GIGABYTE has put three decades of know-how in motherboard design at the service of cutting-edge Server Motherboards. Always built with the best and most durable components, we make products suitable for both tower and rackmount servers with features for a wide range of professional applications.
GIGABYTE high density servers designed for hyper-converged infrastructure (HCI) and high-performance computing (HPC) are high-density multi-node servers with an innovative design that combines compute, storage, networking and even GPU support into a single system, which lead the market in terms of thermal performance and expansion slot capacity.
GIGABYTE's Tower Servers combine the latest generation processors and high-end GPU expansion cards with flexibility, ease of management, and rock-solid reliability, ideal as either a professional workstation or SME server for machine learning, software development, content creation, or 3D rendering.
Presenting a genuine alternative to x86 for your next server deployment, GIGABYTE’s Arm Servers offer an unprecedented level of integration and industry leading performance, as well as providing a high level of ecosystem readiness for mainstream cloud and HPC applications.
GIGABYTE is an industry leader in HPC, delivering systems with the highest GPU density combined with excellent cooling performance, power efficiency and superior networking flexibility. These systems can provide massive parallel computing capabilities to power your next AI breakthrough.
GIGABYTE's Storage Servers offer dense HDD / SSD capacity, configuration flexibility, high availability and reliability features, and a user friendly design for easy deployment and maintenance, making them ideal for applications such as software defined storage, Big Data and cloud hosting workloads.
GIGABYTE's Edge Servers place network connectivity functions as well as compute capability, applications and services at the edge, close to users where data is created. With lower latency, businesses can achieve real-time intelligent services with reduced cost of transmission.
Integrated with 2GB GDDR5 memory, 256-bit memory interface
Features Dual-link DVI-I/ DVI-D / HDMI / DisplayPort
BASE:1085MHz / BOOST:1150 MHz
System power supply requirement: 500W
Patented "Triangle Cool" Technology
GIGABYTE introduces the latest exclusive "Triangle Cool" Technology to reach a better cooling performance. The latest patented technology combines fin with clip module in a special triangle shape. With the original anti-turbulence structure plus the new triangle cooling design, it enhances the efficiency of heat dissipation dramatically by minimizing the flow of turbulence between fans. Therefore, the "Triangle Cool" Technology provides a more efficient air flow for the cooling system.
OC GURU ll
Brand-new instinctive user interface, easier to monitoring and adjusting all important settings. Users can set up MONITORING, GPU CLOCK, MEMORY CLOCK,FAN, OSD, ONLINE SUPPORT and update driver, BIOS directly.
Ultra Durable VGA™
Lower GPU Temperature Ultra Durable VGA board provides dramatic cooling effect on lowering both GPU and memory temperature by doubling the copper inner layer of PCB.
Better Overclocking Capability Ultra Durable VGA board reduces voltage ripples in normal and transient state, thus effectively lowers noises and ensures higher overclocking capability.
Decrease Power Switching Loss Ultra Durable VGA board allows more bandwidth for electron passage and reduces circuit impedance. The less circuit impedance, the more stable flow of current and can effectively improve power efficiency.
Up to 4 displays on a Single Card
Support up to four displays on a single card.
Satisfy your multi-screen setup, high definition and extreme gaming experience.
* Todos os materiais disponíveis são para simples referência. A GIGABYTE reserva o direito de modificar ou revisar o conteúdo a qualquer momento sem aviso prévio.
* Todas as marcas e logotipos são de propriedade de suas respectivas proprietárias.
* Devido a arquitetura padrão PC, uma quantia de memória é reservada para uso do sistema, portanto o tamanho da memória é menor do que a quantia exibida.