HIGH-SPEED MULTIPLIER DESIGN BASED ON AN OPTIMIZED PARALLEL PREFIX TREE ARCHITECTURE
Multiplication is a fundamental arithmetic operation, central to the performance of arithmetic and logic units (ALUs) in nearly all electronic systems. As such, the design and optimization of multipliers play a crucial role in improving the efficiency of integrated circuits, particularly in applicat...
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XLESCIENCE
2025-06-01
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| Series: | International Journal of Advances in Signal and Image Sciences |
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| Online Access: | https://xlescience.org/index.php/IJASIS/article/view/274 |
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| author | D. V. N. Bharathi Y Varthamanan |
| author_facet | D. V. N. Bharathi Y Varthamanan |
| author_sort | D. V. N. Bharathi |
| collection | DOAJ |
| description | Multiplication is a fundamental arithmetic operation, central to the performance of arithmetic and logic units (ALUs) in nearly all electronic systems. As such, the design and optimization of multipliers play a crucial role in improving the efficiency of integrated circuits, particularly in applications involving digital signal processing, numerical computations, and embedded systems. With rapid advancements in semiconductor technology, there is an increasing demand for multiplier architectures that offer high speed, low power consumption, and minimal area usage. The complexity of a multiplier circuit is predominantly determined by the number of partial products and the efficiency of their reduction and summation. In modern Very-Large-Scale Integration (VLSI) design, optimizing the power, area, and speed trade-offs is critical to achieving high performance. To meet current design challenges, it is essential to adopt architectures that reduce delays and occupy minimal silicon area while consuming less power. Among various approaches, Parallel Prefix Adders (PPAs) have proven effective in reducing the carry propagation delay in adder trees, thereby accelerating multiplication operations. This study proposes a high-speed multiplier architecture utilizing a novel Parallel Prefix Tree (PPT) structure. The objective is to enhance computation speed while simultaneously reducing size and power consumption. The proposed design leverages the inherent advantages of prefix computation to optimize the performance of the final summation stage in the multiplier. Key performance parameters including logic delay, total delay, and memory usage will be evaluated and compared against existing multiplier architectures to validate the effectiveness of the proposed approach. |
| format | Article |
| id | doaj-art-4ed83c10f0984a5b8cfbda53611a807d |
| institution | DOAJ |
| issn | 2457-0370 |
| language | English |
| publishDate | 2025-06-01 |
| publisher | XLESCIENCE |
| record_format | Article |
| series | International Journal of Advances in Signal and Image Sciences |
| spelling | doaj-art-4ed83c10f0984a5b8cfbda53611a807d2025-08-20T03:15:23ZengXLESCIENCEInternational Journal of Advances in Signal and Image Sciences2457-03702025-06-01111304310.29284/ijasis.11.1.2025.30-43302HIGH-SPEED MULTIPLIER DESIGN BASED ON AN OPTIMIZED PARALLEL PREFIX TREE ARCHITECTURED. V. N. BharathiY VarthamananMultiplication is a fundamental arithmetic operation, central to the performance of arithmetic and logic units (ALUs) in nearly all electronic systems. As such, the design and optimization of multipliers play a crucial role in improving the efficiency of integrated circuits, particularly in applications involving digital signal processing, numerical computations, and embedded systems. With rapid advancements in semiconductor technology, there is an increasing demand for multiplier architectures that offer high speed, low power consumption, and minimal area usage. The complexity of a multiplier circuit is predominantly determined by the number of partial products and the efficiency of their reduction and summation. In modern Very-Large-Scale Integration (VLSI) design, optimizing the power, area, and speed trade-offs is critical to achieving high performance. To meet current design challenges, it is essential to adopt architectures that reduce delays and occupy minimal silicon area while consuming less power. Among various approaches, Parallel Prefix Adders (PPAs) have proven effective in reducing the carry propagation delay in adder trees, thereby accelerating multiplication operations. This study proposes a high-speed multiplier architecture utilizing a novel Parallel Prefix Tree (PPT) structure. The objective is to enhance computation speed while simultaneously reducing size and power consumption. The proposed design leverages the inherent advantages of prefix computation to optimize the performance of the final summation stage in the multiplier. Key performance parameters including logic delay, total delay, and memory usage will be evaluated and compared against existing multiplier architectures to validate the effectiveness of the proposed approach.https://xlescience.org/index.php/IJASIS/article/view/274high speed multiplier, parallel prefix tree, multiplier optimization, digital signal processing, parallel prefix adder, low power architecture. |
| spellingShingle | D. V. N. Bharathi Y Varthamanan HIGH-SPEED MULTIPLIER DESIGN BASED ON AN OPTIMIZED PARALLEL PREFIX TREE ARCHITECTURE International Journal of Advances in Signal and Image Sciences high speed multiplier, parallel prefix tree, multiplier optimization, digital signal processing, parallel prefix adder, low power architecture. |
| title | HIGH-SPEED MULTIPLIER DESIGN BASED ON AN OPTIMIZED PARALLEL PREFIX TREE ARCHITECTURE |
| title_full | HIGH-SPEED MULTIPLIER DESIGN BASED ON AN OPTIMIZED PARALLEL PREFIX TREE ARCHITECTURE |
| title_fullStr | HIGH-SPEED MULTIPLIER DESIGN BASED ON AN OPTIMIZED PARALLEL PREFIX TREE ARCHITECTURE |
| title_full_unstemmed | HIGH-SPEED MULTIPLIER DESIGN BASED ON AN OPTIMIZED PARALLEL PREFIX TREE ARCHITECTURE |
| title_short | HIGH-SPEED MULTIPLIER DESIGN BASED ON AN OPTIMIZED PARALLEL PREFIX TREE ARCHITECTURE |
| title_sort | high speed multiplier design based on an optimized parallel prefix tree architecture |
| topic | high speed multiplier, parallel prefix tree, multiplier optimization, digital signal processing, parallel prefix adder, low power architecture. |
| url | https://xlescience.org/index.php/IJASIS/article/view/274 |
| work_keys_str_mv | AT dvnbharathi highspeedmultiplierdesignbasedonanoptimizedparallelprefixtreearchitecture AT yvarthamanan highspeedmultiplierdesignbasedonanoptimizedparallelprefixtreearchitecture |