The COordinate Rotation DIgital Computer CORDIC algorithm has proved its versatility in computing various transcendental functions by only using the shift and adds operations. This paper presents a new hardware efficient scaling free CORDIC algorithm to operate in vectoring and in rotation mode. The micro rotation of the vector is always in one direction with no scale factor correction. The Range of Convergence RoC is from 0 to 2π. No pre and post processing circuitry is required. 16 bit Scaling free CORDIC Pipelined architecture based on the proposed algorithm is synthesized on FPGA Xilinx VirtexII P device coded in Verilog. Synthesized results show totally scaling free performance with very small dynamic power consumption of .06 mW and ma...
Abstract: Rotation of vectors through fixed and known angles has wide applications in robotics, digi...
Coordinate Rotation Digital Computer (CORDIC) is a unique digital computing unit intended for the co...
Over the last 30 years Digital Signal Processing algorithm implementation has been driven by the con...
In this article we propose a novel scheme based on virtually scaling-free COordinate Rotation DIgita...
This paper proposes a novel unrolled CORDIC (Co-Ordinate Rotation DIgital Computer) architecture bas...
CORDIC or CO ordinate Rotation Digital Computer is a fast, simple, efficient and powerful algorithm ...
In this article we proposed a novel CoOrdinate Rotation DIgital Computer (CORDIC) rotator algorithm ...
A new memoryless CORDIC algorithm for the FFT computation is proposed in this paper. This approach c...
Abstract CORDIC (Coordinate Rotation Digital Computer) is an iterative algorithm for the calculation...
Most of the digital signal processing applications performs operations like multiplication, addition...
Coordinate Rotation Digital Computer (CORDIC) algorithm has a great advantage in hardware based impl...
Trigonometric, exponential, logarithmic, hyperbolic and several other mathematical functions, are fr...
The coordinate rotational digital computer (CORDIC) is an arithmetic algorithm, which has been used ...
The ubiquity of DSP has made increasing demand to develop area efficient and accurate architectures ...
This thesis proposes an optimized Co-ordinate Rotation Digital Computer (CORDIC) algorithm in the ro...
Abstract: Rotation of vectors through fixed and known angles has wide applications in robotics, digi...
Coordinate Rotation Digital Computer (CORDIC) is a unique digital computing unit intended for the co...
Over the last 30 years Digital Signal Processing algorithm implementation has been driven by the con...
In this article we propose a novel scheme based on virtually scaling-free COordinate Rotation DIgita...
This paper proposes a novel unrolled CORDIC (Co-Ordinate Rotation DIgital Computer) architecture bas...
CORDIC or CO ordinate Rotation Digital Computer is a fast, simple, efficient and powerful algorithm ...
In this article we proposed a novel CoOrdinate Rotation DIgital Computer (CORDIC) rotator algorithm ...
A new memoryless CORDIC algorithm for the FFT computation is proposed in this paper. This approach c...
Abstract CORDIC (Coordinate Rotation Digital Computer) is an iterative algorithm for the calculation...
Most of the digital signal processing applications performs operations like multiplication, addition...
Coordinate Rotation Digital Computer (CORDIC) algorithm has a great advantage in hardware based impl...
Trigonometric, exponential, logarithmic, hyperbolic and several other mathematical functions, are fr...
The coordinate rotational digital computer (CORDIC) is an arithmetic algorithm, which has been used ...
The ubiquity of DSP has made increasing demand to develop area efficient and accurate architectures ...
This thesis proposes an optimized Co-ordinate Rotation Digital Computer (CORDIC) algorithm in the ro...
Abstract: Rotation of vectors through fixed and known angles has wide applications in robotics, digi...
Coordinate Rotation Digital Computer (CORDIC) is a unique digital computing unit intended for the co...
Over the last 30 years Digital Signal Processing algorithm implementation has been driven by the con...