Verilog 1 - Fundamentals
FA
FA
FA
FA
module adder( input [3:0] A, B,
output
cout,
output [3:0] S );
wire c0, c1, c2;
FA fa0( A[0], B[0],
FA fa1( A[1], B[1],
FA fa2( A[2], B[2],
FA fa3( A[3], B[3],
1b0,
c0,
c1,
c2,
endmodule
UCSD CSE 141L Taylor
Heavily mo
Multi-cycle implementation of MIPS
Revisit the 1-cycle version
The multi-cycle version
Note that we have eliminated two adders, and
used only one memory unit (so it is Princeton
architecture) that contains both instructions
and data. It is not essential t
Second progress report
Group Organization:
Cleveland Wilcox Design Engineer
Mohammad Alattas - Test Engineer
Theodore Barrientos - Product Engineer
Project Breakdown:
1. Design instruction formats for the MML ISA
2. Design the multi-cycle datapath for the
EE 4440 Computer Organization
Modified MIPS Lite (MML) Multi-cycle Design Project
Prof. Parvaneh Ghaforyfard
Project Description
In this project you will design the multi-cycle datapath for the modified MIPS-Lite (MML) ISA
from homework #2 (and summarized
49,-. -S_.,_m .3.mu:5.,z s. r _ ._ . .m. _ .
64 CHAPTER 2 / PROTOCOL ARCHITECTURE, TCP/IP, AND INTERNETBASED
2.9. Which version of IP is the most prevalent today?
2.10; Does all traffic running on the Internet use TCP? ,
2.11. Compare the address
EE440
Dr. Yi Zhao
EE440 Homework Set Four
Not Collected, review for Final Exam
Note: the types of problems in this homework resemble those in the final exam. Of course, the
final exam will contain more problems, and cover wider range (comprehensive).
1. I
EE440
Dr. Yi Zhao
EE440 Homework Set Two
Not Collected, review for Midterm Exam
Problems on Data Encoding
1. For the bit stream 01001110, sketch the waveforms for each of the following codes: NRZ-L,
NRZ-I, AMI, pseudoternary, Manchester and differential M
EE440
Dr. Yi Zhao
EE440 Homework Set One
Due: April 24
Problems from the Textbook (10th edition):
Chapter 2: 2.4, 2.5, 2.6
Chapter 3: 3.13 (a) (b), 3.15, 3.16, 3.20, 3.21
An electronic copy of the problems will be put on Moodle site for students who don
EE440
Dr. Yi Zhao
EE440 Homework Set Three
Due: May 30, 2015
Problems on Data Link
1. CRC: for P = 101101 and Message = 111010110, find the FCS. Draw the circuit to
implement this CRC.
110001001
101101 11101011000000
101101
101111
101101
101000
101101
101
EE440
Dr. Yi Zhao
EE440 Homework Set Four
Not Collected, review for Final Exam
Note: the types of problems in this homework resemble those in the final exam. Of course, the
final exam will contain more problems, and cover wider range (comprehensive).
1. I
EE440
Dr. Yi Zhao
EE440 Homework Set Two
Not Collected, review for Midterm Exam
Problems on Data Encoding
1. For the bit stream 01001110, sketch the waveforms for each of the following codes: NRZ-L,
NRZ-I, AMI, pseudoternary, Manchester and differential M
EE440
Dr. Yi Zhao
EE440 Homework Set One
Due: April 24
Problems from the Textbook (10th edition):
Chapter 2: 2.4, 2.5, 2.6
Chapter 3: 3.13 (a) (b), 3.15, 3.16, 3.20, 3.21
An electronic copy of the problems will be put on Moodle site for students who don
EE440
Dr. Yi Zhao
EE440 Homework Set Three
Due: May 30, 2015
Problems on Data Link
1. CRC: for P = 101101 and Message = 111010110, find the FCS. Draw the circuit to
implement this CRC.
2. Evaluate the error detection performance of CRC with P = 101011:
a.
6/24/2016
Engineering Risk
Analysis
CSULA SUMMER 2016
JOHN KOELSCH
Introduction
TextBooks
Black Swan
Risk Analysis in Engineering: Techniques, Tools, and Trends
Syllabus
Course Description
Electrical and Computer Engineering EE 514 Systems Risk Analysis (
EE 513 SYSTEMS ENGINEERING
ANALYTICAL HIERARCHICAL
PROCESS
Prof. Joel Harris
CSULA Dept. of Electrical
Engineering/Computer
Science/Technology
THE ANALYTIC HIERARCHY PROCESS
ANOTHER METHOD TO MAKE
DECISIONS
Used with Multiple-criteria/multiple
alternati
EE 513 Final Examination Study Guide
Be able to solve problems that use one of the six main interest formulas as have been
described and lectured upon, in Fabrykys text book in Chapter 8. You will be, again,
given both the formula table and the relevant i
Homework Problem Set # 5
Problem 1: Given the following objective function:
z = 4x1 + 4x2
and the following constraints:
x1 + 2x2 40
x1 + x2 30
2x1 + 3x2 72
x1, x2 0
Determine the optimum maximum solution for this system of constraints
Solution:
Initial t
EE 513 Homework #4 Problems
Problem 1:
You are the systems engineer for a plastics company. The vice president of production has now
decided that the company should build a recycling plant that will recycle/rework used containers
made of polyethylene. The
Final Exam Take home section EE-514 Sections 01 and 03
Problem 1 For 25 points
Consider the success tree below
A) Find the minimum cut set
B) Find the minimum pathset
C) Find the equivalent fault tree
2. For 20 points: Consider the event tree shown below
Prof. Joel Harris
27 January 2016
CSULA ECST Department
1
Section 9.2.4
Objective of the process: to find the
optimum levels of procurement (in
units) and inventory (also units) as well as
total cost for the inventory system.
NOTE: you will not be asked t
Prof . Joel Harris
25 January 2016
CSULA Engineering Dept.
1
Chapter 9 Optimization in
Design and Operations
WARNING: some candid comments about
the material in this chapter:
Much of the first section of this chapter will be a
review for many of you
The m
13 January 2016
Prof. Joel Harris
1
One of the best means of evaluating a proposed
effort/project with other, ill defined opportunities that
may exist.
A widely accepted index of profitability.
Sample/Example Problem:
The government of Dubai, UAE, has de
Midterm EE-514 Systems Risk Analysis Section 01 MW 4:20-6:00 MW Instructor John Koelsch
1) For 20 points There are three basic elements of risk analysis. List them, define them, and give
at least one example of each.
2) For 25 points The frequency of a sc
1
EE 513 System Design
and Analysis
Prof. Joel K. Harris
CSULA ECST Department
10 February 2016
2
Multiple Source Alternative
Optimization
Source dependent vs. source independent parameters
Source dependent parameters:
Replenishment rate (R)
Lead time
1
EE 513
SYSTEM DESIGN &
ANALYSIS
CHAPTER 8 MODELS
FOR ECONOMIC
EVALUATION
Prof. Joel Harris 12 January 2016
2
Economic Evaluation
Models
Interest/Interest Formulas
Concept of Time Value of Money
Basis: money currently in hand is worth
more than money to
Homework Assignment # 2
EE 513
1. Problem: using the table below, determine which alternative you
would choose, given the criteria ratings and the 3 alternative choices
that are given. First use Rule 1 and then use Rule 2 to do your
analysis
Alternative
C
EE 513 Homework 1 Solutions
1) Given F, find P (P|F).
1
a. Formula: [F] (1 i) n
= $5500 (.5645) = $3104.75
b. Formula is the same
= $8500 (.4713) = $3547.05
c. Same formula
= $30,000 (.6806) = $20,418.00
d. $15,000 (.4039) = $6058.50
2). Quadrupling origi
1
EE 513
SYSTEM DESIGN &
ANALYSIS
CHAPTER 8 MODELS
FOR ECONOMIC
EVALUATION
Prof. Joel Harris 7 January 2016
2
Economic Evaluation
Models
Interest/Interest Formulas
Concept of Time Value of Money
Basis: money currently in hand is worth
more than money to b
Prof. Joel K. Harris
CSULA ECST Department
4 January 2016
1
Fabrycky/Blanchard Chapter 7
Decision Making Models &
Alternatives
Factors that impede goal attainment
Limiting factors
Strategic factors
Types of decision making models:
Physical models mi