Advanced Connectivity
Benefits of Advanced Solutions
Transitioning from legacy solutions to modern solutions, such as Secure Access Service Edge (SASE) and cloud-based connectivity, is highly advantageous for companies requiring advanced connectivity across multiple sites. Here are the top four benefits of advanced solutions.
Benefit #1 - Modern solutions provide a unified and centralized approach to network and security management, simplifying the overall infrastructure and reducing operational complexities.
Benefit #2 - SASE integrates essential networking and security functionalities, enabling organizations to efficiently manage and secure their distributed network environments without the need for separate point solutions.
Benefit #3 - Cloud-based connectivity offers scalability, flexibility, and cost-effectiveness, allowing businesses to easily scale their connectivity as needed and leverage the benefits of cloud services.
Benefit #4 - Modern solutions enhance agility and performance by leveraging advanced technologies like SD-WAN, enabling faster and more reliable connections between sites, ultimately improving productivity and user experience.
SD-WAN
Software Defined Wide Area Networking is the newest advancement for multi-location connectivity. This solution utilizes software-defined networking (SDN) principles to dynamically route traffic across multiple connections, including broadband, MPLS, LTE, and satellite. This allows for improved network efficiency, application performance, and redundancy. In addition, SD-WAN can simplify network operations by providing a single point of management and policy enforcement, regardless of the underlying transport technology.
With SD-WAN, multi-location businesses and corporations can easily configure and manage WAN connections, prioritize traffic, and enforce security policies, all through a central management console. This provides greater flexibility and agility in responding to changing business needs, such as adding new sites or deploying new applications. Overall, SD-WAN represents a significant advancement in WAN technology, providing greater performance, scalability, and cost savings for businesses of all sizes.
MPLS
MPLS (Multiprotocol Label Switching) can be defined as a type of networking technology that uses labels to efficiently route traffic over a Wide Area Network (WAN). Unlike traditional IP routing, which looks at the destination address of each packet to determine the next hop, MPLS uses labels to forward packets based on pre-defined paths or “label-switched paths” (LSPs).
MPLS can be used to create a private, secure WAN by creating virtual circuits between different locations. This is achieved by assigning each circuit a unique label that is used to route traffic between specific locations. By using MPLS, businesses can ensure high performance and low latency for critical applications, as well as provide Quality of Service (QoS) guarantees.
LAYER 2
layer 2 connectivity for businesses can be defined as a networking technology that allows for the transparent and secure transmission of data between devices on the same network segment. Layer 2 connectivity operates at the data link layer of the OSI model and is commonly used for connecting devices within a local area network (LAN).
Examples of layer 2 connectivity technologies include Ethernet, Virtual LAN (VLAN), and Virtual Private LAN Service (VPLS). These technologies provide businesses with a range of options for connecting devices within a local network segment, and can be used in combination with other networking technologies, such as layer 3 routing, to provide a comprehensive and scalable network infrastructure.
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