Computer engineering uc berkeley

To put it simply, electrical engineers and computer scientists can do practically anything. The great thing about electrical engineering is that it is deeply involved in high science, particularly physics. You make things — or make them better.

The difference is in what else you take: mainly engineering, or mainly humanities and social sciences. For information regarding the BS degree, please see the Electrical Engineering and Computer Sciences program information in this Guide. Berkeley emphasizes the science of computer science, which means much more than just computer programming. It includes the theory of computation, the design and analysis of algorithms, the architecture and logic design of computers, programming languages, compilers, operating systems, scientific computation, computer graphics, databases, artificial intelligence, and natural language processing. Our goal is to prepare students both for a possible research career and long-term technical leadership in industry. We must therefore look beyond today's technology and give students the primary ideas and the learning skills that will prepare them to teach themselves about tomorrow's technology.

Computer engineering uc berkeley

An essential difference between the two majors is that the EECS program requires a greater number of math and science courses than the CS program, which requires a greater number of non-technical, or breadth, courses. For further information on the BA program, please see the Computer Science program page in this Guide. Prospective undergraduates to the College of Engineering apply to a specific major within the college. For further information, please see the College of Engineering's website. Students accepted into colleges other than the College of Engineering will not be allowed to change to the College of Engineering in order to declare the EECS major. The EECS honors degree program is designed to provide accomplished undergraduate students a greater connection to the department. Honors students pursue undergraduate research and select an academic concentration outside of EECS. In addition, students receive a special faculty adviser, engage in research, receive official notation of the honors degree on their Berkeley transcript, and are invited to special events with faculty and EECS honors alumni. For more information regarding this program, please click here. This is not a concurrent degree program. Students earn their bachelor's degree first and then the master's. However, careful planning during the undergraduate program allows motivated students to begin a research project and complete some master's course requirements while still in undergraduate standing. Depending on how quickly a student progresses through the undergraduate program, the additional graduate year may come sooner than the fifth year at Berkeley. It is open to any undergraduate who has declared a major other than EECS and has completed four of the course requirements.

The courses are aimed at entering students as well as non-majors seeking a broad introduction to the field.

The Department of Electrical Engineering and Computer Sciences EECS offers one of the strongest research and instructional programs in this field anywhere in the world. Our key strength is our array of cross-disciplinary, team-driven projects. The integration of Electrical Engineering EE and Computer Science CS forms the core, with strong interactions that extend into the biological sciences, mechanical and civil engineering, the physical sciences, chemistry, mathematics, and operations research. Our programs have been consistently ranked in the top three nationwide and worldwide by various organizations. Each year, top students from all parts of the world are attracted to Berkeley's EECS program by the excellence of the faculty, the breadth of the educational opportunities in EECS and across the campus, our proximity to the vibrant California tech sector, and the Berkeley environment. The department's close ties to the industry, coupled with its commitment to engineering research and education, ensure that students receive a rigorous, relevant, and broad education. Faculty members at Berkeley are committed to research and discovery at the highest level, informed and creative teaching, and the creative desire to excel.

To put it simply, electrical engineers and computer scientists can do practically anything. The great thing about electrical engineering is that it is deeply involved in high science, particularly physics. You make things — or make them better. Things like solid-state circuits, microwave electronics, quantum and optical electronics, large-scale networks and systems, or computer-aided design — and those are just a few possibilities. Typically, electrical engineers will focus on products that generate or transmit electricity or that use electricity as a power source.

Computer engineering uc berkeley

The Master of Engineering is designed for students who plan to join the engineering profession following graduation. This accelerated program is designed to develop professional engineering leaders of the future who understand the technical, economic, and social issues of technology. The project allows you to practice, with guidance, the technical and non-technical skills that you learn in the classroom. Our M. However, success in engineering requires skills that transcend the scientific and technical. In a modern engineering development organization, you almost always have to work in teams, and you must communicate your ideas and influence people colleagues, investors, customers through oral and written communication.

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A knowledge of contemporary issues. To obtain credit a satisfactory thesis must be submitted at the end of the two semesters to the Electrical and Engineering and Computer Science Department archive. Introduction to Artificial Intelligence: Read Less [-]. Digital synthesis, floor-planning, placement and routing are covered, as well as tools to evaluate timing and power consumption. Colleges typically do not offer additional time to complete a minor, but it is usually possible to finish within the allotted time with careful course planning. Terms offered: Spring , Fall , Spring Overview of electronic properties of semiconductor. Terms offered: Fall , Spring , Fall The same material as in 61C but in a lab-centric format. EL ENG Introduction to Electric Power and Renewable Energy 4 Units Terms offered: Spring This course is designed to provide an introduction to electric power conversion, distribution, and generation with renewable energy sources. Terms offered: Spring , Fall , Fall Introduction to the basic principles of the design and analysis of modern digital communication systems. This modern complexity-theoretic approach to cryptography will be the focus. It presents elementary principles on proximity, tactile, and force sensing, vision sensors, camera calibration, stereo construction, and motion detection.

Learn more about our traditions of excellence in teaching, leadership in research, and impact on society by exploring this website. An advanced math curriculum in high school is essential for preparing California students for science and technology majors in college, University of California, Berkeley experts wrote in a recent EdSource op-ed.

COMPSCI H Honors Social Implications of Computer Technology 3 Units Terms offered: Fall , Spring , Spring Topics include electronic community; the changing nature of work; technological risks; the information economy; intellectual property; privacy; artificial intelligence and the sense of self; pornography and censorship; professional ethics. Fulfillment of this requirement is also a prerequisite to enrollment in all reading and composition courses at UC Berkeley. The objective of this course is to teach students majoring in these and related subjects how to use electronic devices to solve problems in their areas of expertise. The courses are aimed at entering students as well as non-majors seeking a broad foundation for the field. Instructor: Stojanovic. Real world applications, ranging from ground-fault circuit interrupters to residential power distribution and solar photovoltaic dc-ac inverters will be explored in live lecture demonstration. Topics include abstraction, recursion, algorithmic complexity, higher-order functions, concurrency, social implications of computing privacy, education, algorithmic bias , and engaging research areas data science, AI, HCI. A number of physical design issues visible at the architecture level are covered as well, such as interconnects, power, and reliability. The course has a strong laboratory component , with emphasis on a semester-long sequence of projects. The class will cover problems of public goods and social choice, as well as allocative questions and private consumption. Instructor: Stojanovic. Computer Architecture and Engineering: Read Less [-].