A Novel Approach to Implement a Vedic Multiplier for High Speed Applications
 |
International Journal of Engineering Trends and Technology (IJETT) | 
|
| © 2013 by IJETT Journal | ||
| Volume-6 Number-4 |
||
| Year of Publication : 2013 | ||
| Authors : Dasari Sireesha , N.Suresh Babu |
Citation
Dasari Sireesha , N.Suresh Babu. "A Novel Approach to Implement a Vedic Multiplier for High Speed Applications". International Journal of Engineering Trends and Technology (IJETT). V6(4):212-217 Dec 2013. ISSN:2231-5381. www.ijettjournal.org. published by seventh sense research group
Abstract
Now-a-days in VLSI technology speed optimization plays a vital role. So designing of high speed devices became necessary to fulfill the end user requirements. Generally the processor designing is mainly depending upon the MAC units. In that particularly multiplier architecture comes under crucial designing. In this paper the VEDIC multiplier (Nikhilam Sutra) which is very ancient multiplier whose importance is discussed. The design of multiplier consists of Radix Selection Unit, Exponent Determinant (ED), Mean Determinant (MD) and Comparator. In this paper the Xilinx ISE EDA Tool is used for synthesis and simulation. Ultimately the multiplier shows the product of the provided inputs with reduced latency along with optimized power estimation.
References
[1] L. Ciminiera and A. Valenzano, "Low cost serial multipliers for high speed specialised processors," Computers and Digital Techniques, IEEE Proc., vol. 135.5, 1988, pp. 259-265.
[2] A.D.Booth, “A Signed Binary Multiplication Technique,” J. mech. and appl. math, vol 4, no.2, pp. 236-240, Oxford University Press, 1951.
[3] C. R. Baugh, B. A. Wooley, “A Two’s Complement Parallel Array Multiplication Algorithm,”, IEEE Trans. Computers 22(12), pp. 1045–1047, 1973.
[4] Koren Israel, ”Computer Arithmetic Algorithms,” 2nd Ed, pp. 141-149, Universities Press, 2001.
[5] Kunchigi.V, Kulkarni.L, Kulkarni.S, "High speed and area efficient vedic multiplier," Devices, Circuits and Systems (ICDCS), 2012 International Conference on , vol., no., pp.360-364, 15-16 March 2012.
[6] T. Aoki, K. Hoshi, and T. Higuchi, "Redundant complex arithmetic and its application to complex multiplier design," in Proceedings 29th IEEE International symposium on Multiple-Valued-Logic, Freiburg, May 20- 22,1999, pp. 200-207.
[7] Z. Huang, and M. D. Ercegovac, "High-Performance Low-Power Leftto- Right Array Multiplier Design," IEEE Transactions on Computers, vol 54, no. 3, pp 272-283, March 2005.
[8] Prabir Saha et.al, “High Speed ASIC Design of Complex Multiplier Using Vedic Mathematics”, Proceeding of the 2011 IEEE Students` Technology Symposium 14-16 January, 2011.
[9] P.Sreenivasa Rao et. al “Design of Complex Multiplier WITH High Speed ASIC Using Vedic Mathematics” IJERT Vol.1 Iss. 6 August 2012
Keywords
Vedic Mathematics, partial product, Exponent & Mean determinant, Xilinx.