Renewable energy has the potential to provide environmental benefits as well as significant energy cost savings for owners of commercial and industrial buildings. However, so far, the emphasis has been on solar panels. While wind turbines have the potential to provide even more renewable energy, they are more difficult to manufacture at a low cost.
Accelerate Wind saw an opportunity here. When Accelerate Wind's on-premises fluid dynamics compute facilities proved to be a bottleneck for rapid development, Amazon EC2 instances powered by AMD EPYC processors provided the power and flexibility needed to advance its turbine technology.
Read the case study to learn how Accelerate Wind reduced computational fluid dynamics simulation times from 4 hours to 12 minutes using 384-core Amazon EC2 Hpc6a instances powered by 3rd Gen AMD EPYCTM processors, dramatically improving its ability to deliver power- and cost-optimized building-top wind turbine designs.
To know more, click here
Accelerate Wind saw an opportunity here. When Accelerate Wind's on-premises fluid dynamics compute facilities proved to be a bottleneck for rapid development, Amazon EC2 instances powered by AMD EPYC processors provided the power and flexibility needed to advance its turbine technology.
Read the case study to learn how Accelerate Wind reduced computational fluid dynamics simulation times from 4 hours to 12 minutes using 384-core Amazon EC2 Hpc6a instances powered by 3rd Gen AMD EPYCTM processors, dramatically improving its ability to deliver power- and cost-optimized building-top wind turbine designs.
To know more, click here