High performance fast feedthrough CMOS logic circuits
The Critical Voltage Transition Logic (CVTL) was proposed by in [1] [2]. The concept of the design is to maintain the output at as close to the VDD/2 as possible before confirming the actual output. It improves the speed by changing the rail to rail switching to nearly half of the rail to rail sw...
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sg-ntu-dr.10356-147462019-12-10T10:58:27Z High performance fast feedthrough CMOS logic circuits Qu, Yang. Lau, Kim Teen School of Electrical and Electronic Engineering Centre for Integrated Circuits and Systems DRNTU::Engineering::Electrical and electronic engineering::Integrated circuits The Critical Voltage Transition Logic (CVTL) was proposed by in [1] [2]. The concept of the design is to maintain the output at as close to the VDD/2 as possible before confirming the actual output. It improves the speed by changing the rail to rail switching to nearly half of the rail to rail switching. Based on this concept, people proposed some improvements in its speed or power dissipation, such as “Low Power Critical Voltage Transition Logic” in [3]. Different designs based on critical voltage transition logic have been summarized in [4]. They named them as Fast Feedthrough logic families. The project explores and compares various configurations of Fast Feedthrough Logic (FTL) families. The operation principles of different configurations of FTL are investigated and analyzed. In order to compare their performance in term of speed, power dissipation and area with well known design technique such as complementary CMOS, Pseudo-NMOS Domino Logic and etc, different testing circuit have been employed which including inverter chain, XOR gate and XOR chain. Detailed performance comparisons have been done with varying transistor width, VDD and capacitive load. The problems and issues faced during certain condition (e.g. low VDD) will be highlighted and discussed. Because the feature of this design technique is suitable to arithmetic circuits. The project also verified the implementation on arithmetic circuits. Ripple Carry Adder (RCA) are used to test the implementation of FTL. The project also proposes some new designs based on the FTL. The new designs are mainly focus on the power dissipation issues. They are able to provide a relatively high speed with smaller tradeoff with power dissipation. Bachelor of Engineering 2009-01-30T08:26:53Z 2009-01-30T08:26:53Z 2008 2008 Final Year Project (FYP) http://hdl.handle.net/10356/14746 en 106 p. application/msword |
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DRNTU::Engineering::Electrical and electronic engineering::Integrated circuits Qu, Yang. High performance fast feedthrough CMOS logic circuits |
| description |
The Critical Voltage Transition Logic (CVTL) was proposed by in [1] [2]. The
concept of the design is to maintain the output at as close to the VDD/2 as possible
before confirming the actual output. It improves the speed by changing the rail to rail
switching to nearly half of the rail to rail switching. Based on this concept, people
proposed some improvements in its speed or power dissipation, such as “Low Power
Critical Voltage Transition Logic” in [3]. Different designs based on critical voltage
transition logic have been summarized in [4]. They named them as Fast Feedthrough
logic families.
The project explores and compares various configurations of Fast Feedthrough Logic
(FTL) families. The operation principles of different configurations of FTL are
investigated and analyzed. In order to compare their performance in term of speed,
power dissipation and area with well known design technique such as
complementary CMOS, Pseudo-NMOS Domino Logic and etc, different testing
circuit have been employed which including inverter chain, XOR gate and XOR
chain. Detailed performance comparisons have been done with varying transistor
width, VDD and capacitive load. The problems and issues faced during certain
condition (e.g. low VDD) will be highlighted and discussed.
Because the feature of this design technique is suitable to arithmetic circuits. The
project also verified the implementation on arithmetic circuits. Ripple Carry Adder
(RCA) are used to test the implementation of FTL.
The project also proposes some new designs based on the FTL. The new designs are
mainly focus on the power dissipation issues. They are able to provide a relatively
high speed with smaller tradeoff with power dissipation. |
| author2 |
Lau, Kim Teen |
| author_facet |
Lau, Kim Teen Qu, Yang. |
| format |
Final Year Project |
| author |
Qu, Yang. |
| author_sort |
Qu, Yang. |
| title |
High performance fast feedthrough CMOS logic circuits |
| title_short |
High performance fast feedthrough CMOS logic circuits |
| title_full |
High performance fast feedthrough CMOS logic circuits |
| title_fullStr |
High performance fast feedthrough CMOS logic circuits |
| title_full_unstemmed |
High performance fast feedthrough CMOS logic circuits |
| title_sort |
high performance fast feedthrough cmos logic circuits |
| publishDate |
2009 |
| url |
http://hdl.handle.net/10356/14746 |
| _version_ |
1681034402892611584 |