Enterprise Networking in a Cloud World

SOA is Dead; Long Live Services

By G C Network | January 7, 2009

Blogger: Anne Thomas ManesObituary: SOA“SOA met its demise on January 1, 2009, when it was wiped out by the catastrophic impact of the economic recession. SOA is survived by its…

2009 – The Year of Cloud Computing!

By G C Network | January 6, 2009

Yes, everyone is making this bold statement. In his article, David Fredh laid out the reasons quite well: The technological hype has started already but the commercial breakthrough will come…

Salesforce.com and Google expand their alliance

By G C Network | January 5, 2009

In a Jan. 3rd announcement, Salesforce.com announced an expansion of its global strategic alliance with Google. In announcing the availability of Force.com for Google App Engine™, the team has connected…

December NCOIC Plenary Presentations

By G C Network | December 31, 2008

Presentations from the NCOIC Cloud Computing sessions held earlier this month have been posted on-line in the Federal Cloud Computing wiki. The event featured speakers from IBM, Cisco, Microsoft, HP,…

Booz|Allen|Hamilton Launches “Government Cloud Computing Community”

By G C Network | December 30, 2008

As a follow-up to a Washington, DC Executive Summit event, BoozAllenHamilton recently launched an on-line government cloud computing collaboration environment. In an effort to expand the current dialog around government…

Is Google Losing Document?

By G C Network | December 29, 2008

John Dvorak posted this question on his blog Saturday and as of Sunday evening had 52 responses! This is not a good thing for building confidence in cloud computing. Or…

Cryptographic Data Splitting? What’s that?

By G C Network | December 26, 2008

Cryptographic data splitting is a new approach to securing information. This process encrypts data and then uses random or deterministic distribution to multiple shares. this distribution can also include fault…

Now really. Should the Obama administration use cloud computing?

By G C Network | December 23, 2008

It’s amazing what a little radio time will do! Since Sunday’s broadcast, I’ve been asked numerous times about my real answer to the question “Will ‘Cloud Computing’ Work In White…

NPR “All Things Considered” considers Government Cloud Computing

By G C Network | December 21, 2008

My personal thanks to Andrea Seabrook, Petra Mayer and National Public Radio for their report “Will ‘Cloud Computing’ Work In White House?” on today’s “All Things Considered”. When I started this blog…

HP Brings EDS Division into it’s cloud plans

By G C Network | December 18, 2008

The Street reported earlier this week that Hewlett Packard’s EDS division has won a $111 million contract with the Department of Defense (DoD) that could eventually support the U.S. military’s…

Enterprises must rethink network management in the cloud computing world. This new reality is driven by the rise of software defined networking, the virtualization of everything and a business imperative to create and deploy even newer information delivery models. With the entire infrastructure stack now fully programmable, the need to integrate the network with cloud compute services is essential. Another important environmental change is that both servers and applications have joined data with respect to mobility. This leads to an increased need to categorize those assets and apply appropriate security controls with respect to business/mission functions, data user role, location of access, legal/regulatory guidelines and user devices. In meeting the challenges of mobility and globalization, enterprises must address their lack control or complete visibility into the networks they use.

Organizations often lose the economic and operational benefits of the cloud if the network provider lacks the agility afforded by network management automation. Requirements to support cloud brokerage and to bridge services between different cloud service vendor marketplaces are also coming to the forefront. Network performance expectations that are driving more advanced network management requirements include:

  • Data-intensive analytics;
  • Parallel and clustered processing;
  • Telemedicine;
  • Remote expert consultation and collaboration; and
  • Community cloud services.

Real-time network analytics is also needed to manage user application experience. Service capabilities should include:

  • Network latency management – Acceptable response times on the web have steadily been decreasing. While 10 seconds used to be considered reasonable, a 2009 study showed that 40 percent of visitors will abandon a web page if it takes more than three seconds to load. Interactions that take 1 second or less maintain a user’s seamless flow of thought.
  • Network Reliability – Reliability is an attribute of any computer-related component that consistently performs according to its specifications. It has long been considered one of three related attributes that must be considered when making, buying, or using a computer product or component.
  • Network Performance – Metrics of the service quality of a network as seen by the customer. These metrics usually address bandwidth, throughput, latency, jitter and error rate. All of these factors, coupled with user requirements and user perceptions, play a role in determining the perceived utility of a network connection.
  • Internet path visibility – Cloud computing’s placement of critical infrastructure components outside traditional network boundaries increases enterprise IT dependence on the complex interactions between enterprise and public IP networks. In order to ensure reliable application delivery, this fact drives a requirement to provide visibility into the routing and traffic dynamics spanning enterprise and Internet domains to the enterprise network manager.
  • Automated routing ruleset – the real-time use of genetic adaptive routing algorithms (e.g. path mutation and path crossover) to identify and make available new network paths for message propagation
  • Dynamic bandwidth allocation – Dynamic bandwidth allocation is a technique by which traffic bandwidth in a shared telecommunications medium can be allocated on demand and fairly between different users of that bandwidth. This is a form of bandwidth management, and is essentially the same thing as statistical multiplexing.

These capabilities must be broadened in order to deal with dynamic operational or application demands of even the smallest organization. Cloud-based service-level agreement will eventually require the network service provider to enable both planned and unplanned bandwidth variations as well. Service-level agreement will also be needed for in-sequence packet delivery and jitter. In the near future, these types of network quality of service metrics will be crucial to enterprises when they consider moving to new network operators.

New identity access and authorization use cases are also challenging current network design best practices. Virtual equivalences to physical and infrastructure-centric protection norms are mostly non-existent. An inability to enforce current, geographic-centric legal frameworks in the virtual world poses a major barrier to the development of a practical, economical and international cloud computing legal framework. Some of the operational issues dependent on major advances in this realm include:

  • Mobile device-based access to everything;
  • Internet-of-Things;
  • Mobile office productivity;
  • The broadening project economy;
  • Virtual organizations; and
  • Virtual reality.

Network management foundational changes include the discovery of new network traffic patterns. The client-server past is quickly morphing into a future in which server-to-server traffic predominates. This transition unveils location-independent endpoints on both sides of a service or transaction. The growing operational use of content delivery network “walled gardens” for network quality-of-service management contributes to these changing patterns.

When accepting this network management leap forward, enterprises need vendor partners that provide tools necessary to manipulate the operational levers of cloud networking. Your network may, in fact, be impeding your efforts to embrace cloud, big data, mobile, social and security technology trends. Primary among these tools is a software-defined networking (SDN) solution. Such a solution can virtualize your network and create centralized controls to provide more agile and flexible network services. When built on open standards, a software-defined network helps you:

  • Realize faster time to market by deploying networks in minutes
  • Reduce management complexity and operating expenses through automated controls
  • Enhance security by inserting patterns in the software
  • Boost innovation by using cloud resources more easily
  • Build an agile platform to enable analytics and gain actionable business insights

Dynamic network optimization is also a key network operational lever. A key technology in this area is network function virtualization. In addition, network architecture standardization can be used to improve availability, temper costs and reduce the risk of security breaches

 Software Defined Networking – Nothing works without the Networking

This post was brought to you by IBM Global Technology Services. For more content like this, visit Point B and Beyond.

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