The UC Santa Cruz B.S. in computer engineering prepares graduates
for a rewarding career in engineering. UC Santa Cruz computer engineering
graduates will have a thorough grounding in the principles and practices
of computer engineering and the scientific and mathematical principles
upon which they are built; they will be prepared for further education
(both formal and informal) and for productive employment in industry.
Because computer engineering is so broad, five specialized tracks
for completing the program have been identified: systems programming,
computer systems, multimedia systems, networks, and digital hardware.
Descriptions of these tracks follow in the section on major requirements.
Many computer engineering students continue their education through
the M.S. degree. The Department of Computer Engineering offers an
accelerated combined B.S./M.S. degree in computer engineering that
enables eligible undergraduates to move without interruption to
the graduate program. Interested computer engineering majors should
contact their adviser for more details. The graduate program of
the Department of Computer Engineering also offers both the standard
M.S. and the Ph.D. degrees.
Every major and minor must have a computer engineering faculty
adviser, assigned by the Baskin School of Engineering Undergraduate
Advising Office, and with that adviser must formulate a program
of proposed course work that meets the major or minor requirements.
The computer engineering program is accredited by the Engineering
Accreditation Committee of the Accreditation Board for Engineering
and Technology (ABET).
The following tracks are specializations for the computer engineering
student. Students must complete all of the courses listed within
their selected track, and they must complete the capstone sequence:
123B, Computer Engineering Design Project II; or 195, Senior
Thesis Research
Systems Programming Track
The systems programming track focuses on software systems: courses
include operating systems, compilers, software engineering, and
advanced programming. Students finishing this track are very well
prepared for building large software systems of all types. This
track is the closest one to a computer science major—the main
differences are that it does not require computer science theory
courses, but because of the core computer engineering requirements,
includes more hardware and electronics than a computer science
bachelor’s degree.
.
- Computer Science 111, Introduction to Operating Systems
- Computer Science 115, Software Methodology
- Elective: any approved computer science or computer engineering
upper-division or graduate elective
- Any two of the following courses:
.
- Computer Engineering 113, Parallel and Concurrent Programming
.
- Computer Engineering 117/L, Embedded Software/ Laboratory
.
- Computer Engineering 156, Network Programming (requires
course 150)
.
- Computer Science 104A, Fundamentals of Compiler Design
I
.
- Computer Science 104B, Fundamentals of Compiler Design
II
.
- Computer Science 116, Software Design Project
Computer Systems Track
The computer systems track is the most general track, providing
a balance between software and hardware design. Students are prepared
for a large variety of different design tasks, especially those
requiring the integration of hardware and software systems, but
may need further training for any particular specialization.
.
- Computer Engineering 125/L, Logic Design with Verilog/Laboratory;
or
126/L, Advanced Logic Design/Laboratory
.
- Computer Science 111, Introduction to Operating Systems
.
- Elective: any approved computer science practice or computer
engineering upper-division or graduate elective
.
- Elective: any approved computer engineering or electrical
engineering upper-division or graduate elective
Multimedia Systems Track
The multimedia systems track focuses on techniques and systems
in acquiring, processing, transmitting, and storing digital media.
Courses include signals and systems, data compression, networks,
and multimedia processing and applications. Students finishing
this track are well prepared for designing real-time multimedia
systems in a networked computer environment.
- Computer Engineering 108, Data Compression (requires
Electrical Engineering 103)
- Computer Engineering 150, Introduction to Computer Networks
- Computer Engineering 163/L, Multimedia Processing and
Applications/Laboratory
- Elective: any approved computer engineering or computer science
upper-division or graduate elective
Networks Track
The networks track focuses on communication between computers, covering
both network hardware and protocols. Students finishing this track
are well prepared for the design of wired and wireless network systems.
- Computer Engineering 150, Introduction to Computer Networks
- Computer Engineering 151, Network Administration; or
154, Data Communication; or Electrical Engineering
151, Communications Systems (requires Electrical Engineering
103)
- Computer Engineering 156, Network Programming
- Computer Science 111, Introduction to Operating Systems
- Electives: any approved upper-division or graduate elective
Digital Hardware Track
The digital hardware track focuses on hardware design and includes
more electronics than the other tracks. Students finishing this
track are well prepared for building hardware systems. This track
is the closest one to an electronics major; the main differences
are that it does not require as much electronics theory or analog
electronic design, but because of the core computer engineering
requirements, requires more software skills.
- Computer Engineering 125/L, Logic Design with Verilog/Laboratory;
or 126/L, Advanced Logic Design/Laboratory
- Computer Engineering 173/L, High-Speed Digital Design
- Electrical Engineering 171/L, Analog Electronics or
course 172/L, Linear and Nonlinear Circuits/ Laboratory
- Elective: any approved computer engineering or electrical
engineering upper-division or graduate elective
Comprehensive Requirement
The senior comprehensive requirement for computer engineering
majors is in two parts: a capstone course and a portfolio exit
requirement.
Core Examination
Successful completion of the Computer Engineering Core Examination
is a prerequisite to the capstone project courses and a requirement
for graduation. The core examination is offered the first Saturday
after instruction begins each fall, winter, and spring quarter.
This examination verifies proficiency in the material covered
in courses 100, 107, 110, and 121. Students are most strongly
encouraged to plan their course schedule to ensure completion
of the core courses in the junior or early senior year and to
take the examination as soon as possible thereafter.
Portfolio Exit Requirement
Students are required to submit a portfolio and exit survey. Students
whose submissions are deemed inadequate, either in presentation
or in content, may be required to revise and rewrite the portfolio
or to complete an additional project course. The portfolios must
be turned in electronically via http://www.soe.ucsc.edu/programs/ce/undergraduate/portfolio.html
at least seven days before the end of instruction in the quarter
of graduation.
The portfolios will be reviewed quarterly by the computer engineering
undergraduate committee and must include the following:
If a project report is associated with a course, it must be
an upper-division or graduate course. One of the reports must
be the result of a multi-person project. One of the reports must
be the result of an individual project. One of the reports must
be the result of the student’s capstone design project.
The following are two sample academic plans for students
to complete during their first two years as preparation for the
computer engineering major. Plan One is suggested guidelines for
students who are committed to the major early in their academic
career. Plan Two is for students who are considering the major.
| Plan One
|
| Year |
Fall |
Winter |
Spring |
1st
(frsh) |
Math 19A
Cmps 12A |
Math 19B
Cmpe 12L |
Cmpe 100/L
Cmps 12B |
2nd
(soph) |
Phys
5A/L
Math 23B |
Ams
27/L
Cmpe 16 or 16H |
Phys
5C/N
EE 103
Cmpe 80E |
| Plan Two |
| Year |
Fall |
Winter |
Spring |
1st
(frsh) |
Math 3 (pre-calc)
Cmps 10 or EE 80T |
Math 19A
Cmps 12A |
Math 19B
Cmpe 12/L |
2nd
(soph) |
Phys 5A/L
Cmps 12B |
Cmpe 100/L
Cmpe 16 or 16H |
Phys 5C/N
Math 23A
Cmpe 80E |
Requirements for the minor in computer engineering are
the following:
Mathematics
19A-B, Calculus for Science, Engineering, and Mathematics
23A, Multivariable Calculus
Applied Mathematics and Statistics 27/L, Mathematical
Methods for Engineers/Laboratory (formerly Mathematics 27);
or Mathematics 21, Linear Algebra; and 24, Ordinary
Differential Equations
Computer Engineering 16, Applied Discrete Mathematics;
or 16H, Honors Applied Discrete Mathematics
Science
Physics 5A/L or 6A/L, and 5C/N or 6C/N
Core Requirements
Computer Engineering
12/L, Computer Systems and Assembly Language/ Laboratory
100/L, Logic Design/Laboratory
110, Computer Architecture
121/L, Microprocessor System Design/Laboratory
Computer Science
12A/L, Introduction to Programming/Computer Programming
Laboratory; and
12B/M, Introduction to Data Structures/Data Structures Laboratory;
or 13H/L, Introduction to Programming and Data Structures
(Honors)/ Laboratory
101, Abstract Data Types
Electrical Engineering
70/L, Introduction to Electronics/Laboratory
At most, two of the upper-division core courses and
the lower-division electrical engineering course may be used to
satisfy the requirements of another major or minor degree.
The portfolio exit requirement does not apply for the computer
engineering minor.
Please see the section on fees under the School of Engineering.
B.S./M.S. Undergraduate Program
The Department of Computer Engineering offers a combined bachelor
and master of science degree program in computer engineering,
providing the opportunity to earn both degrees in five years.
The B.S./M.S. program offers a competitive edge to students who
are completing their undergraduate degree at UCSC, by enabling
those with advanced preparation to move directly from the undergraduate
to the graduate program. The program assists qualified enrolled
students with a simplified graduate application process and makes
it possible to complete an M.S. degree with just seven courses
beyond the B.S. program.
The program prepares students for engineering positions in industry,
and it is particularly attractive for undergraduate students planning
to engage in engineering research in industry or academia. The
School of Engineering has many opportunities for undergraduate
research, especially for honors-level students. B.S./M.S. students
can continue their undergraduate research projects with the same
research group. Upon advancement to graduate standing, B.S./M.S.
students are eligible for support as graduate research assistants.
The B.S./M.S. program provides knowledge and training in important
and contemporary areas of computer engineering.
Particularly motivated B.S./M.S. students can complete the entire
program in 14 quarters (or fewer with Advanced Placement credit);
however, advance planning is essential. Interested students should
contact the department and their faculty adviser early in their
college career—no later than the start of their junior year. B.S./M.S.
students retain undergraduate status until the completion of all
undergraduate requirements, but may begin graduate course work
in advance of graduate standing.
The undergraduate degree requirements are the same as those
for other computer engineering majors; however, the B.S./M.S.
program capitalizes on graduate-level courses that may apply toward
both degree requirements. B.S./M.S. candidates may apply (at most)
two graduate courses taken as undergraduates toward both the M.S.
degree and B.S. degree electives. At the time graduate status
is achieved, no more than three graduate courses taken as an undergraduate
may count toward the nine courses required for the M.S. degree.
B.S./M.S. students may not apply undergraduate courses toward
the M.S. degree.
Admission to the B.S./M.S. program is by formal application.
Undergraduate applicants seeking admission as graduate students
generally apply in their last quarter of junior standing. To qualify,
applicants must have completed the following:
Computer Engineering 100/L, Logic Design/Laboratory
Computer Science 101, Abstract Data Types
Computer Engineering 110, Computer Architecture;
or 121/L, Microprocessor System Design/ Laboratory
Electrical Engineering 70/L, Introduction to Electronics/Laboratory
and at least one additional upper-division School
of Engineering course.
Applications will be considered until the student’s first quarter
of senior standing. This extension of the application period into
the first quarter of the senior year is specifically geared to
enable eligible transfer students to complete the courses required
for admission.
Students who cannot meet the B.S./M.S. application requirements
or who are not admitted into the program are encouraged to apply
for admission to the standard M.S. or Ph.D. program during their
senior year.
Additional information about this program can be found on the
department’s web pages at http://www.soe.ucsc.edu/programs/undergraduate.
M.S. and Ph.D. Degree Programs
The graduate program in computer engineering accepts students
for both the M.S. and the Ph.D. degrees. Graduate students in
this program establish a solid foundation in computer algorithms
and architectures and then proceed to a thorough study of recent
developments in their selected area of specialization. This provides
the basis for the M.S. degree and Ph.D. thesis work. The major
areas of research concentration in computer engineering at UCSC
are computer networks, computer systems design, computer-aided
design technologies, digital media and education technology, and
software and systems engineering.
The computer engineering program benefits from a close relationship
with the computer science and electrical engineering programs
at UCSC and ties to industry in the Silicon Valley and Monterey
Bay areas. Graduates of the program are prepared for careers in
teaching and research as well as for positions in industrial research
and development.
While in the program, most graduate students are supported as
research assistants on faculty-sponsored projects or as teaching
assistants for undergraduate courses.
Additional information on the computer engineering M.S. and
Ph.D. degrees, including degree requirements and applications
for admission, can be found on the department’s web pages at http://www.soe.ucsc.edu/programs/graduate.
Requirements for the Master’s Degree
Base Requirement
In their first year, graduate students must show proficiency in
five fundamental subjects: data structures, computer architecture,
logic design, circuits, and software systems. Proficiency can
be demonstrated by either completing one of the associated undergraduate
courses, by establishing that an equivalent undergraduate course
has been completed elsewhere, or by passing the final exam (or
project when deemed appropriate by the faculty responsible) of
an associated course. Students should obtain a Computer Engineering
Base Worksheet for the list of associated courses and instructions
on fulfilling this requirement.
The base requirement must be met by all graduate students (both
M.S. and Ph.D.) by the end of the spring quarter of their first
year in the program.
Course Requirements
Each student is required to complete a total of 48 units. The
course work must include
Computer Engineering 200, Research and Teaching in Computer
Science and Engineering
Computer Science 201, Analysis of Algorithms
Computer Engineering 202, Computer Architecture
Up to 10 credits of Computer Engineering 297, Independent
Study or Research; or Computer Engineering 299, Thesis
Research
Up to 10 credits of either graduate courses (not seminars) in
related disciplines outside the School of Engineering (requires
adviser and computer engineering graduate committee approval)
or upper-division undergraduate courses when necessary to strengthen
the student’s preparation for graduate studies (requires adviser
approval)
All remaining credits must be graduate elective courses from
Computer Engineering’s list of approved graduate courses (available
online or from the department)
In addition, the selection of graduate elective courses must
show breadth by including a minimum of 5 credits in each of two
categories from Computer Engineering’s list of approved graduate
electives. Computer Science 201 and Computer Engineering 202 cannot
be used to satisfy the breadth requirement.
At least half of the units from the graduate-level courses must
be computer engineering graduate courses.
Thesis
Completion of a master’s thesis is required for award of the master’s
degree. To fulfill this requirement, the student must submit a
written proposal to a faculty member, usually by the third academic
quarter. By accepting the proposal, the faculty member becomes
the thesis adviser for the proposed thesis. In consultation with
the adviser, the student must form a master’s thesis reading committee
with at least two additional faculty members, each of whom is
provided a copy of the proposal. The student is required to present
an expository talk on the thesis research, and the final thesis
must be accepted by the review committee before the award of the
master of science degree.
Requirements for the Ph.D. Degree
Base Requirement
In their first year, graduate students must show proficiency in
five fundamental subjects: data structures, computer architecture,
logic design, circuits, and software systems. Proficiency can
be demonstrated by either completing one of the associated undergraduate
courses, by establishing that an equivalent undergraduate course
has been completed elsewhere, or by passing the final exam (or
project when deemed appropriate by the faculty responsible) of
an associated course. Students should obtain a Computer Engineering
Base Work Sheet for the list of associated courses and instructions
on fulfilling this requirement.
The base requirement must be met by all graduate students (both
M.S. and Ph.D.) by the end of the spring quarter of the first
year in the program.
Course Requirements
A Ph.D. student is required to take a total of 58 credits of graduate
courses, which must consist of
course 200, Research and Teaching in Computer Science and
Engineering;
Computer Science 201, Analysis of Algorithms;
course 202, Computer Architecture;
a minimum of 20 credits of graduate computer engineering courses
from Computer Engineering’s list of approved graduate courses
(available online or from the department);
up to 10 credits of course 297, Independent Study or Research;
or course 299, Thesis Research;
up to 10 credits of graduate courses (not seminars) in related
disciplines outside the School of Engineering (requires adviser
and computer engineering graduate committee approval);
all remaining units must be graduate elective courses from
Computer Engineering’s list of approved graduate courses.
The selection of elective courses must show breadth by including
either 10 credits in each of two categories or 5 credits in each
of three separate categories from Computer Engineering’s list
of approved graduate courses. Computer Science 201 and course
202 cannot be used to satisfy the breadth requirement.
Course selection should form a coherent plan of study and requires
adviser approval. Undergraduate courses may not be used to satisfy
Ph.D. course requirements.
Ph.D. students who have satisfied the requirements for the master’s
degree are eligible to receive a master’s degree.
Examinations and Dissertation
To continue in the Ph.D. program, students must pass a preliminary
examination in their chosen research area by the end of their
third year. Preliminary examinations are held during the first
three weeks of each spring quarter; students must petition the
computer engineering graduate committee for an examination in
their chosen area two weeks before the end of winter quarter.
Examination committees consist of four faculty members, two chosen
by the student and two by the computer engineering graduate committee.
The format of this oral examination is up to the examination committee;
the examination will typically evaluate both general knowledge
of the chosen area and specific understanding of selected technical
papers. The preliminary examination requirement is waived for
students who advance to candidacy by the end of their third year.
Each student must write a Ph.D. dissertation. The dissertation
must show the results of in-depth research, by an original contribution
of significant knowledge, and include material worthy of publication.
As the first step, a student must submit a written dissertation
proposal to a School of Engineering faculty member. By accepting
the proposal, the faculty member becomes the student’s dissertation
supervisor. The student may choose a faculty member outside the
Computer Engineering Department within the School of Engineering
as adviser only with approval from the computer engineering graduate
committee. The dissertation proposal is publicly and formally
presented in an oral qualifying examination given by a qualifying
exam committee, approved by the computer engineering graduate
committee and the graduate council. The student must submit his
or her written dissertation proposal to all members of the qualifying
exam committee and the graduate assistant one month in advance
of the examination.
Students are advanced to candidacy after they have completed
the course requirements, passed both the preliminary and qualifying
examinations (or just the qualifying examination if passed prior
to the end of the student’s third year in the program), cleared
all Incomplete grades from their records, have an appointed dissertation
reading committee, and paid the filing fee. Students who have
not advanced to candidacy by the end of their fourth year will
be placed on academic probation.
Each Ph.D. candidate must submit the completed dissertation
to a reading committee at least one month prior to the dissertation
defense. The appointment of the dissertation reading committee
is made immediately after the qualifying exam and is necessary
for advancing to candidacy. The candidate must present his or
her research results in a public seminar sponsored by the dissertation
supervisor. The seminar is followed by a defense of the dissertation
to the reading committee and attending faculty who will then decide
whether the dissertation is acceptable or requires revision. Successful
completion of the dissertation fulfills the final academic requirement
for the Ph.D. degree.
Transfer Credit
Up to three School of Engineering courses fulfilling the degree
requirements of either the M.S. or Ph.D. degrees may be taken
before beginning the graduate program through the concurrent enrollment
program.
Ph.D. students who have previously earned a master’s degree
in a related field at another institution may substitute courses
from their previous university with approval of the adviser and
the computer engineering graduate committee. Courses from other
institutions may not
be applied to the M.S. degree course requirements. Petitions for
course substitutions must designate a specific graduate-level
course from the list of approved graduate courses. They should
be submitted along with the transcript from the other institution
or UCSC extension. For courses taken at other institutions, copies
of the syllabi, exams, and other course work should accompany
the petition. Such petitions are not considered until the completion
of at least one quarter at UCSC.
A total of, at most, three courses may be transferred from concurrent
enrollment and other institutions.
Review of Progress
Each year, the computer engineering faculty reviews the progress
of every student in the graduate program. Students not making
adequate progress towards completion of degree requirements (see
UCSC Graduate Student Handbook for policy on satisfactory
academic progress) are subject to dismissal from the program.
Students with academic deficiencies may be required to take additional
courses. Full-time students with no academic deficiencies are
normally expected to complete the degree requirements at the rate
of at least two courses per quarter. Full-time students must complete
Computer Science 201 and course 202 within two years and normally
must complete all course requirements within two years for the
M.S. and three years for the Ph.D. program.
Students receiving two or more grades of U (Unsatisfactory)
or below B in School of Engineering courses are not making adequate
progress and will be placed on academic probation for the following
three quarters of registered enrollment. Withdrawing or taking
a leave of absence does not count as enrollment. Part-time enrollment
is counted as a half of a quarter of enrollment.
Should any computer engineering graduate student fail a School
of Engineering course while on probation, the Computer Engineering
Department may request the graduate dean to dismiss that student
from the graduate program. If, after being removed from probation,
the student again fails a School of Engineering course, he or
she will return immediately to academic probation.
Graduate students experiencing circumstances or difficulties
that impact their academic performance should contact their adviser
and the graduate director immediately. Students may appeal their
dismissal.
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