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San Jose State University Department of Electrical Engineering May 10th, Spring 2002. 8-BIT FULL ADDER WITH FEEDBACK. EE SENIOR DESIGN PROJECT 198B Advisor: Prof. David Parent Group Members Dong Tieu, Liem Ho, Hau Do. Presentation Overview. Introduction Team Goal Design Principle
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San Jose State UniversityDepartment of Electrical EngineeringMay 10th, Spring 2002 8-BIT FULL ADDER WITH FEEDBACK EE SENIOR DESIGN PROJECT 198B Advisor: Prof. David Parent Group Members Dong Tieu, Liem Ho, Hau Do
Presentation Overview • Introduction • Team Goal • Design Principle • Specifications • Results and Accomplishments • Future & Recommendations • Conclusion
Introduction • Specification: • Speed: 25 MHz • Area: 1000 X 1000 um • Rising time and Falling time: 10 ns • Capable load: 10 pF • Propagation Time: 15 ns
Introduction • The Solution • Use AMI 1.6 um Technology of Cadence Software • to implement. • Conduct MOSIS for a free fabrication. • Use DPS Analyzer to test.
Introduction • Motivations • Familiar with design environment • Allow our design to be used in school environment. • Let’s future students to think about using all resources available at our school.
Team Project • Team Goal • Apply AMI 1.6 um technology. • Provide good samples for future use. • Meet Specs • Finish on time.
Design Principle • Block Diagram
Super Buffer Schematic 4 / 4 4 / 4 36 / 16 140/52
Cost • Project Cost • Cadence software available at SJSU. • Free fabrication from MOSIS. • DSP Analyzer provided by Dr. Parent • Total cost: $0.00 & 1000 working hrs.
Future Improvement and Outlook • Improvement • Speed • - Use “Look ahead carry in” method. • - Use “Dynamic” method. • - Use “0.2 um or 0.3 um Technology”. • Decrease Chip’s Area • Increase Load capacity • Reduce Power consumption
Conclusion • What has been achieved? • Area: 650 X 800 um • Propagating Time: 10 ns • Speed: > 25 MHz • Rising time and Falling time: 5 ns • Capable load: 10 pF