Digital Signal Processing

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A High Speed and Area Efficient Floating Point Complex Number Multiplier on FPGA


Affiliations
1 Assistive Technology Lab, Shri Vishnu Engineering College for Women, Bhimavaram, Andhra Pradesh, India
2 ECE Department, Head of ATL, Shri Vishnu Engineering College for Women, Bhimavaram, Andhra Pradesh, India
     

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Area, power dissipation and accuracy are very important factors in VLSI design. But in real time DSP applications high performance is the prime target. Hence there should be a trade-off between those three factors. In this paper we have implemented an IEEE-754 single precision floating point complex number multiplier which uses only three dedicated 24 bit multipliers instead of four multipliers. This 24 bit multiplier makes use of an optimized4x4 multiplier which is high speed .In this paper we have compared our complex number multiplier with another complex number multiplier which makes use of Booth encoded Wallace tree algorithm for 4x4 multiplications. The results are compared and an area of 54.2% was reduced on FPGA .A slack of 2.141 is obtained, which is 100.00 for complex number multiplier using Booth encoded Wallace tree algorithm at 10 MHz.


Keywords

Booth Encoded Wallace Tree, Complex Number Multiplier, IEEE- 754 Multiplier, Floating Point Adder/Subtractor.
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  • A High Speed and Area Efficient Floating Point Complex Number Multiplier on FPGA

Abstract Views: 523  |  PDF Views: 3

Authors

Jaya Lakshmi Mathala
Assistive Technology Lab, Shri Vishnu Engineering College for Women, Bhimavaram, Andhra Pradesh, India
Pushpa Kotipalli
ECE Department, Head of ATL, Shri Vishnu Engineering College for Women, Bhimavaram, Andhra Pradesh, India

Abstract


Area, power dissipation and accuracy are very important factors in VLSI design. But in real time DSP applications high performance is the prime target. Hence there should be a trade-off between those three factors. In this paper we have implemented an IEEE-754 single precision floating point complex number multiplier which uses only three dedicated 24 bit multipliers instead of four multipliers. This 24 bit multiplier makes use of an optimized4x4 multiplier which is high speed .In this paper we have compared our complex number multiplier with another complex number multiplier which makes use of Booth encoded Wallace tree algorithm for 4x4 multiplications. The results are compared and an area of 54.2% was reduced on FPGA .A slack of 2.141 is obtained, which is 100.00 for complex number multiplier using Booth encoded Wallace tree algorithm at 10 MHz.


Keywords


Booth Encoded Wallace Tree, Complex Number Multiplier, IEEE- 754 Multiplier, Floating Point Adder/Subtractor.