Click here to close now.



Welcome!

Java IoT Authors: Jnan Dash, Sanjay Uppal, AppDynamics Blog, Pat Romanski, Scott Allen

Related Topics: SDN Journal, Java IoT, Industrial IoT, Microservices Expo, Containers Expo Blog, @CloudExpo

SDN Journal: Article

Software Defined Networking – A Paradigm Shift

Now it's all about orchestrated service delivery

The networking industry has gone through different waves over last 30+ years. In the '80s, the first wave was all about connecting and sharing; how to connect a computer to other peripheral devices and other computers. There were many players who developed technology and services to address that, e.g. Novell, 3Com, Sun, IBM, DEC, Nortel. Across the industry, small islands of various protocols were created with multiple gateways to bridge them.

In 90's and 00's, Cisco dominated the industry and did a brilliant job of pushing the industry towards a common approach built on Ethernet.  They built a hugely successful business and ecosystem and even created new markets like VoIP on the proposition that networking should be on a common highway. We also saw isolation of networks from the rest of the IT infrastructure, in the sense that software innovations continued in the server and storage environments independent of the network area. The focus also remained on different components of the infrastructure and not on the ‘service' delivered by the combination of those infrastructure components, i.e., server, storage and network.

Now, it is all about orchestrated service delivery which requires standards-based open approach. According to Gartner reports on Emerging Technology Analysis and Key Issues for Communications Strategies, a) over 50% workloads will be virtualized by the end of 2012 thanks to Cloud computing, and b) more than 80% of traffic will be server-to-server by 2014 due to federated applications and virtualization.

In this article, I attempt to highlight why we have reached limits of current network technology, how Software Defined Networking will lead the next wave of innovations and its benefits to the IT industry. Today, network elements like switches and routers have resident software in each box. The software in the box provides intelligence using distributed algorithms to decide how each packet should be handled by it. In order for the entire network to function properly, the software in each box must work in coordination with other boxes.  This approach has served us well so far.

The coordinated distributed algorithms however make it difficult to introduce a change on the fly. We have to reconfigure the embedded software on all network components (often called boxes) to implement any change.  On the other hand, the wave of virtualization demands flexible, adaptive and nimble networks. This wave exposes limitations of the current networking approach, which is inflexible and protocol-heavy. As distributed algorithms are used, not one box has a global view of the network. This results in over provisioning at the time of designing and guess-work while trouble-shooting. For large cloud deployments, compute and storage environments can be virtualized and consumed easily but because of the limitations of networks, its full potential is not realized.

Typically, a network administrator spends a lot of time planning and then configuring the network components with changing business requirements and varying network traffic. Network administrators learn a lot by trial and error and the resulting expertise based on experience is limited to the experienced few.

OpenFlow History
Research students at Stanford, Berkley and other universities found it hard to experiment with their networks because the software is embedded in each switch or a router and any change has to be coordinated between vendors to make the distributed algorithms interoperable to provide the functionality they needed for research & experimentation. It is with this simple objective that the idea of OpenFlow was born. The first step that these researchers took was to develop ability to program switches, from a remote controller. The OpenFlow protocol was developed to support communication between a switch and a controller. It allows external control software to control the data path of a switch, bypassing traditional L2 and L3 protocols and associated configurations. OpenFlow protocol defines messages, such as packet-received, send-packet-out, modify-forwarding-table, and get-stats. The researchers added OpenFlow support to existing boxes and allowed OpenFlow controller to program part of Flow-Table entries for research and experimentation while rest of the box worked as before. This gave them control over switches from a controller running on a remote industry standard server. This was the start of OpenFlow which basically separated the physical or data layer from the control layer.

ONF Background
OpenFlow and SDN became quite popular in the research community and several service providers and some vendors started to see the value of this approach. Researchers from Stanford and Berkeley took the lead but Open Networking Foundation (ONF) was founded by leading providers (Google, Yahoo!, Microsoft, Facebook, Deutsche Telecom, and Verizon). Some vendors, like HP, expressed their support from the beginning. ONF is the body which defines, standardizes and enhances OpenFlow protocol. ONF has a bigger charter with SDN that goes beyond OpenFlow protocol. It promotes SDN and may standardize different parts of SDN. As a policy, vendors cannot join its board but can become members of ONF and lead some working groups. Vendors have influence over the emerging standard though they don't set the overall agenda and they don't make final decisions on what is standardized and what is not.

Another interesting point is that ONF wants to do as little standardization as possible to encourage creativity. At first it sounded a bit conflicting but ONF looks at the software industry and tries to follow it by taking its best practices. When you look at the software industry, there are fewer standards than the network industry and it has created more innovations and jobs than the network industry. The Network industry has too many protocols defined and standardized, resulting in more complexity and fewer innovations. Academicians are influencing ONF and ensuring that we don't end up with another rigid, inflexible and protocol heavy networking world. ONF has 66 members today and its membership costs $30k/year. This is relatively high compared to other such bodies and the reason could be to ensure that only genuinely interested parties become members. We know that breakthrough innovations would come from small start-ups, some of whom would find it difficult to spend so much for the annual membership.  On the other hand, ONF ensures that the development made as part of their body is made available to all members at no charge or royalty etc. One would end up spending more than $30k in lawyer's fees to get the royalty arrangements sorted out.

Early Adopters
Google, Amazon, Rackspace, etc., have already implemented OpenFlow based networks, using proprietary hardware and in-house developed software. We see many new start-up focused on this new area to develop applications that leverage virtualized network. Most cloud providers manage huge data centers. "Every day Amazon Web Services (AWS) adds enough new capacity to support all of Amazon.com's global infrastructure through the company's first 5 years, when it was a $2.76 billion annual revenue enterprise" according to Jim Hamilton, their VP at large.

Google embraced OpenFlow very early on. Google's inter-datacenter production network, largest in the world by traffic, runs on OpenFlow and SDN. Google proved that OpenFlow based networks can scale and deliver its promise. The biggest use case, according to Google, for Central controllers is the fact that we can do re-routing, anticipating an event, e.g. if we know that we are introducing a new service which will lead to traffic load, we can pre-provision network in a way to best optimize infrastructure resources. If a small business, say a Flower shop, expects more traffic and compute power on a Valentine day, it is easy to have compute and storage power made available with standard virtualization technology available today. But to make network resources available on demand is challenging. This is where an OpenFlow controller controlling switches can easily provide necessary bandwidth and then tear it down or redirect the network resources for other requests. Google example is impressive but one could argue that how many enterprise customers could afford or dare to do what Google can do. Moreover, just because it made a business case for Google does not mean that it can make a business case for everyone. Each customer will have to evaluate their network, future growth requirements etc and see if there is a positive business case.

Flexibility Galore
Software Defined Networking (SDN) can help you make the network ready for Cloud-bursting as and when required. SDN opens up many possibilities. For example;

  1. Packet Flow redirection: There is a lot of video traffic coming from sources we trust. Security services on such traffic are not required for some applications. As security services are extremely infrastructure-hungry and CPU-intensive, passing all data to it leads to a sprawl of security devices (many IDS/ IPS, DPI appliances) to monitor traffic. With OpenFlow we can easily redirect traffic away from the costly resources for trusted traffic.
  2. Policy Management: Because you now have global view of the network and can control the network with software running on OpenFlow controller, defining and implementing business policies become easier, e.g. better bandwidth management: In case of excess traffic which is not anticipated, the controller can make sure to program the network in such a way that higher priority business traffic is given more resources than low priority traffic.
  3. Virtual Application Network: The OpenFlow controller lets us create virtual networks for different applications on one physical network, such that different applications can have different bandwidth and QoS based on their requirements, with auditable network isolation between applications and simpler compliance (a requirement for the financial industry). One can provide each customer a separate virtual domain for them to manage
  4. Network Security: OpenFlow can be used to make networks more secure and agile. The OpenFlow controller allows us to monitor and manage network security and
    -Dynamically insert security services at any point in the network (on-demand firewall or IDS/IPS, for example)
    -Monitor traffic and re-direct suspect flows for full inspection
    -Combine per-flow QoS control with network management systems to leverage traffic and end-user identity information
    -Dynamically detect and mitigate attacks due to infected PCs by using  signature/reputation database to create rules that address specific attacks
  5. Proprietary Appliances: It is very common today to deploy appliances in the network to deliver specific functionalities. These proprietary appliances can be replaced with an OpenFlow controller and a software application delivering the specific functionality. Communication Service Providers have a significant number of network services that can take advantage of virtualization and industry standard servers. Many application specific appliances that are running on custom ASIC (WAN optimization, Firewalls, DPI, SPAM/MAIL appliances, IDS etc) are good candidates for the SDN approach.
  6. As SDN matures, a couple of years down the road, more futuristic use case is to monitor traffic patterns, generate intelligence and then use the intelligence to anticipate traffic patterns and  optimize available resources. Using this kind of intelligence, we can actually reduce power consumption, too. For example, if we know the usage of the network is less during the nights and early mornings, we can shut off parts of the network in such a way that we still get complete connectivity, yet not have the complete network up.

My Take
The list of use cases is growing on a daily basis and will continue to grow even faster as the pace of innovation increases. The number of new start-ups in this area is increasing rapidly. Finally, the networking field, which has been quite dull from the perspective of new innovations, is going to be more vibrant and exciting with new possibilities. Moreover, if ONF is successful in maintaining ‘Open standards', SDN will allow plug and play with multivendor products, empowering IT and Network operators to be more cost-effective and adaptive to agility requirements of a business. We will see that with SDN, the network industry will mirror the innovations and developments seen in the server and storage fields.

Some vendors want to have API's well-defined for applications to leverage OpenFlow controllers or have more protocols supported. It is prudent on the part of ONF not to define and standardize too much and let the market define what an acceptable standard is. It is important to keep OpenFlow protocol unrestricted by defining and standardizing not more than what is absolutely required. This will fuel innovations.

OpenFlow protocol is in its infancy but it has generated tremendous interest from customers, researchers as well as vendors. One can argue that it is not fully matured or ready for prime time but most agree that it will change the network industry fundamentally. It will make the industry more flexible, nimble and drive more innovations. This train has left the station while some debate that its destination is not well-defined or its ETA is not known. The hardware vendors will have to accept the fact that networking hardware will be commoditized just like servers and storage. OpenFlow/SDN, for sure, opens up opportunities for different network based applications. This is where current vendors will have to focus on to continue to play a major role in the future. Network administrators will not be spending hours reconfiguring switches and routers. They will have to get skilled on how to control, manage, test and implement changes from a central controller.

Although the OpenFlow protocol is defined, there are not many vendors in the market supporting its latest version 1.3. Moreover, there is a lack of tools to test, monitor and manage this new environment. HP and other major vendors have openly embraced OpenFlow and are investing in it. HP was one of the first major network vendors to invest in this area, with 60+ deployments of 16 different switches supporting OpenFlow. HP is also leading one of the task forces of ONF to evolve the OpenFlow protocol. With its traditional strength in IT performance & operations (test, monitor and manage) management and telecom OSS, HP is well-positioned to deliver a complete future-proof infrastructure solution, (consisting of server, storage, networking, software, security and analytics) for enterprise IT as well as telecom service providers.

More Stories By Kapil Raval

Kapil Raval is an experienced technology solutions consultant with nearly 20 years of experience in the telecom industry. He thinks ‘the business’ and focuses on linking business challenges to technology solutions. He currently works for HP and drives strategic solutions in the telecom vertical.

Comments (0)

Share your thoughts on this story.

Add your comment
You must be signed in to add a comment. Sign-in | Register

In accordance with our Comment Policy, we encourage comments that are on topic, relevant and to-the-point. We will remove comments that include profanity, personal attacks, racial slurs, threats of violence, or other inappropriate material that violates our Terms and Conditions, and will block users who make repeated violations. We ask all readers to expect diversity of opinion and to treat one another with dignity and respect.


@ThingsExpo Stories
SYS-CON Events announced today that Commvault, a global leader in enterprise data protection and information management, has been named “Bronze Sponsor” of SYS-CON's 18th International Cloud Expo, which will take place on June 7–9, 2016, at the Javits Center in New York City, NY, and the 19th International Cloud Expo, which will take place on November 1–3, 2016, at the Santa Clara Convention Center in Santa Clara, CA. Commvault is a leading provider of data protection and information management...
The cloud promises new levels of agility and cost-savings for Big Data, data warehousing and analytics. But it’s challenging to understand all the options – from IaaS and PaaS to newer services like HaaS (Hadoop as a Service) and BDaaS (Big Data as a Service). In her session at @BigDataExpo at @ThingsExpo, Hannah Smalltree, a director at Cazena, will provide an educational overview of emerging “as-a-service” options for Big Data in the cloud. This is critical background for IT and data profes...
SYS-CON Events announced today that VAI, a leading ERP software provider, will exhibit at SYS-CON's 18th International Cloud Expo®, which will take place on June 7-9, 2016, at the Javits Center in New York City, NY. VAI (Vormittag Associates, Inc.) is a leading independent mid-market ERP software developer renowned for its flexible solutions and ability to automate critical business functions for the distribution, manufacturing, specialty retail and service sectors. An IBM Premier Business Part...
SYS-CON Events announced today that Alert Logic, Inc., the leading provider of Security-as-a-Service solutions for the cloud, will exhibit at SYS-CON's 18th International Cloud Expo®, which will take place on June 7-9, 2016, at the Javits Center in New York City, NY. Alert Logic, Inc., provides Security-as-a-Service for on-premises, cloud, and hybrid infrastructures, delivering deep security insight and continuous protection for customers at a lower cost than traditional security solutions. Ful...
Fortunately, meaningful and tangible business cases for IoT are plentiful in a broad array of industries and vertical markets. These range from simple warranty cost reduction for capital intensive assets, to minimizing downtime for vital business tools, to creating feedback loops improving product design, to improving and enhancing enterprise customer experiences. All of these business cases, which will be briefly explored in this session, hinge on cost effectively extracting relevant data from ...
With the Apple Watch making its way onto wrists all over the world, it’s only a matter of time before it becomes a staple in the workplace. In fact, Forrester reported that 68 percent of technology and business decision-makers characterize wearables as a top priority for 2015. Recognizing their business value early on, FinancialForce.com was the first to bring ERP to wearables, helping streamline communication across front and back office functions. In his session at @ThingsExpo, Kevin Roberts...
SYS-CON Events announced today that Interoute, owner-operator of one of Europe's largest networks and a global cloud services platform, has been named “Bronze Sponsor” of SYS-CON's 18th Cloud Expo, which will take place on June 7-9, 2015 at the Javits Center in New York, New York. Interoute is the owner-operator of one of Europe's largest networks and a global cloud services platform which encompasses 12 data centers, 14 virtual data centers and 31 colocation centers, with connections to 195 ad...
With an estimated 50 billion devices connected to the Internet by 2020, several industries will begin to expand their capabilities for retaining end point data at the edge to better utilize the range of data types and sheer volume of M2M data generated by the Internet of Things. In his session at @ThingsExpo, Don DeLoach, CEO and President of Infobright, will discuss the infrastructures businesses will need to implement to handle this explosion of data by providing specific use cases for filte...
As enterprises work to take advantage of Big Data technologies, they frequently become distracted by product-level decisions. In most new Big Data builds this approach is completely counter-productive: it presupposes tools that may not be a fit for development teams, forces IT to take on the burden of evaluating and maintaining unfamiliar technology, and represents a major up-front expense. In his session at @BigDataExpo at @ThingsExpo, Andrew Warfield, CTO and Co-Founder of Coho Data, will dis...
SYS-CON Events announced today that Fusion, a leading provider of cloud services, will exhibit at SYS-CON's 18th International Cloud Expo®, which will take place on June 7-9, 2016, at the Javits Center in New York City, NY. Fusion, a leading provider of integrated cloud solutions to small, medium and large businesses, is the industry's single source for the cloud. Fusion's advanced, proprietary cloud service platform enables the integration of leading edge solutions in the cloud, including clou...
Most people haven’t heard the word, “gamification,” even though they probably, and perhaps unwittingly, participate in it every day. Gamification is “the process of adding games or game-like elements to something (as a task) so as to encourage participation.” Further, gamification is about bringing game mechanics – rules, constructs, processes, and methods – into the real world in an effort to engage people. In his session at @ThingsExpo, Robert Endo, owner and engagement manager of Intrepid D...
Eighty percent of a data scientist’s time is spent gathering and cleaning up data, and 80% of all data is unstructured and almost never analyzed. Cognitive computing, in combination with Big Data, is changing the equation by creating data reservoirs and using natural language processing to enable analysis of unstructured data sources. This is impacting every aspect of the analytics profession from how data is mined (and by whom) to how it is delivered. This is not some futuristic vision: it's ha...
WebRTC has had a real tough three or four years, and so have those working with it. Only a few short years ago, the development world were excited about WebRTC and proclaiming how awesome it was. You might have played with the technology a couple of years ago, only to find the extra infrastructure requirements were painful to implement and poorly documented. This probably left a bitter taste in your mouth, especially when things went wrong.
Learn how IoT, cloud, social networks and last but not least, humans, can be integrated into a seamless integration of cooperative organisms both cybernetic and biological. This has been enabled by recent advances in IoT device capabilities, messaging frameworks, presence and collaboration services, where devices can share information and make independent and human assisted decisions based upon social status from other entities. In his session at @ThingsExpo, Michael Heydt, founder of Seamless...
The IoT's basic concept of collecting data from as many sources possible to drive better decision making, create process innovation and realize additional revenue has been in use at large enterprises with deep pockets for decades. So what has changed? In his session at @ThingsExpo, Prasanna Sivaramakrishnan, Solutions Architect at Red Hat, discussed the impact commodity hardware, ubiquitous connectivity, and innovations in open source software are having on the connected universe of people, thi...
WebRTC: together these advances have created a perfect storm of technologies that are disrupting and transforming classic communications models and ecosystems. In his session at WebRTC Summit, Cary Bran, VP of Innovation and New Ventures at Plantronics and PLT Labs, provided an overview of this technological shift, including associated business and consumer communications impacts, and opportunities it may enable, complement or entirely transform.
There are so many tools and techniques for data analytics that even for a data scientist the choices, possible systems, and even the types of data can be daunting. In his session at @ThingsExpo, Chris Harrold, Global CTO for Big Data Solutions for EMC Corporation, showed how to perform a simple, but meaningful analysis of social sentiment data using freely available tools that take only minutes to download and install. Participants received the download information, scripts, and complete end-t...
For manufacturers, the Internet of Things (IoT) represents a jumping-off point for innovation, jobs, and revenue creation. But to adequately seize the opportunity, manufacturers must design devices that are interconnected, can continually sense their environment and process huge amounts of data. As a first step, manufacturers must embrace a new product development ecosystem in order to support these products.
Manufacturing connected IoT versions of traditional products requires more than multiple deep technology skills. It also requires a shift in mindset, to realize that connected, sensor-enabled “things” act more like services than what we usually think of as products. In his session at @ThingsExpo, David Friedman, CEO and co-founder of Ayla Networks, discussed how when sensors start generating detailed real-world data about products and how they’re being used, smart manufacturers can use the dat...
When it comes to IoT in the enterprise, namely the commercial building and hospitality markets, a benefit not getting the attention it deserves is energy efficiency, and IoT’s direct impact on a cleaner, greener environment when installed in smart buildings. Until now clean technology was offered piecemeal and led with point solutions that require significant systems integration to orchestrate and deploy. There didn't exist a 'top down' approach that can manage and monitor the way a Smart Buildi...