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Aplicações em Automação: Robótica, Projeto de Hardware e Controle
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Duração: 01:54:16
CISC NEWS 007
A comunidade do Campus USP de São Carlos tem a disposição um serviço de manutenção de hardware e software de notebook, netbook e macbook através da Seção de Manutenção do CISC.
Duração: 00:00:38
COLÓQUIO - IFUSP:High-throughput materials discovery and development: using your own computer to search for novel materials
Molecular biologists can nowadays design complex biosystems that are able to perform novel specialized biological functions. This tremendous progress is based on a revolution in sequencing techniques that was driven (1) by the high-throughput strategies to identify the genome of living organisms and (2) by methodologies that enable to map the genetic information onto specific functionalities. This revolution in biological techniques is paralleled in materials science by (1) the advent of high-throughput data generation frameworks that exploit innovative hardware architectures and massive supercomputing resources combined with (2) the progress toward computational data-processing methodologies that empower scientists to distill the complex interactions at the origin of specific materials properties.
In this talk I will discuss our efforts towards the mapping the materials genome by building on the synergy between the massively parallel infrastructures of density functional theory codes and the high-throughput framework AFLOW, used to create AFLOWLIB.ORG, our on-line distributed materials genome properties repository. I will show a few examples (topological insulators, half-metallic oxides, magnets and binary/ternary phase diagrams) to highlight the challenges and potential breakthrough that only such comprehensive approach can achieve.
Duração: 01:05:24
palestra 2 - São Paulo Regional Grid - Workshop HPC IFUSP - Str ategic Issues in Cyberin frastructure for the 21s t Century Science & Engi neering Research
"São Paulo Regional Grid" Prof. Dr. Sérgio Ferraz Novaes Instituto de Física Teórica - UNESP Coordenador dos projetos SPRACE e GridUNESPInformation Technology enabled systems, tools, and services have had profoundimpact on the practice of science and engineering research in the beginning ofthe 21st Century. The term Cyberinfrastructure is being used to describe the newresearch environments that support advanced data acquisition, data storage, datamanagement, data integration, data mining, data visualization and other computing and information processing services over the Internet. In scientific usage, Cyberinfrastructure is a technological solution to the problem of efficiently connecting data, computers, and people with the goal of enabling derivation of novel scientific theories and knowledge.To harness the full power of Cyberinfrastructure requires careful and focusedinvestments, not only in hardware and software resources, but also on training people, aiming the preparation of a science and engineering workforce with the knowledge and skills needed to create, advance, and take advantage ofthose specialized systems over the long-term.The goal of this workshop is to bring together the academic community and keyindustry partners in this broad, emerging area of computationally-enabled Science & Engineering, in order to address the common challenges faced by several disciplines in the broad area of Scientific Computing. The main idea is to review some of the many ongoing research and development programs in the general area of e-Science, stimulating discussions in strategic and methodological issues of common interest.
Duração: 00:58:42
palestra 3 - Aplicações de HPC na Indústria Offshore e de Óleo e Gás - Workshop HPC IFUSP - Str ategic Issues in Cyberin frastructure for the 21s t Century Science & Engi neering Research
"Aplicações de HPC na Indústria Offshore e de Óleo e Gás" Prof. Dr. Kazuo Nishimoto Depto. de Engenharia Naval e Oceânica - EPUSP Coordenador do Laboratório TPN (Tanque de Provas Numérico)Information Technology enabled systems, tools, and services have had profoundimpact on the practice of science and engineering research in the beginning ofthe 21st Century. The term Cyberinfrastructure is being used to describe the newresearch environments that support advanced data acquisition, data storage, datamanagement, data integration, data mining, data visualization and other computing and information processing services over the Internet. In scientific usage, Cyberinfrastructure is a technological solution to the problem of efficiently connecting data, computers, and people with the goal of enabling derivation of novel scientific theories and knowledge.To harness the full power of Cyberinfrastructure requires careful and focusedinvestments, not only in hardware and software resources, but also on training people, aiming the preparation of a science and engineering workforce with the knowledge and skills needed to create, advance, and take advantage ofthose specialized systems over the long-term.The goal of this workshop is to bring together the academic community and keyindustry partners in this broad, emerging area of computationally-enabled Science & Engineering, in order to address the common challenges faced by several disciplines in the broad area of Scientific Computing. The main idea is to review some of the many ongoing research and development programs in the general area of e-Science, stimulating discussions in strategic and methodological issues of common interest.
Duração: 00:39:51
palestra 5 - IBM High Performance Computing Solutions: BlueGene, Cell BE and Linux Clusters - Workshop HPC IFUSP - Str ategic Issues in Cyberin frastructure for the 21s t Century Science & Engi neering Research
IBM High Performance Computing Solutions: BlueGene, Cell BE and Linux Clusters
Information Technology enabled systems, tools, and services have had profoundimpact on the practice of science and engineering research in the beginning ofthe 21st Century. The term Cyberinfrastructure is being used to describe the newresearch environments that support advanced data acquisition, data storage, datamanagement, data integration, data mining, data visualization and other computing and information processing services over the Internet. In scientific usage, Cyberinfrastructure is a technological solution to the problem of efficiently connecting data, computers, and people with the goal of enabling derivation of novel scientific theories and knowledge.To harness the full power of Cyberinfrastructure requires careful and focusedinvestments, not only in hardware and software resources, but also on training people, aiming the preparation of a science and engineering workforce with the knowledge and skills needed to create, advance, and take advantage ofthose specialized systems over the long-term.The goal of this workshop is to bring together the academic community and keyindustry partners in this broad, emerging area of computationally-enabled Science & Engineering, in order to address the common challenges faced by several disciplines in the broad area of Scientific Computing. The main idea is to review some of the many ongoing research and development programs in the general area of e-Science, stimulating discussions in strategic and methodological issues of common interest.
Duração: 01:08:21
palestra 6 - SGI Presentation A Multi-application, Multi-workflow Approach to High Performance Computing- Workshop HPC IFUSP - Str ategic Issues in Cyberin frastructure for the 21s t Century Science & Engi neering Research
SGI Presentation A Multi-application, Multi-workflow Approach to High Performance Computing
Information Technology enabled systems, tools, and services have had profoundimpact on the practice of science and engineering research in the beginning ofthe 21st Century. The term Cyberinfrastructure is being used to describe the newresearch environments that support advanced data acquisition, data storage, datamanagement, data integration, data mining, data visualization and other computing and information processing services over the Internet. In scientific usage, Cyberinfrastructure is a technological solution to the problem of efficiently connecting data, computers, and people with the goal of enabling derivation of novel scientific theories and knowledge.To harness the full power of Cyberinfrastructure requires careful and focusedinvestments, not only in hardware and software resources, but also on training people, aiming the preparation of a science and engineering workforce with the knowledge and skills needed to create, advance, and take advantage ofthose specialized systems over the long-term.The goal of this workshop is to bring together the academic community and keyindustry partners in this broad, emerging area of computationally-enabled Science & Engineering, in order to address the common challenges faced by several disciplines in the broad area of Scientific Computing. The main idea is to review some of the many ongoing research and development programs in the general area of e-Science, stimulating discussions in strategic and methodological issues of common interest.
Duração: 00:46:06
Palestra do Dr. Hu Yoshida, CTO global da Hitachi Data Systems
Hubert Yoshida is responsible for defining the technical direction of Hitachi Data Systems. Currently, he leads the company's effort to help customers address data life cycle requirements and resolve compliance, governance and operational risk issues. He was instrumental in evangelizing the unique Hitachi approach to storage virtualization, which leveraged existing storage services within Hitachi Universal Storage Platform® and extended it to externally-attached, heterogeneous storage systems.
Yoshida is well-known within the storage industry, and his blog has ranked among the "top 10 most influential" within the storage industry as evaluated by Network World. In 2006, he was named CTO of the Year by Jon Toigo, and in October of 2006, Byte and Switch named him one of Storage Networking’s Heaviest Hitters.
Prior to joining Hitachi Data Systems in 1997, Yoshida spent 25 years with IBM storage division, where he held management roles in hardware performance, software development and product management. Since joining Hitachi Data Systems, he has worked to develop open standards for storage management, and in his previous role as vice president of Data Networks, he helped to define the Hitachi Data Systems strategy for storage area networks, network attached storage, and other network-related, storage and data technologies.
Yoshida is a graduate of the University of California at Berkeley, with a degree in Mathematics. He was a U.S. Marine Corps platoon commander during the Vietnam War and was discharged with the rank of Captain. Yoshida has authored several papers on storage area networks, Fibre Channel, multiprotocol SANs and storage virtualization technologies. He has served on the advisory boards of several technology companies and currently sits on the Scientific Advisory Board for the Data Storage Institute of the Government of Singapore.
Duração: 01:06:01
parte 4 - Sun Strategies for Education and Research in High Performance Computing - Workshop HPC IFUSP - Str ategic Issues in Cyberin frastructure for the 21s t Century Science & Engi neering Research
Sun Strategies for Education and Research in High Performance Computing
Information Technology enabled systems, tools, and services have had profoundimpact on the practice of science and engineering research in the beginning ofthe 21st Century. The term Cyberinfrastructure is being used to describe the newresearch environments that support advanced data acquisition, data storage, datamanagement, data integration, data mining, data visualization and other computing and information processing services over the Internet. In scientific usage, Cyberinfrastructure is a technological solution to the problem of efficiently connecting data, computers, and people with the goal of enabling derivation of novel scientific theories and knowledge.To harness the full power of Cyberinfrastructure requires careful and focusedinvestments, not only in hardware and software resources, but also on training people, aiming the preparation of a science and engineering workforce with the knowledge and skills needed to create, advance, and take advantage ofthose specialized systems over the long-term.The goal of this workshop is to bring together the academic community and keyindustry partners in this broad, emerging area of computationally-enabled Science & Engineering, in order to address the common challenges faced by several disciplines in the broad area of Scientific Computing. The main idea is to review some of the many ongoing research and development programs in the general area of e-Science, stimulating discussions in strategic and methodological issues of common interest.
Duração: 00:37:18
Tecnologias Intel® e Tecnologia Intel® vPro™
A segunda geração da família de processadores Intel Core vPro oferece recursos de segurança inteligentes e assistidos por hardware que ajudam a implantar rapidamente patches de segurança nos PCs, desbloquear remotamente unidades criptografadas e gerenciar configurações de segurança de dados, mesmo quando o PC estiver desligado. A segunda geração da família de processadores Intel Core vPro fornece recursos de segurança e gerenciamento inteligentes e assistidos por hardware, bem como recursos multitarefa e desempenho aprimorados que se adaptam às necessidades do usuário para aumentar a produtividade. Esse desempenho inteligente, juntamente com recursos visuais incorporados, traduzem-se em benefícios visíveis na área mais importante da sua empresa, o resultado financeiro.
Duração: 01:06:26
