Difference between revisions of "CSC103 2008"

From dftwiki3
Jump to: navigation, search
(Organization and Schedule)
(Textbook)
Line 7: Line 7:
  
 
==Textbook==
 
==Textbook==
''The Most Complex Machine''., by David Eck, A. K. Peters, Natick Ma [http://www.amazon.com/Most-Complex-Machine-Computers-Computing/dp/1568810547/ref=sr_1_1?ie=UTF8&s=books&qid=1214414726&sr=8-1].  This book should be available at the Greycourt bookstore.  ([[CSC103_Book_Chapters]])
+
''The Most Complex Machine''., by David Eck, A. K. Peters, Natick Ma [http://www.amazon.com/Most-Complex-Machine-Computers-Computing/dp/1568810547/ref=sr_1_1?ie=UTF8&s=books&qid=1214414726&sr=8-1].  This book should be available at the Greycourt bookstore.  ([[CSC103_Book_Chapters | List of Chapters]])
 
 
  
 
==Organization, Schedule & Reading==
 
==Organization, Schedule & Reading==

Revision as of 11:59, 12 August 2008

UnderConstruction.gif

CSC 103: How Computers Work

Schedule

First half of Fall 2008: Sept 4th to Oct. 21st.

Textbook

The Most Complex Machine., by David Eck, A. K. Peters, Natick Ma [1]. This book should be available at the Greycourt bookstore. ( List of Chapters)

Organization, Schedule & Reading

  • Week 1:
    • General introduction (Chap 1)
  • Week 2:
    • Binary system, arithmetic, logic gates (Chap 2)
    • logic gates, binary adder (Chap 2)
  • Week3:
    • Building a computer (Chap 5)
      • von Neuman architecture
      • Von Neuman bottleneck
      • CPU, RAM, Secondary Memory
      • Case Study: the Suse EEE, and the switch from magnetic to semiconductor storage
    • History of computers (Chap 5)
      • video "Machine that changed the world"
      • Loom, Craig.
  • Week 4:
    • Client/Server architecture. (Chap 10)
      • Trends.
      • Services.
      • Google vs. Microsoft
    • Programming: Javascript (Chap 6)
  • Week 5:
    • Programming: Javascript (Chap 7)
    • Programming: Javascript
  • Week 6:
    • Programming: other languages
    • Chapter 4, NP, solvability, towers of hanoi (Chap. 4)
  • Week 7:
    • Parallel programming (Chap 10)
      • SETI@home
      • Folding@home
  • Week 8:
    • Singularity (Handouts)