay Lohan 3
- Lindsay Lohan 2
- Lindsay Lohan 1
- Heidi Klum Goes Gory for Halloween 2011 (Costume P...
- Kim Kardashian Is Going Where Right Now?! And Why?
- Sandra Bullock
- Brenda Song
- Happy Halloween!
- Jennifer Lopez Enrique
- Jennifer Lopez Evening Dresses
- Jennifer Lopez Eyes
- Jennifer Lopez Enrique Iglesias
- Jennifer Lopez Eye Makeup
- jennifer lopez enough
- Jennifer Lopez Engagement Ring
- Jennifer Lopez Drawing
- Jennifer Lopez Dark Hair Color
- Jennifer Lopez Dad
- Jennifer Lopez Dating
- Jennifer Lopez Dancing
- Jennifer Lopez Daughter
- Jennifer Lopez Divorce 1
- Jennifer Lopez Divorce 2
- Jennifer Lopez Dresses
- Jennifer Lopez Casual Style
- Jennifer Lopez Costume
- Jennifer Lopez Car Commercial
- Jennifer Lopez Car
- Jennifer Lopez Curly Hair
- Jennifer Lopez Clothing
- Jennifer Lopez Collection
- Jennifer Lopez Cellulite
- Jennifer Lopez Clothing Line
- Jennifer Lopez Children
- Jennifer Lopez Back 2
- Jennifer Lopez Back
- Jennifer Lopez Back Up Plan
- Jennifer Lopez Bangs
- Jennifer Lopez Boots 1
- Jennifer Lopez Boots 2
- Jennifer Lopez Boyfriend
- Jennifer Lopez Bradley Cooper
- Jennifer Lopez Biography
- Jennifer Lopez Body Measurements
- Jennifer Lopez Body Measurements 2011
- Jennifer Lopez Body After Babies
- Jennifer Lopez Body Workout
- Jennifer Lopez Body After Twins
- Jennifer Lopez Body Size
- Jennifer Lopez Body Type
- Jennifer Lopez Body 2011
- Jennifer Lopez Body Shape
- Selena Gomez Pictures Wallpaper
- Selena Gomez Pictures Gallery
- Selena Gomez Pictures To Print
- Selena Gomez Pictures Short Hair
- Selena Gomez Pictures When She Was A Baby
- Selena Gomez Hairstyles 2011
- Selena Gomez Short Hair With Bangs
- Selena Gomez Short Haircut
- Selena Gomez Short Hair Updo
- Selena Gomez Short Hair Curled
- Selena Gomez Short Hair Styles
- Selena Gomez Short Hair Curly
-
▼
October
(487)