Standards in this Framework
| Standard | Description |
|---|---|
| 9-12.AP.A.1 | Create prototypes that use algorithms to solve computational problems by leveraging prior student knowledge and personal interests. |
| 9-12.AP.V.1 | Demonstrate the use of both linked lists and arrays to simplify solutions, generalizing computational problems instead of repeatedly using simple variables. |
| 9-12.AP.C.1 | Justify the selection of specific control structures when tradeoffs involve implementation, readability, and program performance, and explain the benefits and drawbacks of choices made. |
| 9-12.AP.C.2 | Design and iteratively develop computational artifacts for practical intent, personal expression, or to address a societal issue by using events to initiate instructions. |
| 9-12.AP.M.1 | Decompose problems into smaller components through systematic analysis, using constructs such as procedures, modules, and/or objects. |
| 9-12.AP.M.2 | Create artifacts by using procedures within a program, combinations of data and procedures, or independent but interrelated programs. |
| 9-12.AP.PD.1 | Systematically design and develop programs for broad audiences by incorporating feedback from users. |
| 9-12.AP.PD.2 | Evaluate licenses that limit or restrict use of computational artifacts when using resources such as libraries. |
| 9-12.AP.PD.3 | Evaluate and refine computational artifacts to make them more usable by all and accessible to people with disabilities. |
| 9-12.AP.PD.4 | Design and develop computational artifacts working in team roles using collaborative tools. |
| 9-12.AP.PD.5 | Document design decisions using text, graphics, presentations, and/or demonstrations in the development of complex programs. |
| 9-12.CS.D.1 | Explain how abstractions hide the underlying implementation details of computing systems embedded in everyday objects. |
| 9-12.CS.HS.1 | Compare levels of abstraction and interactions between application software, system software, and hardware layers. |
| 9-12.CS.T.1 | Develop guidelines that convey systematic troubleshooting strategies that others can use to identify and fix errors. |
| 9-12.DA.S.1 | Translate between different bit representations of real-world phenomena, such as characters, numbers, and images (e.g., convert hexadecimal colors to decimal percentages, ASCII/Unicode representation). |
| 9-12.DA.S.2 | Evaluate the tradeoffs in how data elements are organized and where data is stored. |
| 9-12.DA.CVT.1 | Create interactive data visualizations or alternative representations using software tools to help others better understand real-world phenomena. |
| 9-12.DA.IM.1 | Create computational models that represent the relationships among different elements of data collected from a phenomenon, process, or model. |
| 9-12.IC.C.1 | Evaluate the ways computing impacts personal, ethical, social, economic, and cultural practices. |
| 9-12.IC.C.2 | Test and refine computational artifacts to reduce bias and equity deficits. |
| 9-12.IC.C.3 | Demonstrate ways a given algorithm applies to problems across disciplines. |
| 9-12.IC.C.4 | Explain the potential impacts of artificial intelligence on society. |
| 9-12.IC.SI.1 | Use tools and methods for collaboration on a project to increase connectivity of people in different cultures and career fields. |
| 9-12.IC.SLE.1 | Explain the beneficial and harmful effects that intellectual property laws can have on innovation. |
| 9-12.IC.SLE.2 | Explain the privacy concerns related to the collection and generation of data through automated processes that may not be evident to users. |
| 9-12.IC.SLE.3 | Evaluate the social and economic implications of privacy in the context of safety, law, or ethics. |
| 9-12.NI.NCO.1 | Evaluate the scalability and reliability of networks, by describing the relationship between routers, switches, servers, topology, and addressing. |
| 9-12.NI.C.1 | Give examples to illustrate how sensitive data can be affected by malware and other attacks. |
| 9-12.NI.C.2 | Recommend security measures to address various scenarios based on factors such as efficiency, feasibility, and ethical impacts. |
| 9-12.NI.C.3 | Compare various security measures, considering tradeoffs between the usability and security of a computing system. |
| 9-12.NI.C.4 | Explain tradeoffs when selecting and implementing cybersecurity recommendations. |
