Satisfying Your Need for Speed: Server Technology Helps to Achieve Aerodynamic Vehicle Design
A world-renowned automotive manufacturer uses Computational Fluid Dynamics (CFD) simulation software, analyzing huge amounts of data to optimize the design of their vehicles. They selected GIGABYTE’s high density multi-node servers to build a high-performance computing cluster for their vehicle design center, making the most efficient use of the limited space available to deliver maximum computing power to their aerodynamic engineering team.
Since the fuel consumption of a vehicle will be affected by air resistance, an optimized chassis design will reduce drag and therefore improve fuel consumption efficiency.
Digital Technology Drives Innovation in Automotive Design
Due to advances in digital technology, aerodynamic engineers can now use software to process and analyze huge amounts of data to better optimize vehicle design (shown in diagram)
Vehicle Design Relies on High Density Servers for Precise Calculations
GIGABYTE’s H261-Z60 features 4 server nodes in a 2U chassis, making it suitable for high density compute applications. Compared with other server products currently on the market, it supports up to double the compute capacity, as well as providing flexible expansion availability and optimized power and cooling capabilities for more efficient power consumption and a reduction of operating expenditure.
In a Limited Space, GIGABTYE’s Servers Show Off Sophisticated Thermal Design
According to the customer’s needs, the servers would be deployed in the office building of the aerodynamic engineering team rather than a dedicated data center or server room; the different heat dissipation requirements of these two spaces vary greatly. (as shown in diagram)
The air-cooled H261-Z60 can maintain stable operation even under high loads during pressure testing.
Rigorously Tested, So GIGABYTE Can Guarantee Excellent Quality
A top technological university in Europe noticed rising demand for computing services across its various departments. It decided to build a next-generation data center with GIGABYTE's high density servers. With the right tools in place, scientists were able to accelerate their research, analyze massive amounts of information, and complete more data-intensive projects. Science advanced while the institute flourished.
n'Space, a projector-based platform, is capable of implementing mixed reality without wearable devices. Users can immerse in a virtual environment and interact with 3D projections without the need to cover their faces with electronics. The real world just got an expansion pack in the infinite realm of the imagination. ArchiFiction, the company behind the invention, optimized the virtual experience with GIGABYTE's solution, which can process large amounts of data with high performance.
High Performance Computing (HPC) can complete complex and large-scale computational analysis workloads in a relatively short amount of time, bringing about many breakthroughs in scientific and technological development. HPC is also an indispensable tool for contemporary scientific research, and the number of fields that it can be applied to is constantly growing, such as for weather forecasting, earthquake imaging or genetic analysis. Even oil extraction can now rely on HPC to improve process efficiency and accuracy, allowing mining companies to save a huge amount of money and giving them a greater competitive advantage in the energy market.