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== Module 1: Boolean Algebra & CMOS logic structures == | == Module 1: Boolean Algebra & CMOS logic structures == | ||
− | :[[ECE270 Fall 2013 Module 1 Slecture 1|Converting integers to binary]] | + | *[https://engineering.purdue.edu/ece270/Notes/PDF/2-Mod1_LS_IMPACT_2013.pdf Original Lecture Summary Notes for Module 1] |
− | + | **[[ECE270 Fall 2013 Module 1 Slecture 1|Converting integers to binary]] | |
− | + | **[[ECE270 Fall 2013 Module 1 Slecture 2|Using MOSFETS as logic gates]] | |
− | + | **[[ECE270 Fall 2013 Module 1 Slecture 3|Basics of Open Drain NAND gates]] | |
== Module 2: Combinational Logic Circuits & Introduction to ABEL == | == Module 2: Combinational Logic Circuits & Introduction to ABEL == | ||
*[https://engineering.purdue.edu/ece270/Notes/PDF/2-Mod2_LS_IMPACT_2013.pdf Original Lecture Summary Notes for Module 2] | *[https://engineering.purdue.edu/ece270/Notes/PDF/2-Mod2_LS_IMPACT_2013.pdf Original Lecture Summary Notes for Module 2] | ||
− | + | **[[ECE270 Fall 2013 Module 2 Slecture 1|Karnaugh Map techniques]] | |
== Module 3: Sequential Logic Circuits == | == Module 3: Sequential Logic Circuits == | ||
− | + | *[https://engineering.purdue.edu/ece270/Notes/PDF/2-Mod3_LS_IMPACT_2013.pdf Original Lecture Summary Notes for Module 3] | |
== Module 4: Computer Functional Block & Arithmetic Logic Unit == | == Module 4: Computer Functional Block & Arithmetic Logic Unit == | ||
− | + | *[https://engineering.purdue.edu/ece270/Notes/PDF/2-Mod4_LS_IMPACT_2013.pdf Original Lecture Summary Notes for Module 4] | |
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Revision as of 09:30, 19 July 2013
The Brown-Meyer Lectures on Digital Systems Design
© 2013