Description
8 GB Single Power Fibre Channel Technology
The 8 GB Single Power Fibre Channel technology refers to the data transfer rate and power supply design of the BK780B HPE Sn6000 Stackable Switch.
Single Power Fibre Channel refers to a design in which the switch has a single power supply instead of having separate power supplies for different components. This design provides the switch with a compact and efficient power supply, reducing the power consumption and making it more energy efficient.
The 8 GB part of the technology refers to the data transfer rate. 8 GB Fibre Channel is a high-speed network technology that enables data transfer at a rate of 8 gigabits per second. This is a significant improvement over previous generations of Fibre Channel technology, which provided data transfer rates of 1, 2, or 4 gigabits per second.
The 8 GB Single Power Fibre Channel technology in the BK780B HPE Sn6000 Switch provides high-speed data transfer and efficient power supply, making it a reliable and cost-effective solution for organizations that require fast and secure data transfer.
Reliable Connectivity
Reliable connectivity refers to the ability of a network system to provide stable and continuous data transfer between devices. This means that the data being transferred is transmitted accurately and without interruption, ensuring that the information is delivered to its intended destination.
In the context of the BK780B HPE Sn6000 Stackable Switch, reliable connectivity refers to the switch’s ability to provide a stable and secure network connection for all connected devices. This is achieved through a combination of hardware design, advanced software features, and robust protocols that ensure the switch can handle high-volume data transfer without any interruptions or data loss.
Additionally, the switch provides multiple redundancy options, such as multiple uplinks and stacking capabilities, that increase the reliability of the network connection. This means that even if one component fails, the network can continue to operate normally, providing uninterrupted data transfer to all connected devices.
Compatible Operating Systems
Compatible operating systems refer to the various types of computer operating systems that can be used with the BK780B HPE Sn6000 Stackable Switch. Operating systems are the software platforms that run on computers and other devices, providing the necessary interface and tools for users to interact with the hardware and access applications.
When it comes to network switches, compatibility with operating systems is important because it determines the range of devices that can be connected to the switch and the level of functionality that can be achieved.
The BK780B HPE Sn6000 Stackable Switch is compatible with a range of operating systems, including popular ones like Microsoft Windows, Linux, and various Unix-based systems. This means that a wide range of computers, servers, and other devices can be connected to the switch, providing organizations with the flexibility to choose the most suitable operating system for their needs.
Compatibility with different operating systems is important because it enables organizations to deploy the switch in a variety of environments and scenarios, making it a flexible and versatile solution for their network needs.
Detail Description
- Manufacturer: HP
- Manufacturer Part Number: BK780B
- Type: Networking
- Sub-Type: Switch 12 Ports
- Device Type : Switch – 12 Ports – Managed – Stackable
- Enclosure Type : Rack-Mountable – 1u
- Ports : 8 X 8gb Fibre Channel Sfp+ + 12 X 8gb Fibre Channel Sfp+ Ports On Demand + 4 X Xpak
- Fibre Channel : Fc-Al-2, Fc-Da, Fc-Ph-2, Fc-Ph-3, Fc-Tape, Fc-Vi, Fc-Sp, Fc-Ls, Fc-Mi-2, Fc-Pi-4, Fc-Fs-3, Fc-Gs-6, Fc-Pi-3, Fc-Sw-5
- Remote Management Protocol : Snmp, Tftp, Smi-S, Ssh, Cli
- Encryption Algorithm : Ssl
- Authentication Method : Secure Shell (Ssh), Radius
Expansion / Connectivity
- Interfaces: 1 X 10base-T/100base-Tx – Rj-45 – Management 1 X Rs-232 – 9 Pin D-Sub (Db-9) – Management 20 X 8gb Fibre Channel – Sfp+ 4 X 10gb Fibre Channel – Xpak
