Abstract: Two innovative high-speed low power parallel 8-bit counter architectures are proposed. Then, High speed 8-bit frequency divider circuits using the proposed architectures are realized. The proposed parallel counter architectures consist of two sections – The Counting Path and the State Excitation Module. The counting path consists of three counting modules in which the first module (basic module) generates future states for the two remaining counting modules. The State Excitation Module decodes the count states of the basic module and carries this decoding over clock cycles through pipelined DFF to trigger the subsequent counting modules. The existing 8-bit parallel counter architecture [1] consumed a total transistor count of 442 ...
Inter- and intra-chip connections have become the new challenge to enable the scaling of computing s...
Abstract- An extended true-single-phase-clock (E-TSPC) based divide-by-2/3 counter design for low su...
The main result of this paper is the development of a novel, highly compact implementation of the ge...
This paper presents a high- speed and wide-range parallel counter that achieves high operating frequ...
Rapid evolution of the communication industry has increased the demand for RF circuits with higher s...
The design of a high-speed wide-band high resolution programmable frequency divider is investigated....
The main result is the development of a low depth, highly compact implementation of parallel counter...
Background: The frequency divider is a critical element in ultra-high-speed applications of communic...
This paper presents a combinatorial circuit for fast division Q:=A/D. High speed is achieved thanks ...
A divide-by-four circuit divides frequencies from 31GHz to 41GHz at input signal amplitudes ≤0.5Vpp....
A low power and high speed 8/9 CMOS programmable dynamic frequency divider has been designed. It con...
Both the (5,3) counter and (2,2,3) counter multiplication techniques are investigated for the effici...
© 2003 COPYRIGHT SPIE--The International Society for Optical Engineering. Downloading of the abstrac...
Arithmetic units and logic circuits are critical components of any VLSI system. Thus realizing effic...
Phase-locked loop is the most widely used module in the latest generation communication systems. It ...
Inter- and intra-chip connections have become the new challenge to enable the scaling of computing s...
Abstract- An extended true-single-phase-clock (E-TSPC) based divide-by-2/3 counter design for low su...
The main result of this paper is the development of a novel, highly compact implementation of the ge...
This paper presents a high- speed and wide-range parallel counter that achieves high operating frequ...
Rapid evolution of the communication industry has increased the demand for RF circuits with higher s...
The design of a high-speed wide-band high resolution programmable frequency divider is investigated....
The main result is the development of a low depth, highly compact implementation of parallel counter...
Background: The frequency divider is a critical element in ultra-high-speed applications of communic...
This paper presents a combinatorial circuit for fast division Q:=A/D. High speed is achieved thanks ...
A divide-by-four circuit divides frequencies from 31GHz to 41GHz at input signal amplitudes ≤0.5Vpp....
A low power and high speed 8/9 CMOS programmable dynamic frequency divider has been designed. It con...
Both the (5,3) counter and (2,2,3) counter multiplication techniques are investigated for the effici...
© 2003 COPYRIGHT SPIE--The International Society for Optical Engineering. Downloading of the abstrac...
Arithmetic units and logic circuits are critical components of any VLSI system. Thus realizing effic...
Phase-locked loop is the most widely used module in the latest generation communication systems. It ...
Inter- and intra-chip connections have become the new challenge to enable the scaling of computing s...
Abstract- An extended true-single-phase-clock (E-TSPC) based divide-by-2/3 counter design for low su...
The main result of this paper is the development of a novel, highly compact implementation of the ge...