Design, Implementation and Evaluation of a New Variable Latency Integer Division Scheme

IF 3.6 2区 计算机科学 Q2 COMPUTER SCIENCE, HARDWARE & ARCHITECTURE
Marco Angioli;Marcello Barbirotta;Abdallah Cheikh;Antonio Mastrandrea;Francesco Menichelli;Saeid Jamili;Mauro Olivieri
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引用次数: 0

Abstract

Integer division is key for various applications and often represents the performance bottleneck due to its inherent mathematical properties that limit its parallelization. This paper presents a new data-dependent variable latency division algorithm derived from the classic non-performing restoring method. The proposed technique exploits the relationship between the number of leading zeros in the divisor and in the partial remainder to dynamically detect and skip those iterations that result in a simple left shift. While a similar principle has been exploited in previous works, the proposed approach outperforms existing variable latency divider schemes in average latency and power consumption. We detail the algorithm and its implementation in four variants, offering versatility for the specific application requirements. For each variant, we report the average latency evaluated with different benchmarks, and we analyze the synthesis results for both FPGA and ASIC deployment, reporting clock speed, average execution time, hardware resources, and energy consumption, compared with existing fixed and variable latency dividers.
新型可变延迟整除方案的设计、实施和评估
整数除法是各种应用的关键,由于其固有的数学特性限制了其并行化,因此经常成为性能瓶颈。本文提出了一种新的依赖数据的可变延迟除法算法,该算法源自经典的无性能还原法。所提出的技术利用被除数和部分余数中前导零的数量之间的关系,动态检测并跳过那些导致简单左移的迭代。虽然以前的工作也利用了类似的原理,但所提出的方法在平均延迟和功耗方面优于现有的可变延迟除法方案。我们详细介绍了该算法及其在四个变体中的实现,为特定应用需求提供了多功能性。对于每种变体,我们都报告了使用不同基准评估的平均延迟,并分析了 FPGA 和 ASIC 部署的综合结果,报告了与现有固定和可变延迟分频器相比的时钟速度、平均执行时间、硬件资源和能耗。
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来源期刊
IEEE Transactions on Computers
IEEE Transactions on Computers 工程技术-工程:电子与电气
CiteScore
6.60
自引率
5.40%
发文量
199
审稿时长
6.0 months
期刊介绍: The IEEE Transactions on Computers is a monthly publication with a wide distribution to researchers, developers, technical managers, and educators in the computer field. It publishes papers on research in areas of current interest to the readers. These areas include, but are not limited to, the following: a) computer organizations and architectures; b) operating systems, software systems, and communication protocols; c) real-time systems and embedded systems; d) digital devices, computer components, and interconnection networks; e) specification, design, prototyping, and testing methods and tools; f) performance, fault tolerance, reliability, security, and testability; g) case studies and experimental and theoretical evaluations; and h) new and important applications and trends.
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