Foram encontradas 2.068 questões.
Em relação ao desenvolvimento de sistemas e ao padrão SOAP, julgue o próximo item.
O SOAP permite a comunicação entre serviços web e seus clientes, desde que os códigos em ambas as partes utilizem a mesma linguagem de programação.
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Em relação ao desenvolvimento de sistemas e ao padrão SOAP, julgue o próximo item.
Em dispositivos móveis, é recomendado o uso de sítios responsivos, no qual estão envolvidas as tecnologias de layout fluído, imagens flexíveis e media queries.
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Questão presente nas seguintes provas
Em relação ao desenvolvimento de sistemas e ao padrão SOAP, julgue o próximo item.
O uso de CSS3 em uma página web exige a instalação de um plug-in na parte cliente da aplicação, o que é feito de modo invisível para o usuário.
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Questão presente nas seguintes provas
- Arquitetura e Design de SoftwareArquitetura de Sistemas de Informação
- Engenharia de SoftwareDesenvolvimento Baseado em Componentes
Acerca de arquitetura de software, julgue o item a seguir.
Um dos objetivos da arquitetura de software é definir como será a componentização, bem como a organização desses componentes em um sistema.
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Questão presente nas seguintes provas
Acerca de arquitetura de software, julgue o item a seguir.
Na arquitetura MVC, o componente model é responsável por controlar os dados e as regras de negócio da aplicação.
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Questão presente nas seguintes provas
- Arquitetura e Design de SoftwareArquitetura de Sistemas de Informação
- Engenharia de SoftwareCiclo de Vida de Software
Acerca de arquitetura de software, julgue o item a seguir.
Uma vez definida a arquitetura de um sistema, ela deve ser mantida sem alteração até o fim do ciclo de vida do sistema.
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Questão presente nas seguintes provas
It’s like a 21st century version of Frankenstein’s monster.
Switzerland-based startup FinalSpark claims to have built
a unique computer processor made from 16 mini brains
developed out of human brain tissue — and they are positioning
this “living computer” as an alternative to silicon-based
computing. And now, other researchers can remotely access the
startup’s biocomputer, the Neuroplatform, to conduct studies on,
let’s say, artificial intelligence, which typically requires
enormous resources.
“One of the biggest advantages of biological computing is
that neurons compute information with much less energy than
digital computers,” a scientist and strategic advisor wrote in a
company blog post. It is estimated that living neurons can use
over 1 million times less energy than the current digital
processors we use. The startup takes brain organoids, small
samples of human brain tissue derived from neural stem cells,
and places them in a special environment that keeps these
organoids alive. They then hook up these mini brains to
specialized electrodes to perform computer processing and digital
analog conversions to transform neural activity into digital
information.
The concept of living computers has been around for quite
some time now. Last year, for instance, scientists hooked up
neurons to electrical circuits, resulting in a device that could
perform voice recognition. These unusual machines have some
noteworthy advantages over their silicon-based counterparts,
including a significantly smaller carbon footprint. “This is one of
the reasons why using living neurons for computations is such a
compelling opportunity. Apart from possible improvements in AI
model generalization, we could also reduce greenhouse emissions
without sacrificing technological progress,” she said.
FinalSpark hopes other institutions will tap its
Neuroplatform in order to advance biocomputer research, while
positioning this tool as the next step in AI computing. As AI
companies clamor for resources for data centers, with concerns
growing over carbon emissions and water, it’s a novel approach
that may just pay off in the long run.
Internet:<futurism.com/neoscope> (adapted).
Based on the preceding text, judge the item that follow.
Biocomputers are more efficient than standard computers because they take less time than the latter to process the same information.
Provas
Questão presente nas seguintes provas
It’s like a 21st century version of Frankenstein’s monster.
Switzerland-based startup FinalSpark claims to have built
a unique computer processor made from 16 mini brains
developed out of human brain tissue — and they are positioning
this “living computer” as an alternative to silicon-based
computing. And now, other researchers can remotely access the
startup’s biocomputer, the Neuroplatform, to conduct studies on,
let’s say, artificial intelligence, which typically requires
enormous resources.
“One of the biggest advantages of biological computing is
that neurons compute information with much less energy than
digital computers,” a scientist and strategic advisor wrote in a
company blog post. It is estimated that living neurons can use
over 1 million times less energy than the current digital
processors we use. The startup takes brain organoids, small
samples of human brain tissue derived from neural stem cells,
and places them in a special environment that keeps these
organoids alive. They then hook up these mini brains to
specialized electrodes to perform computer processing and digital
analog conversions to transform neural activity into digital
information.
The concept of living computers has been around for quite
some time now. Last year, for instance, scientists hooked up
neurons to electrical circuits, resulting in a device that could
perform voice recognition. These unusual machines have some
noteworthy advantages over their silicon-based counterparts,
including a significantly smaller carbon footprint. “This is one of
the reasons why using living neurons for computations is such a
compelling opportunity. Apart from possible improvements in AI
model generalization, we could also reduce greenhouse emissions
without sacrificing technological progress,” she said.
FinalSpark hopes other institutions will tap its
Neuroplatform in order to advance biocomputer research, while
positioning this tool as the next step in AI computing. As AI
companies clamor for resources for data centers, with concerns
growing over carbon emissions and water, it’s a novel approach
that may just pay off in the long run.
Internet:<futurism.com/neoscope> (adapted).
Based on the preceding text, judge the item that follow.
FinalSpark has designed a computer processor based on human brain tissue rather than silicon.
Provas
Questão presente nas seguintes provas
It’s like a 21st century version of Frankenstein’s monster.
Switzerland-based startup FinalSpark claims to have built
a unique computer processor made from 16 mini brains
developed out of human brain tissue — and they are positioning
this “living computer” as an alternative to silicon-based
computing. And now, other researchers can remotely access the
startup’s biocomputer, the Neuroplatform, to conduct studies on,
let’s say, artificial intelligence, which typically requires
enormous resources.
“One of the biggest advantages of biological computing is
that neurons compute information with much less energy than
digital computers,” a scientist and strategic advisor wrote in a
company blog post. It is estimated that living neurons can use
over 1 million times less energy than the current digital
processors we use. The startup takes brain organoids, small
samples of human brain tissue derived from neural stem cells,
and places them in a special environment that keeps these
organoids alive. They then hook up these mini brains to
specialized electrodes to perform computer processing and digital
analog conversions to transform neural activity into digital
information.
The concept of living computers has been around for quite
some time now. Last year, for instance, scientists hooked up
neurons to electrical circuits, resulting in a device that could
perform voice recognition. These unusual machines have some
noteworthy advantages over their silicon-based counterparts,
including a significantly smaller carbon footprint. “This is one of
the reasons why using living neurons for computations is such a
compelling opportunity. Apart from possible improvements in AI
model generalization, we could also reduce greenhouse emissions
without sacrificing technological progress,” she said.
FinalSpark hopes other institutions will tap its
Neuroplatform in order to advance biocomputer research, while
positioning this tool as the next step in AI computing. As AI
companies clamor for resources for data centers, with concerns
growing over carbon emissions and water, it’s a novel approach
that may just pay off in the long run.
Internet:<futurism.com/neoscope> (adapted).
Based on the preceding text, judge the item that follow.
One of the advantages related to using living neurons in computing is that the carbon footprint is much smaller than the one caused by silicon-based computer processors.
Provas
Questão presente nas seguintes provas
It’s like a 21st century version of Frankenstein’s monster.
Switzerland-based startup FinalSpark claims to have built
a unique computer processor made from 16 mini brains
developed out of human brain tissue — and they are positioning
this “living computer” as an alternative to silicon-based
computing. And now, other researchers can remotely access the
startup’s biocomputer, the Neuroplatform, to conduct studies on,
let’s say, artificial intelligence, which typically requires
enormous resources.
“One of the biggest advantages of biological computing is
that neurons compute information with much less energy than
digital computers,” a scientist and strategic advisor wrote in a
company blog post. It is estimated that living neurons can use
over 1 million times less energy than the current digital
processors we use. The startup takes brain organoids, small
samples of human brain tissue derived from neural stem cells,
and places them in a special environment that keeps these
organoids alive. They then hook up these mini brains to
specialized electrodes to perform computer processing and digital
analog conversions to transform neural activity into digital
information.
The concept of living computers has been around for quite
some time now. Last year, for instance, scientists hooked up
neurons to electrical circuits, resulting in a device that could
perform voice recognition. These unusual machines have some
noteworthy advantages over their silicon-based counterparts,
including a significantly smaller carbon footprint. “This is one of
the reasons why using living neurons for computations is such a
compelling opportunity. Apart from possible improvements in AI
model generalization, we could also reduce greenhouse emissions
without sacrificing technological progress,” she said.
FinalSpark hopes other institutions will tap its
Neuroplatform in order to advance biocomputer research, while
positioning this tool as the next step in AI computing. As AI
companies clamor for resources for data centers, with concerns
growing over carbon emissions and water, it’s a novel approach
that may just pay off in the long run.
Internet:<futurism.com/neoscope> (adapted).
Based on the preceding text, judge the item that follow.
Only recently have scientists begun experimenting with the concept of living computers.
Provas
Questão presente nas seguintes provas
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