Moonshot| IT Case Study | Sauber | HP
Transcription
Moonshot| IT Case Study | Sauber | HP
Case study Sauber F1 Team gains competitive edge with HP Compute Accelerates critical design processing to perfect aerodynamics for improved performance on Formula One circuit Industry Motorsport Objective Increase computational fluid dynamics (CFD) throughput to accelerate car designs for maximum aerodynamic performance within strict industry regulations that limit compute power utilization Approach Deploy HP Moonshot System with HP ProLiant m350 Servers in the HP Moonshot 1500 Chassis to run CFD solving jobs with bursting to HP ProLiant SL230s Servers for urgent processing, along with HP ProLiant BL460c Gen9 Servers to run pre- and post-processing tasks. IT matters •Doubled throughput per teraflop to maximize CFD calculations within industry regulations •Enabled engineers to run twice as many design loops using CFD to optimize aerodynamics •Reduced energy use approximately 33% for CFD jobs, lowering expenses and reducing environmental impact Business matters •Help improve car performance at the racetrack, strengthening the team’s competitive edge •Save days of development time by filtering design options to those most likely to succeed •Reduce costs by optimizing designs before proceeding to expensive wind tunnel tests “Moonshot has almost doubled the throughput per teraflop we had with our previous cluster. At the same time we’re saving about 33% in energy for CFD jobs, which lowers costs and reduces our environmental impact. Moonshot is proving to be both resource-efficient and cost-efficient.” –Magnus Frey, Head of IT, Sauber F1 Team A leader in motorsport, Sauber F1 Team needed a more efficient infrastructure to run critical computational fluid dynamics (CFD) calculations, while meeting strict industry regulations that limit compute power. By running core CFD functions on the HP Moonshot System, Sauber doubled CFD throughput within regulations while reducing energy consumption 33%. This enables engineers to run more CFD jobs to perfect designs and improve car performance at the racetrack. Sauber also saves money by lowering IT operating expenses and reducing the number of design options advanced to expensive wind tunnel testing. Case study | Sauber F1 Team For Switzerland, Peter Sauber is a legend in the world of auto racing. He founded Sauber Motorsport in the 1970s and his team has been competing in top-level events ever since. Beginning 23 years ago, the Sauber team advanced into Formula One (F1) racing, competing in global Grand Prix competitions from Monte Carlo, Barcelona, and Monza to Melbourne, Singapore, and Kuala Lumpur. In F1, performance is everything. But it’s not just about raw horsepower—precision and efficiency are what win races. That’s where the Sauber F1 Team excels like no other in the industry. They apply renowned Swiss precision across an international group of mechanical and engineering specialists. The team aims to be very efficient in terms of utilizing its human resources, allowing it compete at the highest level as one of the private teams on the grid. And now, since adopting the HP Moonshot System, Sauber F1 Team has a highly efficient IT infrastructure to run the highly complex computational formulas that go into optimizing the performance of its race cars. Aerodynamics accounts for the majority of the F1 car’s performance over which Sauber has design control. To perfect the aerodynamics of their cars, teams use computational fluid dynamics (CFD) and wind tunnel tests to solve airflow problems and develop further aerodynamic improvements. Large race teams may spend tens of millions of dollars on research and development. Therefore, to allow all teams to compete, the FIA (Fédération Internationale de l’Automobile) imposes strict regulations that limit peak compute power teams can use for CFD jobs, measured in teraflops (a trillion floating point operations per second). The challenge is to maximize CFD throughput per teraflop. New FIA regulations pushed the company to look for a more efficient solution. Sauber considered a number of options, 2 including traditional high-performance computing (HPC) clusters. But the team wanted more than just a new compute system—it wanted a true technology partner. Magnus Frey, Sauber’s head of IT, comments, “We looked at many potential solutions, as well as the companies behind those solutions. When we engaged with HP, they got us thinking outside the box to find the best performance for our team. We found that HP provided a really innovative and effective solution that matched our needs precisely.” Optimal performance and efficiency for CFD Unlike before when Sauber ran all aspects of CFD processing on a single platform, the HP solution divides workloads across multiple platforms to optimize performance and efficiency. HP Moonshot runs the “solving” portion of the CFD process on HP ProLiant m350 Servers with the Intel® Atom® Processor C2750, each ProLiant m350 featuring four servers. Using the Cluster Management Utility, HP helped Sauber deploy this large number of nodes in just 15 minutes. Tomo Sato, head of CFD for the Sauber F1 Team, notes, “We conducted extensive benchmark testing using our real-world data to simulate CFD jobs on HP Moonshot. The results made it very clear that HP Moonshot provided the best ratio of performance and efficiency for us to maximize CFD throughput within FIA teraflop limits.” While the performance and efficiency of HP Moonshot are optimal for everyday CFD solving problems, sometimes Sauber faces an urgent processing requirement. For example, during a multi-day race event, the team may receive feedback from the racetrack requiring an overnight modification to the car’s design. To maximize performance for these short bursts of CFD processing while still controlling Case study | Sauber F1 Team teraflop consumption, Sauber F1 Team uses HP ProLiant SL230s Servers with the Intel Xeon® Processor E5-2660 v2. In addition, CFD includes pre- and postprocessing workloads such as reporting and analysis. This portion of CFD does not fall under FIA regulations, freeing Sauber to maximize compute power using HP ProLiant BL460c Gen9 Servers with the Intel Xeon Processor E5-2600. Sauber also uses the ProLiant BL460c Gen9 servers for other business applications such as running its race strategy software during live F1 events and performing lap-time simulations. HP Financial Services provided Sauber with an attractive financing package. “While this is a large investment for Sauber the package offered by HP Financial Services made our decision easy,” Frey remarks. “Partnership with a company like HP is fantastic because they have so many resources to get us the compute solutions we need to perform successfully in the F1 circuit.” Doubled CFD throughput to perfect aerodynamics Since moving CFD solving to HP Moonshot, Sauber has accelerated CFD solving performance dramatically while reducing energy consumption and lowering costs. “Moonshot has almost doubled the throughput per teraflop we had with our previous cluster,” reports Frey. “At the same time, we’re saving about 33% in energy for CFD jobs, which lowers costs and reduces our environmental impact. Moonshot is proving to be both resource-efficient and cost-efficient.” This extra throughput means the Sauber F1 Team can perform more research to optimize a car design before going into expensive wind tunnel testing. Tomo Sato explains, “CFD solving has always been the biggest choke point in our design workflow. By doubling throughput, Moonshot enables us to run twice as many iterations of CFD jobs to test different aerodynamic configurations for things like cooling or rear wing design. This allows us to narrow down the options before spending money to build components and send a car into the wind tunnel. Ultimately, it saves us many days of development time and helps improve car performance at the racetrack so we compete better.” The flexible architecture of HP Moonshot also enables Sauber to scale the CFD environment quickly and replace nodes on the fly to minimize any performance impact. “If a server fails we can’t afford to wait a day or two to deploy a replacement,” says Frey. “With HP Moonshot, we can pop in a new server in minutes. That’s key to maximizing utilization of the system during critical development times.” Maximized resource utilization with Operational Support Services To manage ongoing operation of the HP Moonshot solution, Sauber evaluated several options for datacenter housing and operational support. After analyzing Sauber’s objectives and service requirements, HP Technology Services proposed a distinct approach for both areas: HP to take on 3 Case study | Sauber F1 Team Customer at a glance Hardware •HP ProLiant m350 Servers •HP Moonshot 1500 Chassis •HP ProLiant SL230s Servers •HP ProLiant BL460c Gen9 Servers Software •CentOS Linux operating environment •Computational fluid dynamics (CFD) software package •Race strategy software •Lap-time simulation HP Services •HP Technology Services •HP Datacenter Care Operational Support Services (OSS) •HP Financial Services Sign up for updates hp.com/go/getupdated responsibility for the on-going operation of the HP Moonshot System and to house it at Sauber F1 team’s own location in Hinwil. As a result, HP Datacenter Care and Operational Support Services now cover the operation of the HP Moonshot solution running Sauber’s critical CFD environment at their own premises. The overall solution has been designed to satisfy Sauber’s technical, organizational and commercial objectives. The value of HP’s services has already become clear in the first months of operation, with HP Technology Services maintaining the platform that runs at over 95% system utilization, 365 days a year. Race day simulations improve competitive edge Sauber is gaining value beyond CFD processing thanks to HP ProLiant BL460c Gen9 Servers. By using the ProLiant BL460c Gen9 servers to run race strategy optimizations and lap-time simulations, the Sauber F1 Team can further improve race-day performance. Share with colleagues Frey remarks, “The ProLiant BL460c Gen9 Servers allow us to use a smaller number of nodes to conduct more simulations before and during a race. Faster heavy-duty number crunching means we can react intelligently to race events as they unfold. It’s one more way to gain a competitive edge on the track.” Sauber is so satisfied with the HP solution for CFD processing and other applications that the team is now discussing other ways to leverage HP technology. For example, the company is considering an HP Moonshot solution to replace two massive server racks that are hauled to every F1 track to support the race crew. The dense, efficient HP Moonshot System would save valuable space, accelerate setup, and reduce operating costs. “Our partnership with HP continues to grow in value,” Frey concludes. “HP is always willing to spend time understanding our special industry needs and coming up with innovative solutions. That’s a great formula for longterm success.” Rate this document © 2015 Hewlett-Packard Development Company, L.P. The information contained herein is subject to change without notice. The only warranties for HP products and services are set forth in the express warranty statements accompanying such products and services. Nothing herein should be construed as constituting an additional warranty. HP shall not be liable for technical or editorial errors or omissions contained herein. Intel, the Intel logo, Atom and Xeon are trademarks of Intel Corporation in the U.S. and/or other countries. Microsoft and Windows are U.S. registered trademarks of Microsoft Corporation. 4AA5-8650ENW, May 2015