2016 Project.
A finger wore device helpful for blind people.
Used to know the color and currency and etc.,
Prepared by Ch.Durga Rao, Naidu.S.Piyadarshini.
2016 Project.
A finger wore device helpful for blind people.
Used to know the color and currency and etc.,
Prepared by Ch.Durga Rao, Naidu.S.Piyadarshini.
Inspired by science fiction movies such as Star Wars, two FinnishInspired by science fiction movies such as Star Wars, two Finnish virtual reality researchers created the Fog Screen to recreate some virtual reality researchers created the Fog Screen to recreate some of the effects from these movies in real life.of the effects from these movies in real life. Fog Screen is an exciting new projection technology that allows toFog Screen is an exciting new projection technology that allows to project images and video onto a screen of dry fog, creating the project images and video onto a screen of dry fog, creating the illusion that the images are floating in mid air.illusion that the images are floating in mid air. The Fog Screen is an innovative display technology that allows forThe Fog Screen is an innovative display technology that allows for projections on a thin layer of dry fog.projections on a thin layer of dry fog.
Blue Gene is a massively parallel computer being developed at the IBM Thomas J. Watson Research Center .Blue Gene represents a hundred-fold improvement on performance compared with the fastest supercomputers of today. It will achieve 1 PetaFLOP /sec through unprecedented levels of parallelism in excess of 4,0000,000 threads of execution.
Blue Gene_SM
Introduction
The word "supercomputer" entered the mainstream lexicon in 1996 and 1997 when IBM's Deep Blue supercomputer challenged the world chess champion in two tournaments broadcast around the world.
Since then, IBM has been busy improving its supercomputer technology and tackling much deeper problems.
Their latest project, code named Blue Gene, is poised to shatter all records for computer and network performance.
What is a Super Computer
A supercomputer is a computer that is at the frontline of current processing capacity, particularly speed of calculation.
Today, supercomputers are typically one-of-a-kind custom designs produced by "traditional" companies such as Cray, IBM and Hewlett-Packard, who had purchased many of the 1980s companies to gain their experience.
Why we need Super Computers
Supercomputers are very useful in highly calculation-intensive tasks such as
Problems involving quantum physics,
Weather forecasting,
Climate research,
Molecular modeling (computing the structures and properties of chemical compounds, biological macromolecules, polymers, and crystals),
Physical simulations (such as simulation of airplanes in wind tunnels, simulation of the detonation of nuclear weapons, and research into nuclear fusion).
Why we need Super Computers
Also, they are useful for a particular class of problems, known as Grand Challenge problems, full solution for such problems require semi-infinite computing resources.
NASA™s Linux-based Super Computer
Why Supercomputers are Fast
Several elements of a supercomputer contribute to its high level of performance:
Numerous high-performance processors (CPUs) for parallel processing
Specially-designed high-speed internal networks
Specially-designed or tuned operating systems
What is Blue gene
Blue Gene is a computer architecture project designed to produce several supercomputers that are designed to reach operating speeds in the PFLOPS (petaFLOPS = 1015) range, and currently reaching sustained speeds of nearly 500 TFLOPS (teraFLOPS = 1012).
It is a cooperative project among IBM(particularly IBM Rochester and the Thomas J. Watson Research Center), the Lawrence Livermore National Laboratory, the United States Department of Energy (which is partially funding the project), and academia.
Why Blue Gene
Blue Gene is an IBM Research project dedicated to exploring the
frontiers in supercomputing:
in computer architecture,
in the software required to program and control massively parallel systems, and
in the use of computation to advance the understanding of important biological processes such as protein folding.
Learning more about biomolecular mechanisms is expected to give medical researchers better understanding of diseases, as well as potential cures.
Why the name Blue gene
Blue - The corporate color of IBM
Gene - The intended use of the Blue Gene clusters was for Computational biology.
Blue Gene Projects
There
Inspired by science fiction movies such as Star Wars, two FinnishInspired by science fiction movies such as Star Wars, two Finnish virtual reality researchers created the Fog Screen to recreate some virtual reality researchers created the Fog Screen to recreate some of the effects from these movies in real life.of the effects from these movies in real life. Fog Screen is an exciting new projection technology that allows toFog Screen is an exciting new projection technology that allows to project images and video onto a screen of dry fog, creating the project images and video onto a screen of dry fog, creating the illusion that the images are floating in mid air.illusion that the images are floating in mid air. The Fog Screen is an innovative display technology that allows forThe Fog Screen is an innovative display technology that allows for projections on a thin layer of dry fog.projections on a thin layer of dry fog.
Blue Gene is a massively parallel computer being developed at the IBM Thomas J. Watson Research Center .Blue Gene represents a hundred-fold improvement on performance compared with the fastest supercomputers of today. It will achieve 1 PetaFLOP /sec through unprecedented levels of parallelism in excess of 4,0000,000 threads of execution.
Blue Gene_SM
Introduction
The word "supercomputer" entered the mainstream lexicon in 1996 and 1997 when IBM's Deep Blue supercomputer challenged the world chess champion in two tournaments broadcast around the world.
Since then, IBM has been busy improving its supercomputer technology and tackling much deeper problems.
Their latest project, code named Blue Gene, is poised to shatter all records for computer and network performance.
What is a Super Computer
A supercomputer is a computer that is at the frontline of current processing capacity, particularly speed of calculation.
Today, supercomputers are typically one-of-a-kind custom designs produced by "traditional" companies such as Cray, IBM and Hewlett-Packard, who had purchased many of the 1980s companies to gain their experience.
Why we need Super Computers
Supercomputers are very useful in highly calculation-intensive tasks such as
Problems involving quantum physics,
Weather forecasting,
Climate research,
Molecular modeling (computing the structures and properties of chemical compounds, biological macromolecules, polymers, and crystals),
Physical simulations (such as simulation of airplanes in wind tunnels, simulation of the detonation of nuclear weapons, and research into nuclear fusion).
Why we need Super Computers
Also, they are useful for a particular class of problems, known as Grand Challenge problems, full solution for such problems require semi-infinite computing resources.
NASA™s Linux-based Super Computer
Why Supercomputers are Fast
Several elements of a supercomputer contribute to its high level of performance:
Numerous high-performance processors (CPUs) for parallel processing
Specially-designed high-speed internal networks
Specially-designed or tuned operating systems
What is Blue gene
Blue Gene is a computer architecture project designed to produce several supercomputers that are designed to reach operating speeds in the PFLOPS (petaFLOPS = 1015) range, and currently reaching sustained speeds of nearly 500 TFLOPS (teraFLOPS = 1012).
It is a cooperative project among IBM(particularly IBM Rochester and the Thomas J. Watson Research Center), the Lawrence Livermore National Laboratory, the United States Department of Energy (which is partially funding the project), and academia.
Why Blue Gene
Blue Gene is an IBM Research project dedicated to exploring the
frontiers in supercomputing:
in computer architecture,
in the software required to program and control massively parallel systems, and
in the use of computation to advance the understanding of important biological processes such as protein folding.
Learning more about biomolecular mechanisms is expected to give medical researchers better understanding of diseases, as well as potential cures.
Why the name Blue gene
Blue - The corporate color of IBM
Gene - The intended use of the Blue Gene clusters was for Computational biology.
Blue Gene Projects
There
La mycoplasmosis aviar es una enfermedad contagiosa de las aves causada por bacterias del género Mycoplasma. Esencialmente, afecta a aves como pollos, pavos y otras aves de corral, causando importantes pérdidas económicas en la industria avícola debido a la disminución en la producción de huevos y carne, así como a la mortalidad.
Estudio de la respiración celular en diferentes tipos de tejidos .pptx
Finger Reader o Anillo Lector
1. T E M A : F I N G E R R E A D E R ( A N I L L O L E C T O R )
UNIDAD EDUCATIVA LUCIANO ANDRADE MARIN
Juan Díaz Hidalgo N°58-197 y Ángel Ludeña (URB. SAN
CARLOS)
telfs: 2599317; 2292-144 TELEFAX 2530375
Quito – Ecuador
Año Lectivo: 2015-2016
Nombre del Estudiante: Carla Logaña
Asignatura: Investigación Ciencia y Tecnología
Periodo 2 Quimestre
Curso Tercero de Bachillerato
3. ¿Cómo Funciona Finger Reader
Funciona como un anillo que se lo ubica en el dedo
índice con una pequeña cámara que va identificando
el texto y al mismo tiempo va leyendo.
4. Beneficios del Finger Reader
El FingerReader con este avance tecnológico
podremos obtener muchas facilidades.
Especialmente las personas no videntes podrán
independizarse.