Title :
A Skandium Based Parallelization of DNSSEC
Author :
Leyton, Mario ; Piquer, José M.
Author_Institution :
NIC Labs., Univ. de Chile, Santiago, Chile
Abstract :
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.
Keywords :
Internet; algorithmic languages; data structures; multiprocessing programs; parallel programming; security of data; CPU intensive task; DNSSEC; Skandium based parallelization; algorithmic skeleton library; digital signing time; domain name resolution process; domain name system security extension; high level abstraction; multicore hardware; nonparallel programmer; parallel programming; Clustering algorithms; Concurrent computing; Data security; Domain Name System; Hardware; Muscles; Network servers; Parallel programming; Programming profession; Skeleton; algorithmic skeletons; dns; dnssec; multi-core; parallel programming; patterns;
Conference_Titel :
Chilean Computer Science Society (SCCC), 2009 International Conference of the
Conference_Location :
Santiago
Print_ISBN :
978-1-4244-7752-4
DOI :
10.1109/SCCC.2009.22
