S. -
• . SiMON FRASER, UNIVERSITY
?
S ?
-
MIMORANDUM
• To..................................................... ?
From. O
?
ff
c....the .1?.a.tI.
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.
subject..
9
•
t
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4.9tlurn ?
n•e..
9•••
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Date ...... ..o
y
ember 12, 1986
of Engineering Science
Action undertaken by the Senate Graduate Studies Committee, at
its Meeting on November 10, 1986, gives rise to the following motion:
MOTION:
"That Senate approve and recommend approval to the Board
of Governors, as set forth in S.86-82 , the proposed
curriculum changes in the School of Engineering Science:
Delete: ENSC 835-3 Telphony and Digital Switching
ENSC 851-3 Sytem Implementation Methodology
Add New Courses:
ENSC 851-3
ENSC 852-3
ENSC 853-3
ENSC 881-3
ENSC 883-3
ENGC 891-3
ENSC 892-3
ENSC 894-3
ENSC 895-3
ENSC 897
ENSC 898
Regulation Change:
Integrated Circuit Technology
Analog Integrated Circuits
Digital Semiconductor Circuits and Devices
Modelling of Engineering Systems
Optimization and Control
Directed Studies I
Directed Studies II
Special Topics I
Special Topics II
M.Eng. Project
M.A.Sc. Thesis
Explicit allowance for waiver of ENSC 800-3 Linear Systems
Dynamics as a required course"
Rationale for these changes is attached.
Flayman
Dean of Graduate Studies.
is
?
nun!
attach.
• ?
SiMON FRASER UNIVERSITY
MEMORANDUM
To....
M1.
.Mcin..................................
Sublect.. ?
REVISION.
From.L.V.. ?
.Cbaixau........................
Faculty of Applied Science Graduate
Comxnitthe
........................................
Date.
1986
Attached are the calendar revisions from the School of Engineering
Science which were approved at the Faculty of Applied Science Graduate
Studies Committee meeting, Tuesday, October 21st, 1986.
^& Z"11-1-
1
M. Savage
•
?
MS/ta
0
SCHOOL OF ENGINEERING SCIENCE
?
SIMON FRASER UNIVERSITY
MEMO
To: ?
Marg Savage, Chair
Applied Sciences Graduate Studies Committee
From: ?
Jim Cavers, Chair
Engineering Science Graduate Program
Date: ?
17 October 1986
Subject:
Calendar Revisions.
Attached are the Engineering Science graduate studies calendar
revisions for consideration at the Applied Sciences Graduate
Studies Committee meeting to be held on Tuesday, October 21st at
2:00 pm.
The changes can be summarized as follows:
1
Course Deletions
ENSC 835-3 Telephony and Digital Switching
ENSC 851-3 System Implementation Methodology
Justification: These courses will be offered infrequently
and we propose to do so under Special Topics.
2.
New Courses
ENSC 851-3 Integrated Circuit Technology
ENSC 852-3 Analog Integrated Circuits
ENSC 853-3 Digital Semiconductor Circuits and Devices
Justification: These courses will support the M.A.Sc.
students working in the microelectronics area and should
prove popular among the M.Eng. population.
ENSC 881-3 Modelling of Engineering Systems
ENSC 883-3. Optimization and Control
Justification: These courses will support M.A.Sc. students
working in control and robotics.
ENSC 891-3 Directed Studies I
ENSC 892-3. Directed Studies II
ENSC 894-3 Special Topics I
ENSC 895-3 Special Topics II
ENSC 897
?
M.Eng. Project
ENSC 898
?
M.A.Sc. Thesis
Justification: These courses were left out of the original
calendar entry.
?
0
-2-
.
3
Editorial Changes
ENSC
833-3
Network Protocols and Performance
Justification: Minor rewording for clarity of calendar
description.
4.
Re
g
ulation Change
Explicit allowance for waiver of ENSC
800-3
Linear Systems
Dynamics as a required course.
Justification: We have had several excellent students
entering the M.Eng. program whose background is such that
this prerequiste course is unnecessary.
5.
Other
Listing of courses offered by other departments which are of
particular interest to Engineering Science students. These
include:
CMPT
842-3
Distributed Computing
CMPT
850-3
Computer Architecture
. ?
CMPT
852-3
VLSI Systems Design
CMPT
863-3
Principles of Computer Aided Design
MATH
408-3
Discrete Optimization
6/ames K. Cavers
?
Attachments
0
- ?
• 44lIDU
?
ror
CALENDAR
INFORMATION:
Department: ?
Engineering Science
?
Course
Number: ENSC 851
Title: ?
Integrated Circuit Technology
Description:
?
This course gives an
.
overall view of the technology involved
in the fabrication of integrated circuits. The physics behind integrated
circuit processing will also be discussed.
Credit Hours:
?
3
?
Vector:
?
3-0-0 _____
Prerequisite(s)
it anv:
P
ermis-
sion of Instructor.
ENROLLMENT AND SCHEDULING:
Estir.ated Enrollment: ?
10 ?
When will the course
first be offered:
?
1987-3
How often will the course
be offered: ?
Once per year.
JUSTIFICATION:
Competentdesi
gnersofintegrated _circuits must have agood _knowledge
-
of the physics and technology behind integrated-circuit processing.
RESOURCES:
Which Faculty member will normally teach the course:.
Dr. M. J. Deen
?
What are the budgetary implications of mounting the course:
?
30% of a technician's time
or equivalent graduate student support required for the lab section of
course.
Are there sufficient Library resources
(aooend details):Someadditionsrequired.
Appended: a) Outline of the Course
b)c)
Library
An indication
resources
of the com
p
etence of the Faculty member to give the course.
Approved: Departmental Graduate Studies Committee:
Date:______________
Faculty Graduate Studies committee:?7,/_
Date:
Faculty:
C T)'.
t\ ?
H ?
Date:
p
j
Senate Graduate Studies
CornmitteeS
IJ2i......._
._
?
Date:
lv/
Senate:___________________________________________
?
Date:
4
I
S
.
.
/
APPENDIX
• a) Course outline
ENSC 851-3 ?
Integrated-circuit Technology
(M. Jamal Deen)
Review
of semiconductor physics. Technology of
semiconductor devices and integrated circuits:
material evaluation, crystal growth, doping,
epitaxy, oxidation, thermal diffusion, ion
implantation, lithography and device patterning,
and thin film formation. Design and fabrication of
active and passive semiconductor
devices,
packaging
techniques and reliability of integrated circuits.
b)
Competence of the Facult
y
member to g ive the course
Dr. M Jamal Deen's background and research interest are in the
area of solid-state devices. He also has practical experience in
device processing and testing, and is well qualified to give this
course.
c)
Library
resources
The following reference books and technical journals should be
acquired:
Integrated Circuit Engineering, A.B. Glaser and G.E.
Subak-Sharpe, Addison Wesley (1979).
VLSI Technology, Ed. S.M Sze, McGraw Hill (1983).
VLSI Fabrication Principles, S.K. Ghandi,
Wiley Interscience
(1983).
Physics and Technology of Semiconductor Devices, A.S. Grove, John
Wiley & Sons (1967).
Physics of Semiconductor Devices, S.M. Sze, 3.
Wiley
(1981).
Basic Integrated Circuit Engineering, Hamilton and Howard, McGraw
Hill (1975).
Modern Semiconductor fabrication technology, P.E. Gise, Prentice
Hall (1986).
Integrated circuit fabrication technology, D.J. Elliott, McGraw
Hill (1982).
Integrated circuit mask technology, D.J. Elliott, McGraw Hill
(1985).
Analysis and Design of Analog Integrated Circuits, P.R. Gray and
R.G. Meyer, John Wiley and Sons (1983).
-1-
/
/
Integrated Circuits: Materials, Devices, and Fabrication, W.C.
Till, Prentice Hall (1982).
Analysis and Design of Digital Integrated Circuits, D. Hodges and
H. Jackson, McGraw Hill (1983).
Design and Analysis of VLSI Circuits, L. Glasser and D.
Dobberpuhl, Addison Wesley (1985).
Introduction
to
NXOS
and CMOS VLSI design, A. Mukherjee, Prentice
Hall (1986).
Digital MOS Integrated Circuits, Ed. M.I.. Elmasry, IEEE Press
(1981).
Analog MOS Integrated Circuits, Ed. P.R. Gray........, IEEE Press
(1981)
IEEE Trans. Electron Devices.
IEEE J. Solid State Circuits.
IEEE Trans. Circuits and Systems.
IEEE Circuits and Devices Magazine.
Solid-State Technology, Technical Publishing, New York, NY.
Semiconductor International,
Microelectronic Manulfacturing and Testing, Lake Publishing
Corp., Libertyville, Illinois.
Microcontamination, Canon Communications, Inc., Santa Monica, CA.
Lasers and Applications, High Tech Publications, Inc., Torrance,
CA.
Electronic Products, Hearst Business Communications, Inc., Garden
City, NY.
Microelectronic Engineering, Elsevier Science Publishers
B.V. (North-Holland).
!I
-2-
New Graduate Course
Prorosal Tore
CALENDAR IFOR4ATION:
*Department:
—
Engineering Science
?
Course Number:
ENSC 852
Title: ?
Analo Integrated Circuits
This course provides an introduction to integrated circuit
?
-
Description:
_en
g
ineerin
g
_and _concentrates _on_soecialtechniques_for
implementing analog electronic functions on an integrated circuit.
Credit Hours:
3
?
Vector:(2-0-2)
Prerequisite(s) if any:_______
ENROLLMENTANDSCHEDULING:
Estir.ated Enrollment:_
?
10 ?
When will the course
first
be offered:
Fall 87
Now often will the course be offered:
Once per year
JUSTIFICATION:
-
Background and trainin
g
in inte g
rated circuit desi
g
n is becoming more
and more important in the world of. high technology. Local electronic
' industry has also ex
p
ressed a special interest in this area. This course,
because of its analog emphasis,.is an ideal complement to the existing
"VLSI System Design" course (CMPT 852).
ni
t
crc!
' 1
hich Faculty member will normally teach the course:
_Dr.
'
Albert M. Leung
That are
the
budgetary implications
of mounting
the
course:
30%
of a technician's time
for
the
laboratory
p
ortion
of this
course..
Are there sufficient Library resources (a
pp
end details):
Some additions required.
Appended: a) Outline of the Course
b)
An indication of the com
p
etence of the Faculty member to give the course.
c)
Library resources
Date:
iifi°
-
?
Date:/
Date:__________
Senate:Senate ?
Graduate Studies
. ?
Committee:
?
. ?
. ?
Date:_______________
Date:
(3
44
Approved: Departmental Graduate Studies Committee:
. ?
Faculty Graduate Studies Committee:72
Faculty: ?
A. P ?
.
APPENDIX
a) Course outline
ENSC 852-3 ?
Analog Integrated Circuits
(Albert H. Leung)
Integrated-circuit (IC) technology, IC component
models and analog circuit configurations. Computer
aided design tools for circuit simulation and
physical layout of ICs. Students are required to
complete a project in which he/she will design,
layout, fabricate and test a semicustom IC using
the fast turnaround IC fabrication facility at the
School of Engineering Science.
b)
Com p
etence of the Facult
y
member to give the course
Dr. Albert H. Leung is the instructor well qualified to give this
course. He has ten years of hands-on experience in the design and
fabrication of integrated circuits. His current research also
concentrates on the development of integrated-circuit technology.
C)
Library resources
The following reference books and technical journals should be
acquired:
Integrated Circuit Engineering, A.B. Glaser and G.E.
Subak-Sharpe, Addison Wesley (1979).
VLSI Technology, Ed. S.M Sze, McGraw Hill (1983).
VLSI Fabrication Principles, S.K. Ghandi, Wiley Interscience
(1983)
Physics and Technology of Semiconductor Devices, A.S. Grove, John
Wiley & Sons (1967).
Physics of Semiconductor Devices, S.M. Sze, J. Wiley (1981).
Basic Integrated Circuit Engineering, Hamilton and Howard, McGraw
Hill (1975).
Modern Semiconductor fabrication technology, P.E. Gise, Prentice
Hall (1986).
Integrated circuit fabrication technology, D.J. Elliott, McGraw
Hill (1982).
Integrated circuit mask technology, D.J. Elliott, McGraw Hill
(1985)
Analysis and Design of Analog Integrated Circuits, P.R. Gray and
-1-
R.G. Meyer, John Wiley and Sons (1983).
.
Integrated Circuits: Materials, Devices, and Fabrication, W.C.
Till, Prentice Hall (1982).
Analysis and Design of Digital Integrated Circuits, D. Hodges and
H. Jackson, McGraw Hill (1983).
Design and Analysis of VLSI Circuits, L. Glasser and D.
Dobberpuhl, Addison Wesley (1985).
Introduction
to NMOS and CMOS VLSI design, A. Mukherjee, Prentice
Hall (1986).
Digital 1405 Integrated Circuits, Ed.
M.I.
Elmasry, IEEE Press
(1981).
Analog MOS Integrated Circuits, Ed. P.R. Gray........, IEEE Press
(1981)
IEEE Trans. Electron Devices.
IEEE J. Solid State Circuits.
IEEE Trans. Circuits and Systems.
IEEE Circuits and Devices Magazine.
Solid-State Technology, Technical Publishing, New York, NY.
Semiconductor
International,
Microelectronic
Manulfacturing
and Testing, Lake Publishing
Corp., Libertyville, Illinois.
Microcontaiuination, Canon Communications, Inc.,
Santa Monica, CA.
Lasers and Applications, High Tech Publications, Inc., Torrance,
CA.
Electronic Products, Hearst Business Communications, Inc., Garden
City, NY.
Microelectronic Engineering, Elsevier Science Publishers
B.V. (North-Holland).
is
-2-
C-raduate Course Pro
p
osal Fore
CALDAR flFOR4ATlON:
Department: ?
Engineering Science
?
Course Number:
ENSC 85
Title: ?
Digital Semiconductor Circuits and Devices
Description: ?
This course will provide an introduction to digital integrated
circuit engineering and concentrates on various aspects of digital semi-
conductor circuits and devices.
Prerequisite(s) if an
y
:
Permis-
sion of Instructor.
Credit Hours:
?
Vector:
?
2-0-2
ENROLLMENT
AND SCHEDULING:
Estimated Enrollment:
10
When will the
course first be offered;
?
1987-3
How often will the course
be
offered:_
?
Once
per year.
JUSTIFICATION:
Background and training in digital semiconductor circuits and devices
areessentialinthehightechnologyfield.Thiscourse,becauseofits
digital emphasis will complement
ENSC 852,
Analog Integrated Circuits.
t.
I
I
.4
0
RESOURCES:
Which Faculty member will normally teach the course:
Dr.
M.J.Deen and Dr. R.H.S.Hardy
That are the budgetary implications of mounting the course:
Possibly
30%
ofa
technician
's
time or equivalent graduate student support required for lab section of
the course.
Are there sufficient Library resources (a
pp
end details):
Someadditionsrequired.
Appended: a) Outline of the Course
b)
An indication of the com
p
etence of the Faculty member to give the course.
c)
Library resources
Approved: Departmental Graduate Studies Committee:
dI4,_.ckc_
Date:
Faculty Graduate Studies
?
Q2/&2cW-_
Faculty: .A
_
Date: _' _
•
I' ?
C ?
______
Senate Graduate Studies
?
Date:
13
Senate:
?
-
?
Date:
.
?
APPENDIX
a)
Course Outline
ENSC 853-3 ?
DIGITAL SEMICONDUCTOR CIRCUITS & DEVICES
(M. Jamal Deen or R.H.S. Hardy)
MOS device electronics. Second Order
Effects in MOS transistors. BJT device
electronics. Static and transient
analysis of inverters. Digital gates,
circuits and circuit techniques. Speed
and power dissipation. Memory systems.
Gate arrays, semicustom and customized
integrated circuits. CAD tools.
Students are required to complete a
project.
b)
Competence of the faculty members to give the course:
Dr. M. Jamal Deen is the instructor well qualified to
give this course. He has six years of experience in the
design and fabrication of integrated circuts and has
taught a similar course previously. His current
research interests are in the solid state electronics
• ?
and microelectronics and device fabrication areas.
Dr. R.H.S. Hardy will teach a portion of this course.
He has relevant industrial experience in the design of
digital integrated circuits using modern computer-aided
design tools. He has taught a similar course at the
undergraduate level. His current research interests are
in the areas of VLSI implementations of computer network
components and in computer-aided design of integrated
circuits.
C) ?
Library Resources
The following reference books and technical journals
should be acquired:
BOOKS:
Integrated Circuit Engineering, A.B. Glaser and G.E.
Subak-Sharpe, Addison-Wesley (1979).
VLSI Technology, Ed. S.M. Sze, McGraw Hill (1983).
VLSI Fabrication Princi
p
les, S.K. Ghandi, Wiley
Interscience (1983).
.
?
Physics and Technology of Semiconductor Devices, A.S.
Grove, John Wiley & Sons (1967).
APPENDIX - continued ?
p.2
Physics of Semiconductor Devices, S.M. Sze, J.Wiley
(1981)
Basic Integrated Circuit Engineering, Hamilton & Howard,
McGraw Hill (1975).
Integrated Circuit Fabrication technology, D.J. Elliott,
McGraw Hill (1982).
Integrated Circuit Mask Technology,D.J. Elliott, McGraw
Hill (1985).
Analysis and Design of Analog Integrated Circuits, P.R.
Gray and R.C. Meyer, John Wiley & Sons (1983).
Integrated Circuits: Materials. Devices, and
Fabrication,.W.C. Till, Prentice-Hall (1982).
Analysis and Design of Digital Integrated Circuits, D.
Hodges and H. Jackson, McGraw-Hill (1983).
Design and Analysis of VLSI Circuits, L. Glasser and D.
Dobberpuhi, Addison-Wesley (1985).
Introduction to NMOS and CMOS VLSI Design, A. Mukherjee,
Prentice-Hall (1986).
Di g
ital MOS Inte
g
rated Circuits, Ed. M.I. Elmasry, IEEE
Press (1981).
Analog MOS Integrated Circuits, Ed. P.R. Gray, IEEE
Press (1981).
Structured VLSI Design, Charles Seltz, Addison-Wesley
(1986) .
Di g ital Lo g
ic Testing and Simulation, AA. Miczo, Harper
& Row (1986).
Design of VLSI Gate Array IC's, E.E. Hollis, Prentice-
Hall (1987)
PERIODICALS:
IEEE Trans. Electron Devices, IEEE.
IEEE Design & Test of Com
p
uters, IEEE.
IEEE J. Solid State Circuits, IEEE.
IEEE Trnas. Circuits and Systems, IEEE.
IEEE Circuits and Devices Magazine.
Proceedings of the IEEE Custom IC Conference.
Solid-State Technology, Technical Publishing, New York,
N.Y.
Semiconductor International.
VLSI Design Magazine.
Microelectronic Manufacturing and Testing, Lake
Publishing Corp., Libertyville, Illinois.
Microcontaniination, Canon Communications, Inc., Santa
Monica, CA.
Lasers and A
p tlications, High Tech Publications, Inc.,
Torrance, CA.
Electronic Products, Hearst Business Communications,
Inc., Garden City, N.Y.
S ?
Microelectronic Engineering, Elsevier Science
?
Publishers, B.V. (North-Holland).
17J
New Graduate Course
Pronosal Form
CALENDAR
1FOR1ATION:
Department: ?
Engineering Science
?
Course Number: ENSC 881
S
Title:
?
Engineering Modelling of Dynamic Processes
Description: Introduction to s
ystematic
develoi)ment of tractable models for engineering
systems. Uses case studies and labs based on a variety of physical processes.
Credit Hours:
?
3 ?
Vector: ?
2O2 ?
__
Prerequisite(s)
if an
y
:
ENSC
800
ENROLLMENT AND SCHEDULING:
Estimated Enrollment:
?
10 ?
when will the course first be offered:_ 1987-3
y
How often will the course be offered: Every two years, more often if numbers warrant.
I
JUSTIFICATION:
The main intent is to supp
ort M.A.Sc. (full-time) students working in control and
robotics. However, the material is of more general interest, and will be useful to
many students in the M.Eng. (part-time) program as well.
PFAhiRt'rc.
ts'hich Faculty member will normally teach the course:
?
B.T. McGeer
What are the budgetary implications of mounting the course:
?
OneT.A.toassistinthe
laboratory.
Are there sufficient Library resources (anoend details): Yes.supported_by_ENSC Core _B
Appended: a)
Outline of the
Course ?
acquisitions.
b)
An indication of the com
p
etence of the Faculty member to give the course.
c)
Library resources
Approved:
Departmental Graduate Studies Committee:
-,
/I
.Date:
Faculty Graduate Studies
727J,
/
Committee:
?
Date:_______________
Faculty:
Ti.
A . ?
...
t ?
A
?
Date: p
Senate Graduate Studies Committee:
?
62ei......_—.....
?
Date:
13
Senate: ?
Date:_______________
S
.
APPENDIX
a)
Course Outline
ENSC 881-3
?
Engineering Modelling of Dynamic Processes
(B.T. McGeer)
Effective design requires a good model of the
system you work with. This course uses case
studies and labs to introduce the student to
systematic techniques of modelling:
simplification and approximation of dynamical
mechanisms, expression in appropriate
mathematics, and comparison of mathematical
results with observed phenomena. Topics
include modelling philosophy and strategy;
classification of mathematical models;
dimensional analysis; approximate solutions
of dynamical equations; perturbation methods;
approximate physical models; experiment
design; accuracy bounds on models and
measurements. Examples are drawn from
mechanical, electrical, thermal, fluid, and
biological systems.
b)
Competence of the faculty member to give the course:
Dr. B.T. McGeer (B.S.E., Mechanical Engineering, Princeton,
1979; M.S., Ph.D. Aeronautics and Astronautics, Stanford,
1980, 1983) has been working with modelling and control
techniques since he started his doctoral work. His research
since 1983, especially his work with two local companies,
has required explicit development of models of difficult
systems as a first step to development of control
algorithms.
9
New (raduate Course Pronosal Pore
CALENDAR 1FOR24ATION:
Engineering
Science
ENSC883
Department:
Course Number:
Title:
0ptimiztion and Modern Contr'ol
Description: ?
_
Numerical
and variational techniques
applied to linear and non-linear
control of
dynamic systems.
Credit Hours:
3
Vector:
?
3-0-0
_Prerequisite(s)
if an
y
:ENSC
382
or equivalent.
ENROLLMENT AND
SCHEDULING:
Estimated Enrollment:
15 ?
When will the course
first be offered:
?
1988-1
How often will
the course
be offered:
?
Every
_two Years,
_or more often if numbers warrant.
JUSTIFICATION:
This course will be useful to the control and automation community in the lower
mainland, ?
and will attract
a significant number of
M.Eng. students. ?
In
addition, ?
it is
an essential course for any
M.A.Sc. student in the
control
and robotics
area.
OrCf'TID('rC.
Which Faculty member will normally teach the course: _B.T._McGeer
What are the budgetary implications of mounting the course:
?
_None.
Are there sufficient Library
resources
(aonend details): Yes,
su
pported by_ENSC Core B
Appended: a) Outline of the Course
?
acquisitions.-
b)
An indication of the com
p
etence of the Faculty member
to
give
the course.
c)
Library resources
Approved: Departmental Graduate Studies Committee:
.
__Date:
'986
10
Faculty Graduate Studies Committee: _-__A—_Date:
/eJ96
Faculty:
T').
,.
?
I
?
Date: p
?
z/cd
Senate Graduate Studies Committee:
?
Date:
ij
Senate: ?
Date:_______________
S
APPENDIX.
a) ?
Course Outline
ENSC 883-3 ?
Optimization and Modern Control
(B.T. McGeer)
This is a second control course for students
with a background in classical control. The
course begins with a discussion of the
philosophy and process of optimization. This
includes a review of objectives in
optimization and figures of merit. Both
variational and numerical methods are
introduced, and applied to component design
and trajectory planning problems.
Appropriate and inappropriate applications
are critically reviewed. The discussion then
turns to control of dynamic systems.
Alternative design techniques are developed
and compared: classical linear design;
'modern' linear design; trajectory
optimization; hybrid techniques.
Sb) Competence of the faculty member to give the course:
Dr. B.T. McGeer (B.S.E., Mechanical Engineering, Princeton,
1979; M.S., Ph.D., Aeronautics and Astronautics, Stanford,
1980, 1983) has been working with modelling and control
techniques since he started his doctoral work. His research
since 1983, especially his work with two local companies,
has
required
explicit development of models of difficult
systems as a first step to development of control
algorithms.
0
S1)N YRAScR UNIVERSITY
New (rduate Course Pronosa]. Form
cALE DARI N FORMATION:
Department:
Engineering
Science
Course Number: ?
ENSC 8913
Title:
Directed Studies I
Description:
Credit Hours:
3
Vector:
_
Prerequisite(s) if any:
ENROLLMENT AND
SCHEDULING:
Estimated Enrollment:
When will the course first be offered:____________________
How often will
the course
be offered:
JUSTIFICATION:
To provide opportunity for further
research and study in support
M.A..Sc.
of
thesis work.
Which Faculty member will normally teach the course:
What are the budgetary implications of mounting the course:
Are there sufficient Library resources (aunend details):________________________________
Appended: a) Outline
of
the Course
b)
An indication of the comi,etence of the Faculty member to give the course.
c)
Library resources
Date:_____ ____
Approved: Departmental
Faculty Graduate
Graduate
Studies
Studies
Committee:
?
. _ate:
LL
Date:
oS22/c4
Faculty:
?
I
?
I.
?
°'-
Senate Graduate Studies
?
Date:_____________
Senate: ?
_Date:_______________
S
• ?
SMON
iR.AsR
uivvsiry
New Graduate Course Pronosal
Form
CALENDAR
IFORHATION:
Department: Enaineerino Science ?
Course Number:
ENSC892-3
Title: ?
DirectedStudjes II
Description:
Credit Hours:
?
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JUSTIFICATION:
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3. EDITORIAL CHANGE:
ENSC 833-3 Network Protocols and Performance
Practical techniques of design and performance analysis of data
networks up to layer 3 of the Open System Interconnection
protocol hierarchy. Point to point and polling data links.
Networks of queues: stochastic and mean value analysis. Packet
networks: loading, transit time, routing strategies.
Prerequisite: ENSC 800.
4. REGULATION CHANGE:
"Of the courses listed below, ENSC 805, 810, 815 and 820 are
required. The prerequisite ENSC 800 will be waived if the
student has equivalent preparation."
5. OTHER:
"COURSES OFFERED BY OTHER DEPARTMENTS
Of particular interest to graduate students in Engineering
Science are the following courses, for which complete
descriptions can be found elsewhere in this Calendar.
CMPT
842-3
Distributed Computing
CMPT
850-3
Computer Architecture
CMPT 852-3
VLSI Systems Design
CMPT
863-3
Principles of Computer Aided Design
MATH
408-3
Discrete Optimization"
S
S
SiMON FRASER UNIVERSITY ?
MIMORANDUM
To .... .
Jim Cavers
7
Director ?
.
?
From ....
..thEY
Graduate Studies Program
?
Graduate Studies Program
School...
Subject ...... Gdiia
?
I
?
Date.....
The School of Computing Science has no objection to the proposed
calendar revisions proposed by the School of Engineering Science.
Binay K. hattacharya
BKB: rcw
A.
( XT 2
4
, ?
,,..
SiMON FRASER UNIVERSITY
MEMORANDUM
From
?
.
Thom
School of Engineering ?
Head, Collections Management
Science ?
Office
Subject. . .
?
GRADUATE COURSES
.
.
Date .......
.
ctobe.....19..
1. ENSC 851-3 INTEGRATED CIRCUIT TECHNOLOGY
ENSC 852-3 ANALOG INTEGRATED CIRCUITS
ENSC 852-3 DIGITAL SEMICONDUCTOR CIRCUITS AND DEVICES
These three appear to share a common body of
literature and we already own a fair number of the cited
titles. All but eleven of the books are already in the
Library and the rest may be acquired at a cost of approxi-
mately $750.00. Similarly, the Library already subscribes
to five of the thirteen required journals and the rest
are available at a surprisingly modest annual subscription
and binding cost of about $675.00.
In summary, these courses will require a
first year outlay of $1,425 for books and periodicals
plus an additional $675.00 for each following year.
•T24
2.
ENSC 881-3 MODELLING OF ENGINEERING SYSTEMS
ENSC 883-3 OPTIMIZATION AND CONTROL
These courses will depend on the materials
acquired to support the implementation of ENSC CORE B.
The Library and the School of Engineering Science are
now in the process of jointly assessing the cost of
these CORE B requirements, but there should then be
no further expenditure required in order to support
these two courses.
fr*FY
ST: is
.
