# 88

Standards in this Framework

Standards Mapped

# 47%

Mapped to Course

Standard Lessons
AP1.a.8.h
Analyze a problem and design and implement an algorithmic solution using sequence, selection, and iteration.
1. 1.15 Control Structures Example
2. 1.17 Karel Algorithms
3. 1.20 Karel Challenges
AP1.a.9.h
Explain and demonstrate how modeling and simulation can be used to explore natural phenomena (e.g., flocking behaviors, queueing, life cycles).
1. 7.8 Simulation
2. 13.2 Visualizing and Interpreting Data
AP1.a.10.h
(+) Provide examples of computationally solvable problems and difficult-to- solve problems.
AP1.a.11.h
(+) Decompose a large-scale computational problem by identifying generalizable patterns and applying them in a solution.
AP1.a.12.h
(+) Illustrate the flow of execution of a recursive algorithm.
AP1.a.13.h
(+) Describe how parallel processing can be used to solve large computational problems (e.g., SETI at Home, FoldIt).
1. 11.8 Sequential, Parallel & Distributed Computing
AP1.a.14.h
(+) Develop and use a series of test cases to verify that a program performs according to its design specifications.
AP1.a.15.h
(+) Explain the value of heuristic algorithms (discovery methods) to approximate solutions for difficult-to-solve computational problems.
AP2.a.10.h
Use user-centered research and design techniques (e.g., surveys, interviews) to create software solutions.
1. 18.3 Test
AP2.a.11.h
Integrate grade-level appropriate mathematical techniques, concepts, and processes in the creation of computational artifacts.
1. 5.8 Basic JavaScript and Graphics Challenges
AP2.a.5.i
Use mathematical operations to change a value stored in a variable.
1. 5.8 Basic JavaScript and Graphics Challenges
AP2.a.13.h
(+) Decompose a computational problem by creating new data types, functions, or classes.
AP2.a.14.h
(+) Develop programs for multiple computing platforms (e.g., computer desktop, web, mobile).
AP2.a.15.h
(+) Implement an Artificial Intelligence (AI) algorithm to play a game against a human opponent or solve a problem.
AP2.a.16.h
(+) Demonstrate code reuse by creating programming solutions using libraries and application program interfaces (APIs) (e.g., graphics libraries, maps, API).
1. 1.10 Super Karel
2. 1.19 Ultra Karel
3. 3.6 Basic Math in JavaScript
4. 3.7 Using Graphics in JavaScript
5. 3.8 Mouse Events: Mouse Clicked
6. 4.5 Key Events
AP3.a.4.h
Compare and contrast various software licensing schemes (e.g., open source, freeware, commercial).
AP3.b.8.h
Evaluate and analyze how algorithms have impacted our society and discuss the benefits and harmful impacts of a variety of technological innovations.
1. 11.10 The Impact of the Internet
AP3.b.9.h
(+) Compare a variety of programming languages and identify features that make them useful for solving different types of problems and developing different kinds of systems (e.g., declarative, logic, parallel, functional, compiled, interpreted, real- time).
AP3.b.10.h
(+) Modify an existing program to add additional functionality and discuss intended and unintended implications (e.g., breaking other functionality).
AP3.c.3.h
(+) Describe how Artificial Intelligence (AI) drives many software and physical systems (e.g., autonomous robots, computer vision, pattern recognition, text analysis).
AP3.c.4.h
Write appropriate documentation for programs.
1. 6.1 Project: Tell a Story
AP3.c.5.h
(+) Use application programming interface (APIs) documentation resources.
AP3.c.6.h
Use online resources to answer technical questions.
AP4.a.4.h
Demonstrate the value of abstraction for managing problem complexity (e.g., using a list instead of discrete variables).
1. 1.9 Abstraction
AP4.a.5.h
Understand the notion of hierarchy and abstraction in high-level languages, translation, instruction sets, and logic circuits.
1. 8.1 Intro to Digital Information
AP4.a.6.h
Deconstruct a complex problem into simpler parts using predefined constructs (e.g., functions and parameters and/or classes).
1. 1.7 Top Down Design and Decomposition in Karel
AP4.a.7.h
(+) Compare and contrast fundamental data structures and their uses (e.g., lists, maps, arrays, stacks, queues, trees, graphs).
1. 7.1 Intro to Lists/Arrays
AP4.a.8.h
(+) Critically analyze and evaluate classic algorithms (e.g., sorting, searching) and use in different contexts, adapting as appropriate.
AP4.a.9.h
(+) Discuss issues that arise when breaking large-scale problems down into parts that must be processed simultaneously on separate systems (e.g., cloud computing, parallelization, concurrency).
AP4.a.10.h
(+) Define the functionality of an abstraction without implementing the abstraction.
AP4.a.11.h
(+) Evaluate algorithms (e.g., sorting, searching) in terms of their efficiency, correctness, and clarity.
AP4.a.12.h
(+) Identify programming language features that can be used to define or specify an abstraction.
AP4.a.13.h
(+) Identify abstractions used in a solution (program or software artifact) and reuse those abstractions to solve a different problem.
AP5.a.6.h
Design and develop a software artifact working in a team.
1. 2.1 Practice PT: Pair-Programming Paint!
2. 18.1 Intro to Design Thinking
3. 18.4 Project Prep and Development
AP5.a.7.h
Demonstrate how diverse collaborating impacts the design and development of software products (e.g., discussing real-world examples of products that have been improved through having a diverse design team or reflecting on their own team's development experience).
1. 18.1 Intro to Design Thinking
2. 18.3 Test
AP5.a.8.h
(+) Demonstrate software life cycle processes (e.g., spiral, waterfall) by participating on software project teams (e.g., community service project with real-world clients).
1. 18.1 Intro to Design Thinking
AP5.a.9.h
(+) Use version control systems, integrated development environments (IDEs), and collaboration tools and practices (code documentation) in a group software project.
AP5.b.3.h
Create design teams taking into account the strengths and perspectives of potential team members.
1. 18.4 Project Prep and Development
AP6.a.4.h
Use a systematic approach and debugging tools to independently debug a program (e.g., setting breakpoints, inspecting variables with a debugger).
1. 1.16 Debugging Strategies
AP6.b.3.h
(+) Evaluate key qualities of a program (e.g., correctness, usability, readability, efficiency, portability, scalability) through a process such as a code review.
CS1.a.6.h
Develop and apply criteria (e.g., power consumption, processing speed, storage space, battery life, cost, operating system) for evaluating a computer system for a given purpose (e.g., system specification needed to run a game, web browsing, graphic design, or video editing).
CS1.a.7.h
(+) Identify the functionality of various categories of hardware components and communication between them (e.g., physical layers, logic gates, chips, input and output devices).
CS1.b.3.h
(+) Explain the role of operating systems (e.g., how programs are stored in memory, how data is organized and retrieved, how processes are managed and multi-tasked).
CS2.a.4.h
Devise a systematic process to identify the source of a problem within individual and connected devices (e.g., research, investigate, problem solve).
CS3.a.2.h
Demonstrate the role and interaction of a computer embedded within a physical system, such as a consumer electronic, biological system, or vehicle, by creating a diagram, model, simulation, or prototype.
CS3.a.3.h
(+) Describe the steps necessary for a computer to execute high-level source code (e.g., compilation to machine language, interpretation, fetch- decode-execute cycle).
CS4.a.2.h
Create, extend, or modify existing programs to add new features and behaviors using different forms of inputs and outputs (e.g., inputs such as sensors, mouse clicks, data sets; outputs such as text, graphics, sounds).
1. 3.8 Mouse Events: Mouse Clicked
2. 4.5 Key Events
CS4.a.3.h
(+) Create a new artifact that uses a variety of forms of inputs and outputs (e.g., inputs such as sensors, mouse clicks, data sets; outputs such as text, graphics, sounds).
1. 3.8 Mouse Events: Mouse Clicked
2. 4.5 Key Events
DA1.a.4.h
Convert between binary, decimal, and hexadecimal representations of data (e.g., convert hexadecimal color codes to decimal percentages, ASCII/ Unicode representation).
1. 8.2 Number Systems
2. 8.3 Encoding Text with Binary
3. 8.4 Pixel Images
DA1.a.5.h
Analyze the representation tradeoffs among various forms of digital information (e.g., lossy vs. lossless compression, encrypted vs. unencrypted, various image representations).
1. 8.8 Data Compression
2. 8.9 Lossy Compression
DA1.a.6.h
(+) Discuss how data sequences (e.g., binary, hexadecimal, octal) can be interpreted in a variety of forms (e.g., instructions, numbers, text, sound, image).
1. 8.6 Pixel Colors!
2. 8.7 Image Manipulation
DA2.a.4.h
Discuss techniques used to store, process, and retrieve different amounts of information (e.g., files, databases, data warehouses).
1. 7.1 Intro to Lists/Arrays
DA2.a.5.h
(+) Use various data collection techniques for different types of computational problems (e.g., mobile device Global Positioning System (GPS), user surveys, embedded system sensors, open data sets, social media data sets).
DA2.b.4.h
Apply basic techniques for locating and collecting small- and large-scale data sets (e.g., creating and distributing user surveys, accessing real-world data sets).
1. 13.1 Getting Started with Data
2. 13.2 Visualizing and Interpreting Data
3. 13.3 Data Collection & Limitations
DA3.a.6.h
Use computational tools to collect, transform, and organize data about a problem to explain to others.
1. 13.1 Getting Started with Data
2. 13.2 Visualizing and Interpreting Data
3. 13.3 Data Collection & Limitations
DA4.a.6.h
Create computational models that simulate real- world systems (e.g., ecosystems, epidemics, spread of ideas).
1. 7.8 Simulation
DA4.a.7.h
(+) Evaluate the ability of models and simulations to formulate, refine, and test hypotheses.
1. 7.8 Simulation
DA4.b.1.h
(+) Use data analysis to identify significant patterns in complex systems (e.g., take existing data sets and make sense of them).
1. 13.2 Visualizing and Interpreting Data
DA4.b.2.h
(+) Identify mathematical and computational patterns through modeling and simulation (e.g., regression, queueing theory, discrete event simulation).
IC1.a.6.h
Debate the social and economic implications associated with ethical and unethical computing practices (e.g., intellectual property rights, hacktivism, software piracy, new computers shipped with malware).
IC1.a.7.h
Discuss implications of the collection and large-scale analysis of information about individuals (e.g., how businesses, social media, and government collect and use personal data).
IC1.a.8.h
Compare and debate the positive and negative impacts of computing on behavior and culture (e.g., evolution from hitchhiking to ride-sharing apps, online accommodation rental services).
1. 11.10 The Impact of the Internet
IC1.a.9.h
Describe how computation shares features with art and music by translating human intention into an artifact.
IC1.a.10.h
(+) Develop criteria to evaluate the beneficial and harmful effects of computing innovations on people and society.
1. 12.1 The Effects of the Internet
IC1.b.5.h
Evaluate the negative impacts of electronic communication on personal relationships and evaluate differences between face- to-face and electronic communication.
IC1.b.6.h
(+) Create a list of practices that individuals and organizations can use to encourage proper use of both electronic and face-to- face communication.
IC1.b.7.h
(+) Evaluate the negative impacts on societal discourse caused by social media and electronic communities.
IC2.a.3.h
(+) Evaluate the impact of equity, access, and influence on the distribution of computing resources in a global society.
1. 11.10 The Impact of the Internet
IC2.b.3.h
Design a user interface (e.g., web pages, mobile applications, animations) to be more inclusive and accessible, minimizing the impact of the designer's inherent bias.
1. 18.1 Intro to Design Thinking
2. 18.2 Prototype
3. 18.4 Project Prep and Development
IC2.c.5.h
Ethically and safely select, observe, and contribute to global collaboration in the development of a computational artifact (e.g., contribute the resolution of a bug in an open-source project platform, or contribute an online article).
IC2.c.6.h
Demonstrate how computing enables new forms of experience, expression, communication, and collaboration.
1. 18.4 Project Prep and Development
IC3.a.4.h
Compare and contrast information access and distribution rights.
IC3.b.5.h
Research and understand misuses of private digital information in our society.
1. 11.11 Creative Credit & Copyright
IC3.b.6.h
Debate laws regarding an individualâ€™s digital privacy and be able to explain the main arguments from multiple perspectives.
IC3.c.1.h
(+) Design and implement a study that evaluates how computation has revolutionized an aspect of our culture or predicts how an aspect might evolve (e.g., education, healthcare, art/entertainment, energy).
IC3.c.2.h
(+) Debate laws and regulations that impact the development and use of software and be able to explain the main arguments from multiple perspectives.
NI1.a.6.h
Provide examples of personal data that should be kept secure and the methods by which individuals keep their private data secure.
NI1.a.7.h
(+) Explain security issues that might lead to compromised computer programs (e.g., circular references, ambiguous program calls, lack of error checking, and field size checking).
NI1.b.3.h
Compare and contrast multiple viewpoints on cybersecurity (e.g., from the perspective of security experts, privacy advocates, national security).
NI1.b.4.h
Identify digital and physical strategies to secure networks and discuss the tradeoffs between ease of access and need for security.
NI2.a.8.h
Illustrate the basic components of computer networks (e.g., draw logical and topological diagrams of networks including routers, switches, servers, and end user devices; create model with string and paper).
1. 11.6 Routing
NI2.a.9.h
(+) Explain ways in which the internet is decentralized and fault- tolerant.
1. 11.6 Routing
NI2.a.10.h
(+) Simulate and discuss the issues (e.g., bandwidth, load, delay, topology) that impact network functionality (e.g., use free network simulators).
1. 11.6 Routing
NI2.b.3.h
Describe key protocols and underlying processes of internet-based services (e.g., http/https and Simple Mail Transfer Protocol (SMTP) or Internet Message Access Protocol (IMAP), routing protocols).
1. 11.7 Packets and Protocols
NI2.c.4.h
(+) Evaluate how the hierarchical nature of the Domain Name System helps the internet work efficiently.
1. 11.5 DNS and Routing
NI2.d.3.h
Write a program that performs basic encryption (e.g., shift cipher, substitution cipher).
1. 8.10 Cryptography
NI2.d.4.h
(+) Explain the features of public key cryptography.
1. 8.10 Cryptography
NI2.d.5.h
(+) Explore security policies by implementing and comparing encryption and authentication strategies (e.g., secure coding, safeguarding keys).