A Predictive Framework for Base-n Radix Sort Optimization

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Authors Atharv Pandey, Lakshmanan Kuppusamy arXiv ID 2509.19021 Category cs.DS: Data Structures & Algorithms Citations 0 Last Checked 4 months ago
Abstract
Sorting is a foundational primitive of computer science and optimizations in sorting subroutines can cascade into significant performance gains for high-throughput systems. In this paper, we analyze the inefficiencies of a non-comparison sorting algorithm, namely, Base-n Radix Sort (BNRS), specifically the `zero padding' problem in skewed datasets. We develop an execution model, called, Stable Partitioning - Least Significant Digit Radix Sort (shortly, SP-LSD), an iterative least significant digit based pruning model designed to address this inefficiency. Based on this development, we derive the Radix Crossover Framework(RCF), an analytic three-point decision framework. The framework is established on the precondition of non-negative integers, which enables the derivation of three critical boundaries. First, the Asymptotic Crossover ($k<n^{\log_2 n}$) defines when BNRS and SP-LSD can theoretically outperform the comparison sorting algorithms where k is the maximum value and n is the input size. Second, the Round-feasibility Crossover ($k>n^2$) defines when overhead cost of implemented model SP-LSD is amortized. Third, we derive Pruning Crossover parameterized by the ratio of random-access sorting cost to sequential partitioning cost. This model demonstrates that SP-LSD yields a net gain on skewed and uniform distributions over standard BNRS. The experimental results are consistent with the crossover boundaries, providing a deterministic roadmap for adaptive algorithm selection.
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