What is it?
A data center is a facility that an organization uses for housing their IT equipment, including servers, storage, networking devices (such as switches, routers and firewalls), as well as the racks and cabling needed to organize and connect this equipment. This equipment also requires infrastructure to support it such as power distribution systems (including backup generators and uninterruptable power supplies) and ventilation and cooling systems (such as air conditioning systems or liquid cooling systems). A data center can range in size from a single room to a massive multi-warehouse complex.
In 2005, the American National Standards Institute (ANSI) and the Telecommunications Industry Association (TIA) published standard ANSI/TIA-942, "Telecommunications Infrastructure Standard for Data Centers", which defines four tiers of data centers by various levels of reliability or resilience. For example, a Tier 1 data center is little more than a server room, while a Tier 4 data center offers redundant subsystems and high security.
Why you need it?
The core business and daily operations of almost all modern enterprises now require IT systems and computing power to support them, as well as store, manage and analyze the large amount of data they are gathering each day. Housing these systems in a centralized facility simplifies management and infrastructure efficiency, as well as making it easier to implement better reliability and security features.
Depending on their situation and requirements, an organization may choose to build and operate their own data center, house their server equipment in a data center owned and operated by a third party ("co-location data center"), or outsource all of their IT operations equipment and infrastructure to a third party provider ("cloud computing").
How is GIGABYTE helpful?
GIGABYTE is a leading supplier of server hardware used in data centers worldwide, including for some of the biggest companies involved in HPC (High Performance Computing) and cloud & web hosting services. Our product families include server systems for standard 19" racks based on a variety of CPU platforms (such as Intel Xeon, AMD EYPC and ARM) as well as 21" OCP Open Rack Standards compliant systems ("RACKLUTION-OP"), based on open-source design guidelines and specifications which aim to create more efficient, flexible, and scalable data center hardware.
GIGABYTE has also been working with a variety of data center liquid cooling infrastructure partners to help customers improve their data center PUE and reduce power consumption, including developing compatible products and solutions for direct-to-chip liquid cooling (liquid to liquid and liquid to air), one-phase oil immersion cooling, and two-phase liquid immersion cooling systems.
AdvancedSatisfying 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.
GIGABYT will illustrate the key functions and applications that made 5G a highly anticipated technology evolution, and the pivotal role MEC (Multi-access Edge Computing) plays in bringing 5G into our lives. Let’s take a digital tour to experience the splendid 5G future, enabled by GIGABYTE’s edge computing solutions!
Advanced[Video] CES 2020 Booth Tour
Our CES booth is luminously lit to disseminate a futuristic aura, and live at the booth are tech demos available for visitors to touch and experience. On the show floor are our product experts providing insights and sharing technology experience. Let's take a look at how you can find your smart innovations in GIGABYTE's solutions!
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.