Abstract: This paper presents a method for real-time rendering of a neocortical column in the mouse brain with 10000 individually simulated neurons, as implemented in the software GabrielStudio (TM). It also presents how the same system is used to create movie sequences of scripted camera keyframes for high resolution outputs. The current system is running on an SGI Altix Prism Extreme with 16 parallel graphics cards and a shared memory of 300 GB. Gabrielstudio works as a virtual microscope for computational neuroscientists to analyze their simulations of neurons.
We present a first-draft digital reconstruction of the microcircuitry of somatosensory cortex of juv...
The goal of this project is to investigate how simulation and 3D visualization in virtual reality ca...
Abstract Recent progress in large-volume microscopy, tissue-staining, as well as in image processing...
A core goal for neuroscientists is to understand the physiological processes behind memory, learning...
For neuroscientists, understanding the physiological pro-cesses behind memory, learning, and cogniti...
Abstract Background We present a software workflow capable of building large scale, highly detailed ...
Neurobiologically realistic, large-scale cortical and sub-cortical simulations are bound to play a k...
The scientific mission of the Project MindScope is to understand neocortex, the part of the mammalia...
Recent progress in large-volume microscopy, tissue-staining, as well as in image processing methods ...
KEY WORDS whole brain sections; gross sections; neuroimaging; computational neuroanatomy; videomicro...
SummaryWe describe automated technologies to probe the structure of neural tissue at nanometer resol...
By turning human brain tissue as transparent as glass, the brain’s complex structure can be studied ...
The neocortical system, with its exquisite variety of function, is built on a series of column-like ...
The rich structural dynamics of axonal arbors and neuronal circuitry can only be revealed through di...
Supercomputing is increasingly available in neuroscience and boosts the ability to create models wit...
We present a first-draft digital reconstruction of the microcircuitry of somatosensory cortex of juv...
The goal of this project is to investigate how simulation and 3D visualization in virtual reality ca...
Abstract Recent progress in large-volume microscopy, tissue-staining, as well as in image processing...
A core goal for neuroscientists is to understand the physiological processes behind memory, learning...
For neuroscientists, understanding the physiological pro-cesses behind memory, learning, and cogniti...
Abstract Background We present a software workflow capable of building large scale, highly detailed ...
Neurobiologically realistic, large-scale cortical and sub-cortical simulations are bound to play a k...
The scientific mission of the Project MindScope is to understand neocortex, the part of the mammalia...
Recent progress in large-volume microscopy, tissue-staining, as well as in image processing methods ...
KEY WORDS whole brain sections; gross sections; neuroimaging; computational neuroanatomy; videomicro...
SummaryWe describe automated technologies to probe the structure of neural tissue at nanometer resol...
By turning human brain tissue as transparent as glass, the brain’s complex structure can be studied ...
The neocortical system, with its exquisite variety of function, is built on a series of column-like ...
The rich structural dynamics of axonal arbors and neuronal circuitry can only be revealed through di...
Supercomputing is increasingly available in neuroscience and boosts the ability to create models wit...
We present a first-draft digital reconstruction of the microcircuitry of somatosensory cortex of juv...
The goal of this project is to investigate how simulation and 3D visualization in virtual reality ca...
Abstract Recent progress in large-volume microscopy, tissue-staining, as well as in image processing...