CMOS low power circuits for approximate computer arithmetic
Power is an unavoidable and significant issue nowadays in CMOS circuits design. Motivated by chasing for low power to meet the increasing demands of portable devices, this project was focused on low power CMOS circuits. Comparison was done between different full adder designs for approximate compute...
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sg-ntu-dr.10356-543092023-07-07T17:29:26Z CMOS low power circuits for approximate computer arithmetic Zhang, Han Lau Kim Teen School of Electrical and Electronic Engineering DRNTU::Engineering::Electrical and electronic engineering::Electronic circuits Power is an unavoidable and significant issue nowadays in CMOS circuits design. Motivated by chasing for low power to meet the increasing demands of portable devices, this project was focused on low power CMOS circuits. Comparison was done between different full adder designs for approximate computer arithmetic. Analysis of power dissipation, propagation delay, load capacitance and size of transistors are made based on simulation run in Cadence. PDP (power-delay product) was also used to measure the complex performance of different designs. From the simulation results, it was found that decreasing of supply voltage effectively reduced power dissipation. However, low supply voltage will lead to long propagation delay. Six full adders of different design structure were tested and taking advantages of resiliency of output degradation, designs using fewer transistors performed better in PDP metric. Using these imperfect full adders to build compound arithmetic circuits will save power and decrease area for portable devices. Bachelor of Engineering 2013-06-19T02:20:28Z 2013-06-19T02:20:28Z 2013 2013 Final Year Project (FYP) http://hdl.handle.net/10356/54309 en Nanyang Technological University 56 p. application/pdf |
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DRNTU::Engineering::Electrical and electronic engineering::Electronic circuits Zhang, Han CMOS low power circuits for approximate computer arithmetic |
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Power is an unavoidable and significant issue nowadays in CMOS circuits design. Motivated by chasing for low power to meet the increasing demands of portable devices, this project was focused on low power CMOS circuits. Comparison was done between different full adder designs for approximate computer arithmetic. Analysis of power dissipation, propagation delay, load capacitance and size of transistors are made based on simulation run in Cadence. PDP (power-delay product) was also used to measure the complex performance of different designs. From the simulation results, it was found that decreasing of supply voltage effectively reduced power dissipation. However, low supply voltage will lead to long propagation delay. Six full adders of different design structure were tested and taking advantages of resiliency of output degradation, designs using fewer transistors performed better in PDP metric. Using these imperfect full adders to build compound arithmetic circuits will save power and decrease area for portable devices. |
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Lau Kim Teen |
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Lau Kim Teen Zhang, Han |
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Final Year Project |
| author |
Zhang, Han |
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Zhang, Han |
| title |
CMOS low power circuits for approximate computer arithmetic |
| title_short |
CMOS low power circuits for approximate computer arithmetic |
| title_full |
CMOS low power circuits for approximate computer arithmetic |
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CMOS low power circuits for approximate computer arithmetic |
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CMOS low power circuits for approximate computer arithmetic |
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cmos low power circuits for approximate computer arithmetic |
| publishDate |
2013 |
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http://hdl.handle.net/10356/54309 |
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1772826545318002688 |