Intel Hubs and Switches setup guide Conectando hubs, Conectando em um comutador

Page 11

Conectando hubs

Para conectar um hub (Hub 1) a outro hub (Hub 2) com um cabo de rede padrão, utilize as seguintes portas:

Hub 1: Out to Hub

Hub 2: Qualquer porta numerada

Somente utilize a porta Out to Hub para conectar um hub a uma porta numerada do outro hub ou comutador. Não conecte as portas Out to Hub de dois dispositivos.

Não utilize a porta Out to Hub e a porta adjacente simultaneamente no mesmo hub ou comutador.

Dicas:

Conecte os dois hubs com um cabo com comprimento menor que 5 metros (16 pés).

Não conecte um dispositivo de 10Mbps a um dispositivo de 100Mbps. Você pode conectar dispositivos de 10Mbps e 100Mbps a um hub ou comutador de 10/100Mbps.

Para expandir a sua rede acima de 3 hubs de 10Mbps vinculados, dois de 100Mbps vinculados ou dois de 10/100Mbps vinculados, você deve conectar em um comutador.

Conectando em um comutador

Para conectar um hub a um comutador, utilize as seguintes portas:

Hub: Out to Hub

Comutador: Qualquer porta numerada

Português do Brasil

59

Image 11
Contents Hubs Switches Intel InBusiness Hubs and Switches About Intel InBusiness Network Hubs and Switches Öó Intel InBusiness ôôu¹P櫹 Montando sua rede com hubs e comutadores Intel InBusiness Conteúdo Portas e cabos Uma breve descriçãoVelocidade de rede Conectando a rede de modo fácil Hubs e comutadoresConectando uma nova rede InstalaçãoCondições necessárias Ampliando sua rede com um comutador ou com hubs adicionais Conectando em um comutador Conectando hubsDicas para a organização dos componentes Não há indicador luminoso aceso no hub ou no comutador Solução de problemasRegistrando o seu produto Na Europa Suporte ao cliente IntelSuporte pela internet Técnicos de suporte ao cliente

Hubs and Switches specifications

Intel Hubs and Switches represent a pivotal advancement in the realm of networking and data communication. These components serve as the backbone of modern computer architectures, fostering efficient data transfer, enhanced performance, and reduced latency.

At the core of Intel’s networking solutions, Intel Hubs, particularly the Hub Architecture, were designed to streamline the intercommunication between the CPU, memory, and input/output devices. The introduction of the Hub Architecture allowed for a more organized data flow, which in turn minimized congestion and optimized the overall processing speed of a system. Unlike conventional architectures that rely heavily on a centralized bus system for communication, the hub approach utilizes multiple pathways, significantly improving bandwidth utilization.

Intel's chipset designs, particularly those featuring the Northbridge and Southbridge architecture, are critical in understanding how Hubs function. The Northbridge connects to high-speed components such as the CPU and RAM, while the Southbridge manages lower-speed peripheral buses, like USB and SATA. This distinction ensures that high-priority data can be processed without bottlenecking the overall communication system.

Switches, on the other hand, play a vital role in managing network traffic within local area networks (LANs). These devices are designed to receive, process, and forward data to the appropriate destination, thereby enhancing network efficiency. Intel’s switching technology leverages high-speed packet switching, which allows for faster data transmission rates and improves overall network performance.

Notable features of Intel Hubs and Switches include support for advanced protocols such as Ethernet, allowing for compatibility across a vast array of devices and networks. Furthermore, Intel’s commitment to energy efficiency is evident in their designs, which contribute to reduced power consumption without sacrificing performance.

The integration of technologies such as Intel QuickAssist and Intel Data Center Bridging provides additional advantages, enabling faster data processing and improved storage capabilities. Furthermore, advancements in security features, including encryption and authentication protocols, ensure that data remains secure as it traverses through Intel Hubs and Switches.

In summary, Intel Hubs and Switches are indispensable components in modern computing and networking systems. Their innovative architectures and technologies contribute to enhanced performance, security, and efficiency, positioning Intel at the forefront of the networking domain and facilitating the growing demands of data-driven applications. As technologies continue to evolve, Intel remains committed to delivering leading-edge solutions that meet the ever-changing landscape of connectivity and communication.