Difference between revisions of "Lecture Notes"
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*[[media:CSE_462M_COURSE_INTRODUCTION.pdf|Course Introduction]] | *[[media:CSE_462M_COURSE_INTRODUCTION.pdf|Course Introduction]] | ||
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+ | *[[media:January_31_Status.pdf|Instructor Project Status January 31, 2017]] | ||
*[[media:0714IFD1.pdf|Use Advanced PCB Technology to Produce 50% Smaller Product Designs]] | *[[media:0714IFD1.pdf|Use Advanced PCB Technology to Produce 50% Smaller Product Designs]] |
Revision as of 16:41, 31 January 2017
- Use Advanced PCB Technology to Produce 50% Smaller Product Designs
- Reflection Lecture
- Maximum ExpressPCB Trace Impedance
- Oscillators and Clock Distribution
- Lumped Lecture
- VHDL Lecture
- Xilinx ISE 14.7 VGA Tutorial
- Xilinx ISE Simulation Tutorial
- Spartan 3E Loopback UCF File (Instructor Only)
- MCS File Tutorial
- State Equal Output Moore Machine Example
- Anomalous Behavior of Synchronizer and Arbiter Circuits
- Measured Flip-Flop Responses to Marginal Triggering
Links:
PCB Trace Impedance Calculator
Xilinx ISE Timing Constraints Strategies