Calendar of Events  

Beowulf-Class PC Clusters: An Historical Perspective
 


Thomas Sterling


DATE & TIME
Thursday, April 13, 2000

6:00 pm - 8:30 pm

LOCATION
Moffett Training and Conference Center (Building 3)
Moffett Federal Airfield,
Mountain View, California


REGISTRATION
Registration is now closed.



Call (650) 810-1898 for information.


ABSTRACT OF TALK
Until the mid 1990's, supercomputing, high performance computing, or high end computing was reserved to an elite few who had access to systems costing millions (even tens of millions) of dollars. Large vector supercomputers and massively parallel processing systems (MPP) could deliver in the range of 1 to 50 Gflops.

But because these systems were usually shared among a community of users, the actual capability provided was often a small part of the peak capability of the system. For example, the majority of users of a C-90 capable of 16 Gflops peak performance would run on a single \head\ of only 1 Gflops peak performance while other users space shared the other processors of the system at the same time.

Many large science and engineering applications were either not run or were greatly simplified in fidelity and size to run for shorter time on smaller parts of such big machines, or worse yet, on scientific workstations. But many other potential applications were never executed at all for want of adequate computing resources due to over subscription of existing shared supercomputing centers.

With the advent of local area networks of desktop scientific workstations, some environments tentatively explored and employed \cycle harvesting\ applying unused workstations at off-hours to do embarrassingly parallel tasks; usually running the same program on many different machines at the same time with different input data sets. Workstation clusters were explored by the University of Wisconsin, UC Berkeley, and other sites demonstrating the possibilities of clustered computing. And research was conducted in the development of new network technology that might be used to integrate workstations.

But problems of cost, customized hardware, and proprietary software limited their installed base and use. At this time, a new class of clustered computing system was devised by a small group at the NASA Goddard Space Flight Center that overcame these difficulties and explored what has become the most rapidly growing type of parallel processing.

At the beginning of 1994, the Beowulf project undertook to assemble a cluster of PCs and to evaluate their utility as a scalable system for scientific computation using only mass market commodity off-the-shelf hardware and widely available open source software. It was only at that time that the capability of such hardware was good enough and the cost low enough to potentially enable this new class of computing: PC clusters.

The Beowulf project adopted the inchoate Linux operating system because it was free and open software, avoiding the legal complications of using Unix and providing the software for making necessary changes. The Beowulf project developed the majority of Ethernet drivers included today as well as channel bonding to support multiple simultaneous and many other low level tools for managing clusters of PCs.

Equally important was the pathfinding work in applying these systems to real world scientific applications. It was found that in some cases Beowulf could equal in performance that of much more costly machines and in many cases they provided a price-performance advantage of an order-of-magnitude or more.

Through a series of successive generations of systems, these capabilities grew with more than a Gflops sustained operation being achieved on a system costing less than K in 1996 and 10 Gflops on 120 processors in 1997, also winning the Gordon Bell prize for price-performance two years in a row. Today, a number of commercial concerns provide low cost Beowulf-class systems and other PC clusters with an installed base in industry, government labs, and academia. A number of these systems are now included on the Top 500 list of the world's most powerful computer systems.

This presentation will discuss the motivation and importance of Beowulf-class computing, its hardware and software elements, and its history from inception of 16 processor systems to present day systems up to a thousand processors.

Please click here for photos from the event.

MEMBERSHIP
The Computer History Museum offers a variety of membership levels. To find out more, please visit our individual membership or call 650-810-2722.

 

About the Museum | Exhibits | Collections | What's Happening | Giving | About This Site
Privacy | Copyright | Feedback | Credits | Advanced Search | Site Map

© 2004 Computer History Museum. All rights reserved.
1401 N. Shoreline Blvd., Mountain View CA 94043    Ph 650-810-1010