This document compares how artificial and natural neural networks process information. Artificial neural networks take input through silicon chips and interpret data as register bits, process information through calculations, store memory in secondary memory, and output through silicon chips. Natural neural networks take input, interpret states, process information, store memory in neuron states, and output through natural neurons in the brain.
The document discusses the Blue Brain project, which aims to create a virtual brain through supercomputer simulation. The Blue Brain project seeks to understand the brain and accelerate treatment for brain diseases by studying living brain tissue at the microscopic level. While a virtual brain could potentially remember things and make decisions without a person, it may also increase dependency on computers and machines. The project hopes to simulate the equivalent of a human brain by 2023 using supercomputers.
The Blue Brain Project aims to recreate the human brain through detailed computer simulation. It involves scanning brain tissue to collect data on neuron types and properties, which are then used to build biologically realistic models of neurons and networks. These simulations are run on IBM's Blue Gene supercomputer. The goal is to gain a complete understanding of the brain and enable faster treatment development for brain diseases. One day, it may be possible to upload a person's connectome data into a virtual brain to preserve their intelligence even after death.
The Blue Brain project seeks to create the first virtual brain through reverse engineering the human brain at the cellular level using supercomputer simulation. It involves acquiring brain data through microscopy, simulating neural networks on IBM's Blue Gene supercomputer, and visualizing results. The end goal is to fully simulate the human brain within decades to better understand brain function and potentially upload human consciousness into computers.
This document discusses research into developing artificial brains and virtual simulations of human brains. It outlines projects by IBM and the Blue Brain initiative to map the human brain and develop computational models of brain functions. The goal is to upload a human brain into a machine so that a person's intelligence and memories could survive death. This could allow people to remember things without effort and keep skills and knowledge alive. The document compares natural and artificial brains and notes both the potential advantages like immortality and reusing intelligence, as well as disadvantages like dependency on computers and risks of technology being misused.
The document discusses the Blue Brain project, which aims to create a synthetic human brain by reconstructing it piece by piece within a supercomputer. The project began in 2005 as a collaboration between EPFL and IBM. Its goal is to build a virtual brain that can function similarly to the human brain by thinking, responding, remembering information, and potentially developing feelings and emotions. The project has made progress over the years in building artificial neural networks and aims to construct a full human brain model by 2023, which could help understand the human brain better but may also introduce disadvantages if its capabilities are misused.
The document discusses Blue Brain, a project aiming to simulate the human brain on a supercomputer. It details how Blue Brain would use nanobots and scanning to map the brain's structure and monitor neural activity, allowing the contents of the human brain to be uploaded virtually. Current research includes IBM's efforts to develop this technology in partnership with the Brain and Mind Institute.
The document discusses the Blue Brain project, which aims to create a virtual brain through detailed computer simulation. It describes how the Blue Brain would function similarly to the natural brain, taking inputs and generating outputs and memories. A key goal is to upload the contents of a natural brain into the Blue Brain through nanobots that could scan brain structures and neural connections at a microscopic level, allowing a person's thoughts and identity to be preserved after death in digital form. The Blue Brain may help treat diseases and further scientific understanding of human cognition, memory and learning.
This document compares how artificial and natural neural networks process information. Artificial neural networks take input through silicon chips and interpret data as register bits, process information through calculations, store memory in secondary memory, and output through silicon chips. Natural neural networks take input, interpret states, process information, store memory in neuron states, and output through natural neurons in the brain.
The document discusses the Blue Brain project, which aims to create a virtual brain through supercomputer simulation. The Blue Brain project seeks to understand the brain and accelerate treatment for brain diseases by studying living brain tissue at the microscopic level. While a virtual brain could potentially remember things and make decisions without a person, it may also increase dependency on computers and machines. The project hopes to simulate the equivalent of a human brain by 2023 using supercomputers.
The Blue Brain Project aims to recreate the human brain through detailed computer simulation. It involves scanning brain tissue to collect data on neuron types and properties, which are then used to build biologically realistic models of neurons and networks. These simulations are run on IBM's Blue Gene supercomputer. The goal is to gain a complete understanding of the brain and enable faster treatment development for brain diseases. One day, it may be possible to upload a person's connectome data into a virtual brain to preserve their intelligence even after death.
The Blue Brain project seeks to create the first virtual brain through reverse engineering the human brain at the cellular level using supercomputer simulation. It involves acquiring brain data through microscopy, simulating neural networks on IBM's Blue Gene supercomputer, and visualizing results. The end goal is to fully simulate the human brain within decades to better understand brain function and potentially upload human consciousness into computers.
This document discusses research into developing artificial brains and virtual simulations of human brains. It outlines projects by IBM and the Blue Brain initiative to map the human brain and develop computational models of brain functions. The goal is to upload a human brain into a machine so that a person's intelligence and memories could survive death. This could allow people to remember things without effort and keep skills and knowledge alive. The document compares natural and artificial brains and notes both the potential advantages like immortality and reusing intelligence, as well as disadvantages like dependency on computers and risks of technology being misused.
The document discusses the Blue Brain project, which aims to create a synthetic human brain by reconstructing it piece by piece within a supercomputer. The project began in 2005 as a collaboration between EPFL and IBM. Its goal is to build a virtual brain that can function similarly to the human brain by thinking, responding, remembering information, and potentially developing feelings and emotions. The project has made progress over the years in building artificial neural networks and aims to construct a full human brain model by 2023, which could help understand the human brain better but may also introduce disadvantages if its capabilities are misused.
The document discusses Blue Brain, a project aiming to simulate the human brain on a supercomputer. It details how Blue Brain would use nanobots and scanning to map the brain's structure and monitor neural activity, allowing the contents of the human brain to be uploaded virtually. Current research includes IBM's efforts to develop this technology in partnership with the Brain and Mind Institute.
The document discusses the Blue Brain project, which aims to create a virtual brain through detailed computer simulation. It describes how the Blue Brain would function similarly to the natural brain, taking inputs and generating outputs and memories. A key goal is to upload the contents of a natural brain into the Blue Brain through nanobots that could scan brain structures and neural connections at a microscopic level, allowing a person's thoughts and identity to be preserved after death in digital form. The Blue Brain may help treat diseases and further scientific understanding of human cognition, memory and learning.
3. Guia Google Docs 2. Clicar a qualsevol document per accedir al menú de Google Docs A. Com accedir des de la Comunitat Virtual? INICI
4. Guia Google Docs 3. Introduir usuari i contrasenya A. Com accedir des de la Comunitat Virtual? En cas de voler recordar usuari/contrasenya marcar aquesta opció INICI
5. Guia Google Docs 4. Per accedir al llistat de carpetes i als documents associats al compte cal clicar a sobre del logo de Google documents A. Com accedir des de la Comunitat Virtual? INICI
6. Guia Google Docs Per defecte apareixen llistats els documents associats al a pàgina principals, que són aquells que s’han modificat/obert més recentment A. Com accedir des de la Comunitat Virtual? INICI
7. Guia Google Docs 5. Per accedir al llistat complert de carpetes i documents de les diferents agrupacions cal clicar a Les meves col·leccions A. Com accedir des de la Comunitat Virtual? 6. Al llistat cal fer clic a la nostra agrupació i s’obrirà el nostre menú amb les subcarpetes INICI
8. Guia Google Docs A. Com accedir des de la Comunitat Virtual? 7. Un cop seleccionada la subcarpeta apareix el llistat dels documents que conté, i aquí cal fer un click sobre el desitjat per accedir-hi Previsualització del document escollit INICI
9. Guia Google Docs B. Com ordenar i gestionar la nostra carpeta? B.1. Crear un element nou Al menú de l’esquerra apareix el desplegable Crea un element nou. Seleccionant-ho apareixen les diferents opcions disponibles Qualsevol element nou que creem es guardarà per defecte a la carpeta que tenim seleccionada!! INICI
10. Guia Google Docs B. Com ordenar i gestionar la nostra carpeta? B.1. Crear un element nou Si seleccionem Document s’obrirà un full a editar, que pot ser guardat, modificat, imprès i baixat al ordinador en format word i PDF en el moment que es desitgi INICI
11. Guia Google Docs B. Com ordenar i gestionar la nostra carpeta? B.1. Crear un element nou Si seleccionem Presentació s’obrirà un full a editar, que pot ser guardat, modificat, imprès i baixat al ordinador en format PowerPoint i PDF en el moment que es desitgi INICI
12. Guia Google Docs B. Com ordenar i gestionar la nostra carpeta? B.1. Crear un element nou Si seleccionem Full de càlcul s’obrirà un full a editar, que pot ser guardat, modificat, imprès i baixat al ordinador en format PowerPoint i PDF en el moment que es desitgi Aquest botó per anar guardant els canvis INICI
13. Guia Google Docs B. Com ordenar i gestionar la nostra carpeta? B.1. Crear un element nou Si seleccionem Formulari s’obrirà una plantilla per editar i confeccionar el formulari que desitgem, tal i com s’ha fet pel formulari d’activitats INICI
14. Guia Google Docs B. Com ordenar i gestionar la nostra carpeta? B.1. Crear un element nou Si seleccionem Col·lecció crearem una nova carpeta dins de Les meves col·leccions, element que ens ajudarà a ordenar la informació. En cas que vulguem crear-la dins una altre entrada només cal realitzar l’acció situant-se prèviament al lloc on es desitgi crear Cal modificar el nom en aquest quadre INICI
15. Guia Google Docs B. Com ordenar i gestionar la nostra carpeta? B.2. Penjar documents del ordinador 1. Si volem incloure un element del nostre ordinador al Google Docs cal clicar al botó Penja INICI
16. Guia Google Docs B. Com ordenar i gestionar la nostra carpeta? B.2. Penjar documents del ordinador 2. Per cercar els fitxers en el nostre ordinador cal seleccionar aquesta opció INICI
17. Guia Google Docs B. Com ordenar i gestionar la nostra carpeta? B.2. Penjar documents del ordinador 3. S’obrirà l’explorador habitual de Windows, d’on cal seleccionar el document INICI
18. Guia Google Docs B. Com ordenar i gestionar la nostra carpeta? B.2. Penjar documents del ordinador 5. Un cop seleccionats els fitxers cal que triem on es vol guardar 6. Clicar a aquest botó per iniciar el traspàs INICI
19. Guia Google Docs B. Com ordenar i gestionar la nostra carpeta? B.2. Penjar documents del ordinador 6. Cal validar si s’ha carregat correctament 7. Es pot tornar al menú principal amb aquest enllaç INICI
20. Guia Google Docs B. Com ordenar i gestionar la nostra carpeta? B.3. Gestió arxius Clicant el botó dret del ratolí apareix el menú d’opcions que permet diferents accions INICI
21. Guia Google Docs B. Com ordenar i gestionar la nostra carpeta? B.3. Gestió arxius Si seleccionem l’opció No mostris a la pàgina d’inici el document no es mostrarà a pàgina principal, podent-se desfer en qualsevol moment aquesta acció INICI
22. Guia Google Docs B. Com ordenar i gestionar la nostra carpeta? B.3. Gestió arxius Organitza permet moure arxius seleccionant la carpeta de destí i aplicant els canvis L’acció de moure arxius entre carpetes també es pot realitzar arrossegant el document amb el botó esquerra seleccionat fins el destí INICI
23. Guia Google Docs B. Com ordenar i gestionar la nostra carpeta? B.3. Gestió arxius També es permet canviar el nom seleccionant l’opció i editant aquest quadre INICI
24. Guia Google Docs B. Com ordenar i gestionar la nostra carpeta? B.3. Gestió arxius Si seleccionem Baixa, podrem traspassar l’arxiu en el format que vulguem al nostre ordinador INICI
25. Guia Google Docs B. Com ordenar i gestionar la nostra carpeta? B.3. Gestió arxius Si seleccionem Mou a paperera eliminarem l’arxiu podent-se recuperar accedint a Paperera sempre i quan no s’hagi buidat INICI