DEPARTMENT OF ELECTRICAL ENGINEERING AND COMPUTER SCIENCE
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DEPARTMENT OF ELECTRICAL ENGINEERING AND COMPUTER SCIENCE
DEPARTMENT OF ELECTRICAL ENGINEERING
AND COMPUTER SCIENCE Undergraduate Study
For MIT undergraduates, the Department of Electrical Engineering
Electrical engineers and computer scientists are everywhere and Computer Science oers several programs leading to the
—in industry and research areas as diverse as computer and Bachelor of Science:
communication networks, electronic circuits and systems,
lasers and photonics, semiconductor and solid-state devices, • The 6-1 program (http://catalog.mit.edu/degree-charts/
nanoelectronics, biomedical engineering, computational biology, electrical-science-engineering-course-6-1) leads to the
articial intelligence, robotics, design and manufacturing, control Bachelor of Science in Electrical Science and Engineering. It
and optimization, computer algorithms, games and graphics, is accredited by the Engineering Accreditation Commission of
soware engineering, computer architecture, cryptography and Accreditation Board for Engineering and Technology (ABET)
computer security, power and energy systems, nancial analysis, (http://www.abet.org).
and many more. The infrastructure and fabric of the information • The 6-2 program (http://catalog.mit.edu/degree-charts/
age, including technologies such as the internet and the web, electrical-engineering-computer-science-course-6-2) leads
search engines, cell phones, high-denition television, and to the Bachelor of Science in Electrical Engineering and
magnetic resonance imaging, are largely the result of innovations Computer Science and is for those whose interests cross this
in electrical engineering and computer science. The Department traditional boundary. It is accredited by both the Engineering and
of Electrical Engineering and Computer Science (EECS) (http:// Computing Accreditation Commissions of ABET.
www.eecs.mit.edu) at MIT and its graduates have been at the • The 6-3 program (http://catalog.mit.edu/degree-charts/
forefront of a great many of these advances. Current work in the computer-science-engineering-course-6-3) leads to the
department holds promise of continuing this record of innovation Bachelor of Science in Computer Science and Engineering. It is
and leadership, in both research and education, across the full accredited by both the Engineering and Computing Accreditation
spectrum of departmental activity. Commissions of ABET.
• The 6-7 program (http://catalog.mit.edu/degree-charts/
The career paths and opportunities for EECS graduates cover a wide
computer-science-molecular-biology-course-6-7), oered jointly
range and continue to grow: fundamental technologies, devices,
by the Department of Electrical Engineering and Computer
and systems based on electrical engineering and computer science
Science and the Department of Biology (Course 7), is for students
are pervasive and essential to improving the lives of people around
specializing in computer science and molecular biology. The
the world and managing the environments they live in. The basis for
requirements for this degree program (http://catalog.mit.edu/
the success of EECS graduates is a deep education in engineering
interdisciplinary/undergraduate-programs/degrees/computer-
principles, built on mathematical, computational, physical, and
science-molecular-biology) can be found in the section on
life sciences, and exercised with practical applications and project
Interdisciplinary Programs.
experiences in a wide range of areas. Our graduates have also
demonstrated over the years that EECS provides a strong foundation • The 6-9 program (http://catalog.mit.edu/degree-charts/
for those whose work and careers develop in areas quite removed computation-cognition-6-9), oered jointly by the Department of
from their origins in engineering. Electrical Engineering and Computer Science and the Department
of Biology and the Department of Brain and Cognitive Sciences
Undergraduate students in the department take core subjects that (Course 9), focuses on the emerging eld of computational
introduce electrical engineering and computer science, and then and engineering approaches to brain science, cognition, and
systematically build up broad foundations and depth in selected machine intelligence. The requirements for this degree program
intellectual theme areas that match their individual interests. (http://catalog.mit.edu/interdisciplinary/undergraduate-
Laboratory subjects, independent projects, and research provide programs/degrees/computation-cognition) can be found in the
engagement with principles and techniques of analysis, design, and section on Interdisciplinary Programs.
experimentation in a variety of elds. The department also oers • The 6-14 program (http://catalog.mit.edu/degree-charts/
a range of programs that enable students to gain experience in computer-science-economics-data-science-course-6-14), oered
industrial settings, ranging from collaborative industrial projects jointly by the Department of Electrical Engineering and Computer
done on campus to term-long experiences at partner companies. Science and the Department of Economics (Course 14), is for
students specializing in computer science, economics, and
Graduate study in the department moves students toward mastery
data science. The requirements for degree program (http://
of areas of individual interest, through coursework and signicant
catalog.mit.edu/interdisciplinary/undergraduate-programs/
research, oen dened in interdisciplinary areas that take advantage
degrees/computer-science-economics-data-science) can be
of the tremendous range of faculty expertise in the department and,
found in the section on Interdisciplinary Programs.
more broadly, across MIT.
Department of Electrical Engineering and Computer Science | 3DEPARTMENT OF ELECTRICAL ENGINEERING AND COMPUTER SCIENCE
• The 11-6 program (http://catalog.mit.edu/degree-charts/urban-
science-planning-computer-science-11-6), oered jointly by the Minor in Computer Science
Department of Electrical Engineering and Computer Science and The department oers a Minor in Computer Science. The minor
the Department of Urban Studies and Planning (Course 11), is provides students with both depth and breadth in the eld, as well
for students specializing in urban science and planning with as the opportunity to explore areas of their own interest.
computer science. The requirements for this degree program
(http://catalog.mit.edu/interdisciplinary/undergraduate- To complete the minor, students must take at least six subjects (six-
programs/degrees/urban-science-planning-computer-science) unit subjects count as half-subjects) totaling at least 72 units from
can be found in the section on Interdisciplinary Programs. the lists below, including:
The bachelor’s programs in 6-1, 6-2, and 6-3 build on the General • at least one soware-intensive subject, and
Institute Requirements in science and the humanities, and are • one algorithms-intensive subject at either the basic or advanced
structured to provide early, hands-on engagement with ideas, level.
activities, and learning that allow students to experience the
Introductory Level
range and power of electrical engineering and computer science
in an integrated way. The required introductory core subject (one Select up to 12 units of the following:
of 6.01, 6.02, 6.03, and 6.08) involves substantial work in the 6.0001 Introduction to Computer Science 6
laboratory. This subject is complemented by a mathematics subject, Programming in Python
and followed by a choice of three foundation courses from a set 6.0002 Introduction to Computational 6
of subjects that provide the basis for subsequent specialization. Thinking and Data Science
Students dene their specialization by selecting three to four header 6.01 Introduction to EECS via Robotics 12
subjects, two advanced undergraduate subjects, and one to two
6.02 Introduction to EECS via 12
EECS elective subjects from an extensive set of possibilities. The
Communication Networks
flexibility in these choices permits students considerable latitude
6.08 Introduction to EECS via 12
in shaping their program to match diverse interests, while ensuring
Interconnected Embedded Systems
depth and mastery in a few selected areas.
Basic Level
The joint bachelor’s programs in 6-7 provides an interdepartmental Select up to 63 units of the following:
curriculum involving rigorous training in both molecular biology
6.004 Computation Structures 12
and computer science. Students begin with introductory courses in
6.008 Introduction to Inference 12
math, chemistry, programming, and lab skills. Students then build
on these skills with ve courses in algorithms and biology, which 6.034 Articial Intelligence 12
lead to a choice of electives in biology, with a particular focus on 6.041 Introduction to Probability 12
computational biology. 6.042[J] Mathematics for Computer Science 12
18.200 Principles of Discrete Applied 15
The joint bachelor’s program in 6-9 is designed to give students
Mathematics
access to foundational and advanced material in electrical
engineering and computer science, as well as in the architecture, 18.200A Principles of Discrete Applied 12
circuits, and physiology of the brain, and computational approaches Mathematics
to cognition and intelligence. 18.211 Combinatorial Analysis 12
Algorithms-intensive
The joint bachelor’s program in 6-14 is designed to equip students
6.006 Introduction to Algorithms 12
with a foundational knowledge of economic analysis, computing,
optimization, and data science, as well as hands-on experience with Soware-intensive
empirical analysis of economic data. Students take eight subjects 6.009 Fundamentals of Programming 12
that provide a mathematical, computational, and algorithmic basis Advanced Level
for the major. From there, students take two subjects in data science, Select at least 12 units of the following:
two in intermediate economics, and three elective subjects from data
6.033 Computer Systems Engineering 12
science and economics theory.
6.036 Introduction to Machine Learning 12
All students in 6-1, 6-2, 6-3, 6-7, or 6-9 may also apply for one of the 6.045[J] Computability and Complexity Theory 12
Master of Engineering programs oered by the department, which 6.046[J] Design and Analysis of Algorithms 12
require an additional year of study for the simultaneous award of
6.047 Computational Biology: Genomes, 12
both degrees.
Networks, Evolution
4 | Department of Electrical Engineering and Computer ScienceDEPARTMENT OF ELECTRICAL ENGINEERING AND COMPUTER SCIENCE
6.419[J] Statistics, Computation and 12 must include a major project experience at an advanced level,
Applications culminating in written and oral reports.
6.801 Machine Vision 12
The Master of Engineering degree also requires completion of 24
6.802[J] Computational Systems Biology: 12 units of thesis credit under 6.THM Master of Engineering Program
Deep Learning in the Life Sciences Thesis. While a student may register for more than this number of
6.803 The Human Intelligence Enterprise 12 thesis units, only 24 units count toward the degree requirement.
6.804[J] Computational Cognitive Science 12 Adjustments to the department requirements are made on an
6.806 Advanced Natural Language 12 individual basis when it is clear that a student would be better
Processing served by a variation in the requirements because of their strong
prior background.
6.811[J] Principles and Practice of Assistive 12
Technology Programs leading to the ve-year Master of Engineering degree or
6.814 Database Systems 12 to the four-year Bachelor of Science degrees can easily be arranged
6.815 Digital and Computational 12 to be identical through the junior year. At the end of the junior
Photography year, students with strong academic records may apply to continue
6.819 Advances in Computer Vision 12 through the ve-year master’s program. Admission to the Master
of Engineering program is open only to undergraduate students
6.837 Computer Graphics 12
who have completed their junior year in the Department of Electrical
6.905 Large-scale Symbolic Systems 12
Engineering and Computer Science at MIT. Students with other
18.404 Theory of Computation 12 preparation seeking a master’s level experience in EECS at MIT
Algorithms-intensive should see the Master of Science program described later in this
6.046[J] Design and Analysis of Algorithms 12 section.
Soware-intensive
A student in the Master of Engineering program must be registered
6.031 Elements of Soware Construction 15 as a graduate student for at least one regular (non-summer) term.
6.035 Computer Language Engineering 12 To remain in the program and to receive the Master of Engineering
6.141[J] Robotics: Science and Systems 12 degree, students will be expected to maintain strong academic
6.170 Soware Studio 15 records.
6.172 Soware Performance Engineering 18 Four MEng programs are available:
6.175 Constructive Computer Architecture 12
• The Master of Engineering in Electrical Engineering and Computer
6.809 12
Science (6-P) program is intended to provide the depth of
6.816 Multicore Programming 12
knowledge and the skills needed for advanced graduate study
and for professional work, as well as the breadth and perspective
Inquiries essential for engineering leadership in an increasingly complex
Additional information about the department’s undergraduate technological world.
programs may be obtained from the EECS Undergraduate Oce
• The 6-A Master of Engineering Thesis Program with Industry
(ug@eecs.mit.edu), Room 38-476, 617-253-7329.
combines the Master of Engineering academic program with
periods of industrial practice at aliated companies. An
undergraduate wishing to pursue this degree should initially
Graduate Study
register for one of the department’s three bachelor’s programs.
Master of Engineering • The Department of Electrical Engineering and Computer Science
The Department of Electrical Engineering and Computer Science jointly oers a Master of Engineering in Computer Science and
permits qualied MIT undergraduate students to apply for one of Molecular Biology (6-7P) with the Department of Biology (Course
three Master of Engineering (MEng) programs. These programs 7). This program is modeled on the 6-P program, but provides
consist of an additional, h year of study beyond one of the additional depth in computational biology through coursework
Bachelor of Science programs oered by the department. and a substantial thesis.
• The Department of Electrical Engineering and Computer Science
Recipients of a Master of Engineering degree normally receive a jointly oers a Master of Engineering in Computation and
Bachelor of Science degree simultaneously. No thesis is explicitly Cognition (6-9P) with the Department of Brain and Cognitive
required for the Bachelor of Science degree. However, every program Sciences (Course 9). This program builds on the Bachelor of
Science in Computation and Cognition, providing additional
Department of Electrical Engineering and Computer Science | 5DEPARTMENT OF ELECTRICAL ENGINEERING AND COMPUTER SCIENCE
depth in the subject areas through advanced coursework and a their Master of Engineering thesis at their participating company's
substantial thesis. facilities. They can apply up to 24 units of work-assignment credit
toward their Master of Engineering degree. The rst 6-A assignment
Master of Engineering in Electrical Engineering and Computer may be used for the advanced undergraduate project that is required
Science (Course 6-P) for award of a bachelor's degree, by including a written report and
Through a seamless, ve-year course of study, the Master of obtaining approval by a faculty member.
Engineering in Electrical Engineering and Computer Science
At the conclusion of their program, 6-A students are not obliged to
(6-P) (http://catalog.mit.edu/degree-charts/master-electrical-
accept employment with the company, nor is the company obliged to
engineering-computer-science-course-6-p) program leads directly
oer such employment.
to the simultaneous awarding of the Master of Engineering and
one of the three bachelor’s degrees oered by the department. Additional information about the program is available at the 6-A
The 6-P program is intended to provide the skills and depth of Oce, Room 38-409E, 617-253-4644.
knowledge in a selected eld of concentration needed for advanced
graduate study and for professional work, as well as the breadth and Master of Engineering in Computer Science and Molecular
perspective essential for engineering leadership in an increasingly Biology (Course 6-7P)
complex technological world. The student selects 42 units from a The Departments of Biology and Electrical Engineering and Computer
list of subjects approved by the Graduate Oce; these subjects, Science jointly oer a Master of Engineering in Computer Science
considered along with the two advanced undergraduate subjects and Molecular Biology (6-7P) (http://catalog.mit.edu/degree-charts/
from the bachelor’s program, must include at least 36 units in an master-computer-science-molecular-biology-course-6-7p). A detailed
area of concentration. A further 24 units of electives are chosen description of the program (http://catalog.mit.edu/interdisciplinary/
from a restricted departmental list of mathematics, science, and graduate-programs/computer-science-molecular-biology)
engineering subjects. requirements may be found under the section on Interdisciplinary
Programs.
Master of Engineering Thesis Program with Industry (Course 6-A)
The 6-A Master of Engineering Thesis Program with Industry (http:// Master of Engineering in Computation and Cognition (Course
vi-a.mit.edu) enables students to combine classroom studies with 6-9P)
practical experience in industry through a series of supervised work The Departments of Brain and Cognitive Sciences and Electrical
assignments at one of the companies or laboratories participating Engineering and Computer Science jointly oer a Master of
in the program, culminating with a Master of Engineering thesis Engineering in Computation and Cognition (6-9P) (http://
performed at a 6-A member company. Collectively, the participating catalog.mit.edu/degree-charts/master-computation-cognition-
companies provide a wide spectrum of assignments in the various course-6-9p). A detailed description of the program (http://
elds of electrical engineering and computer science, as well as an catalog.mit.edu/interdisciplinary/graduate-programs/computation-
exposure to the kinds of activities in which engineers are currently cognition) requirements may be found under the section on
engaged. Since a continuing liaison between the companies Interdisciplinary Programs.
and faculty of the department is maintained, students receive
assignments of progressive responsibility and sophistication that are Predoctoral and Doctoral Programs
usually more professionally rewarding than typical summer jobs. The programs of education oered by the Department of Electrical
Engineering and Computer Science at the doctoral and predoctoral
The 6-A program is primarily designed to work in conjunction with
level have three aspects. First, a variety of classroom subjects
the department's ve-year Master of Engineering degree program.
in physics, mathematics, and fundamental elds of electrical
Internship students generally complete three assignments with their
engineering and computer science is provided to permit students
cooperating company—usually two summers and one regular term.
to develop strong scientic backgrounds. Second, more specialized
While on 6-A assignment, students receive pay from the participating
classroom and laboratory subjects and a wide variety of colloquia
company as well as academic credit for their work. During their
and seminars introduce the student to the problems of current
graduate year, 6-A students generally receive a 6-A fellowship or a
interest in many elds of research, and to the techniques that may
research or teaching assistantship to help pay for the graduate year.
be useful in attacking them. Third, each student conducts research
The department conducts a fall recruitment during which juniors who under the direct supervision of a member of the faculty and reports
wish to work toward an industry-based Master of Engineering thesis the results in a thesis.
may apply for admission to the 6-A program. Acceptance of a student
Three advanced degree programs are oered in addition to the
into the program cannot be guaranteed, as openings are limited.
Master of Engineering program described above. A well-prepared
At the end of their junior year, most 6-A students can apply for
student with a bachelor's degree in an appropriate eld from some
admission to 6-PA, which is the 6-A version of the department's ve-
school other than MIT (or from another department at MIT) normally
year 6-P Master of Engineering degree program. 6-PA students do
requires about one and one-half to two years to complete the
6 | Department of Electrical Engineering and Computer ScienceDEPARTMENT OF ELECTRICAL ENGINEERING AND COMPUTER SCIENCE
formal studies and the required thesis research in the Master of (electrical engineering, computer science, physics, mathematics,
Science degree program. (Students who have been undergraduates biomedical engineering, etc.) and as to level of previous degree
in Electrical Engineering and Computer Science at MIT and who (bachelor's or master's), no specic admissions requirements are
seek opportunities for further study must complete the Master of listed. All applicants for any of these advanced programs will be
Engineering rather than the Master of Science degree program.) With evaluated in terms of their potential for successful completion of the
an additional year of study and research beyond the master's level, department's doctoral program. Superior achievement in relevant
a student in the doctoral or predoctoral program can complete the technical elds is considered particularly important.
requirements for the degree of Electrical Engineer or Engineer in
Computer Science. The doctoral program usually takes about four to Master of Science in Electrical Engineering and Computer
ve years beyond the master's level. Science
The general requirements for the degree of Master of Science
There are no xed programs of study for these doctoral and (http://catalog.mit.edu/mit/graduate-education/general-degree-
predoctoral degrees. Each student plans a program in consultation requirements) are listed under Graduate Education. The department
with a faculty advisor. As the program moves toward thesis research, requires that the 66-unit program consist of at least four subjects
it usually centers in one of a number of areas, each characterized from a list of approved subjects by the Graduate Oce which must
by an active research program. Areas of specialization in the include a minimum of 42 units of advanced graduate subjects. In
department that have active research programs and related graduate addition, a 24-unit thesis is required beyond the 66 units. Students
subjects include communications, control, signal processing, and working full-time for the Master of Science degree may take as many
optimization; computer science; articial intelligence, robotics, as four classroom subjects per term. The subjects are wholly elective
computer vision, and graphics; electronics, computers, systems, and and are not restricted to those given by the department. The program
networks; electromagnetics and electrodynamics; optics, photonics, of study must be well balanced, emphasizing one or more of the
and quantum electronics; energy conversion devices and systems; theoretical or experimental aspects of electrical engineering or
power engineering and power electronics; materials and devices; computer science.
VLSI system design and technology; nanoelectronics; bioelectrical
engineering; and computational biology. Electrical Engineer or Engineer in Computer Science
In addition to graduate subjects in electrical engineering and The general requirements for an engineer's degree (http://
computer science, many students nd it protable to study subjects catalog.mit.edu/mit/graduate-education/general-degree-
in other departments such as Biology, Brain and Cognitive Sciences, requirements) are given under the section on Graduate Education.
Economics, Linguistics and Philosophy, Management, Mathematics, These degrees are open to those able students in the doctoral
and Physics. or predoctoral program who seek more extensive training and
research experiences than are possible within the master's program.
The informal seminar is an important mechanism for bringing Admission to the engineer's program depends upon a superior
together members of the various research groups. Numerous academic record and outstanding progress on a thesis. The course
seminars meet every week. In these, graduate students, faculty, and of studies consists of at least 162 units, 90 of which must be from
visitors report their research in an atmosphere of free discussion and a list of subjects approved by the Graduate Oce, and the thesis
criticism. These open seminars are excellent places to learn about requirements for a master's degree.
the various research activities in the department.
Doctor of Philosophy or Doctor of Science
Research activities in electrical engineering and computer The general requirements for the degree of Doctor of Philosophy or
science are carried on by students and faculty in laboratories Doctor of Science (http://catalog.mit.edu/mit/graduate-education/
of extraordinary range and strength, including the Laboratory general-degree-requirements) are given under the section on
for Information and Decision Systems, Research Laboratory of Graduate Education. Doctoral candidates are expected to participate
Electronics, Computer Science and Articial Intelligence Laboratory, fully in the educational program of the department and to perform
Laboratory for Energy and the Environment (see MIT Energy thesis work that is a signicant contribution to knowledge. As
Initiative), Kavli Institute for Astrophysics and Space Research, preparation, MIT students in the Master of Engineering in Electrical
Lincoln Laboratory, Materials Research Laboratory, MIT Media Lab, Engineering and Computer Science program will be expected to
Francis Bitter Magnet Laboratory, Operations Research Center, complete that program. Students who have received a bachelor's
Plasma Science and Fusion Center, and the Microsystems Technology degree outside the department, but who have not completed a
Laboratories. Descriptions of many of these laboratories (http:// master's degree program, will normally be expected to complete the
catalog.mit.edu/mit/research) may be found under the section requirements for the Master of Science degree described earlier,
on Research and Study. including a thesis. Students who have completed a master's degree
Because the backgrounds of applicants to the department's doctoral elsewhere without a signicant research component will be required
and predoctoral programs are extremely varied, both as to eld to register for and carry out a research accomplishment equivalent
Department of Electrical Engineering and Computer Science | 7DEPARTMENT OF ELECTRICAL ENGINEERING AND COMPUTER SCIENCE
to a master's thesis before being allowed to proceed in the doctoral
program. Interdisciplinary Programs
Details of how students in the department fulll the requirements Computational Science and Engineering
for the doctoral program are spelled out in an internal memorandum. The Master of Science in Computational Science and Engineering
The department does not have a foreign language requirement, but (CSE SM) (https://cse.mit.edu/programs/sm) is an interdisciplinary
does require an approved minor program. program that provides students with a strong foundation in
Graduate students enrolled in the department may participate in computational methods for applications in science and engineering.
the research centers described in the Research and Study (http:// The CSE SM program trains students in the formulation, analysis,
catalog.mit.edu/mit/research) section, such as the Operations implementation, and application of computational approaches via a
Research Center. common core, which serves all science and engineering disciplines,
and an elective component which focuses on particular disciplinary
Financial Support applications. The program emphasizes:
• Breadth through introductory courses in numerical analysis,
Master of Engineering Degree Students simulation, and optimization
Students in the h year of study toward the Master of Engineering
• Depth in the student’s chosen eld
degree are commonly supported by a graduate teaching or research
assistantship. In the 6-A Master of Engineering Thesis Program with • Multidisciplinary aspects of computation
Industry, students are supported by paid company internships. • Hands-on experience through projects, assignments, and a
Students supported by full-time research or teaching assistantships master's thesis
may register for no more than two regular classes totaling at
Current MIT graduate students may pursue a CSE SM in conjunction
most 27 units. They receive additional academic units for their
with a department-based master's or PhD program.
participation in the teaching or research program. Support through
an assistantship may extend the period required to complete the For more information, see the full program description (http://
Master of Engineering program by an additional term or two. Support catalog.mit.edu/interdisciplinary/graduate-programs/
is granted competitively to graduate students and may not be computational-science-engineering) under Interdisciplinary
available for all of those admitted to the Master of Engineering Graduate Programs.
program. The MEng degree is normally completed by students
taking a full load of regular subjects in two graduate terms. Students Joint Program with the Woods Hole Oceanographic Institution
receiving assistantships commonly require a third term and may The Joint Program with the Woods Hole Oceanographic Institution
petition to continue for a fourth graduate term. (WHOI) (http://mit.whoi.edu) is intended for students whose primary
career objective is oceanography or oceanographic engineering.
Master of Science, Engineer, and Doctoral Degree Students Students divide their academic and research eorts between the
Studies toward an advanced degree can be supported by personal campuses of MIT and WHOI. Joint Program students are assigned
funds, by an award such as the National Science Foundation an MIT faculty member as academic advisor; thesis research may
Fellowship (which the student brings to MIT), by a fellowship be supervised by MIT or WHOI faculty. While in residence at MIT,
or traineeship awarded by MIT, or by a graduate assistantship. students follow a program similar to that of other students in
Assistantships require participation in research or teaching in their home department. The program is described in more detail
the department or in one of the associated laboratories. Full-time (http://catalog.mit.edu/interdisciplinary/graduate-programs/
assistants may register for no more than two scheduled classroom joint-program-woods-hole-oceanographic-institution) under
or laboratory subjects during the term, but may receive additional Interdisciplinary Graduate Programs.
academic credit for their participation in the teaching or research
program. Leaders for Global Operations
The 24-month Leaders for Global Operations (LGO) (http://
Inquiries catalog.mit.edu/interdisciplinary/graduate-programs/leaders-
Additional information concerning graduate academic and research global-operations) program combines graduate degrees in
programs, admissions, nancial aid, and assistantships may be engineering and management for those with previous postgraduate
obtained from the Electrical Engineering and Computer Science work experience and strong undergraduate degrees in a technical
Graduate Oce, Room 38-444, 617-253-4605, or visit the EECS eld. During the two-year program, students complete a six-
website (http://www.eecs.mit.edu). month internship at one of LGO's partner companies, where they
conduct research that forms the basis of a dual-degree thesis.
Students nish the program with two MIT degrees: an MBA (or
SM in management) and an SM from one of eight engineering
8 | Department of Electrical Engineering and Computer ScienceDEPARTMENT OF ELECTRICAL ENGINEERING AND COMPUTER SCIENCE
programs, some of which have optional or required LGO tracks. Aer
graduation, alumni lead strategic initiatives in high-tech, operations, Professors
and manufacturing companies. Harold Abelson, PhD
Class of 1992 Professor
System Design and Management Professor of Electrical Engineering and Computer Science
The System Design and Management (SDM) (http://
sdm.mit.edu) program is a partnership among industry, government, Elfar Adalsteinsson, PhD
and the university for educating technically grounded leaders Eaton-Peabody Professor
of 21st-century enterprises. Jointly sponsored by the School of Professor of Electrical Engineering
Engineering and the Sloan School of Management, it is MIT's rst Core Faculty, Institute for Medical Engineering and Science
degree program to be oered with a distance learning option in Anant Agarwal, PhD
addition to a full-time in-residence option. Professor of Electrical Engineering and Computer Science
Technology and Policy Akintunde I. Akinwande, PhD
The Master of Science in Technology and Policy is an engineering Thomas and Gerd Perkins Professor
research degree with a strong focus on the role of technology in Professor of Electrical Engineering
policy analysis and formulation. The Technology and Policy Program
(TPP) (http://tpp.mit.edu) curriculum provides a solid grounding Saman P. Amarasinghe, PhD
in technology and policy by combining advanced subjects in the Professor of Computer Science and Engineering
student's chosen technical eld with courses in economics, politics, Dimitri A. Antoniadis, PhD
quantitative methods, and social science. Many students combine Ray and Maria Stata Professor Post-Tenure
TPP's curriculum with complementary subjects to obtain dual Professor Post-Tenure of Electrical Engineering
degrees in TPP and either a specialized branch of engineering or
an applied social science such as political science or urban studies Hari Balakrishnan, PhD
and planning. See the program description (http://catalog.mit.edu/ Fujitsu Professor
schools/mit-schwarzman-college-computing/data-systems-society) Professor of Electrical Engineering and Computer Science
under the Institute for Data, Systems, and Society.
Marc A. Baldo, PhD
Dugald C. Jackson Professor
Professor of Electrical Engineering
Faculty and Teaching Sta
Asuman E. Ozdaglar, PhD Regina Barzilay, PhD
MathWorks Professor School of Engineering Distinguished Professor for AI and Health
Head, Department of Electrical Engineering and Computer Science Professor of Electrical Engineering and Computer Science
Professor of Electrical Engineering Aliate Faculty, Institute for Medical Engineering and Science
Deputy Dean of Academics, MIT Schwarzman College of Computing
Karl K. Berggren, PhD
Member, Institute for Data, Systems, and Society
Professor of Electrical Engineering
Arvind Mithal, PhD
Dimitri P. Bertsekas, PhD
Charles W. and Jennifer C. Johnson Professor
Jerry McAfee (1940) Professor Post-Tenure
Professor of Computer Science and Engineering
Professor Post-Tenure of Electrical Engineering
Faculty Head, Computer Science, Department of Electrical
Member, Institute for Data, Systems, and Society
Engineering and Computer Science
Robert C. Berwick, PhD
Antonio Torralba, PhD
Professor of Computer Science and Engineering and Computational
Delta Electronics Professor
Linguistics
Professor of Electrical Engineering and Computer Science
Member, Institute for Data, Systems, and Society
Faculty Head, Artical Intelligence and Decision-Making, Department
of Electrical Engineering and Computer Science Sangeeta N. Bhatia, MD, PhD
John J. and Dorothy Wilson Professor of Health Sciences and
Joel Voldman, PhD
Technology
Clarence J. LeBel Professor
Professor of Electrical Engineering and Computer Science
Professor of Electrical Engineering
Core Faculty, Institute for Medical Engineering and Science
Faculty Head, Electrical Engineering, Department of Electrical
Engineering and Computer Science
Department of Electrical Engineering and Computer Science | 9DEPARTMENT OF ELECTRICAL ENGINEERING AND COMPUTER SCIENCE
Duane S. Boning, PhD William T. Freeman, PhD
Clarence J. LeBel Professor Thomas and Gerd Perkins Professor Post-Tenure
Professor of Electrical Engineering Professor Post-Tenure of Electrical Engineering and Computer
(On leave) Science
Vladimir Bulović, PhD James G. Fujimoto, PhD
Fariborz Maseeh (1990) Professor in Emerging Technology Elihu Thomson Professor
Professor of Electrical Engineering Professor of Electrical Engineering
Vincent W. S. Chan, PhD David K. Giord, PhD
Joan and Irwin M. (1957) Jacobs Professor Professor of Computer Science and Engineering
Professor of Electrical Engineering
Shafrira Goldwasser, PhD
Anantha P. Chandrakasan, PhD RSA Professor Post-Tenure
Vannevar Bush Professor Professor Post-Tenure of Computer Science and Engineering
Professor of Electrical Engineering and Computer Science
Dean, School of Engineering Polina Golland, PhD
Henry Ellis Warren (1894) Professor
Isaac Chuang, PhD Professor of Computer Science and Engineering
Professor of Electrical Engineering Member, Institute for Data, Systems, and Society
Professor of Physics Aliate Faculty, Institute for Medical Engineering and Science
Munther A. Dahleh, PhD Martha L. Gray, PhD
William A. Coolidge Professor J. W. Kieckhefer Professor of Health Sciences and Technology
Professor of Electrical Engineering and Computer Science Professor of Electrical Engineering and Computer Science
Director, Institute for Data, Systems, and Society Core Faculty, Institute for Medical Engineering and Science
Luca Daniel, PhD W. Eric L. Grimson, PhD
Professor of Electrical Engineering and Computer Science Bernard M. Gordon Professor in Medical Engineering
Professor of Computer Science and Engineering
Konstantinos Daskalakis, PhD Chancellor for Academic Advancement
Professor of Electrical Engineering and Computer Science
Alan J. Grodzinsky, ScD
Randall Davis, PhD Professor Post-Tenure of Biological Engineering
Professor of Computer Science and Engineering Professor Post-Tenure of Electrical Engineering
Jesús A. del Alamo, PhD Professor Post-Tenure of Mechanical Engineering
Donner Professor of Science John V. Guttag, PhD
Professor of Electrical Engineering Dugald C. Jackson Professor
Erik D. Demaine, PhD Professor of Electrical Engineering and Computer Science
Professor of Computer Science and Engineering (On leave, spring)
Srinivas Devadas, PhD Jongyoon Han, PhD
Edwin Sibley Webster Professor Professor of Electrical Engineering
Professor of Electrical Engineering Professor of Biological Engineering
Frederic Durand, PhD Frederick C. Hennie III, PhD
Amar Bose Professor of Computing Professor Post-Tenure of Computer Science and Engineering
Professor of Computer Science and Engineering Berthold Klaus Paul Horn, PhD
Dennis M. Freeman, PhD Professor Post-Tenure of Computer Science and Engineering
Henry Ellis Warren (1894) Professor Qing Hu, PhD
Professor of Electrical Engineering Distinguished Professor
Member, Health Sciences and Technology Faculty Professor of Electrical Engineering
10 | Department of Electrical Engineering and Computer ScienceDEPARTMENT OF ELECTRICAL ENGINEERING AND COMPUTER SCIENCE
Daniel Huttenlocher, PhD Steven B. Leeb, PhD
Henry Ellis Warren (1894) Professor Professor of Electrical Engineering
Professor of Electrical Engineering and Computer Science Professor of Mechanical Engineering
Dean, MIT Schwarzman College of Computing
Charles E. Leiserson, PhD
Piotr Indyk, PhD Edwin Sibley Webster Professor
Thomas D. and Virginia W. Cabot Professor Professor of Electrical Engineering
Professor of Electrical Engineering and Computer Science
Jae S. Lim, PhD
Tommi S. Jaakkola, PhD Professor Post-Tenure of Electrical Engineering
Thomas Siebel Professor
Professor of Electrical Engineering and Computer Science Barbara H. Liskov, PhD
Member, Institute for Data, Systems, and Society Institute Professor Post-Tenure
Professor Post-Tenure of Computer Science
Daniel Jackson, PhD
Professor of Computer Science and Engineering Tomás Lozano-Pérez, PhD
School of Engineering Professor of Teaching Excellence
Patrick Jaillet, PhD Professor of Electrical Engineering and Computer Science
Dugald C. Jackson Professor
Professor of Electrical Engineering and Computer Science Nancy Ann Lynch, PhD
Professor of Civil and Environmental Engineering NEC Professor of Soware Science and Engineering
Member, Institute for Data, Systems, and Society Professor of Electrical Engineering and Computer Science
M. Frans Kaashoek, PhD Samuel R. Madden, PhD
Charles A. Piper (1935) Professor College of Computing Distinguished Professor of Computing
Professor of Electrical Engineering and Computer Science Professor of Computer Science and Engineering
(On leave) Aleksander Madry, PhD
Leslie P. Kaelbling, PhD Cadence Design Systems Professor
Panasonic Professor Professor of Computer Science
Professor of Computer Science and Engineering Thomas L. Magnanti, PhD
David R. Karger, PhD Institute Professor
Professor of Computer Science and Engineering Professor of Operations Research
Professor of Electrical Engineering
Dina Katabi, PhD
Thuan and Nicole Pham Professor Wojciech Matusik, PhD
Professor of Electrical Engineering and Computer Science Professor of Electrical Engineering and Computer Science
Manolis Kellis, PhD Muriel Médard, ScD
Professor of Computer Science Cecil H. Green Professor
Professor of Electrical Engineering and Computer Science
James L. Kirtley Jr, PhD
Professor Post-Tenure of Electrical Engineering Alexandre Megretski, PhD
Professor of Electrical Engineering
Leslie A. Kolodziejski, PhD Member, Institute for Data, Systems, and Society
Professor of Electrical Engineering
Silvio Micali, PhD
Jing Kong, PhD Ford Foundation Professor Post-Tenure of Engineering
Professor of Electrical Engineering Professor Post-Tenure of Computer Science and Engineering
Jerey H. Lang, PhD Robert C. Miller, PhD
Vitesse Professor Distinguished Professor of Computer Science
Professor of Electrical Engineering Professor of Computer Science and Engineering
Hae-Seung Lee, PhD Sanjoy K. Mitter, PhD
Advanced Television and Signal Processing Professor Professor Post-Tenure of Electrical Engineering
Professor of Electrical Engineering Member, Institute for Data, Systems, and Society
Department of Electrical Engineering and Computer Science | 11DEPARTMENT OF ELECTRICAL ENGINEERING AND COMPUTER SCIENCE
Robert T. Morris, PhD Martin A. Schmidt, PhD
Professor of Computer Science and Engineering Ray and Maria Stata Professor
(On leave, fall) Professor of Electrical Engineering and Computer Science
Provost
Joel Moses, PhD
Institute Professor Post-Tenure Devavrat Shah, PhD
Professor Post-Tenure of Electrical Engineering and Computer Andrew (1956) and Erna Viterbi Professor
Science Professor of Electrical Engineering and Computer Science
Member, Institute for Data, Systems, and Society
William D. Oliver, PhD (On leave, fall)
Professor of Electrical Engineering and Computer Science
Jerey H. Shapiro, PhD
Alan V. Oppenheim, PhD Julius A. Stratton Professor Post-Tenure
Ford Professor Post-Tenure of Engineering Professor Post-Tenure of Electrical Engineering
Professor Post-Tenure of Electrical Engineering and Computer
Science Nir N. Shavit, PhD
Professor of Electrical Engineering and Computer Science
Terry Philip Orlando, PhD
Professor Post-Tenure of Electrical Engineering Charles G. Sodini, PhD
Clarence J. LeBel Professor Post-Tenure
Tomás Palacios, PhD Professor Post-Tenure of Electrical Engineering
Professor of Electrical Engineering Core Faculty, Institute for Medical Engineering and Science
Pablo A. Parrilo, PhD Armando Solar Lezama, PhD
Joseph F. and Nancy P. Keithley Professor Professor of Electrical Engineering and Computer Science
Professor of Electrical Engineering and Computer Science
Professor of Mathematics Collin M. Stultz, MD, PhD
Member, Institute for Data, Systems, and Society Nina T. and Robert H. Rubin Professor
Professor in Biomedical Engineering
David J. Perreault, PhD Professor of Electrical Engineering and Computer Science
Joseph F. and Nancy P. Keithley Professor Core Faculty, Institute for Medical Engineering and Science
Professor of Electrical Engineering and Computer Science
Gerald Jay Sussman, PhD
Rajeev J. Ram, PhD Panasonic Professor
Professor of Electrical Engineering Professor of Electrical Engineering
L. Rafael Reif, PhD Peter Szolovits, PhD
President Professor of Computer Science and Engineering
Professor of Electrical Engineering Aliate Faculty, Institute for Medical Engineering and Science
Martin C. Rinard, PhD (On leave)
Professor of Computer Science and Engineering Russell L. Tedrake, PhD
Ronald L. Rivest, PhD Toyota Professor
Institute Professor Professor of Computer Science and Engineering
Professor of Computer Science and Engineering Professor of Aeronautics and Astronautics
Professor of Mechanical Engineering
Ronitt Rubinfeld, PhD
Edwin Sibley Webster Professor Bruce Tidor, PhD
Professor of Computer Science and Engineering Professor of Electrical Engineering and Computer Science
Professor of Biological Engineering
Daniela L. Rus, PhD
Andrew (1956) and Erna Viterbi Professor John N. Tsitsiklis, PhD
Professor of Computer Science and Engineering Clarence J. LeBel Professor
Deputy Dean of Research, MIT Schwarzman College of Computing Professor of Electrical Engineering
Member, Institute for Data, Systems, and Society
(On leave, fall)
12 | Department of Electrical Engineering and Computer ScienceDEPARTMENT OF ELECTRICAL ENGINEERING AND COMPUTER SCIENCE
Vinod Vaikuntanathan, PhD Michael J. Carbin, PhD
Professor of Electrical Engineering and Computer Science Associate Professor of Electrical Engineering and Computer Science
George C. Verghese, PhD Adam Chlipala, PhD
Henry Ellis Warren (1894) Professor Post-Tenure Associate Professor of Electrical Engineering and Computer Science
Professor Post-Tenure of Electrical and Biomedical Engineering
Dirk Robert Englund, PhD
Cardinal Warde, PhD Associate Professor of Electrical Engineering and Computer Science
Professor of Electrical Engineering
(On leave, spring) Peter L. Hagelstein, PhD
Associate Professor of Electrical Engineering
Jacob K. White, PhD
Cecil H. Green Professor Ruonan Han, PhD
Professor of Electrical Engineering Associate Professor of Electrical Engineering and Computer Science
Ryan Williams, PhD Thomas Heldt, PhD
Professor of Electrical Engineering and Computer Science Associate Professor of Electrical Engineering and Computer Science
Core Faculty, Institute for Medical Engineering and Science
Alan S. Willsky, PhD
Edwin Sibley Webster Professor Post-Tenure Stefanie Sabrina Jegelka, ScD
Professor Post-Tenure of Electrical Engineering and Computer Associate Professor of Electrical Engineering and Computer Science
Science Member, Institute for Data, Systems, and Society
Member, Institute for Data, Systems, and Society Tim Kraska, PhD
Gregory W. Wornell, PhD Associate Professor of Electrical Engineering and Computer Science
Sumitomo Electric Industries Professor in Engineering Luqiao Liu, PhD
Professor of Electrical Engineering Associate Professor of Electrical Engineering and Computer Science
Member, Institute for Data, Systems, and Society
(On leave) Timothy K. Lu, MD, PhD
Associate Professor of Electrical Engineering
Nickolai Zeldovich, PhD Associate Professor of Biological Engineering
Professor of Electrical Engineering and Computer Science
Stefanie Mueller, PhD
Lizhong Zheng, PhD Associate Professor of Electrical Engineering and Computer Science
Professor of Electrical Engineering Associate Professor of Mechanical Engineering
Victor W. Zue, ScD Yury Polyanskiy, PhD
Delta Electronics Professor Post-Tenure Associate Professor of Electrical Engineering and Computer Science
Professor Post-Tenure of Electrical Engineering and Computer Member, Institute for Data, Systems, and Society
Science
Jennifer L. M. Rupp, PhD
Associate Professors Associate Professor of Materials Science and Engineering
Fadel Adib, PhD Associate Professor of Electrical Engineering and Computer Science
Doherty Chair in Ocean Utilization
Associate Professor of Media Arts and Sciences Daniel Sánchez Martín, PhD
Associate Professor of Electrical Engineering and Computer Science Associate Professor of Electrical Engineering and Computer Science
Mohammadreza Alizadeh Attar, PhD Max M. Shulaker, PhD
Associate Professor of Electrical Engineering and Computer Science Associate Professor of Electrical Engineering and Computer Science
(On leave, fall)
Guy Bresler, PhD
Associate Professor of Electrical Engineering and Computer Science Julian Shun, PhD
Member, Institute for Data, Systems, and Society Associate Professor of Electrical Engineering and Computer Science
Tamara Broderick, PhD Justin Solomon, PhD
Associate Professor of Electrical Engineering and Computer Science Associate Professor of Electrical Engineering and Computer Science
Member, Institute for Data, Systems, and Society (On leave, spring)
Department of Electrical Engineering and Computer Science | 13DEPARTMENT OF ELECTRICAL ENGINEERING AND COMPUTER SCIENCE
David Sontag, PhD Dylan J. Hadeld-Menell, PhD
Von Helmholtz Professor of Medical Engineering Assistant Professor of Electrical Engineering and Computer Science
Associate Professor of Electrical Engineering and Computer Science
Core Faculty, Institute for Medical Engineering and Science Song Han, PhD
Robert J. Shillman (1974) Career Development Professor
Suvrit Sra, PhD Assistant Professor of Electrical Engineering and Computer Science
Esther and Harold Edgerton Career Development Professor
Associate Professor of Electrical Engineering and Computer Science Phillip John Isola, PhD
Member, Institute for Data, Systems, and Society Assistant Professor of Electrical Engineering and Computer Science
Vivienne Sze, PhD Yoon Kim, PhD
Associate Professor of Electrical Engineering and Computer Science Assistant Professor of Electrical Engineering and Computer Science
(On leave) Anand Venkat Natarajan, PhD
Caroline Uhler, PhD Assistant Professor of Electrical Engineering and Computer Science
Associate Professor of Electrical Engineering and Computer Science Farnaz Niroui, PhD
Member, Institute for Data, Systems, and Society E.E. Landsman (1958) Career Development Professor
Virginia Williams, PhD Assistant Professor of Electrical Engineering and Computer Science
Associate Professor of Electrical Engineering and Computer Science Jelena Notaros, PhD
Assistant Professor of Electrical Engineering and Computer Science
Assistant Professors
Pulkit Agrawal, PhD Kevin O'Brien, PhD
Steven G. (1968) and Renée Finn Career Development Professor Emanuel E. Landsman (1958) Career Development Professor
Assistant Professor of Electrical Engineering and Computer Science Assistant Professor of Electrical Engineering and Computer Science
Jacob Andreas, PhD Jonathan M. Ragan-Kelley, PhD
X-Window Consortium Career Development Professor Edgerton Career Development Professor
Assistant Professor of Electrical Engineering and Computer Science Assistant Professor of Electrical Engineering and Computer Science
Adam Belay, PhD Negar Reiskarimian, PhD
Jamieson Career Development Professor X-Window Consortium Career Development Professor
Assistant Professor of Electrical Engineering and Computer Science Assistant Professor of Electrical Engineering and Computer Science
YuFeng Chen, PhD Arvind Satyanarayan, PhD
D. Reid Weedon Jr. '41 Career Development Professor Assistant Professor of Electrical Engineering and Computer Science
Assistant Professor of Electrical Engineering and Computer Science (On leave, spring)
Connor W. Coley, PhD Tess E. Smidt, PhD
Heyny Slezynger Career Development Professor Assistant Professor of Electrical Engineering and Computer Science
Assistant Professor of Chemical Engineering
Assistant Professor of Electrical Engineering and Computer Science Ashia Wilson, PhD
Assistant Professor of Electrical Engineering and Computer Science
Henry Corrigan-Gibbs, PhD
Douglas Ross (1954) Career Development Professor of Soware Mengjia Yan, PhD
Technology Homer A. Burnell Career Development Professor
Assistant Professor of Electrical Engineering and Computer Science Assistant Professor of Electrical Engineering and Computer Science
Marzyeh Ghassemi, PhD Guangyu Robert Yang, PhD
Herman L. F. von Helmholtz Career Development Professor Assistant Professor of Brain and Cognitive Sciences
Assistant Professor of Electrical Engineering and Computer Science Assistant Professor of Electrical Engineering and Computer Science
Core Faculty, Institute for Medical Engineering and Science Sixian You, PhD
Manya Ghobadi, PhD Assistant Professor of Electrical Engineering and Computer Science
TIBCO Career Development Professor
Assistant Professor of Electrical Engineering and Computer Science
(On leave, spring)
14 | Department of Electrical Engineering and Computer ScienceDEPARTMENT OF ELECTRICAL ENGINEERING AND COMPUTER SCIENCE
Kimberle Koile, PhD
Professors of the Practice Principal Lecturer in Electrical Engineering and Computer Science
Joel S. Emer, PhD
Professor of the Practice of Electrical Engineering and Computer Joseph Daly Steinmeyer, PhD
Science Principal Lecturer in Electrical Engineering and Computer Science
Adjunct Professors Technical Instructors
David J. DeWitt, PhD David L. Lewis
Adjunct Professor of Computer Science and Engineering Technical Instructor of Electrical Engineering and Computer Science
Butler W. Lampson, PhD Anthony Pennes, SB
Adjunct Professor of Computer Science and Engineering Technical Instructor of Electrical Engineering and Computer Science
Michael Stonebraker, PhD
Professors Emeriti
Adjunct Professor of Computer Science and Engineering
Arthur B. Baggeroer, ScD
Adjunct Associate Professors Professor Emeritus of Mechanical and Ocean Engineering
Yael Kalai, PhD Professor Emeritus of Electrical Engineering
Adjunct Associate Professor of Electrical Engineering and Computer
Tim Berners-Lee, BA
Science
3 Com Founders Professor Emeritus of Engineering
Senior Lecturers Louis D. Braida, PhD
Tony Eng, PhD Henry Ellis Warren (1894) Professor Emeritus
Senior Lecturer in Electrical Engineering and Computer Science Professor Emeritus of Electrical Engineering
Professor Emeritus of Health Sciences and Technology
Adam J. Hartz, MEng
Senior Lecturer in Electrical Engineering and Computer Science Rodney Brooks, PhD
Professor Emeritus of Computer Science and Engineering
Gim P. Hom, MS, MS, EE
Senior Lecturer in Electrical Engineering and Computer Science James Donald Bruce, ScD
Professor Emeritus of Electrical Engineering
Katrina Leigh LaCurts, PhD
Senior Lecturer in Electrical Engineering and Computer Science Jack B. Dennis, ScD
Professor Emeritus of Computer Science and Engineering
Lecturers
Zachary R. Abel, PhD Murray Eden, PhD
Lecturer in Electrical Engineering and Computer Science Professor Emeritus of Electrical Engineering
Muhammad Jehangir Amjad, PhD Clion G. Fonstad Jr, PhD
Lecturer in Electrical Engineering and Computer Science Vitesse Professor Emeritus
Professor Emeritus of Electrical Engineering
Ana Bell, PhD
Principal Lecturer in Electrical Engineering and Computer Science G. David Forney, ScD
Adjunct Professor Emeritus of Electrical Engineering
Iddo Drori, PhD
Lecturer in Electrical Engineering and Computer Science Robert G. Gallager, ScD
Professor Emeritus of Electrical Engineering
Max Goldman, PhD
Principal Lecturer in Electrical Engineering and Computer Science Carl Eddie Hewitt, PhD
Associate Professor Emeritus of Computer Science and Engineering
Silvina Z. Hanono Wachman, PhD
Principal Lecturer in Electrical Engineering and Computer Science Erich P. Ippen, PhD
Elihu Thomson Professor Emeritus
Mauricio Karchmer, PhD Professor Emeritus of Physics
Lecturer in Electrical Engineering and Computer Science Professor Emeritus of Electrical Engineering
Department of Electrical Engineering and Computer Science | 15You can also read
