GOVERNMENT

PathScale, developer of the world’s fastest compilers for AMD Opteron processor-based Linux clusters, is fast becoming the number one compiler choice for prominent researchers, scientists and engineers who want to achieve the highest performance from their HPC systems. Many of the highest-profile R&D organizations in North America, Europe and Asia have adopted AMD Opteron processors as their HPC platform and have purchased the PathScale EKO Compiler Suite to maximize 64-bit Linux application performance. An important milestone has now been reached with over 1,000 sites downloading the PathScale EKO Compiler Suite. More details are available at http://www.pathscale.com. PathScale’s accelerating traction within the HPC user community has established a strong foundation for the additional HPC tools and technology offerings that the company will announce at the SuperComputing 2004 exhibition in Pittsburgh in November. These new products are designed to dramatically improve Linux cluster efficiency. PathScale customers now include NASA, the U.S. Air Force, the U.S. Navy, four of the leading Department of Energy (DOE) National Labs, the European Center for Medium Range Weather Forecasting (ECMWF), three of the largest HPC centers in Germany, one of the largest automotive manufacturers in Europe and the Victorian Partnership for Advanced Computing (VPAC). Some of the leading universities purchasing the PathScale compilers include the University of Utah, New York University, Penn State University, University of Georgia, Cambridge University, Warsaw University, University of Zurich and University of Chicago. “Everyone on our campus who is developing applications for Linux clusters and is truly concerned about performance is using PathScale,” said Martin Cuma, scientific applications programmer at the University of Utah. “We recently implemented a 1,000-CPU PathScale-optimized AMD Opteron-based cluster that runs our scientific applications two to three times faster than was possible with our previous supercomputer system.” PathScale’s compiler technology has been contributing to the rapid growth in demand for AMD64-based HPC systems, largely due to the industry-leading price/performance of AMD Opteron systems tuned with PathScale compilers. “Our computing center supports about 500 researchers running a mix of applications such as molecular dynamics, structure analysis, fluid dynamics and gravitational physics,” said Vijay Agarwala, Director of High-Performance Computing and Visualization, Information Technology Services, Penn State University. “Reduced time to discovery, reduced time to results and optimal use of computing resources are very important. The PathScale compiler helps us maintain a cutting edge and get the best possible performance from our Opteron cluster system at all times.” PathScale compilers are available from any Authorized PathScale Reseller listed at www.pathscale.com/authorized_resellers.html -- and a 30-day free trial version of the PathScale EKO Compiler Suite is available at www.pathscale.com/trial.php PathScale develops innovative technologies that substantially increase the performance and efficiency of Linux clusters, the next significant wave in high-end computing. Applications that benefit from PathScale’s technologies include seismic processing, complex physical modeling, EDA simulation, molecular modeling, medical research and biosciences, microeconomics, computational chemistry, computational fluid dynamics, finite element analysis, weather modeling, rendering, resource optimization, decision support and data mining. The company has developed the industry’s highest performing C, C++, and Fortran 9X compilers for 64-bit AMD Opteron processor Linux-based computer systems. PathScale’s investors include Adams Street Partners, Charles River Ventures, Enterprise Partners Venture Capital, CMEA Ventures, ChevronTexaco Technology Ventures and the Dow Employees Pension Plan.