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=== List of Lectures ===
=== List of Lectures ===
This is the proposed schedule based on the course-provided syllabus. Changes are likely to happen and I will try to keep this updated to reflect those.
This is the proposed schedule based on the course-provided syllabus. Changes are likely to happen and I will try to keep this updated to reflect those.
Let me know if any of these dates need to altered.


{| border="1"
{| border="1"
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|Date
|Date
|Topics Covered
|Topics Covered
|-
|0
|February 9, 2011
|Course overview and introductions.
|-
|-
|1
|1
|September 22, 2010
|February 16, 2011
|Getting Started & Boolean Arithmetic
|Getting Started & Boolean Arithmetic
|-
|-
|2
|2
|September 29, 2010
|February 23, 2011
|Sequential Logic
|Sequential Logic
|-
|-
|3
|3
|October 6, 2010
|March 2, 2011
|Machine Language
|Machine Language
|-
|-
|4
|4
|October 13, 2010
|March 9, 2011
|Computer Architecture
|Computer Architecture
|-
|-
|5
|5
|October 20, 2010
|March 16, 2011
|Assembler
|Assembler
|-
|-
|6
|6
|October 27, 2010
|March 23, 2011
|Virtual Machine I
|Virtual Machine I
|-
|-
|7
|7
|November 3, 2010
|March 30, 2011
|Virtual Machine II
|Virtual Machine II
|-
|-
|8
|8
|November 10, 2010
|April 6, 2011
|High Level Language
|High Level Language
|-
|-
|9
|9
|November 17, 2010
|April 13, 2011
|Compiler I
|Compiler I
|-
|-
|10
|10
|November 24, 2010
|April 20, 2011
|Compiler II
|Compiler II
|-
|-
|11
|11
|December 1, 2010
|April 27, 2011
|Operating System I
|Operating System I
|-
|-
|12
|12
|December 8, 2010
|May 4, 2011
|Operating System II & More Fun To Go
|Operating System II & More Fun To Go
|}
|}

Revision as of 09:15, 10 February 2011

The Elements of Computing Systems: Building a Modern Computer from First Principles

Course Overview

Copied from course-provided syllabus: The course objective is to integrate key topics from algorithms, computer architecture, operating systems, compilers, and software engineering, in one unified framework. This will be done constructively, by building a general-purpose computer system from the ground up. In the process, we will explore many ideas and techniques used in the design of modern hardware and software systems, and discuss major trade-offs and future trends. Throughout this journey, you will gain many cross-section views of the computing field, from the bare bone details of switching circuits to the high level abstraction of object-based software design.

Prerequisites

  1. A copy of the book is highly recommended. It can be purchased from Amazon for less than $30 $20. Most of the chapters can also be downloaded as PDFs from the books website.
  2. A computer to run the examples and assignments. The course software is written in Java so it will run on Windows, Linux or Mac.
  3. Some programming experience is recommended. Any programming language can be used for the projects in the book.

Software

The software necessary for the course is freely available from the books website: [1]

Lecture

We will be using the syllabus provided by the book which follows the chapters in order. The lecture/discussion will loosely follow the slides provided on the course website.

List of Lectures

This is the proposed schedule based on the course-provided syllabus. Changes are likely to happen and I will try to keep this updated to reflect those. Let me know if any of these dates need to altered.

Week Date Topics Covered
0 February 9, 2011 Course overview and introductions.
1 February 16, 2011 Getting Started & Boolean Arithmetic
2 February 23, 2011 Sequential Logic
3 March 2, 2011 Machine Language
4 March 9, 2011 Computer Architecture
5 March 16, 2011 Assembler
6 March 23, 2011 Virtual Machine I
7 March 30, 2011 Virtual Machine II
8 April 6, 2011 High Level Language
9 April 13, 2011 Compiler I
10 April 20, 2011 Compiler II
11 April 27, 2011 Operating System I
12 May 4, 2011 Operating System II & More Fun To Go

Methodology

Copied from course-provided syllabus: This is mostly a hands-on course, which evolves around implementing a series of hardware and software modules. Each module development task will be accompanied by a design document and an executable solution (illustrating what the module is supposed to do), a detailed implementation document (proposing how to build it), and a test script (specifying how to test it). The homework assignments will be spread out evenly, so there will be no special “crunch” toward the semester’s end. Each lecture will start by reviewing the work that was done thus far, and giving instructions on what has to be done next. The homework assignments can be done in pairs.

Each week/chapter is completely modular and self-contained. It is not necessary to complete an earlier chapter in order to participate in a later one. Therefore students are free follow along in whichever order they choose or audit only those weeks that are of interest to them.

Resources