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FS S5800-48F4S MPLS Switch: the Best Mix of Layer 2 and Layer 3

SheldonUpdated at Nov 24th 20201 min read

To meet the challenges of explosive growth in network utilization while providing the opportunity to differentiate services, MPLS (Multiprotocol Label Switching) technology has dominated the enterprise private network market for nearly a decade. MPLS switches have been widely deployed as they integrate the data switching capability of Layer 2 with the proven scalability of Layer 3 routing without sacrificing the existing network infrastructure. This post will focus on the MPLS feature of FS S5800-48F4S SFP switch and its applications based on MPLS platform.
Figure 1: FS S5800-48F4S MPLS Switch
MPLS Basics–Multilayer Switching Integrating Layer 2 and Layer 3
MPLS is a protocol that uses labels instead of IP addresses for fast packet forwarding and routing within a network. MPLS provides a method to map IP addresses to fixed-length labels, and then classifies packets with the same forwarding process as the so-called Forwarding Equivalence Class (FEC). Each FEC is represented by a certain label. In MPLS network, the MPLS switch transfers data by popping off its label and sending the packet to the next switch label in the sequence. MPLS perfectly integrates the performance and traffic management capabilities of Layer 2 switching with the scalability and flexibility of Layer 3 routing.
MPLS vs. Conventional Packet Forwarding
In a conventional network, each switch performs an IP routing lookup, determines a next-hop based on its routing table, and then forwards a packet to that next-hop. With MPLS, only the first device does a routing lookup and directly finds the ultimate destination along with a path to that destination. It omits the process of finding the next hop, thus simplifying the forwarding procedures. MPLS has the following advantages over conventional packet forwarding:
Packets arriving at different ports can be assigned different labels.
A packet arriving at a particular provider edge (PE) switch can be assigned a label that is different from that of the same packet entering the network at a different PE switch. As a result, forwarding decisions that depend on the ingress PE switch can be easily made.
It is desirable to force a packet to follow a particular route that is explicitly chosen at or before the time the packet enters the network, rather than letting it follow the route chosen by the normal dynamic routing algorithm as the packet travels through the network.
In MPLS, a label can be used to represent the route so that the packet does not need to carry the identity of the explicit route.
MPLS comes with Fast Reroute feature to provide alternate backups for paths, thus preventing network degradation in case of a switch failure.
FS S5800-48F4S MPLS Switch Features Unveiling
To cater to the MPLS architecture in cloud computing and data center networks, many suppliers have developed various Ethernet switches suited for MPLS platform. For example, FS S5800-48F4S MPLS switch is a 10gbe switch with Layer 2 and Layer 3 features. It enables peer label switching router (LSR) in an MPLS network to exchange label binding information for supporting hop-by-hop forwarding. Each LSR in the network makes an independent, local decision as to which label value to use to represent a forwarding equivalence class. With support for advanced features, including MLAG, IPv4/IPv6, SFLOW, SNMP, etc, FS S5800-48F4S 10GbE MPLS switch is ideal for traditional or fully virtualized data centers.
Specifications of FS S5800-48F4S MPLS Switch
Switch Class
Layer2/3
Switching Capacity
176Gbps
CPU
Cavium CN5010-500BG564-CP-G/500MHz
Non-blocking Bandwidth
88Gbps
Latency
2.3us
Throughput
130.95Mpps
Jumbo Frames
9600 Bytes
Typical/Max Power Draw
75W
MPLS
Support
MLAG
Support
Typical Applications of FS S5800-48F4S MPLS Switch
As mentioned above, MPLS combines the powerful routing function of Layer 3 and the efficient forwarding mechanism of traditional Layer 2 in IP networks. It adopts the connection-oriented approach in the forwarding plane, which is very similar to the forwarding methods of existing Layer 2 networks. All these features enable MPLS to integrate with Layer 2 network seamlessly, thus providing optimum solutions for Virtual Private Networks (VPN) and Quality of Service (QoS).
MPLS-Based VPN
MPLS VPN refers to a method that utilizes MPLS to build a corporate IP private network over a backbone broadband IP network to implement cross-regional, secure, and high-speed multi-service communications. MPLS-based VPN consists of a set of sites that are interconnected using an MPLS provider core network. At each customer site, one or more customer edge switches are attached to one or more provider edge routers. Figure 2 illustrates an MPLS backbone network that includes three customer sites. Here we use three FS S5800-48F4S MPLS switches, each of which acts as a customer edge switch connected to VPN1, VPN2, and VPN3 respectively. Three provider edge routers are implemented here to manage VPN in the MPLS backbone network.
Figure 2: MPLS-Based VPN Using FS S5800-48F4S Switch
MPLS-Based QoS
MPLS also includes inherent Quality of Service (QoS) support, enabling users to specify limits for the packet loss and latency for each traffic type. As illustrated in Figure 3, two routers are deployed at provider edges to allow traffic flows in the MPLS core network. FS S5800-48F4S MPLS switches function at customer sites to allow subscribers to leverage a single network connection for multiple applications (such as voice and video here) without impacting desired performance. With an MPLS-based QoS environment, each application has a priority assigned to ensure that bandwidth is optimized by the needs of that application. This in turn allows IT managers to utilize a single connection for multiple applications and avoid the costs associated with multiple access charges.
Figure 3: MPLS-Based QoS Using FS S5800-48F4S Switch
Conclusion
MPLS technology proves to be the best mix of Layer 2 and Layer 3 networks. By supporting MPLS services, FS S5800-48F4S MPLS switch provides more scalability, better capability of management, and higher efficiency by ASIC forwarding compared with other packet forwarding solutions. FS also provides other types of MPLS switches such as FS S5900-24S with advanced L2/L3/MPLS features to meet the requirements of Carrier Ethernet and Enterprise network applications. We can always satisfy your switching requirements by offering various types of high-performance network switches, such as Gigabit PoE switches, 10gb switches, 100gb switches, etc. They are all with advanced functions and ready to serve as comprehensive networking solutions.
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