Quick Minimization of Tardy Processing Time on a Single Machine

January 13, 2023 Β· Declared Dead Β· πŸ› Workshop on Algorithms and Data Structures

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Authors Baruch Schieber, Pranav Sitaraman arXiv ID 2301.05460 Category cs.DS: Data Structures & Algorithms Citations 5 Venue Workshop on Algorithms and Data Structures Last Checked 4 months ago
Abstract
We consider the problem of minimizing the total processing time of tardy jobs on a single machine. This is a classical scheduling problem, first considered by [Lawler and Moore 1969], that also generalizes the Subset Sum problem. Recently, it was shown that this problem can be solved efficiently by computing $(\max,\min)$-skewed-convolutions. The running time of the resulting algorithm is equivalent, up to logarithmic factors, to the time it takes to compute a $(\max,\min)$-skewed-convolution of two vectors of integers whose sum is $O(P)$, where $P$ is the sum of the jobs' processing times. We further improve the running time of the minimum tardy processing time computation by introducing a job ``bundling'' technique and achieve a $\tilde{O}\left(P^{2-1/Ξ±}\right)$ running time, where $\tilde{O}\left(P^Ξ±\right)$ is the running time of a $(\max,\min)$-skewed-convolution of vectors of size $P$. This results in a $\tilde{O}\left(P^{7/5}\right)$ time algorithm for tardy processing time minimization, an improvement over the previously known $\tilde{O}\left(P^{5/3}\right)$ time algorithm.
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