Bibliographic Information: Bushman, R. T., Tebcherani, T. M., & Yasin, A. S. (2024). QR Sort: A Novel Non-Comparative Sorting Algorithm. arXiv preprint arXiv:2411.07526v1.
Research Objective: This paper introduces QR Sort, a new non-comparative integer sorting algorithm, and evaluates its performance against established sorting algorithms.
Methodology: The authors developed QR Sort based on the Quotient-Remainder Theorem and Counting Sort. They provide a theoretical analysis of its time and space complexity, proving its stability and outlining optimizations. The authors implemented QR Sort and conducted comparative performance experiments using a custom program called SortTester_C. This program measured the computational units expended by QR Sort, Merge Sort, Quicksort, Counting Sort, and LSD Radix Sort across varying input array sizes and element ranges.
Key Findings: QR Sort demonstrates superior computational efficiency compared to Merge Sort, Quicksort, and Radix Sort across a range of input characteristics. While Counting Sort can outperform QR Sort for smaller input value ranges, QR Sort exhibits greater efficiency as the range of values increases. Notably, QR Sort achieves near-linear time complexity (O(n + √m), where n is the input size and m is the range of values) and outperforms other algorithms when the range of input values is large relative to the input size.
Main Conclusions: QR Sort presents a valuable addition to the set of integer sorting algorithms, particularly for applications dealing with data sets characterized by large value ranges. Its efficiency and stability make it a suitable candidate for tasks like prioritization, graph algorithms, and database operations.
Significance: This research contributes a novel and potentially more efficient sorting algorithm for specific data characteristics, expanding the toolkit for algorithm designers and potentially improving the performance of various computing tasks.
Limitations and Future Research: The study primarily focuses on integer sorting and may not generalize to other data types. Further investigation into the performance of QR Sort with real-world datasets and its adaptability to parallel and distributed computing environments could provide valuable insights.
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by Randolph T. ... lúc arxiv.org 11-13-2024
https://arxiv.org/pdf/2411.07526.pdfYêu cầu sâu hơn