The evolution of the Internet leaves its marks

Looking at the evolution of the Internet, it is clear that the impact on companies and our society grow with the growth of smart connections. Started with simple connections via e-mail or web and therefore the digitization of information access, followed by the networked economy, in which it came with e-commerce and collaboration to digitize business processes. This was followed by something Cisco called as „realistic experiences“. This includes the digitization of business and social interactions such as social media, mobile and cloud. The next state we will achieve is the „Internet of Everything“, where people, processes, data and things are connected – the digitization of the world.

Each block has its own importance in the Internet of Everything. The connections between people become more relevant and valuable. The right person or machine receives the right information about intelligent processes at the right time. The data are processed into valuable information for decision making. Physical devices (things) are connected via the Internet with each other to enable intelligent decisions.

At the T-Systems Symposium 2013 in Dusseldorf, Cisco said, that they expect about 50 billion Smart Objects in 2020 that are connected to each other. On the contrary, there are just 7.6 billion people expected worldwide. Furthermore, Cisco is of the opinion that currently 99 percent of the world is not interconnected and that we will see trillions of smart sensor in the future. These are installed e.g. in intelligent buildings, cities or houses and help to save energy and to live more efficiently. But they will also lead to increase productivity or improve healthcare.

Technological foundations for the fully interconnected world

Due to its massive scalability, distribution, new applications and the possibilities for anywhere access, the cloud is one of the main bases for the fully interconnected world. Therefore, Cisco’s cloud strategy is to enable cloud providers and enterprises to deploy and broker different kinds of cloud services. At the same time Cisco application platforms should be provided for different of cloud categories.

However, the cloud needs to be enriched by approaches from the Internet of Things. These include intelligent business processes, people to machine-2-machine communication as well as other things such as sensors and actuators which are distributed everywhere. In the end, a worldwide highly scalable infrastructure is necessary that can control temporal variations and requirements between the different workloads.

Another key component is therefore something that Cisco called Fog Computing. The fog hast he task to deliver data and workloads closer to the user who is located at the edge of a data connection. In this context it is also spoken about „edge computing“. The fog is organizationally located below the cloud and serves as an optimized transfer medium for services and data within the cloud. The term „fog computing“ was characterized by Cisco as a new paradigm , which should support distributed devices during the wireless data transfer within the Internet of Things. Conceptual fog computing builds upon existing and common technologies like Content Delivery Networks (CDN), but based on cloud technologies it should ensure the delivery of more complex services.

As more and more data must be delivered to an ever-growing number of users, concepts are necessary which enhance the idea of the cloud and empower companies and vendors to provide their content over a widely spread platform to the enduser. Fog computing should help to transport the distributed data closer to the enduser and thus decrease latency and the number of required hops and therefore better support mobile computing and streaming services. Besides the Internet of Things, the rising demand of users to access data at any time, from any place and with any device, is another reason why the idea of fog computing will become increasingly important.

So, the essential characteristic of Fog Computing is that workloads can autonomously operate from the cloud to ensure the rapid, timely and stable access of a service.

The interconnected world needs intelligent technologies

The current cloud deployment model set aside that the data are normally delivered directly and without an intermediate layer to the device or the end user. (Remark: There already exist CDN and edge locations, which thus provide caching and acceleration.) It is therefore assumed that the bandwidth for transmission of the data is maximum, and theoretically there is a delay of zero. However, this is only theoretically. In practice, high latencies and thus delays, poor elasticity and compared to the bandwidth significantly faster increasing amounts of data, lead to problems.

For this reason, approaches such as fog computing are required to be able to assume that a limited bandwidth, different delay times and dropped connections are available yet. Ideas such as the fog establish themselves as an intelligent intermediate layer, cache or as a kind of amplifier and coordinate the requirements of different workloads, data and information so that they are delivered independently and efficiently to the objects in the Internet of Everything.

You read it correctly, this is not about CLOUD Computing but FOG Computing. After the cloud is on a good way to be adapted in the broad, new concepts follow to enhance the utilization of scalable and flexible infrastructures, platforms, applications and further services to ensure the faster delivery of data and information to the enduser. This is exactly the core function of fog computing. The fog ensures that cloud services, compute, storage, workloads, applications and big data be provided at any edge of a network (Internet) on a trully distributed way.

What is fog computing?

The fog hast he task to deliver data and workloads closer to the user who is located at the edge of a data connection. In this context it is also spoken about „edge computing“. The fog is organizationally located below the cloud and serves as an optimized transfer medium for services and data within the cloud. The term „fog computing“ was characterized by Cisco as a new paradigm , which should support distributed devices during the wireless data transfer within the Internet of Things. Conceptual fog computing builds upon existing and common technologies like Content Delivery Networks (CDN), but based on cloud technologies it should ensure the delivery of more complex services.

What are use cases of fog computing?

One should not be too confused by this new term. Although fog computing is a new terminology. But looking behind the courtain it quickly becomes apparent that this technology is already used in modern data centers and the cloud. A look at a few use cases illustrates this.

Seamless integration with the cloud and other services

The fog should not replace the cloud. Based on fog services the cloud should be enhanced by isolating the user data which are exclusively located at the edge of a network. From there it should allow administrators to connect analytical applications, security functions and more services directly to the cloud. The infrastructure is still based entirely on the cloud concept, but extends to the edge with fog computing.

Services to set vertical on top of the cloud

Many companies and various services already using the ideas of fog computing by delivering extensive content target-oriented to their customer. This includes among others webshops or provider of media content. A good example for this is Netflix, who is able to reach its numerous globally distributed customers. With the data management in one or two central data centers, the delivery of video-on-demand service would otherwise not be efficiently enough. Fog computing thus allows providing very large amounts of streamed data by delivering the data directly performant into the vicinity of the customer.

Enhanced support for mobile devices

With the steadily growth of mobile devices and data administrators gain more control capabilities where the users are located at any time, from where they login and how they access to the information. Besides a faster velocity for the enduser this leads to a higher level of security and data privacy by data can be controlled at various edges. Moreover fog computing allows a better integration with several cloud services and thus ensures an optimized distribution across multiple data centers.

Setup a tight geographical distribution

Fog computing extends existing cloud services by spanning up an edge network which consist of many distributed endpoints. This tight geographical distributed infrastructure offers advantages for variety of use cases. This includes a faster elicitation and analysis of big data, a better support for location-based services by the entire WAN links can be better bridged as well as the capabilities to evaluate data massively scalable in real time.

Data is closer to the user

The amount of data caused by cloud services require a caching of the data or other services which take care of this subject. This services are located close to the enduser to improve latency and optimize the data access. Instead of storing the data and information centralized in a data center far away from the user the fog ensures the direct proximity of the data to the customer.

Fog computing makes sense

You can think about buzzwords whatever you want. Only if you take a look behind the courtain it’s becoming interesting. Because the more services, data and applications are deployed to the end user, the more the vendors have the task of finding ways to optimize the deployment processes. This means that information needs to be delivered closer to the user, while latency must be reduced in order to be prepared for the Internet of Things. There is no doubt that the consumerization of IT and BYOD will increasing the use and therefore the consumption of bandwidth.

More and more users rely on mobile solutions to run their business and to bring it into balance with the personal live. Increasingly rich content and data are delivered over cloud computing platforms to the edges of the Internet where at the same time are the needs of the users getting bigger and bigger. With the increasing use of data and cloud services fog computing will play a central role and help to reduce the latency and improve the quality for the user. In the future, besides ever larger amounts of data we will also see more services that rely on data and that must be provided more efficient to the user. With fog computing administrators and providers get the capabilities to provide their customers rich content faster and more efficient and especially more economical. This leads to faster access to data, better analysis opportunities for companies and equally to a better experience for the end user.

Primarily Cisco will want to characterize the word fog computing to use it for a large-scale marketing campaign. However, at the latest when the fog generates a similar buzz as the cloud, we will find more and more CDN or other vendors who offer something in this direction as fog provider.