Logic Design and Implementation
About Logic Design and Implementation
Implementing logic gates or representing Boolean functions in logic is a relatively straightforward and easy process. By linking the output of one logic gate to the input of another gate, Boolean functions may be implemented using logic gates. The logic gates AND, OR, NAND, and NOR are often utilized. A Boolean expression created using Logic Design encapsulates the necessary circuit performance.
Why is Logic Design and Implementation important?
Logic gates are efficient and speedy. A microcontroller's required number of I/O ports can be decreased by using logic gates. Data encryption and decryption may be done simply using logic gates.
Logic models are useful tools for planning, implementing, managing, evaluating, and reporting on programs. They assist in defining a program's intended impact and objectives, the order in which expected effects are to occur, the actions that are to create particular effects, and the areas on which to concentrate result and process assessments.
Who should take the Logic Design and Implementation Exam?
- Students who are interested to learn Sequential logic design and implementing circuits.
Logic Design and Implementation Certification Course Outline
- Introduction to Sequential Logic circuit
- Overview of Simulation software
- Types of FLIP-FLOPS
- Verifying the truth table of FLIP-FLOPs using Simulation Software
- FLIP FLOP Conversion
- FLIP FLOP Conversion using Simulation Software
- Design of Asynchronous Counter
- Implementation of Asynchronous Counter using Simulation Software
- Design of Synchronous Counter
- Implementation of Synchronous Counter using Simulation Software