CSE 171 Introduction to Digital Logic and Microprocessors Prof. Richard E. Haskell 115 Dodge Hall.
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CSE 171 Introduction to Digital Logic and Microprocessors Prof. Richard E. Haskell 115 Dodge Hall
CSE 171 Text: An Introduction to Modern Digital Design –Richard E. Haskell and Darrin M. Hanna, 2004. –(Available only at the OU Bookstore) Prerequisites: –CSE 141 –MTH 154
Course Contents Number systems Basic logic gates Programmable logic devices Boolean algebra and logic equations Combinational logic Sequential logic
Course Contents (cont.) State machines Binary and BCD arithmetic Introduction to microprocessor architectures and datapaths
Course Objectives By the end of this course you should be able to: Convert a number in any base (decimal, binary, hex, octal) to the equivalent number in any other base. Find the two’s complement of a binary number. Identify basic gates (NOT, AND, OR, NAND, NOR, XOR, XNOR) and list the truth tables for each gate.
Course Objectives (cont.) By the end of this course you should be able to: Design combinational logic circuits with up to four inputs using sum of products method. Find the reduced form of any logic function with 3 or 4 inputs by using Karnaugh maps. Design sequential circuits using D flip- flops.
Course Objectives (cont.) By the end of this course you should be able to: Use ABEL or Verilog to design basic combinational and sequential circuits. Use ABEL or Verilog to design state machines. Describe the operation of a simple processor.
Homework Individual homework due on some Mondays Class homework due on some Wednesdays and Fridays See homework rules on web site Late homework is NOT accepted
Labs Labs begin Tues, Sept. 6, 2005 –in Room 144, Dodge Hall Groups of four (2 computers per group) Lab assignments are on the web site Specific lab procedures will be given before each lab