Modified Binary Multiplier Architecture to Achieve Reduced Latency and Hardware Utilization.
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| Title: | Modified Binary Multiplier Architecture to Achieve Reduced Latency and Hardware Utilization. |
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| Authors: | Tomar, Geetam Singh1, George, Marcus Lloyde2 |
| Source: | Wireless Personal Communications. Feb2018, Vol. 98 Issue 4, p3549-3561. 13p. |
| Subjects: | Computer network architectures, Computer arithmetic & logic units, Multiplying circuits, Field programmable gate arrays, CMOS integrated circuits |
| Abstract: | Arithmetic Logic Units (ALUs) are very important components of the processor, which performs various arithmetic and logical operations such as multiplication, division, addition, subtraction, cubing, squaring, etc. Of these all operations, multiplication is most elementary and most frequently used operation in the ALUs. The operation of multiplication also forms the basis of many other complex arithmetic operations such as cubing, squaring, convolution, etc. This paper presents the modified novel multi-precision binary multiplier architecture to achieve a reduced latency/delay and area/hardware utilization along with existing implementations of binary multiplication. This system will function as second stage of the of a novel multi-precision binary multiplier system. The system was implemented using Xilinx 14.2 ISE and simulated with ISIM which was available from Xilinx 14.2 ISE. The results of simulation indicate that the latency of the proposed novel binary multiplier systems (8-bit, 16-bit and 24-bit) with significantly shorter than existing implementations. [ABSTRACT FROM AUTHOR] |
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| Database: | Engineering Source |
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| Abstract: | Arithmetic Logic Units (ALUs) are very important components of the processor, which performs various arithmetic and logical operations such as multiplication, division, addition, subtraction, cubing, squaring, etc. Of these all operations, multiplication is most elementary and most frequently used operation in the ALUs. The operation of multiplication also forms the basis of many other complex arithmetic operations such as cubing, squaring, convolution, etc. This paper presents the modified novel multi-precision binary multiplier architecture to achieve a reduced latency/delay and area/hardware utilization along with existing implementations of binary multiplication. This system will function as second stage of the of a novel multi-precision binary multiplier system. The system was implemented using Xilinx 14.2 ISE and simulated with ISIM which was available from Xilinx 14.2 ISE. The results of simulation indicate that the latency of the proposed novel binary multiplier systems (8-bit, 16-bit and 24-bit) with significantly shorter than existing implementations. [ABSTRACT FROM AUTHOR] |
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| ISSN: | 09296212 |
| DOI: | 10.1007/s11277-017-5028-z |