Paradigms of Computer Programming : Fundamentals
Louv1.1x and Louv1.2x offer an introduction to the three main programming paradigms: functional, object-oriented, and declarative dataflow. Aimed at those with basic programming knowledge, the courses cover fundamental concepts, data abstraction, state, and concurrency. Learn how to use simple formal semantics and practical code with the open-source Mozart Programming System. Watch the introductory video to learn more. ▼
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Course Feature
Cost:
Free
Provider:
Edx
Certificate:
Paid Certification
Language:
English
Start Date:
Self paced
Course Overview
❗The content presented here is sourced directly from Edx platform. For comprehensive course details, including enrollment information, simply click on the 'Go to class' link on our website.
Updated in [June 30th, 2023]
This course, Paradigms of Computer Programming: Fundamentals, provides an introduction to the three main programming paradigms: functional, object-oriented, and declarative dataflow. It is designed for those with a basic knowledge of programming, and is suitable for both beginning programming students and seasoned professionals.
Louv1.1x covers fundamental concepts such as functional programming, its techniques and its data structures. It uses simple formal semantics for all concepts, and illustrates them with practical code that runs on the accompanying open-source platform, the Mozart Programming System.
Louv1.2x covers data abstraction, state, and concurrency. It introduces the four ways to do data abstraction and discusses the trade-offs between objects and abstract data types. It also introduces deterministic dataflow, the most useful paradigm for concurrent programming, and how it avoids race conditions.
For more information on the practical organization of the two courses, watch the introductory video.
[Applications]
Those who have completed the Paradigms of Computer Programming: Fundamentals course can apply their knowledge to a variety of programming tasks. They can use the concepts and techniques they have learned to create programs that are more efficient, robust, and maintainable. They can also use the knowledge to develop programs that are more easily understood by other programmers. Additionally, they can use the course to gain a better understanding of the different programming paradigms and how they can be used to solve different types of problems.
[Career Path]
One job position path that is recommended to learners of this course is a Computer Programmer. A Computer Programmer is responsible for writing, testing, and maintaining code for computer programs. They must be able to understand the needs of the user and create code that meets those needs. They must also be able to debug and troubleshoot any issues that arise.
The development trend for Computer Programmers is to become more specialized in a particular language or technology. As technology advances, the need for more specialized programmers increases. Additionally, the demand for Computer Programmers is expected to grow as more businesses rely on technology to run their operations. As such, Computer Programmers will need to stay up to date on the latest technologies and trends in order to remain competitive.
[Education Path]
The recommended educational path for learners is a Bachelor's degree in Software Engineering. This degree program typically includes courses in software engineering fundamentals, software design, software architecture, software development, software testing, and software project management. Students will learn how to design, develop, and maintain software systems, as well as how to use software engineering tools and techniques. Additionally, students will gain an understanding of the principles of software engineering, including software architecture, software design, software development, software testing, and software project management.
The development trend of software engineering is towards more complex and sophisticated software systems. As technology advances, software engineers must be able to design and develop software systems that are more efficient, reliable, and secure. Additionally, software engineers must be able to develop software systems that are able to interact with other systems and devices. As such, software engineers must be knowledgeable in a variety of programming languages, software development tools, and software engineering techniques.
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