General Course Information for CSC340L: Digital Logic Design Lab

Course: CSC340L - Digital Logic Design Lab
Textbook: For the correct edition of the textbook assigned to a specific class, go to: http://www.nutextdirect.com

Course Prerequisite(s):

## Corequisite

Course Description: A study of basic digital logic circuit design and implementation. Circuit schematic development and computer modeling and simulation of digital systems. Experiments explore designs with combinational and sequential logic. Students work through design activities, which include testing, troubleshooting and documentation.
Course Learning Outcomes:
• Design and implement digital/computer circuits with modern design tools.
• Determine the behavior of a digital logic circuit (analysis).
• Translate descriptions of logical problems to efficient digital logic circuits (synthesis).
• Integrate previously designed components into a large-scale system to meet specified requirements.
• Participating as a member of a team-oriented design project.
Specified Program Learning Outcomes:
• MAJOR IN COMPUTER SCIENCE
• Apply mathematical foundations, algorithmic principles, and computer science theory in the modeling, design and optimization of computer-based systems.
• Apply mathematical foundations, algorithmic principles, and computer science theory in the modeling, design and optimization of computer-based systems.
• Apply mathematical foundations, algorithmic principles, and computer science theory in the modeling, design and optimization of computer-based systems.
• Apply mathematical foundations, algorithmic principles, and computer science theory in the modeling, design and optimization of computer-based systems.
• Apply mathematical foundations, algorithmic principles, and computer science theory in the modeling, design and optimization of computer-based systems.
• Demonstrate written and oral communication skills expected of a computer science professional.
• Demonstrate written and oral communication skills expected of a computer science professional.
• Demonstrate written and oral communication skills expected of a computer science professional.
• Demonstrate written and oral communication skills expected of a computer science professional.
• Function effectively on teams to accomplish a common goal.
• Function effectively on teams to accomplish a common goal.
• Function effectively on teams to accomplish a common goal.
• Function effectively on teams to accomplish a common goal.
• Function effectively on teams to accomplish a common goal.
• Implement and evaluate a computer-based system, process, component, or program to meet objectives.
• Implement and evaluate a computer-based system, process, component, or program to meet objectives.
• Implement and evaluate a computer-based system, process, component, or program to meet objectives.
• Implement and evaluate a computer-based system, process, component, or program to meet objectives.
• Use current techniques, skills, and tools necessary for computing practice that supports the recognized need for continual professional development.
• Use current techniques, skills, and tools necessary for computing practice that supports the recognized need for continual professional development.
• Use current techniques, skills, and tools necessary for computing practice that supports the recognized need for continual professional development.
• Use current techniques, skills, and tools necessary for computing practice that supports the recognized need for continual professional development.
• MAJOR IN ENGINEERING TECHNOLOGY
• Apply analog and digital electronics, computer networks, programming and software tools to the building, testing and operation of engineering systems.
• Apply analog and digital electronics, computer networks, programming and software tools to the building, testing and operation of engineering systems.
• Apply analog and digital electronics, computer networks, programming and software tools to the building, testing and operation of engineering systems.
• Apply analog and digital electronics, computer networks, programming and software tools to the building, testing and operation of engineering systems.
• Apply ethical standards in professional decision-making.
• Apply ethical standards in professional decision-making.
• Apply ethical standards in professional decision-making.
• Demonstrate laboratory skills, including the use of appropriate hardware, software, and simulation techniques.
• Demonstrate laboratory skills, including the use of appropriate hardware, software, and simulation techniques.
• Demonstrate laboratory skills, including the use of appropriate hardware, software, and simulation techniques.
• Demonstrate laboratory skills, including the use of appropriate hardware, software, and simulation techniques.
• Use math, science, engineering, and technology to solve technology problems.
• Use math, science, engineering, and technology to solve technology problems.
• Use math, science, engineering, and technology to solve technology problems.
• Use math, science, engineering, and technology to solve technology problems.
• Major in Electrical and Computer Engineering
• Analyze and interpret data.
• Analyze and interpret data.
• Analyze and interpret data.
• Analyze and interpret data.
• Design a component, a system, or a process to meet desired needs within realistic constraints.
• Design a component, a system, or a process to meet desired needs within realistic constraints.
• Design a component, a system, or a process to meet desired needs within realistic constraints.
• Design a component, a system, or a process to meet desired needs within realistic constraints.
• Function on a team and be able to communicate orally and in writing to accomplish a common goal.
• Function on a team and be able to communicate orally and in writting to accomplish a common goal
• Function on a team and be able to communicate orally and in writting to accomplish a common goal
• Use the techniques, skills, and modern engineering tools necessary for engineering practice.
• Use the techniques, skills, and modern engineering tools necessary for engineering practice.
• Use the techniques, skills, and modern engineering tools necessary for engineering practice.
• Use the techniques, skills, and modern engineering tools necessary for engineering practice.

Students with Disabilities:
Students seeking special accommodations due to a disability must submit an application with supporting documentation, as explained under this subject heading in the General Catalog. Instructors are required to provide such accommodations if they receive written notification from the University.

Writing Across the Curriculum:
Students are expected to demonstrate writing skills in describing, analyzing and evaluating ideas and experiences. Written reports and research papers must follow specific standards regarding citations of an author's work within the text and references at the end of the paper. Students are encouraged to use the services of the University's Writing Center when preparing materials.

The following website provides information on APA, MLA, and other writing and citation styles that may be required for term papers and the like: http://nu.libguides.com/citations

National University Library:
National University Library supports academic rigor and student academic success by providing access to scholarly books and journals both electronically and in hard copy. Print materials may be accessed at the Library in San Diego or through document delivery for online and regional students. Librarians are available to provide training, reference assistance, and mentoring at the San Diego Library and virtually for online or regional students. Please take advantage of Library resources:

Contact the Library:

• RefDesk@nu.edu
• (858) 541-7900 (direct line)
• 1-866-NU ACCESS x7900 (toll free)

Use the Library Training Tools (on the Library Homepage) for additional help

• Recorded class presentations
• Tutorials & Guides (APA/MLA, Peer-Review, and more)

Plagiarism:
Plagiarism is the presentation of someone else's ideas or work as one's own. Students must give credit for any information that is not either the result of original research or common knowledge. If a student borrows ideas or information from another author, he/she must acknowledge the author in the body of the text and on the reference page. Students found plagiarizing are subject to the penalties outlined in the Policies and Procedures section of the University Catalog, which may include a failing grade for the work in question or for the entire course. The following is one of many websites that provide helpful information concerning plagiarism for both students and faculty: http://www.indiana.edu/~wts/pamphlets/plagiarism.shtml

Ethics:
Ethical behavior in the classroom is required of every student. The course will identify ethical policies and practices relevant to course topics.

Technology:
Students are expected to be competent in using current technology appropriate for this discipline. Such technology may include word processing, spreadsheet, and presentation software. Use of the internet and e-mail may also be required.

Diversity:
Learning to work with and value diversity is essential in every class. Students are expected to exhibit an appreciation for multinational and gender diversity in the classroom.

Civility:
As a diverse community of learners, students must strive to work together in a setting of civility, tolerance, and respect for each other and for the instructor. Rules of classroom behavior (which apply to online as well as onsite courses) include but are not limited to the following:

• Conflicting opinions among members of a class are to be respected and responded to in a professional manner.
• Side conversations or other distracting behaviors are not to be engaged in during lectures, class discussions or presentations
• There are to be no offensive comments, language, or gestures