2 Overview of Multi Cloud Connectivity

It can be difficult to know where to begin if you are inexperienced with multi cloud connectivity. This comprehensive book covers the fundamentals of multi cloud connectivity, how it can benefit your business, and how to get started.

Even if you’ve only dabbled in the cloud, you’ve definitely heard the word “multi cloud connectivity” a lot – and for good reason. With an estimated 94% of enterprises having a multi cloud connectivity network by 2024, it’s a model many are flocking to as they transition away from traditional infrastructure.

Essentially, multi cloud is just that: multiple clouds. If a business is opting for multi cloud, instead of “using one vendor for cloud hosting, storage, and the full application stack, in a multi cloud configuration they use several.” When we talk about multi cloud, we’re typically referring to the suite of the key players in Cloud Service Providers (CSPs), namely Amazon Web Services (AWS), Microsoft Azure, and Google Cloud, who take up 33%, 21%, and 10% of cloud market share respectively as at Q4, 2021 – but there are dozens of others out there. In this article, newlifedn.com will discuss 2 overview of multi cloud connectivity

What is multi cloud connectivity networking?

Multi cloud connectivity networking, in particular, is the connectivity and/or management of connectivity with multiple clouds, which enables a holistic cloud computing deployment model rich in functions.

The National Institute of Standards and Technology defines the different cloud computing deployment models this way:

Private cloud: The cloud infrastructure is provisioned for exclusive use by a single organization comprising multiple consumers. It may be owned, managed, and operated by the organization, a third party, or some combination of them, and it may exist on or off premises.
Public cloud:The cloud infrastructure is available for general public use. It could be owned, controlled, and operated by a business, academic institution, or government agency, or some mix of these. It exists on the cloud provider’s premises.
Hybrid cloud: The cloud infrastructure is made up of two or more independent cloud infrastructures (private or public) that remain distinct entities but are linked by standardized or proprietary technology that allows data and application portability.

Multi cloud networking utilizes a variety of network virtualization, integrations, and application-layer technologies to ensure that the applications delivered from multiple clouds are accessible to an enterprise end user.

What are the benefits of multi cloud connectivity networking technology?

There are a number of networking challenges to using multiple clouds:

The networks of each public cloud are slightly different. Capacity, topology, and bandwidth availability can all be slightly different, which complicates management, administration, and orchestration.
Because public clouds are not built to communicate with one another, it is more challenging to execute applications across various clouds.
When managing multi cloud networks, security and compliance risks must also be considered.

Multi cloud networking technology can provide a broad collection of features to address the demand for improved visibility and insight into the networking that enables cloud services to function, hence optimizing returns on cloud expenditures. A multi cloud architecture is end-to-end by definition, and it is more than simply a network of data centers and public clouds; it also includes the capacity to connect applications to each other as well as to campus and branch sites. Multi cloud network technology also offers the following advantages:

Low latency: It takes time to access data and programs stored in different parts of the cloud. Delays or latency occur when traffic must traverse multiple nodes before reaching end consumers. The cloud location closest to end users can provide this data with the suitable multi cloud connectivity network, decreasing latency. Cloud routers can also be used to reduce the distance between an application and its end user. This feature is particularly valuable for enterprises that need to send data to numerous geographic areas while keeping a cohesive end user experience.
Independence: While providers make it simple to migrate workloads to their cloud, the caveat is that public clouds tend to encourage clients to maintain their data and apps within their infrastructure, making exit difficult (and costly). Of course, this contradicts one of the key motivations for moving to the cloud: the flexibility to operate apps without having to care about the underlying infrastructure. However, multi cloud network technologies enable enterprises to more easily mix and match platforms and vendors, allowing them to avoid being tied to specific cloud providers. Companies that use multi cloud network technologies can also modify their cloud infrastructure as their business demands evolve.
Disaster recovery: Cloud services are now supplied from many, redundant data centers that are connected by a single cloud network. Although providers normally provide a high level of availability as part of their SLA (at least 99.9%), if that improbable outage event occurs, most enterprises will experience downtime. The risk of downtime is much reduced with a dispersed workload across numerous cloud networks than with a single cloud. Multi cloud connectivity systems also provide greater possibilities for proactive risk mitigation.

The complexity, costs, and hazards of maintaining a multi cloud connectivity environment may appear to be multiplied, but firms may alleviate some of that management complexity and risk by using the correct set of tools to monitor and operate a network of networks efficiently.