Success CaseThe European Organization for Nuclear Research Delves into Particle Physics with GIGABYTE Servers
The European Organization for Nuclear Research (CERN) bought GIGABYTE's high-density GPU Servers outfitted with 2nd Gen AMD EPYC™ processors. Their purpose: to crunch the massive amount of data produced by subatomic particle experiments conducted with the Large Hadron Collider (LHC). The impressive processing power of the GPU Servers’ multi-core design has propelled the study of high energy physics to new heights.
Success CaseDecoding the Storm with GIGABYTE’s Computing Cluster
Waseda University, the “Center for Disaster Prevention around the World”, has built a computing cluster with GIGABYTE’s GPU server and tower servers. They use it to study and prepare for natural disasters, such as tsunamis and storm surges. Efforts go into understanding the tropical cyclones of tomorrow, which are thought to become more dangerous due to climate change.
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.
Success CaseOver 100,000 Pokémon Fanatics Gather to Catch ‘Em All - See How GIGABYTE’s High Density Servers Help Maintain Law & Order
Large scale events can lead to a sudden surge in crowds, creating cellular network congestion. Even if the user capacity of a cell tower user is upgraded, the network operator is still unable to cope with an abrupt increase in demand. In 2019 Industrial Technology Research Institute (ITRI) therefore designed and built a “Private Cell Mobile Command Vehicle”, which can deploy a pre-5G private cellular network to avoid the problem of commercial network traffic jams. The vehicle provides the New Taipei City Police Department with smooth, uninterrupted cellular network service, allowing the police staff to remotely monitor real time footage of large scale events and deploy police resources where needed, increasing the efficiency of providing event security and safety. GIGABYTE’s H-Series High Density Servers are also helping to support ITRI’s “Private Cell Mobile Command Vehicle” by reducing the complexity of back-end infrastructure – each server combines computing, storage and networking into a single system, allowing for resources to be centralized and shared across different applications. The servers also optimize the use of time and manpower by combining and centralizing applications to simplify management procedures.
GPU-accelerated servers are used in industries such as oil and gas exploration to deliver powerful computing capabilities, helping to quickly and accurately analyze large and complex data sets to reduce exploration costs. GIGABYTE uses industry-leading HPC technologies to provide customers in the oil and gas industry with GPU-accelerated servers that deliver top-tier computing performance.
Success CaseSatisfying 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.
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.
In the 21st century, various breakthroughs in image creation and animation have been made using powerful computer graphics capabilities. Whether it is a perfect montage of virtual and real images, or exquisitely gorgeous visual effects, High Performance Computing (HPC) empowers artists using technological media to convey a wealth of ideas that will exceed your wildest imagination. Taiwan’s National Center for High-Performance Computing has adopted GIGABTYE’s GPU servers to provide the best computing performance capabilities possible for their Render Farm service.
The application of technological innovation to the financial industry has made the availability of information channels for investors ever more extensive. Investors want to keep their finger on the pulse of global finance, whether it is the price of stocks or futures in important financial markets, or receiving the most immediate financial news available. When processed by GIGABYTE’s Rack Servers, this huge and complex amount of data can be swiftly and systematically analyzed before being immediately transmitted and presented, helping people in the financial industry make more accurate decisions and seize more profitable opportunities.
When the German Aerospace Center (Deutsches Zentrum für Luft- und Raumfahrt, abbreviated as DLR) wanted to expand their data center, they searched for servers that could operate smoothly in an ambient temperature of 40°C without the need for air conditioning. GIGABYTE’s server team provided a solution from its High Density Server product line that combined computing, storage, and connectivity in a single system. The High Density Servers are equipped with liquid-cooling technology to run without a hitch in high-temperature environments, enabling the data center to efficiently process an enormous amount of space-related research data in the limited space available.