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引用次数: 1
摘要
本文展示了一种使用Skandium算法骨架库并行化DNSSEC的有效方法。DNSSEC是DNS (Domain Name System)安全扩展。DNSSEC为DNS提供了一组向后兼容的扩展,以确保域名解析过程的安全。这些扩展在域区域的应用程序引入了新的CPU密集型任务,其中可以应用并行性来减少数字签名时间。算法框架提供的高级抽象为非并行程序员解决并行编程问题提供了一种简单的方法。本文的目的是展示如何使用算法框架在多核硬件上成功地并行化现实世界中的DNSSEC问题。
This paper shows an effective methodology to parallelize DNSSEC using an algorithmic skeleton library: Skandium. DNSSEC is the Domain Name System (DNS) Security Extensions. DNSSEC provides a set of backward compatible extensions to the DNS that secure the domain name resolution process. The application of these extensions to a domain zone introduces new CPU intensive tasks, where parallelism can be applied to reduce the digital signing time. The high-level abstractions offered by algorithmic skeletons provide a simple way for non-parallel programmers to address parallel programming. The objective of this paper is to show how algorithmic skeletons can be used to successfully parallelize a real world problem, DNSSEC, on a multi-core hardware.
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