Questões de Concurso Público PRODEST-ES 2014 para Analista de Tecnologia da Informação - Desenvolvimento de Sistemas

Foram encontradas 70 questões

Q466024 Gerência de Projetos
Considerando a área de conhecimento Gerenciamento da Qualidade de Projeto do PMBOK (4.ª edição), é correto afirmar que
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Q466025 Governança de TI
No COBIT 4.1, o processo Definir um Plano Estratégico de TI está inserido no domínio
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Q466026 Governança de TI
No ITIL V3, a publicação considerada como básica ou central no ciclo de vida de serviços é
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Q466027 Redes de Computadores
O modelo de referência OSI da ISO permite o mapeamento hierárquico dos serviços vinculados ao processo de comu- nicação de dados. Considerando esse modelo, o serviço desempenhado pelo protocolo HTTP é mapeado na camada de
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Q466028 Redes de Computadores
No conjunto de protocolos TCP/IP, o protocolo IP é utilizado para identificar os elementos da rede de computadores e também para possibilitar o roteamento dos pacotes pela rede, sendo divididos em classes para esse fim. Dentre os quatro o ctetos (32 bits) que compõem o endereço IP, os bits que identificam a classe do endereço IP estão, da esquerda para a direita,
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Q466029 Inglês

A Capacity Management Information System or CMIS is a collection of IT infrastructure usage, capacity and performance information that has been gathered in a consistent manner and stored in one or more databases. It is the single book of record for all usage, capacity, and performance data, complete with associated business, application and service statistics. Any IT staffer needing access to capacity management data can potentially use a CMIS.



IT service management processes frequently accessing CMIS data are:



• Capacity planning
• Performance management
• Service level management
• Help/Service desk
• Incident management

•  Problem management

•  Configuration management


(Extraído de: www.teamquest.com.br/…/ whitepaper /)



De acordo com o texto, um CMIS é uma coleção de informações de uso, capacidade e desempenho de infraestrutura de TI que tem sido

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Q466030 Inglês

A Capacity Management Information System or CMIS is a collection of IT infrastructure usage, capacity and performance information that has been gathered in a consistent manner and stored in one or more databases. It is the single book of record for all usage, capacity, and performance data, complete with associated business, application and service statistics. Any IT staffer needing access to capacity management data can potentially use a CMIS.



IT service management processes frequently accessing CMIS data are:



• Capacity planning
• Performance management
• Service level management
• Help/Service desk
• Incident management

•  Problem management

•  Configuration management


(Extraído de: www.teamquest.com.br/…/ whitepaper /)



Na frase “Any IT staffer needing access to capacity management data can potentially use a CMIS" o termo staffer, no contexto, tem o significado de

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Q466031 Inglês
Computers are used to control a wide range of systems from simple domestic machines, through games controllers, to entire manufacturing plants. These computers interact directly with hardware devices. Their software must react to events generated by the hardware and, often, issue control signals in response to these events. These signals result in an action, such as the initiation of a phone call, the movement of a character on the screen, the opening of a valve, or the display of the system status. The software in these systems is embedded in system hardware, often in read-only memory, and usually responds, in real time, to events from the system’s environment. By real time, I mean that the software system has a deadline for responding to external events. If this deadline is missed, then the overall hardware-software system will not operate correctly.

Embedded software is very important economically because almost every electrical device now includes software. There are therefore many more embedded software systems than other types of software system. If you look around your house you may have three or four personal computers. But you probably have 20 or 30 embedded systems, such as systems in phones, cookers, microwaves etc

Responsiveness in real time is the critical difference between embedded systems and other software systems, such as information systems, web-based systems, or personal software systems, whose main purpose is data processing. For non-real- time systems, the correctness of a system can be defined by specifying how system inputs map to corresponding outputs that should be produced by the system. In response to an input, a corresponding output should be generated by the system and, often, some data should be stored. For example, if you choose a create command in a patient information system, then the correct system response is to create a new patient record in a database, and to confirm that this has been done. Within reasonable limits, it does not matter how long this takes.

However, in a real-time system, the correctness depends both on the response to an input and the time taken to generate that response. If the system takes too long to respond, then the required response may be ineffective. For example, if embedded software controlling a car braking system is too slow, then an accident may occur because it is impossible to stop the car in time.


(Extraído de: Software Engineering, I. Sommerville, 9th Edition, 2011, pg. 538.)

Pode-se afirmar que o tipo de software mencionado no texto é
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Q466032 Inglês
Computers are used to control a wide range of systems from simple domestic machines, through games controllers, to entire manufacturing plants. These computers interact directly with hardware devices. Their software must react to events generated by the hardware and, often, issue control signals in response to these events. These signals result in an action, such as the initiation of a phone call, the movement of a character on the screen, the opening of a valve, or the display of the system status. The software in these systems is embedded in system hardware, often in read-only memory, and usually responds, in real time, to events from the system’s environment. By real time, I mean that the software system has a deadline for responding to external events. If this deadline is missed, then the overall hardware-software system will not operate correctly.

Embedded software is very important economically because almost every electrical device now includes software. There are therefore many more embedded software systems than other types of software system. If you look around your house you may have three or four personal computers. But you probably have 20 or 30 embedded systems, such as systems in phones, cookers, microwaves etc

Responsiveness in real time is the critical difference between embedded systems and other software systems, such as information systems, web-based systems, or personal software systems, whose main purpose is data processing. For non-real- time systems, the correctness of a system can be defined by specifying how system inputs map to corresponding outputs that should be produced by the system. In response to an input, a corresponding output should be generated by the system and, often, some data should be stored. For example, if you choose a create command in a patient information system, then the correct system response is to create a new patient record in a database, and to confirm that this has been done. Within reasonable limits, it does not matter how long this takes.

However, in a real-time system, the correctness depends both on the response to an input and the time taken to generate that response. If the system takes too long to respond, then the required response may be ineffective. For example, if embedded software controlling a car braking system is too slow, then an accident may occur because it is impossible to stop the car in time.


(Extraído de: Software Engineering, I. Sommerville, 9th Edition, 2011, pg. 538.)

De acordo com o texto, em um sistema de tempo real, a exatidão depende
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Q466033 Inglês
Computers are used to control a wide range of systems from simple domestic machines, through games controllers, to entire manufacturing plants. These computers interact directly with hardware devices. Their software must react to events generated by the hardware and, often, issue control signals in response to these events. These signals result in an action, such as the initiation of a phone call, the movement of a character on the screen, the opening of a valve, or the display of the system status. The software in these systems is embedded in system hardware, often in read-only memory, and usually responds, in real time, to events from the system’s environment. By real time, I mean that the software system has a deadline for responding to external events. If this deadline is missed, then the overall hardware-software system will not operate correctly.

Embedded software is very important economically because almost every electrical device now includes software. There are therefore many more embedded software systems than other types of software system. If you look around your house you may have three or four personal computers. But you probably have 20 or 30 embedded systems, such as systems in phones, cookers, microwaves etc

Responsiveness in real time is the critical difference between embedded systems and other software systems, such as information systems, web-based systems, or personal software systems, whose main purpose is data processing. For non-real- time systems, the correctness of a system can be defined by specifying how system inputs map to corresponding outputs that should be produced by the system. In response to an input, a corresponding output should be generated by the system and, often, some data should be stored. For example, if you choose a create command in a patient information system, then the correct system response is to create a new patient record in a database, and to confirm that this has been done. Within reasonable limits, it does not matter how long this takes.

However, in a real-time system, the correctness depends both on the response to an input and the time taken to generate that response. If the system takes too long to respond, then the required response may be ineffective. For example, if embedded software controlling a car braking system is too slow, then an accident may occur because it is impossible to stop the car in time.


(Extraído de: Software Engineering, I. Sommerville, 9th Edition, 2011, pg. 538.)

Na frase “Within reasonable limits, it does not matter how long this takes.”, o termo reasonable, no contexto, tem o significado de
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Respostas
31: D
32: E
33: C
34: A
35: A
36: A
37: D
38: C
39: B
40: E