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Updated in [October 18th, 2023]
What does this course tell?
(Please note that the following overview content is from the original platform)
This is a most fundamental Digital Circuit Design course for pursing a major in VLSI We do not deal with any Verilog coding during this course and instead discuss transistor level circuit design concepts in great detail Over learning objectives of this course are:Characterize the key delay quantities of a standard cellEvaluate power dissipated in a circuit (dynamic and leakage)Design a circuit to perform a certain functionality with specified speedIdentify the critical path of a combinational circuitConvert the combinational block to pipelined circuitCalculate the maximum (worst case) operating frequency of the designed circuitINTENDED AUDIENCE : Any student interested in Circuit Design as applied to VLSI DesignPREREQUISITES : A course on digital logic design is a must for doing this course INDUSTRY SUPPORT : All VLSI Design companies
We considered the value of this course from many aspects, and finally summarized it for you from two aspects: skills and knowledge, and the people who benefit from it:
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What skills and knowledge will you acquire during this course?
During this course, the student will acquire the following skills and knowledge:
1. Understanding of transistor level circuit design concepts: The course focuses on discussing transistor level circuit design concepts in great detail, providing a strong foundation in digital circuit design.
2. Characterization of key delay quantities of a standard cell: Students will learn how to characterize the key delay quantities of a standard cell, which is essential for designing circuits with specified speed requirements.
3. Evaluation of power dissipation in a circuit: The course covers both dynamic and leakage power dissipation in circuits, enabling students to evaluate and optimize power consumption.
4. Circuit design for specific functionality and speed: Students will learn how to design circuits to perform specific functionalities with specified speed requirements, allowing them to create efficient and high-performance digital circuits.
5. Identification of critical paths in combinational circuits: The course teaches students how to identify the critical path in a combinational circuit, which is crucial for optimizing circuit performance.
6. Conversion of combinational blocks to pipelined circuits: Students will learn how to convert combinational blocks into pipelined circuits, which can improve circuit performance by reducing the critical path delay.
7. Calculation of maximum operating frequency: The course covers techniques for calculating the maximum (worst case) operating frequency of a designed circuit, providing students with the ability to analyze and optimize circuit performance.
Overall, this course provides students with a comprehensive understanding of digital IC design principles and techniques, preparing them for careers in VLSI design.
Who will benefit from this course?
This course is intended for students interested in pursuing a major in VLSI design. It is suitable for any student interested in circuit design as applied to VLSI design.
Professionals in the following fields may benefit from this course:
- VLSI Design Engineers: This course provides a strong foundation in digital circuit design, which is essential for VLSI design engineers. It covers key concepts such as transistor level circuit design, power dissipation, and critical path identification.
- Electronics Engineers: Electronics engineers who are involved in designing digital circuits can benefit from this course as it covers fundamental concepts and techniques used in digital IC design.
- Semiconductor Industry Professionals: Professionals working in the semiconductor industry, particularly in VLSI design companies, can benefit from this course as it provides the necessary knowledge and skills required for designing digital integrated circuits.
- Research and Development Professionals: Professionals involved in research and development of digital circuits can benefit from this course as it covers advanced topics such as pipelined circuit design and maximum operating frequency calculation.
Overall, this course is beneficial for individuals interested in pursuing a career in VLSI design or those who need to enhance their knowledge and skills in digital IC design.