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UCLA Engineering Announcement 2016-17 PDF

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HENRY SAMUELI SCHOOL OF ENGINEERING AND APPLIED SCIENCE 2016-17 ANNOUNCEMENT UNIVERSITY OF CALIFORNIA, OCTOBER 1, 2016 LOS ANGELES UCLA HENRY SAMUELI SCHOOL OF ENGINEERING AND APPLIED SCIENCE 2016-17 ANNOUNCEMENT UNIVERSITY OF CALIFORNIA, OCTOBER 1, 2016 LOS ANGELES Contents A Message from the Dean . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 Prizes and Awards . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .15 Henry Samueli School of Engineering and Applied Science . . . 4 Departmental Scholar Program . . . . . . . . . . . . . . . . . . . . . . . . . .16 Official Publications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .16 Officers of Administration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 Grading Policy . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .16 The Campus . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 Grade Disputes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .16 The School . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 Nondiscrimination . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .16 Endowed Chairs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 Harassment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .16 The Engineering Profession . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 Undergraduate Programs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .18 Correspondence Directory . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7 Admission . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .18 Calendars . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8 Requirements for B.S. Degrees . . . . . . . . . . . . . . . . . . . . . . . . . . .21 General Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 Honors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .23 Facilities and Services . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 Graduate Programs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .24 Library Facilities . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 Admission . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .25 Services . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 Continuing Education . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 Departments and Programs of the School . . . . . . . . . . . . . . . . .26 Career Services . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10 Bioengineering . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .26 Arthur Ashe Student Health and Wellness Center . . . . . . . . . . . 10 Chemical and Biomolecular Engineering . . . . . . . . . . . . . . . . . . . . .38 Services for Students with Disabilities . . . . . . . . . . . . . . . . . . . . 10 Civil and Environmental Engineering . . . . . . . . . . . . . . . . . . . . . . . .47 Dashew Center for International Students and Scholars . . . . . . 10 Computer Science . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .59 Fees and Financial Support . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10 Electrical Engineering . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .77 Fees and Expenses . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10 Materials Science and Engineering . . . . . . . . . . . . . . . . . . . . . . . . .94 Living Accommodations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11 Mechanical and Aerospace Engineering . . . . . . . . . . . . . . . . . . . .101 Financial Aid . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11 Master of Science in Engineering Online Programs . . . . . . . . . . .116 Special Programs, Activities, and Awards . . . . . . . . . . . . . . . . . . . 13 Schoolwide Programs, Courses, and Faculty . . . . . . . . . . . . . . . .118 Center for Excellence in Engineering and Diversity . . . . . . . . . . . 13 Externally Funded Research Centers and Institutes . . . . . . . .121 Student Organizations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14 Curricula Tables . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .124 Women in Engineering . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15 Index . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .138 Student and Honorary Societies . . . . . . . . . . . . . . . . . . . . . . . . . 15 Student Representation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15 DISCLOSURE OF STUDENT RECORDS TO ALL STUDENTS: Students who do not wish certain items (i.e., name, local/mailing, permanent, Pursuant to the federal Family Educational Rights and Privacy Act (FERPA), the and/or e-mail address, telephone numbers, major field of study, dates of atten- California Information Practices Act, and the University of California Policies Ap- dance, number of course units in which enrolled, and degrees and honors plying to the Disclosure of Information from Student Records, students at UCLA received) of this “public information” released and published may so indicate have the right to (1) inspect and review records pertaining to themselves in their through MyUCLA (http://my.ucla.edu). To restrict the release and publication of capacity as students, except as the right may be waived or qualified under federal the additional items in the category of “public information,” complete the UCLA and state laws and University policies, (2) have withheld from disclosure, absent FERPA Restriction Request form available from the Registrar’s Office, 1113 their prior written consent for release, personally identifiable information from their Murphy Hall. student records, except as provided by federal and state laws and University pol- Student records that are the subject of federal and state laws and University pol- icies, (3) inspect records maintained by UCLA of disclosures of personally identi- icies may be maintained in a variety of UCLA offices, including the Registrar’s Of- fiable information from their student records, (4) seek correction of their student fice, Office of the Dean of Students, Career Center, Graduate Division, External records through a request to amend the records or, if such request is denied, Affairs Department, and the offices of a student’s College or school and major de- through a hearing, and (5) file complaints with the U.S. Department of Education partment. Students are referred to the online UCLA Campus Directory (http:// regarding alleged violations of the rights accorded them by FERPA. www.directory.ucla.edu), which lists all the offices that may maintain student UCLA, in accordance with federal and state laws and University policies, has des- records, together with their campus address and telephone number. Students ignated the following categories of personally identifiable information as “public have the right to inspect their student records in any such office subject to the information” that UCLA may release and publish without the student’s prior con- terms of federal and state laws and University policies. Inspection of student sent: name, address (local/mailing, permanent, and/or e-mail), telephone num- records maintained by the Registrar’s Office is by appointment only and must be bers, major field of study, dates of attendance, enrollment status, grade level, arranged three working days in advance. Call 310-825-1091, option 6, or inquire number of course units in which enrolled, degrees and honors received, the most at the Registrar’s Office, 1113 Murphy Hall. recent previous educational institution attended, participation in officially recog- A copy of the federal and state laws, University policies, and the print UCLA Tele- nized activities (including intercollegiate athletics), and the name, weight, and phone Directory may be inspected in the office of the Information Practices Coor- height of participants on intercollegiate athletic teams. dinator, 500 UCLA Wilshire Center. Information concerning students’ hearing As a matter of practice, UCLA does not publish student addresses or telephone rights may be obtained from that office and from the Office of the Dean of Stu- numbers in the campus electronic directory unless released by the student. The dents, 1206 Murphy Hall. term “public information” in this policy is synonymous with the term “directory in- formation” in FERPA. Published by UCLA Academic Publications All announcements herein are subject to revision. Every effort has been made Box 951429 to ensure the accuracy of the information presented in the Announcement of the Los Angeles, CA 90095-1429 UCLA Henry Samueli School of Engineering and Applied Science. However, all © 2016 by the Regents of the University of California. courses, course descriptions, instructor designations, curricular degree require- ments, and fees described herein are subject to change or deletion without notice. UCLA®, UCLA Bruins®, University of California Los Angeles®, and all related Further details on graduate programs are available in various Graduate Division trademarks are the property of the Regents of the University of California. publications, which are available online at https://grad.ucla.edu. Cover: Students participate in Engineering Open House activities. A Message from the Dean The Henry Samueli School of Engineering and Applied Science at UCLA has a long legacy of excellence in research, education, and service to society. Great challenges lie ahead! Engineers seek to improve society and better the lives of many. In the twenty-first century this includes fostering a more sustainable planet, developing new medicines and healthcare technologies, and finding hidden insights from a deluge of data. A new generation of engineers is needed to tackle these complex problems. At UCLA we are proud to teach students who are creative, brilliant, and bring an exemplary work ethic to their studies. The school offers a rigorous curriculum designed to prepare students for careers in industry. Many of our graduates use their engineering education to pursue other professions, become entrepreneurs, or enter a career in academia. Our classes are taught by faculty members who are among the best in the world in their respective fields. And beyond just engineering, UCLA is a vibrant campus unlike any other. For nearly a century, this University has been home to daring risk-takers and bold game-changers. From the arts and sciences to medicine and here in engineering, UCLA has always been at the forefront. For our prospective students, let me offer three points beyond the curriculum on what this great University offers. First, you will meet some extraordinary people in your fellow stu- dents. In engineering and the sciences and in the humanities and arts, the talent, smarts, outside-the-box thinking, and collabora- tive can-do energy at UCLA are unparalleled. Second, UCLA isn’t just a great University in isolation. It is an inte- gral part of one of the world’s great cities. Los Angeles is a tech capital. World-leading firms in aerospace and defense, semiconduc- tors, biotechnology, and other areas are headquartered in Southern California or have a major presence here. The region also has a major startup scene in which so many UCLA engineers play a part. Los Angeles sets the agenda in design, arts and entertainment, sustainability, the environment, and more. Third, there are amazing research opportunities for undergraduate students here. Our faculty members are world leaders in their fields, and undergraduate students are a part of many of their laboratories. Some of our students collaborate with the medical school and leaders in other disciplines as they pursue new knowledge. Finally, UCLA Engineering is entering an extraordinary period of growth with significant expansion in the number of faculty members and students. The school already is world-renowned, but we are reaching for new heights. With this growth will come extraordinary new opportunities for our students to have significant impact on our society and the world. This is a truly exciting time to study at UCLA Engineering. I invite you to be part of it. Jayathi Y. Murthy Dean 3 Henry Samueli School of Engineering  and Applied Science Officers of Administration grams on campus, while more than 300,000 Energy Research Center (SMERC) conducts patients from around the world come to the research, creates innovations, and demon- Jayathi Y. Murthy, Ph.D., Professor and Dean Ronald Reagan UCLA Medical Center for strates advanced wireless/communications, of the Henry Samueli School of Engineering treatment. The university’s 419-acre campus Internet, and sense-and-control technologies and Applied Science houses the College of Letters and Science to enable the development of the next genera- Jia-Ming Liu, Ph.D., Professor and Associate and 12 professional schools. There are more tion of the electric utility grid. The Wireless Dean, Academic Personnel than 43,300 students enrolled in 125 under- Health Institute (WHI) is a community of UCLA Harold G. Monbouquette, Ph.D., Professor graduate and 206 graduate degree programs. experts and innovators from a variety of disci- and Associate Dean, Research and Physi- UCLA is rated one of the best public research plines dedicated to improving healthcare cal Resources universities in the U.S. and among a handful delivery through the development and appli- Richard D. Wesel, Ph.D., Professor and Asso- of top U.S. research universities, public and cation of wireless network-enabled technolo- ciate Dean, Academic and Student Affairs private. The chief executive of the University is gies integrated with current and next- Chancellor Gene D. Block. He oversees all generation medical enterprise computing. The Jenn-Ming Yang, Ph.D., Professor and Asso- aspects of the University’s three-part mission Named Data Networking (NDN) Project is ciate Dean, International Initiatives and of education, research, and service. investigating the future of the Internet’s archi- Online Education tecture, capitalizing on its strengths and Southern California has grown to become one Mary Okino, Ed.D., Assistant Dean, Chief addressing weaknesses, to accommodate of the nation’s dominant industrial centers, Financial Officer emerging patterns of communication. The and the UCLA Henry Samueli School of Engi- NSF Center for Encrypted Functionalities Panagiotis D. Christofides, Ph.D., Professor neering and Applied Science (HSSEAS) is (CEF) explores program obfuscation which and Chair, Chemical and Biomolecular uniquely situated as a hub of engineering uses new encryption methods to make a Engineering Department research and professional training for this computer program, and not just its output, Mario Gerla, Ph.D., Professor and Chair, region. invisible to an outside observer, while pre- Computer Science Department serving how it works—its functionality—thus Song Li, Ph.D., Professor and Chair, Bioengi- The School enhancing cybersecurity. The B. John Gar- neering Department rick Institute for the Risk Sciences is com- The UCLA College of Engineering (as it was Christopher S. Lynch, Ph.D., Professor and known then) was established in 1943 when mitted to the advancement and application Chair, Mechanical and Aerospace Engi- California Governor Earl Warren signed a bill of the risk sciences to save lives, protect the neering Department to provide instruction in engineering at the environment, and improve system perfor- Gregory J. Pottie, Ph.D., Professor and Chair, UCLA campus. It welcomed its first students mance. Finally, the California NanoSystems Electrical Engineering Department in 1945 and was dedicated as the Henry Institute (CNSI)—a joint endeavor with UC Samueli School of Engineering and Applied Santa Barbara—develops the information, Jonathan P. Stewart, Ph.D., Professor and Science in 2000. The school ranks among the biomedical, and manufacturing technologies Chair, Civil and Environmental Engineering top 10 engineering schools in public universi- of the twenty-first century. Department ties nationwide. In addition, the school has identified critical Dwight C. Streit, Ph.D., Professor and Chair, areas for collaborative research that will have UCLA engineering faculty members are active Materials Science and Engineering Depart- participants in many interdisciplinary research a major impact on the future of California and ment the world. Among these are biomedical infor- centers. The Center for Translational Applica- matics; alternative energy solutions; secure tions of Nanoscale Multiferroic Systems The Campus (TANMS) strives to revolutionize development electronic transfer of information; new tools for the entertainment industry; systems, dynam- UCLA is a large urban university situated of consumer electronics by engineering mate- ics, and controls; advanced technologies for between the city and the sea at the foot of the rials that optimize energy efficiency, size, and Santa Monica Mountains. Less than six miles power output on the small scale. The Focus water reclamation; and new approaches and technologies for aerospace engineering. from the Pacific Ocean, it is bordered by Sun- Center on Function Accelerated nanoMaterial set and Wilshire Boulevards. As the city has Engineering (FAME) aims to revolutionize And the school has established the Institute grown physically and culturally, so has the semiconductor technologies by developing for Technology Advancement (ITA) dedicated campus, whose students and faculty mem- new nanoscale materials and structures that to the effective transition of high-impact inno- bers mirror the cultural and racial diversity of take advantage of properties unavailable at vative research from UCLA to product devel- today’s Los Angeles. UCLA is one of the most larger scales. The WIN Institute of Neurotron- opment and commercialization. ITA nurtures widely respected and recognized universities ics (WINs) focuses on cutting-edge technol- and incubates breakthrough ideas to create in the world, and its impact on society can be ogy, including nanostructures. The Center of new industrial products, as well as provides a felt into the far reaches of the globe. Students Excellence for Green Nanotechnologies learning platform for faculty members and stu- come from around the world to receive a undertakes frontier research and development dents to engage in transitional technology UCLA education, and our alumni go on to in the areas of nanotechnology in energy and research. become leaders in their fields, from elected nanoelectronics. The Center for Domain-Spe- The school offers 39 academic and profes- officials to heads of international corporations. cific Computing (CDSC) is developing high- sional degree programs. The Bachelor of UCLA is recognized as the West’s leading performance, energy efficient, customizable Science degree is offered in Aerospace Engi- center for the arts, culture, and medical computing that could revolutionize the way neering, Bioengineering, Chemical Engineer- research. Each year, more than half a million computers are used in healthcare and other ing, Civil Engineering, Computer Science, important applications. The Smart Grid people attend visual and performing arts pro- Computer Science and Engineering, Electrical Henry Samueli School of Engineering and Applied Science / 5 Engineering, Materials Engineering, and Raytheon Company Chair in Electrical sional career development in industry and Mechanical Engineering. The undergraduate Engineering graduate study in aerospace engineering. curricula leading to these degrees provide stu- Raytheon Company Chair in Manufacturing Graduate education prepares students for dents with a solid foundation in engineering Engineering careers at the forefront of aerospace technol- and applied science and prepare graduates Charles P. Reames Endowed Chair in ogy. The Ph.D. degree provides a strong for immediate practice of the profession as Electrical Engineering background for employment by government well as advanced studies. In addition to engi- Ben Rich Lockheed Martin Chair in laboratories, such as NASA, and industrial neering courses, students complete about Aeronautics research laboratories supported by the major one year of study in the humanities, social sci- Rockwell Collins Chair in Engineering aerospace companies. It also provides the ences, and/or fine arts. appropriate background for academic careers. William Frederick Seyer Chair in Materials Master of Science and Ph.D. degrees are Electrochemistry Bioengineering offered in Aerospace Engineering, Bioengi- Ronald and Valerie Sugar Endowed Chair in neering, Chemical Engineering, Civil Engineer- Engineering At the interface of engineering, medicine, and ing, Computer Science, Electrical Engineering, Symantec Term Chair in Computer Science basic sciences, bioengineering has emerged Manufacturing Engineering (M.S. only), Mate- Carol and Lawrence E. Tannas, Jr., Endowed and established itself internationally as an rials Science and Engineering, and Mechani- Chair in Engineering engineering discipline in its own right. Such an cal Engineering. The schoolwide online interdisciplinary education is necessary to William D. Van Vorst Chair in Chemical Master of Science in Engineering degree pro- Engineering Education develop a quantitative engineering approach gram includes 11 individual degrees. The to tackle complex medical and biological Volgenau Endowed Chair in Engineering Engineer degree is a more advanced degree problems, as well as to invent and improve the Wintek Endowed Chair in Electrical than the M.S. but does not require the ever-evolving experimental and computational Engineering research effort and orientation involved in a tools that are required in this engineering Ph.D. dissertation. For information on the The Engineering Profession approach. UCLA has a long history of foster- Engineer degree, see Graduate Programs on ing interdisciplinary training and is a superb page 24. A one-year program leading to a The following describes the challenging types environment for bioengineers. UCLA boasts Certificate of Specialization is offered in vari- of work HSSEAS graduates might perform the top hospital in the western U.S., nationally ous fields of engineering and applied science. based on their program of study. ranked medical and engineering schools, and numerous nationally recognized programs in Endowed Chairs Aerospace Engineering the basic sciences. Rigorously trained bioen- Aerospace engineers conceive, design, de- gineers are in demand in research institutions, Endowed professorships or chairs, funded by velop, test, and supervise the construction of academia, and industry. Their careers may fol- gifts from individuals or corporations, support aerospace vehicle systems such as commer- low a bioengineering concentration, but the the research and educational activities of dis- cial and military aircraft, helicopters and other ability of bioengineers to cut across traditional tinguished members of the faculty. The follow- types of rotorcraft, and space vehicles and boundaries will facilitate their innovation in ing endowed chairs have been established in satellites, including launch systems. They are new areas. the Henry Samueli School of Engineering and employed by aerospace companies, airframe Applied Science. Chemical and Biomolecular and engine manufacturers, government agen- L.M.K. Boelter Chair in Engineering cies such as NASA and the military services, Engineering Vijay K. Dhir Chair in Engineering and research and development organizations. Chemical and biomolecular engineers use Englekirk Presidential Endowed Chair in Working in a high-technology industry, aero- their knowledge of mathematics, physics, Structural Engineering space engineers are generally well versed in chemistry, biology, and engineering to meet Traugott and Dorothea Frederking Endowed applied mathematics and the fundamental the needs of our technological society. They Chair in Cryogenics engineering sciences, particularly fluid design, research, develop, operate, and man- Norman E. Friedmann Chair in Knowledge mechanics and thermodynamics, dynamics age within the biochemical and chemical Sciences and control, and structural and solid mechan- industries and are leaders in the fields of Leonard Kleinrock Chair in Computer Science ics. Aerospace vehicles are complex systems. energy and the environment, nanoengineer- Evalyn Knight Chair in Engineering Proper design and construction involves the ing/nanotechnology, systems engineering, Levi James Knight, Jr., Chair in Engineering coordinated application of technical disci- biotechnology and biomolecular engineering, plines, including aerodynamics, structural and advanced materials processing. They are Richard G. Newman AECOM Endowed Chair in Civil Engineering analysis and design, stability and control, in charge of the chemical processes used by aeroelasticity, performance analysis, and pro- virtually all industries, including the pharma- Nippon Sheet Glass Company Chair in Mate- pulsion systems technology. ceutical, biotechnology, biofuel, food, aero- rials Science space, automotive, water treatment, and Northrop Grumman Chair in Electrical Aerospace engineers use computer systems semiconductor industries. Architectural, engi- Engineering and programs extensively and should have at neering, and construction firms employ chem- Northrop Grumman Chair in Electrical least an elementary understanding of modern ical engineers for equipment and process Engineering/Electromagnetics electronics. They work in a challenging and design. It is also their mission to develop the Northrop Grumman Opto-Electronic Chair in highly technical atmosphere and are likely to clean and environmentally friendly technolo- Electrical Engineering operate at the forefront of scientific discover- gies of the future. ies, often stimulating these discoveries and Ralph M. Parsons Foundation Chair in Chemi- cal Engineering providing the inspiration for the creation of Major areas of fundamental interest within new scientific concepts. chemical engineering are Jonathan B. Postel Chair in Computer Systems The B.S. program in Aerospace Engineering 1. Applied chemical kinetics, which involves Jonathan B. Postel Chair in Networking emphasizes fundamental disciplines and the design of chemical and biochemical therefore provides a solid base for profes- reactors and processes and the creation 6 / Henry Samueli School of Engineering and Applied Science of catalysts that accelerate reaction kinet- tions in the computer field. In addition, they aerospace and manufacturing industries. ics, prepare graduates to deal with the most diffi- Materials engineers are responsible for the cult problems facing the computer science selection and testing of materials for spe- 2. Transport phenomena, which involves the field. University or college teaching generally cific applications. Traditional fields of met- exchange of momentum, heat, and mass requires the graduate degree. allurgy and ceramics have been merged in in physical and biological systems and has applications to the separation of valuable industry, and this program reflects the materials from mixtures, or of pollutants Electrical Engineering change. from gas and liquid streams, The electrical engineering discipline deals pri- 2. In the electronic materials option of the 3. Thermodynamics, which is fundamental marily with the sensing, analysis, and pro- materials engineering program, students to physical, chemical, and biological pro- cessing of information. It develops circuits, learn the basics of materials engineering cesses, and devices, algorithms, and theories that can be with a concentration in electronic materials used to sense data, analyze data, extrapolate and processing. The optional program 4. Process design and synthesis, which data, communicate data, and take action in requires additional coursework which provide the overall framework and com- response to the data collected. The Electrical includes five to eight electrical engineering puting technology for integrating chemical Engineering Department is a recognized courses. engineering knowledge into industrial leader in education and research related to In order to enter a career in research and application and practice. these subjects. development of new materials (such as new Civil and Environmental energy devices), an M.S. or Ph.D. degree is Manufacturing Engineering Engineering desirable. Manufacturing engineering is an interdisciplin- Civil engineers plan, design, construct, and ary field that integrates the basic knowledge Mechanical Engineering manage a range of physical systems, such as of materials, design, processes, computers, Mechanical engineering is a broad discipline buildings, bridges, dams and tunnels, trans- and system analysis. The manufacturing engi- finding application in virtually all industries and portation systems, water and wastewater neering program is part of the Mechanical and manufactured products. The mechanical treatment systems, coastal and ocean engi- Aerospace Engineering Department. engineer applies principles of mechanics, neering facilities, and environmental engineer- Specialized areas are generally classified as dynamics, and energy transfer to the design, ing projects, related to public works and manufacturing processes, manufacturing analysis, testing, and manufacture of con- private enterprises. Thus, civil and environ- planning and control, and computer-aided sumer and industrial products. A mechanical mental engineering embraces activities in tra- manufacturing. engineer usually has specialized knowledge  ditional areas and in emerging problem areas in areas such as design, materials, fluid associated with modern industrial and social Manufacturing engineering as an engineering development. specialty requires the education and experi- dynamics, solid mechanics, heat transfer, ence necessary to understand, apply, and thermodynamics, dynamics, control systems, The civil engineering profession demands rig- control engineering procedures in manufac- manufacturing methods, and human factors. orous scientific training and a capacity for cre- Applications of mechanical engineering turing processes and production methods  ativity and growth into developing fields. In include design of machines used in the manu- of industrial commodities and products. It Southern California, besides employment in facturing and processing industries, mechani- involves the generation of manufacturing sys- civil engineering firms and governmental cal components of electronic and data tems, the development of novel and special- agencies for public works, civil engineering processing equipment, engines and power- ized equipment, research into the phenomena graduates often choose other industries for generating equipment, components and vehi- of fabricating technologies, and manufactur- assignments based on their engineering back- cles for land, sea, air, and space, and artificial ing feasibility of new products. ground. Graduates are also qualified for posi- components for the human body. Mechanical tions outside engineering where their broad Coursework, independent studies, and engineers are employed throughout the engi- engineering education is a valuable asset. research are offered in the manufacturing neering community as individual consultants processes area, leading to an M.S. degree. The curriculum leading to a B.S. in Civil Engi- in small firms providing specialized products This includes computer-aided design and neering provides an excellent foundation for or services, as designers and managers in computer-aided manufacturing, robotics, entry into professional practice, as well as for large corporations, and as public officials in metal forming and metal cutting analysis, graduate study in civil engineering and other government agencies. nondestructive evaluation, and design and related fields. optimization of manufacturing processes. Mechanical engineers apply their knowledge to a wealth of systems, products, and pro- Computer Science and Materials Engineering cesses, including energy generation, utilization Engineering and conservation, power and propulsion sys- Materials engineering is concerned with the Students specializing in the computer science tems (power plants, engines), and commercial structure and properties of materials used in and engineering undergraduate program are products found in the automotive, aerospace, modern technology. Advances in technology educated in a range of computer system con- chemical, or electronics industries. are often limited by available materials. Solu- cepts. As a result, students at the B.S. level tions to energy problems depend largely on The B.S. program in Mechanical Engineering are qualified for employment as applications new materials, such as solar cells or materials at UCLA provides excellent preparation for a programmers, systems programmers, digital for batteries for electric cars. career in mechanical engineering and a foun- system designers, digital system marketing dation for advanced graduate studies. Gradu- engineers, and project engineers. Two programs within materials engineering ate studies in one of the specialized fields of are available at UCLA: Undergraduate students can major either in mechanical engineering prepare students for a the computer science and engineering pro- 1. In the materials engineering program, stu- career at the forefront of technology. The Ph.D. gram or in the computer science program. dents become acquainted with metals, degree provides a strong background for ceramics, polymers, and composites. Graduate degree programs in computer sci- employment by government laboratories, Such expertise is highly sought by the ence prepare students for leadership posi- industrial research laboratories, and academia. Correspondence Directory Henry Samueli School of  Academic Counselors Materials Engineering Engineering and Applied Science James Washington, 310-825-1704, jaw@ http://www.engineering.ucla.edu seas.ucla.edu; Jan J. LaBuda 310-825- Aerospace Engineering 2514, [email protected]; Erkki Corpuz, Michel Moraga, 310-825-5760, michel@ 310-825-9442, [email protected] Office of Academic and Student Affairs seas.ucla.edu; Vanessa Hernandez, 310- 6426 Boelter Hall 825-2757, [email protected] Mechanical Engineering http://www.seasoasa.ucla.edu Michel Moraga, 310-825-5760, michel@ Bioengineering seas.ucla.edu; Jan J. LaBuda, 310-825- Bioengineering Department Erkki Corpuz, 310-825-9442, erkki@seas 2514, [email protected]; Vanessa  5121 Engineering V .ucla.edu; Ashley Benson, 310-206-2891, Hernandez, 310-825-2757, vanessah@ http://bioeng.ucla.edu [email protected]; Victoria Moraga, seas.ucla.edu 310-825-9602, [email protected] Chemical and Biomolecular Engineering  Undeclared Engineering Department Chemical and Biomolecular Engineering Erkki Corpuz, 310-825-9442, erkki@seas 5531 Boelter Hall Ashley Benson, (310)206-2891, abenson .ucla.edu; Jan J. LaBuda 310-825-2514, http://chemeng.ucla.edu @seas.ucla.edu; Erkki Corpuz, 310-825- [email protected] 9442, [email protected]; Julietta Torres, Civil and Environmental Engineering  310-206-6397, [email protected] Department 5731 Boelter Hall Civil Engineering University of California, Los Angeles http://cee.ucla.edu Vanessa Hernandez, 310-825-2757, Los Angeles, CA 90095-1361 Computer Science Department [email protected]; Jan J. LaBuda http://www.ucla.edu 310-825-2514, [email protected]; Erkki 4732 Boelter Hall Corpuz, 310-825-9442, [email protected] http://cs.ucla.edu .edu; Ashley Benson, (310)206-2891, Undergraduate Admission Electrical Engineering Department [email protected] 1147 Murphy Hall 58-121 Engineering IV http://www.admission.ucla.edu Computer Science http://ee.ucla.edu Alina Haas, 310-825-2889, ahaas@seas Graduate Diversity, Inclusion, and Admissions  Materials Science and Engineering  .ucla.edu; Michel Moraga, 310-825-5760, 1248 Murphy Hall Department [email protected]; Mary Anne Geber, https://grad.ucla.edu/gasaa/admissions/ 3111 Engineering V 310-825-2036, [email protected] applicat.htm http://www.mse.ucla.edu .edu; Jan J. LaBuda 310-825-2514, jan@ Financial Aid and Scholarships Mechanical and Aerospace Engineering  seas.ucla.edu; Victoria Moraga, 310-825- A129J Murphy Hall Department 9602, [email protected] http://www.financialaid.ucla.edu 48-121 Engineering IV Computer Science and Engineering Registrar’s Office http://mae.ucla.edu Alina Haas, 310-825-2889, ahaas@seas 1105 Murphy Hall Continuing Education in Engineering .ucla.edu; Michel Moraga, 310-825-5760, http://www.registrar.ucla.edu 542 UNEX [email protected]; Mary Anne Geber, http://www.uclaextension.edu 310-825-2036, [email protected] Dashew Center for International Students and .edu; Jan J. LaBuda 310-825-2514, jan@ Scholars Engineering and Science Career Services seas.ucla.edu; Victoria Moraga, 310-825- 106 Bradley Hall UCLA Career Center 9602, [email protected] http://www.internationalcenter.ucla.edu 501 Westwood Plaza, Strathmore Building http://career.ucla.edu Electrical Engineering Summer Sessions Mary Anne Geber, 310-825-2036, 1332 Murphy Hall Master of Science in Engineering Online  [email protected]; Jan J. LaBuda http://www.summer.ucla.edu Program 310-825-2514, [email protected]; James University of California 7440 Boelter Hall Washington, 310-825-1704, jaw@seas Office of the President–Admissions http://msol.ucla.edu .ucla.edu; Alina Haas, 310-825-2889, http://admission.universityofcalifornia.edu [email protected]; Victoria Moraga, 310-825-9602, [email protected]; Julietta Torres, 310-206-6397, juliet@ seas.ucla.edu Academic Calendar Fall 2016 Winter 2017 Spring 2017 First day for continuing students to check MyUCLA at June 1 October 26 TBA http://my.ucla.edu for assigned enrollment appointments MyUCLA enrollment appointments begin June 13 November 9 February 6 Quarter begins September 19 January 4, 2017 March 29 Registration fee payment deadline September 20 December 20 March 20 Instruction begins September 22 January 9 April 3 Last day for undergraduates to add courses with per-course October 14 January 27 April 21 fee through MyUCLA Last day for undergraduates to drop nonimpacted courses October 21 February 3 April 28 without a transcript notation (with per-transaction fee  through MyUCLA) Last day for undergraduates to change grading basis November 4 February 17 May 12 (optional P/NP) with per-transaction fee through MyUCLA Instruction ends December 2 March 17 June 9 Final examinations December 5–9 March 20–24 June 12–16 Quarter ends December 9 March 24 June 16 HSSEAS Commencement — — June 17 Academic and administrative holidays November 11 January 16 March 31 November 24-25 February 20 May 29 December 23, 26 December 30,  January 2 Winter campus closure (tentative) December 27–29 Admission Calendar Fall 2016 Winter 2017 Spring 2017 Filing period for undergraduate applications (file online at http:// November 1–30, — — admission.universityofcalifornia.edu/how-to-apply/apply- 2015 online/index.html) Last day to file Application for Graduate Admission or readmission Consult Consult Consult with complete credentials and application fee, online at https:// department department department app.applyyourself.com/AYApplicantLogin/fl_ApplicantConnect Login.asp?id=ucla-grad or with Graduate Diversity, Inclusion, and Admissions (DIA), 1248 Murphy Hall, UCLA, Los Angeles, CA 90024-1419 Last day to file Undergraduate Readmission Application at August 15 November 25 February 25 1113 Murphy Hall (late applicants pay a late fee) General Information Facilities and Putnam Map Room includes U.S. and inter- emergency power keeps critical equipment national topographic and geologic maps. running during extended downtime. Services The SEL website, http://www.library.ucla.edu/ Students and faculty have access to free retail sel, is the access point to all of the above Microsoft software through the Microsoft Teaching and research facilities at HSSEAS are resources. The site also supplies information on Dream Spark Premium program, and Math- in Boelter Hall, Engineering I, Engineering IV, course reserves, laptop lending, interlibrary Type software through the HSSEAS download Engineering V, and Engineering VI, located in loan, document delivery, news and events, service. Faculty and staff have access to the southern part of the UCLA campus. and a staff directory. Librarians are available Adobe professional and Microsoft Office Boelter Hall houses classrooms and laborato- for consultations and to provide course- (MCCA) software at no charge. Abaqus, ries for undergraduate and graduate instruc- related instruction on using electronic and Autodesk, and Dreamspark programs offer tion, the Office of Academic and Student print resources including journal article data- additional software at no charge to all UCLA Affairs (http://www.seasoasa.ucla.edu), the bases, the UCLA Library catalog, Web search students. Ansys offers a student version of its SEASnet computer facility (http://www.seas engines, research impact metrics, research software for a very low fee. .ucla.edu/seasnet/), specialized libraries, and data management and curation, scholarly The UCLA Office of Information Technology offices of faculty and administration. The Shop communication, copyright, and open access (OIT) operates high-performance computer Services Center and the Student and Faculty publishing. clusters that supply cluster hosting services to Shop are in the Engineering I building. The campus researchers in a way that effectively California NanoSystems Institute (CNSI) build- Services manages the limited high-end data center ing hosts additional HSSEAS collaborative space on campus. They offer help to research activities. Instructional Computer Facility researchers who need assistance in numeri- cally intensive computing by speeding up HSSEAS maintains a network of over 130 Library Facilities long-running serial or parallel programs or by enterprise servers that provide a wide array of parallelizing existing serial code. A UCLA Grid critical services for School of Engineering stu- University Library System dents, faculty, and staff. Network Appliance Portal and other high-performance computing resources are also available. The UCLA Library, a campuswide network of NFS servers supply reliable storage for user’s libraries serving programs of study and re- personal data and e-mail, and offer nearly The school manufacturing engineering pro- search in many fields, is among the top 10 instant recovery of deleted files through regu- gram operates a group of workstations dedi- ranked research libraries in the U.S. Total lar snapshots. cated to CAD/CAM instruction, and the collections number more than 12 million More than 100 Unix servers, including 25 vir- Computer Science Department operates a volumes, and over 112,000 serial titles are tual machines, provide administrative and network of SUN, PC, and Macintosh comput- received regularly. Nearly 53,000 serials and instructional support to ensure smooth opera- ers. The school is connected via high-speed databases are electronically available through tion of approximately 700 Linux and Windows networks to the Internet, and computing the UCLA Library Catalog, which is linked to workstations. The Unix servers provide back- resources at the national supercomputer cen- the library homepage at http://www.library end services such as DNS, authentication, ters are available. .ucla.edu. virtualization, software licensing, web servers, Shop Services Center interactive log-in, database, e-mail, class Science and Engineering Library applications, and security monitoring. The Shop Services Center is available to fac- The combined Science and Engineering Twenty Windows servers make up the back- ulty, staff, and students for projects. Library (SEL) collections contain more than bone for all instructional computing labs and half a million print volumes; subscriptions to allow students to work remotely with compu- Continuing Education nearly 5,400 print or electronic journals, many tationally and resource-intensive applications. with full archival access; a large collection of There are three computer labs and two UCLA Extension online technical reports; and over 57,000 e- instructional computer labs with 200 Windows Department of Engineering and Technology books. The library offers access to online workstations. databases covering each discipline. A high-speed network that links the entire Varaz Shahmirian, Ph.D., Director The SEL/Boelter location (formerly Engineer- infrastructure ensures a latency-free operation Roman Fry, M.B.A.,MSAE, Program Director ing and Mathematical Sciences Collection), for users from UCLA and around the world. It The UCLA Extension (UNEX) Department of 8270 Boelter Hall, focuses on engineering, consists of dual fiber uplinks to a Cisco core Engineering and Technology (540 UNEX, mathematics, statistics, astronomy, chemistry, router that feeds and routes 20 networks, 10995 Le Conte Avenue) provides one of the physics, and atmospheric and oceanic sci- over 150 switches, and 50 Cisco wireless nation’s largest selections of continuing engi- ences, and is the location of most librarian access points. The network serves over 8,000 neering education programs. A short course and staff offices. The library also offers laptop users across four buildings. program of 150 annual offerings draws partic- checkout, group study rooms, a learning ipants from around the world for two- to four- For backup and disaster recovery, large commons, a research commons for collabo- day intensive programs. Many of these short capacity LTO tapes are used to back up serv- rative projects, and quiet areas for study. courses are also offered on-site at companies ers and selected user workstations regularly, The SEL/Geology location, 4697 Geology and incremental backups are done to online and government agencies; see https://www Building, focuses on earth and space sci- disk storage. The LTO tapes are sent to off- .uclaextension.edu/shortcourses/. The ences with materials in geochemistry, geology, site storage for disaster recovery. acclaimed Technical Management Program hydrology, tectonics, water resources, geo- has been offered for more than 60 years. See physics, and space physics. The William C. The servers are protected by two UPS units https://www.uclaextension.edu/tmp/. for short-term power outages, and campus

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TO ALL STUDENTS: Pursuant to the federal Family Educational Rights and Privacy Act (FERPA), the. California Information Practices Act, and the University of California Policies Ap- plying to the Disclosure of Information from Student Records, students at UCLA have the right to (1) inspect and revie
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