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1 4-bit Decimation Filter Rashmi Joshi Siu Kuen(Steve) Leung Cuong Trinh Advisor: Dr. David Parent December 5, 2005
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2 Agenda Abstract Introduction Summary of Results Project Details Results Cost Analysis Conclusions
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3 Abstract We designed a 4-bit Decimation Filter. The system operates at 142.8 MHz, uses less than 192.5 mW per clock of power, and occupies an area of 550x890 m 2.
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4 Introduction Decimation filter is used to average the output of an A/D converter. The function of a decimation filter is to remove all of the out-of-band signals and noise, and to reduce the sampling rate by k. Decimation filter samples input data until k samples have been accumulated. The output is then the sum of k (=4) accumulated samples. The frequency of the output is thus 4 times less than that of the input.
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5 Project Summary The design consists of a nand-based 7-bit ripple carry adder, a divide-by-4 counter, and 3 stacks of D flip-flops. The first stack is at the input side. The second stack serves as an accumulator. A divide-by-4 counter clocks the out put flip-flops and resets the accumulator.
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6 Block Diagram
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7 Longest Path Calculations Tphl = 6.666ns/20 =.333ns
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8 Schematic (4-BIT-DECIMATION FILTER)
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9 Layout (4-BIT-DECIMATION FILTER)
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10 LVS
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11 Schematic Simulation
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12 Analog Extracted Simulation
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13 Impulse and step input responses
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14 Cost Analysis Estimated time spent on each phase of the project: –verifying logic (1 week) –verifying timing (1 week) –layout (3 weeks) –post extracted timing (2 weeks)
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15 Lessons Learned LVS failure due to same metal layer wire crossing. This can be spotted in single layer view and LVS high-lighted errors in analog- extracted view. Spend more time on researching on alternative design options.
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16 Summary This project is a good start for students to learn IC design flow with CAD tool. The design can run at 142.8 MHz, has an area of 550x890 m 2, and uses less than 192.5 mW per clock of power. The design can run faster than 150 MHz if a CLA adder is used instead of RC adder.
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17 Acknowledgements Thanks to our family for support Thanks to Cadence Design Systems for the VLSI lab Thanks to Professor David Parent for guidance
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