Faculty Publications and Creative Works 1999

One of the ways in which we recognize our faculty at the University of New Mexico is through Faculty Publications & Creative Works. An annual publication, it highlights our faculty\u27s scholarly and creative activities and achievements and serves as a compendium of UNM faculty efforts during the 1999 calendar year. Faculty Publications & Creative Works strives to illustrate the depth and breadth of research activities performed throughout our University\u27s laboratories, studios and classrooms. We believe that the communication of individual research is a significant method of sharing concepts and thoughts and ultimately inspiring the birth of new ideas. In support of this, UNM faculty during 1999 produced over 2,292 works, including 1,837 scholarly papers and articles, 78 books, 82 book chapters, 175 reviews, 113 creative works and 7 patented works. We are proud of the accomplishments of our faculty which are in part reflected in this book, which illustrates the diversity of intellectual pursuits in support of research and education at the University of New Mexico

Design and Analysis of the Alliance / University of New Mexico Roadrunner Linux SMP SuperCluster

This paper will discuss high performance clustering from a series of critical topics: architectural design, system software infrastructure, and programming environment. This will be accomplished through an overview of a large scale, high performance SuperCluster (named Roadrunner) in production at The University of New Mexico (UNM) Albuquerque High Performance Computing Center (AHPCC). This SuperCluster, sponsored by the U.S. National Science Foundation (NSF) and the National Computational Science Alliance (NCSA), is based almost entirely on freely-available, vendor-independent software. For example, its operating system (Linux), job scheduler (PBS), compilers (GNU/EGCS), and parallel programming libraries (MPI). The Globus toolkit, also available for this platform, allows high performance distributed computing applications to use geographically distributed resources such as this SuperCluster. In addition to describing the design and analysis of the Roadrunner SuperCluster, we provide experimental analyses from grand challenge applications and future directions for SuperClusters