CS 147 Computer Architecture
Fall 2010
Course Syllabus
Description:
Introduction
to computer systems design. Survey
various machine architectures including implementation alternatives for major
processor sub-systems. Discussion includes
data representation, arithmetic logic unit operations and algorithms, control
processor unit instruction formats, memory addressing schemes, and hierarchical
memory organization.
"Non-classical" architectures such as parallel processors and
RISC machines are also presented.
Performance measurement and speedup techniques are studied to perform
tradeoff analysis and design optimization.
Digital breadboard labs and programming projects using the VHDL language
and simulation environment will be used to demonstrate gate-level
computer-aided design and functional verification techniques for digital
systems.
Meeting
Time:
Section
2: TR 10:30am – 11:45am MH223.
Prerequisites:
Math
42 and CS 140, each with a grade of "C-" or higher.
Instructor:
Robert
K. Chun
Messages:
Email: ProfessorChun@gmail.com, Phone: 408-924-5137,
Office: MH 413
Office Hours:
Monday 11:30am – 12:30pm, 4:15pm – 4:45pm,
8:15pm – 9:00pm
Tuesday 11:45am – 12:15pm
Wednesday 1:45pm – 2:15pm, 4:15pm – 4:45pm,
8:15pm – 9:00pm
Thursday 11:45am – 12:15pm
Textbook:
Required: Computer Organization and Design: The
Hardware/Software Interface, 4th
Ed., D. Patterson, 2008, Elsevier Science & Technology Books, ISBN 9780123744937, or Computer Organization
and Design: The Hardware/Software Interface, 3rd Ed., D. Patterson, 2005, Morgan
Kaufmann, ISBN 1-55860-604-1
Required CS 147 Course
Reader, Chun. Purchase at SJSU A.S.
Print Shop.
Optional: A VHDL
Primer, J. Bhasker, 3rd Ed., 1998, Prentice
Hall, ISBN 0130965758
Grading:
Grading
consists of two midterms, one final, and a set of projects (consisting of a
combination of written problems and VHDL programming assignments) weighted as
shown below. Grading is based on a
class curve. All assignments must be
completed by the student on the due date specified to receive credit for the
class. All students must uphold academic
honesty, per university policy detailed at http://www2.sjsu.edu/senate/f88-10.htm.
Midterm Approx. Week 6 20%
Midterm Approx. Week 12 20%
Final 12/17/10 9:45am 40%
Projects 20%
Schedule
(Tentative):
Lecture Chapter Topic
--------------------------------------------------------------------------------------------
1-4 1,
2 Introduction,
VHDL
5-6 3 Data
Representation
7-11 3 Computer
Arithmetic
Midterm
12-18 7 Memory
Organization
19-21 2,
5 Control Unit,
Instruction Formats
Midterm
22-24 6 Pipeline and
Vector Processing
25-27 6 Multiprocessors,
RISC
Final
Course Objectives:
Student
Learning Outcomes:
Upon successful completion of this course,
students should be able to:
·
Understand the role of each
major hardware component of a computer system and their synergistic interaction
with each other and software.
·
Analyze and perform tradeoffs between
the cost, performance, and reliability of alternative computer architectures.
·
Understand, analyze, and design
digital logic structures for the basic combinational and sequential
circuits.
·
Understand the alternative
binary internal representation of information (such as sign-magnitude, one's
complement, two's complement, and floating point) along with their
optimizations and tradeoffs.
·
Be able to perform basic
mathematical operations (add, multiply) in the various Boolean number
representation schemes.
·
Understand the operation of, and
be able to analyze from a cost/performance standpoint, certain optimized
hardware structures (for instance, fast ALU circuits such as carry look-ahead
adders, carry select adders, Booth multipliers).
·
Appreciate the need to use a
memory hierarchy and understand how locality of memory referencing in typical
programs can be leveraged to perform effective memory architecture management.
·
Understand and emulate the
various mapping, replacement, and dynamic memory allocation algorithms for
cache and virtual memory management.
·
Understand the rationale and
philosophy behind both complex instruction set computers (CISC) and reduced
instruction set computers (RISC), and the tradeoffs between the two
architectures.
·
Understand how pipelining and
parallel processing are cost-effective methods of increasing hardware
performance.
·
Appreciate how computer-aided
design tools and hardware description languages can be used to verify and
measure the performance of hardware designs.
General University
Policies
DISABILITIES:
If you need course
adaptations or accommodations because of a disability, or if you need special arrangements
in case the building must be evacuated, please inform the instructor as soon as
possible. Presidential Directive 97-03
requires that students with disabilities register with DRC to establish a
record of their disability.
ACADEMIC INTEGRITY:
Academic integrity
is essential to the mission of San José State University. As such,
students are expected to perform their own work (except when collaboration is
expressly permitted by the course instructor) without the use of any outside
resources. Students are not permitted to use old tests or quizzes when
preparing for exams, nor may they consult with students who have already taken
the exam. When practiced, academic integrity ensures that all students are
fairly graded.
We all share the
obligation to maintain an environment which practices academic integrity. Violations to the Academic Integrity Policy
undermine the educational process and will not be tolerated. It also
demonstrates a lack of respect for oneself, fellow students and the course instructor,
and can ruin the university’s reputation and the value of the degrees it
offers. Violators of the Academic
Integrity Policy will be subject to failing this course and being reported to
the Office of Judicial Affairs for disciplinary action which could result in
suspension or expulsion from San José State University.
CHEATING:
At SJSU, cheating is
the act of obtaining or attempting to obtain credit for academic work through
the use of any dishonest, deceptive, or fraudulent means. Cheating at SJSU
includes but is not limited to:
Copying in part or
in whole, from another’s test or other evaluation instrument; Submitting work
previously graded in another course unless this has been approved by the course
instructor or by departmental policy. Submitting work simultaneously presented
in two courses, unless this has been approved by both course instructors or by
departmental policy. Altering or interfering with grading or grading
instructions; Sitting for an examination by a surrogate, or as a surrogate; any
other act committed by a student in the course of his or her academic work
which defrauds or misrepresents, including aiding or abetting in any of the
actions defined above.
PLAGIARISM:
At SJSU plagiarism is the act of representing the work
of another as one’s own (without giving appropriate credit) regardless of how
that work was obtained (hardcopy, softcopy, Internet), and submitting it to
fulfill academic requirements. Plagiarism at SJSU includes but is not limited
to:
The act of
incorporating the ideas, words, sentences, paragraphs, or parts thereof, or the
specific substances of another’s work, without giving appropriate credit, and
representing the product as one’s own work; and representing another’s
artistic/scholarly works such as musical compositions, computer programs,
photographs, painting, drawing, sculptures, or similar works as one’s own.
Additional Information:
http://www.cs.sjsu.edu/greensheetinfo/index.html