In this article we present a novel design of a hardware optimal vectoring CORDIC processor. We present a mathematical theory to show that using bipolar binary notation it is possible to eliminate all the arithmetic computations required along the z-datapath. Using this technique it is possible to achieve three and 1.5 times reduction in the number of registers and adder respectively compared to conventional CORDIC. Following this, a 16-bit vectoring CORDIC is designed for the application in Synchronizer for IEEE 802.11a standard. The total area and dynamic power consumption of the processor is 0.14 mm2 and 700?W respectively when synthesized in 0.18?m CMOS library which shows its effectiveness as a low-area low-power processor
This paper proposes a novel unrolled CORDIC (Co-Ordinate Rotation DIgital Computer) architecture bas...
The ubiquity of DSP has made increasing demand to develop area efficient and accurate architectures ...
OBJECTIVE: The digital signal processing landscape has long been dominated by the microprocessors wi...
In this article we propose a novel scheme based on virtually scaling-free COordinate Rotation DIgita...
In this paper, we propose a CORDIC like algorithm for computing absolute magnitude of a vector and i...
In this paper we propose a novel 16-bit low power CORDIC rotator that is used for high-speed wireles...
Gram–Schmidt orthogonalization is a popular fundamental technique of linear algebra, having wide-spr...
This paper is a postprint of a paper submitted to and accepted for publication in Electronics Letter...
The coordinate rotational digital computer (CORDIC) is an arithmetic algorithm, which has been used ...
Coordinate Rotation Digital Computer (CORDIC) algorithm has a great advantage in hardware based impl...
The COordinate Rotation DIgital Computer CORDIC algorithm has proved its versatility in computing va...
Most of the digital signal processing applications performs operations like multiplication, addition...
In this report we discuss the VLSI realisation of a pipelined CORDIC arithmetic unit to perform stab...
textThe current trends of mobile battery-powered devices make area and power critical design constra...
Efficient low power design is one of the most important metrics facing the embedded electronic syste...
This paper proposes a novel unrolled CORDIC (Co-Ordinate Rotation DIgital Computer) architecture bas...
The ubiquity of DSP has made increasing demand to develop area efficient and accurate architectures ...
OBJECTIVE: The digital signal processing landscape has long been dominated by the microprocessors wi...
In this article we propose a novel scheme based on virtually scaling-free COordinate Rotation DIgita...
In this paper, we propose a CORDIC like algorithm for computing absolute magnitude of a vector and i...
In this paper we propose a novel 16-bit low power CORDIC rotator that is used for high-speed wireles...
Gram–Schmidt orthogonalization is a popular fundamental technique of linear algebra, having wide-spr...
This paper is a postprint of a paper submitted to and accepted for publication in Electronics Letter...
The coordinate rotational digital computer (CORDIC) is an arithmetic algorithm, which has been used ...
Coordinate Rotation Digital Computer (CORDIC) algorithm has a great advantage in hardware based impl...
The COordinate Rotation DIgital Computer CORDIC algorithm has proved its versatility in computing va...
Most of the digital signal processing applications performs operations like multiplication, addition...
In this report we discuss the VLSI realisation of a pipelined CORDIC arithmetic unit to perform stab...
textThe current trends of mobile battery-powered devices make area and power critical design constra...
Efficient low power design is one of the most important metrics facing the embedded electronic syste...
This paper proposes a novel unrolled CORDIC (Co-Ordinate Rotation DIgital Computer) architecture bas...
The ubiquity of DSP has made increasing demand to develop area efficient and accurate architectures ...
OBJECTIVE: The digital signal processing landscape has long been dominated by the microprocessors wi...