Fourier Series
There are 2 main techniques for Fourier series namely Trigonometry Fourier Series and
Complex Exponential Fourier series
What is the Fourier Series techniques all about ? The main idea is that we are able to
represent a periodic signal as a
Stanford University
Winter 2009-2010
Signal Processing and Linear Systems I
Lecture 6: Convolution
January 14, 2010
EE102A:Signal Processing and Linear Systems I; Win 09-10, Pauly
1
Convolution Evaluation and Properties
Todays topics:
Review: response of
Stanford University
Winter 2009-2010
Signal Processing and Linear Systems I
Lecture 4: Systems Characteristics and Models
January 10, 2010
EE102A Win 09-10, Pauly
1
System Characteristics and Models
Todays topics:
What are systems?
Block diagrams
Inter
Stanford University
Winter 2009-2010
Signal Processing and Linear Systems I
Lecture 3: Signal Models
January 6, 2010
EE102A:Signal Processing and Linear Systems I; Win 09-10, Pauly
1
Models of Continuous Time Signals
Todays topics:
Sinuoidal signals
Exp
Stanford University
Winter 2009-2010
Signal Processing and Linear Systems I
Lecture 2: Signal Characteristics and Models
January 4, 2010
EE102A:Signal Processing and Linear Systems I; Win 09-10, Pauly
1
Signal Characteristics and Models
Operations on the
Stanford University
Winter 2009-2010
Signal Processing and Linear Systems I
Lecture 1: Course Overview
January 2, 2010
EE102A:Signal Processing and Linear Systems I; Win 09-10, Pauly
1
Class Organization
See handout #1, which is a copy of the course webpa
K. Olukotun
Fall 08/09
Lecture 18
EE108B
Lecture 18
Buses and OS, CMPs
Kunle Olukotun
Stanford University
http:/eeclass.stanford.edu/ee108b
K. Olukotun
EE108b Lecture 18
1
Announcements
Whats due
HW5 due today, no late day
LB4, Thursday , Dec 3
Final
Lecture 17
Fall 09/106
EE108B
Olukotun
EE108B
Lecture 17
I/O Buses and Interfacing to CPU
Kunle Olukotun
Stanford University
http:/eeclass.stanford.edu/ee108b
K. Olukotun
EE108b Lecture 17
1
Announcements
Whats due
PA2.2 due today
HW5 Tue, Dec 1
LB4,
EE108B
Lecture 16
Architectural Support for OS
I/O
Kunle Olukotun
Stanford University
http:/eeclass.stanford.edu/ee108b
K. Olukotun
EE108b Lecture 16
1
Announcements
Whats due
HW4 due today
PA2.2 due Thurs
K. Olukotun
EE108b Lecture 16
2
Review: Page Ta
Stanford University
Spring 2009-2010
Signal Processing and Linear Systems I
Lecture 7: Continuous-Time Fourier Series
January 19, 2010
EE102A:Signal Processing and Linear Systems I; Win 09-10, Pauly
1
Introduction
Freqency domain representation of continu
Stanford University
Win 2009-2010
Signal Processing and Linear Systems I
Lecture 10: Fourier Theorems and Generalized Fourier Transforms
February 4, 2010
EE102A:Signal Processing and Linear Systems I; Win 09-10, Pauly
1
Fourier Transform Notation
For conv
Stanford University
Winter 2008-2009
Signal Processing and Linear Systems I
Lecture 19: Overview and Conclusions
March 10, 2010
EE102A:Signal Processing and Linear Systems I; Win 08-09 Pauly
1
Overview and Conclusions
Several key ideas:
Linearity and tim
Stanford University
Winter 2009-2010
Signal Processing and Linear Systems I
Lecture 18: Feedback
March 4, 2010
EE102A:Signal Processing and Linear Systems I; Win 09-10, Pauly
1
Feedback
We often have systems that dont do quite what wed like.
They might be
Stanford University
Winter 2009-2010
Signal Processing and Linear Systems I
Lecture 17: Frequency Response, Bode Plots, and Filters
March 4, 2010
EE102A:Signal Processing and Linear Systems I; Win 09-10, Pauly
1
Frequency Response
The Laplace transform H
Stanford University
Winter 2009-2010
Signal Processing and Linear Systems I
Lecture 16: Applications of the Laplace Transform
February 26, 2010
EE102A:Signal Processing and Linear Systems I; Win 09-10, Pauly
1
Solutions of LCCODEs
The Laplace transforms p
Stanford University
Winter 2009-2010
Signal Processing and Linear Systems I
Lecture 15: Inversion of the Laplace Transform
February 25, 2010
EE102A:Signal Processing and Linear Systems I; Win 09-10, Pauly
1
Inversion of the Laplace transform
From Lecture
Stanford University
Winter 2009-2010
Signal Processing and Linear Systems I
Lecture 14: The Laplace Transform
February 22, 2010
EE102A:Signal Processing and Linear Systems I; Win 09-10, Pauly
1
Limitations of the Fourier Transform
The Fourier transform al
Stanford University
Winter 2009-2010
Signal Processing and Linear Systems I
Lecture 13: Impulse trains, Periodic Signals, and Sampling
February 19, 2010
EE102A:Signal Processing and Linear Systems I; Win 09-10, Pauly
1
Fourier Transforms of Periodic Signa
Stanford University
Winter 2009-2010
Signal Processing and Linear Systems I
Lecture 12: Moduation and Demodulation
February 8, 2010
EE102A:Signal Processing and Linear Systems I; Win 09-10, Pauly
1
Modulation
The modulation theorem tells us how to place a
Stanford University
Winter 2009-2010
Signal Processing and Linear Systems I
Lecture 11: Frequency Response of LTI Systems
February 5, 2010
EE102A:Signal Processing and Linear Systems I; Win 09-10, Pauly
1
Linear Time-Invariant Systems, Revisited
A linear
EE108B
Fall 09/10
Olukotun
Handout #18
EE108B
Lecture 15
Virtual Memory II
Kunle Olukotun
Stanford University
http:/eeclass.stanford.edu/ee108b
K. Olukotun
EE108b Lecture 15
1
Announcements
HW4 due 11/17
PA2.2 due 11/19
Note change from tentative sched
EE108B
Olukotun
Handout #
Fall 09/10
EE108B
Lecture 14
Caches Wrap Up and VM
Kunle Olukotun
Stanford University
http:/eeclass.stanford.edu/ee108b
K. Olukotun
EE108b Lecture 13
1
Announcements
Lab3 and PA2.1 are due today
HW4 due 11/17
K. Olukotun
EE108b
Handout #3
EE108b
F09/10 - Olukotun
EE108B
Lecture 2
MIPS Assembly Language I
Kunle Olukotun
Stanford University
http:/eeclass.stanford.edu/ee108b
K. Olukotun
EE108b Lecture 2
1
Announcements
EE 108B Problem Session
Fridays ?
No session this Friday
Cl
K. Olukotun
Fall 09/10
Handout #2
EE108B
EE108B
Digital Systems II
Kunle Olukotun
Stanford University
[email protected]
K. Olukotun
EE108B Lecture 1
1
EE108B: Digital Systems II
Part of the Digital Systems sequence of the undergrad EE core
Revision of
EE108B
Fall 2009-2010
Prof. Olukotun
Handout #8
Homework #2
Due Thursday Oct 15, 5 PM in Gates 408 - NO LATE DAY
You may work in groups of 2 students, but turn in only one HW per group.
1. (15 points) Consider the following fragment of Java code:
for (i=0
HW 1 available in ee108b Gates 3rd floor
cabinets
Midterm Logistics
Midterm Topics
Sample Exam problems
2
Lecture 1-8, HW 1, HW 2 (no pipelining)
Thurs. Oct. 22, 7-9 PM, Hewlett 201
Format Similar to Sample Midterms
Open book (books, notes, etc.)
Bring Ca
Agenda
EE108B Review 2
Announcements
HW2 coverage + hints
Sample Problems
Laura Sharpless, Kyle Knutson
EDUC 128, 1-2pm 10/9/1009
Announcements
Lab 1 due on Tuesday Oct 13th
HW2 due Thursday Oct 15th
Midterm in ~2 weeks
HW2 Hints
Problem 1
Java to
Agenda
EE108B Review 1
Laura Sharpless, Kyle Knutson
EDUC 128, 1-2pm 10/2/1009
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MIPS ISA
Lab 1 Hints
Programming Assignment 1 Hints
Sample Problems
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