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Other AP Computer Science Principles unit study guides
AP Computer Science Principles ultimate guide
Big Idea 1: Creative Development
Big Idea 2: Data
Big Idea 3: Algorithms and Programming
Big Idea 4: Computer Systems and Networks
Big Idea 5: Impact of Computing
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Big Idea 4: Computer Systems and Networks

The Internet

  • Internet: is a network of networks.

  • The word Internet came from “interconnection of computer networks.”

  • The Internet is very hardware driven with wires, cables, and devices such as routers and servers.

  • Routers are computing devices along a path that send the information along to the next stop on the path.

  • Routing: is the process of finding a path from sender to receiver

  • Bandwidth: is a measure of the maximum amount of data that can be transferred through a channel or network connection.

    • It's measured in bits per second, and it determines how quickly you can download and upload files from the internet.

  • Internet protocol (IP): is responsible for addressing and routing your online requests.

  • Transmission control protocol (TCP): is a protocol that defines how computers send packets of data to each other.

  • User datagram protocol (UDP): is a protocol that allows computer applications to send messages without checking for missing packets to save on time needed to retransmit missing packets.

Scalability

  • Scalability: is the ability for a system, network or process to handle a growing amount of work in an efficient manner.

  • It can also be defined as the capacity to increase services and products quickly with minimal interruption and cost.

    • This is especially important in software engineering, where scalability is crucial when developing applications that are expected to handle large amounts of traffic or data.

Fault Tolerance

Hardware Failure

  • Hardware failure: is when a hardware device, such as a computer or printer, stops working properly due to an issue with the physical components.

  • The cause of the failure can be anything from electrical wiring issues to incorrect installation and configuration of hardware components.

  • In any case, diagnosing and repairing hardware failures can be difficult without proper tools and experience in dealing with this type of issue.

Operational Failures

  • Operational failures: are any issues or breakdowns in the operation of a business, machine, system, process, etc.

  • They can range from unexpected downtime to incorrect results due to faulty programming.

  • Operational failures can have significant impacts on profitability and reputation if not addressed swiftly and appropriately.

Weather

  • The internet has cables and wires spanning the world that connect computers.

  • Natural disasters: could cause the hardware to be destroyed, bringing the network activity to a halt.

  • Solar Flare: is an intense radiation that is released from the sun.

    • This happens because of the released from the sun.

Cyberattacks

  • Cyberattacks: are malicious attempts to damage or disrupt computer systems, networks, and data.

  • They can be carried out by individuals, groups, or organizations with malicious intent.

  • Cyberattacks typically involve the use of malware such as viruses and ransomware that allow attackers to gain access to a system for a variety of nefarious purposes including stealing data and financial information or launching denial-of-service attacks.

  • Some cyberattack methods used today include phishing campaigns; social engineering attacks; website defacement; distributed denial of service (DDoS) attacks; SQL injection exploits; man-in-the middle (MITM) attack vectors etc.

Parallel and Distributed Computing

Parallel Computing

  • Parallel computing solution takes as long as the longest of the tasks done in parallel.

    • A parallel computing solution takes as long as its sequential tasks plus the longest of its parallel tasks.

  • Parallel computing can consist of a parallel portion and a sequential portion.

Why Is Parallel Computing Used?

  • Parallel computing is needed for real-world simulations and modeling.

  • Multiple processors can operate independently but share the same memory resources.

Distributed Computing

  • Distributed computing allows problems to be solved that could not be solved on a single computer because of either the processing time or storage needs involved.

  • Parallel computing uses a single computer with multiple processors.

  • Distributed computing uses multiple computing devices to process those tasks.

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AP Computer Science Principles
AP Computer Science PrinciplesBig Idea 4: Computer Systems and Networks

Big Idea 4: Computer Systems and Networks

The Internet

  • Internet: is a network of networks.

  • The word Internet came from “interconnection of computer networks.”

  • The Internet is very hardware driven with wires, cables, and devices such as routers and servers.

  • Routers are computing devices along a path that send the information along to the next stop on the path.

  • Routing: is the process of finding a path from sender to receiver

  • Bandwidth: is a measure of the maximum amount of data that can be transferred through a channel or network connection.

    • It's measured in bits per second, and it determines how quickly you can download and upload files from the internet.

  • Internet protocol (IP): is responsible for addressing and routing your online requests.

  • Transmission control protocol (TCP): is a protocol that defines how computers send packets of data to each other.

  • User datagram protocol (UDP): is a protocol that allows computer applications to send messages without checking for missing packets to save on time needed to retransmit missing packets.

Scalability

  • Scalability: is the ability for a system, network or process to handle a growing amount of work in an efficient manner.

  • It can also be defined as the capacity to increase services and products quickly with minimal interruption and cost.

    • This is especially important in software engineering, where scalability is crucial when developing applications that are expected to handle large amounts of traffic or data.

Fault Tolerance

Hardware Failure

  • Hardware failure: is when a hardware device, such as a computer or printer, stops working properly due to an issue with the physical components.

  • The cause of the failure can be anything from electrical wiring issues to incorrect installation and configuration of hardware components.

  • In any case, diagnosing and repairing hardware failures can be difficult without proper tools and experience in dealing with this type of issue.

Operational Failures

  • Operational failures: are any issues or breakdowns in the operation of a business, machine, system, process, etc.

  • They can range from unexpected downtime to incorrect results due to faulty programming.

  • Operational failures can have significant impacts on profitability and reputation if not addressed swiftly and appropriately.

Weather

  • The internet has cables and wires spanning the world that connect computers.

  • Natural disasters: could cause the hardware to be destroyed, bringing the network activity to a halt.

  • Solar Flare: is an intense radiation that is released from the sun.

    • This happens because of the released from the sun.

Cyberattacks

  • Cyberattacks: are malicious attempts to damage or disrupt computer systems, networks, and data.

  • They can be carried out by individuals, groups, or organizations with malicious intent.

  • Cyberattacks typically involve the use of malware such as viruses and ransomware that allow attackers to gain access to a system for a variety of nefarious purposes including stealing data and financial information or launching denial-of-service attacks.

  • Some cyberattack methods used today include phishing campaigns; social engineering attacks; website defacement; distributed denial of service (DDoS) attacks; SQL injection exploits; man-in-the middle (MITM) attack vectors etc.

Parallel and Distributed Computing

Parallel Computing

  • Parallel computing solution takes as long as the longest of the tasks done in parallel.

    • A parallel computing solution takes as long as its sequential tasks plus the longest of its parallel tasks.

  • Parallel computing can consist of a parallel portion and a sequential portion.

Why Is Parallel Computing Used?

  • Parallel computing is needed for real-world simulations and modeling.

  • Multiple processors can operate independently but share the same memory resources.

Distributed Computing

  • Distributed computing allows problems to be solved that could not be solved on a single computer because of either the processing time or storage needs involved.

  • Parallel computing uses a single computer with multiple processors.

  • Distributed computing uses multiple computing devices to process those tasks.