QNAP Systems, Inc. has released two new half-width rackmount 16-port 10GbE switch models, the L2 Web Managed QSW-M3216R-8S8T and Unmanaged QSW-3216R-8S8T, offering eight 10GbE SFP+ fiber ports and eight 10GbE RJ45 ports for high-speed network infrastructures with flexible deployment in IT rooms or offices.
- Compact half-width rackmount design allows for flexible deployment in IT rooms or even on office desks
- Backward compatibility with 1G SFP and Multi-Gigabit NBASE-T (10G / 5G / 2.5G / 1G)
- Smart cooling system for stable high-speed network performance
QNAP Systems, Inc., a innovator in computing, networking, and storage solutions, has launched its latest offering in the form of the Half-width Rackmount 16-port 10GbE switch series. This series includes two models: the L2 Web Managed QSW-M3216R-8S8T and the Unmanaged QSW-3216R-8S8T. With eight 10GbE SFP+ and eight 10GbE RJ45 ports, these switches cater to the diverse interface and speed requirements of high-speed network infrastructures.
What sets these switches apart is their compact half-width rackmount design, allowing for flexible deployment in IT rooms or even on office desks. This feature is particularly beneficial for small and medium-sized businesses (SMBs) and organizations that face space constraints when it comes to dedicated IT hardware.
Jerry Deng, Product Manager of QNAP, expressed his enthusiasm for the new release, stating, “QNAP’s best-selling all 10GbE switch series now releases two new half-width rackmount 16-port 10GbE models, offering more 10GbE ports to satisfy requirements for multiple high-bandwidth network devices in SMBs and offices. Managed and unmanaged models are available for easily upgrading to a full 10GbE high-speed LAN at an affordable price, and their small physical footprint makes them especially useful for businesses and organizations that lack physical space for dedicated IT hardware.”
Both the QSW-M3216R-8S8T and QSW-3216R-8S8T come equipped with eight 10GbE SFP+ fiber ports and eight 10GbE RJ45 ports. These ports are also backward compatible with 1G SFP and Multi-Gigabit NBASE-T (10G / 5G / 2.5G / 1G). Notably, the existing 6a cables (or better) can achieve speeds of up to 10bps per 10GbE RJ45 port. Additionally, these switches comply with IEEE 802.3az Energy Efficient Ethernet and IEEE 802.3x Flow Control in full-duplex mode, ensuring minimal packet loss and reduced power consumption for low-speed and inactive connections.
Thanks to their half-width rackmount design, the QSW-M3216R-8S8T and QSW-3216R-8S8T can be conveniently installed in a 1U rack space, optimizing physical space utilization and facilitating tidy cabling in IT rooms or offices. Moreover, these switches boast a smart cooling system that guarantees stable high-speed network performance even under full load.
The QSW-M3216R-8S8T managed switch offers Layer 2 management functions such as LACP, VLAN, ACL, and LLDP through the user-friendly QNAP Switch System (QSS) with its intuitive web GUI. This enables efficient network bandwidth control and enhanced network security. Notably, the QSW-M3216R-8S8T is one of the few L2 web-managed switches that supports the Rapid Spanning Tree Protocol (RSTP), allowing users to deploy small/medium-scale networks that support expansion, redundancy, and loop prevention.
Key Specifications:
– Half-width rackmount design
– 16-port 10GbE switch series
– L2 Web Managed QSW-M3216R-8S8T and Unmanaged QSW-3216R-8S8T models
– Eight 10GbE SFP+ fiber ports
– Eight 10GbE RJ45 ports
– Backward compatibility with 1G SFP and Multi-Gigabit NBASE-T (10G / 5G / 2.5G / 1G)
– Up to 10bps speed per 10GbE RJ45 port with existing 6a cables (or better)
– Compliance with IEEE 802.3az Energy Efficient Ethernet and IEEE 802.3x Flow Control
– Half-width rackmount installation for efficient space utilization and tidy cabling
– Smart cooling system for stable high-speed network performance
– QNAP Switch System (QSS) with user-friendly Web GUI for Layer 2 management functions
– Support for Rapid Spanning Tree Protocol (RSTP) for expansion, redundancy, and loop prevention in small/medium-scale networks.
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Background Information
About QNAP:
QNAP Systems, founded in Taipei in 2004 by Meiji Chang, has become a global leader in NAS solutions with a strong focus on innovation and user-friendly design. Their strategic partnerships with industry giants and their commitment to pushing the boundaries of what NAS devices can do make them a noteworthy player in the tech world.Latest Articles about QNAP
Technology Explained
ACL: The Access Control List (ACL) is a technology used in the computer industry to control access to resources. It is a list of permissions associated with an object, such as a file or folder, that specifies which users or system processes are granted access to that object. ACLs are used to control who can read, write, or execute a file, as well as who can view or modify a folder. ACLs are also used to control access to network resources, such as printers, databases, and websites. By using ACLs, organizations can ensure that only authorized users have access to their data and resources.
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LACP: Link Aggregation Control Protocol (LACP) is a technology used in the computer industry to combine multiple physical network links into one logical link. This allows for increased bandwidth and reliability, as well as improved network performance. LACP is used in a variety of applications, such as virtualization, cloud computing, and storage networking. It is also used in high-performance computing, where multiple physical links are used to increase the speed of data transfer. LACP is also used in network security, as it allows for the creation of redundant links that can be used to protect against network outages. In addition, LACP is used in network monitoring, as it allows for the monitoring of multiple links at once.
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LLDP: Link Layer Discovery Protocol (LLDP) is a technology used in computer networks to allow network devices to communicate with each other and exchange information. It is a vendor-neutral protocol that allows devices to advertise their capabilities, such as their port speed, VLANs, and other information. This allows network administrators to easily identify and configure devices on the network. LLDP is used in many industries, including the computer industry, to help manage and configure networks. It is also used to help troubleshoot network issues, as it can provide detailed information about the devices on the network. LLDP is an important tool for network administrators, as it helps them to quickly identify and configure devices on the network, as well as troubleshoot any issues that may arise.
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RSTP: Rapid Spanning Tree Protocol (RSTP) is a computer networking protocol that helps to quickly establish a loop-free network topology. It is used in Ethernet networks to prevent broadcast storms, which can cause network outages. RSTP works by creating a tree-like structure of the network, where each node is connected to a single root node. This tree-like structure ensures that there are no loops in the network, which can cause broadcast storms. RSTP is used in many computer networks, such as corporate networks, data centers, and home networks. It is also used in wireless networks, such as Wi-Fi networks, to ensure that the network is stable and secure. RSTP is an important part of the computer industry, as it helps to ensure that networks are reliable and secure.
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VLAN: VLAN (Virtual Local Area Network) is a technology used in computer networking that allows for the segmentation of a physical network into multiple logical networks. It is used to create multiple isolated networks within a single physical network, allowing for greater flexibility and control over network traffic. VLANs are commonly used in the computer industry to separate different departments or groups of users, such as those in a large organization, or to provide secure access to a network. VLANs can also be used to segment a network into multiple virtual networks, allowing for greater control over network traffic and improved security. Additionally, VLANs can be used to provide access to a network from remote locations, such as from home or from a mobile device.
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