![]() ![]() But just like any other highway, the benefit they provide depends on how close they run to where you are travelling from and where you need to get to. This is where private backbones prove their value and enable highway-like connectivity to cloud deployments. Enterprises must therefore find an alternative way to optimize traffic to cloud datacenters. Looking beyond the obvious drawbacks of MPLS, namely high cost and operational rigidity for applications which have been migrated to the cloud, MPLS lines provide little to no value. SASE vs SD-WAN – What’s Beyond Security | Download eBook What are we trying to solve?Įnterprises have been relying on MPLS circuits to ensure connection quality between their offices and datacenters. And with all major public cloud providers now offering private backbones, there’s got to be one that’s right for you, right? Let’s take a deeper look at an enterprise’s connectivity needs and what private backbones have to offer. Why travel single-lane, congested and traffic-light ridden roads when you can take a multi-lane, obstacle free highway? This is a no-brainer. So, should you use a private backbone? Absolutely. ![]() A private backbone overcomes this and ensures traffic runs fast and smooth between any two locations within the provider’s network. ![]() The greater the connection’s distance, the greater the performance degradation we will typically experience. There are no performance guarantees in the public internet which means connections often suffer from high latency, jitter and packet loss. Private backbones enable high quality connections that don’t rely on the public Internet. Google’s recent announcement of the GCP Network Connectivity Center (NCC) joins other similar services such as Amazon’s AWS Transit Gateway and Microsoft’s Azure Virtual WAN. Private backbone services are all the rage these days. ![]()
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