Dynamic circuit techniques offer potential advantages over static CMOS, especially if more complex logic is to be implemented. Therefore, they are extensively used in high performance designs to speed up critical subsystems. However, the speed benefit is traded off for increased power consumption, area overhead, design effort, and reduced noise margins. The continuing process of technol-ogy scaling raises further concerns of reliability and limits the wide use of dynamic logic. This paper presents evaluations in terms of area, power dissipation, and propagation delay for several dynamic logic styles as well as for static CMOS in a 90 nm technology. The intention is to assess if dynamic circuit techniques are still an option to boost perform...
In this chapter, we explain the two types of power consumption found in a complementary metal-oxide-...
The bulk of the power consumption for conventional CMOS dynamic logic is usually contributed as a...
Data driven dynamic logic is the high speed dynamic circuit with low area. The clock of the dynamic ...
Dynamic CMOS are widely employed in high-performance CMOS chips due to high speed and less area in c...
This thesis addresses the circuit and layout issues of the Complementary Metal-Oxide-Semiconductor (...
Aggressive scaling has ensured the continued use of complementary metal oxide semiconductor (CMOS) d...
As the CMOS technology scales down towards nanoscale dimensions, there are increasing transistor rel...
In computer circuit style, dynamic logic could be a style methodology in combinatory logic circuits,...
With the continued scaling of CMOS VLSI, power dissipation of logic circuits has increasingly come t...
In computer circuit style, dynamic logic could be a style methodology in combinatory logic circuits,...
Designing VLSI circuit using dynamic logic is one of the most area efficient techniques. However, th...
In this paper, the effect of process variations on the delay is analyzed in depth for the static and...
Speed of operation depends on the longest critical paths in the multi-bit adders and also the MOSFET...
The performances of high-frequency two-stage pipeline 32-bit carry lookahead adders are evaluated in...
As the demand of low power high performance arithmetic circuits multiplies, during this paper, we ai...
In this chapter, we explain the two types of power consumption found in a complementary metal-oxide-...
The bulk of the power consumption for conventional CMOS dynamic logic is usually contributed as a...
Data driven dynamic logic is the high speed dynamic circuit with low area. The clock of the dynamic ...
Dynamic CMOS are widely employed in high-performance CMOS chips due to high speed and less area in c...
This thesis addresses the circuit and layout issues of the Complementary Metal-Oxide-Semiconductor (...
Aggressive scaling has ensured the continued use of complementary metal oxide semiconductor (CMOS) d...
As the CMOS technology scales down towards nanoscale dimensions, there are increasing transistor rel...
In computer circuit style, dynamic logic could be a style methodology in combinatory logic circuits,...
With the continued scaling of CMOS VLSI, power dissipation of logic circuits has increasingly come t...
In computer circuit style, dynamic logic could be a style methodology in combinatory logic circuits,...
Designing VLSI circuit using dynamic logic is one of the most area efficient techniques. However, th...
In this paper, the effect of process variations on the delay is analyzed in depth for the static and...
Speed of operation depends on the longest critical paths in the multi-bit adders and also the MOSFET...
The performances of high-frequency two-stage pipeline 32-bit carry lookahead adders are evaluated in...
As the demand of low power high performance arithmetic circuits multiplies, during this paper, we ai...
In this chapter, we explain the two types of power consumption found in a complementary metal-oxide-...
The bulk of the power consumption for conventional CMOS dynamic logic is usually contributed as a...
Data driven dynamic logic is the high speed dynamic circuit with low area. The clock of the dynamic ...