Accelerating the Deployment of the Software-Defined Data Center (SDDC) Through Active Visibility

By: Shehzad Merchant, Chief Strategy Officer at Gigamon Shehzad Merchant

The software defined data center promises to be a very dynamic environment. Micro-segmentation, network virtualization and on-demand virtual machine (VM) migration, all bring with them the promise of a highly agile, yet highly optimized data center. However, the move to the SDDC will not happen overnight and migration strategies that help IT administrators make the transition to the SDDC are going to be a key element in the transition to the SDDC and realizing its full promise.

One of the key elements of making the move to the SDDC is the ability of IT to manage, monitor and secure the SDDC while continuing to leverage their investments in their existing tools, as well as their human capital. This can be challenging at times. For example, network virtualization introduces the concepts of overlay and underlay networks. Overlay networks are typically virtual networks that provide tenant isolation as well as service isolation in addition to the separation of location and identity. The physical network infrastructure typically serves as the underlay network. Virtual overlays can be instantiated, extended and removed dynamically based on tenant subscriptions, service guarantees and VM mobility; all of which makes the underlying physical infrastructure more efficient. However, they also make the job of troubleshooting and monitoring more complex for several reasons. The dynamic nature of the overlays, the need to correlate and track traffic between the underlay and overlays, the existing departmental silos between the server and network teams – particularly when the overlays are instantiated in the server/hypervisor domain, but are routed over a physical underlay network – can all be barriers to rapid troubleshooting, performance optimization and security. Furthermore, they introduce multiple planes of traffic to monitor and secure. Similarly, VM migration can now occur over a segmented Layer 3 underlay network through the use of network overlays, thereby maintaining session continuity. This allows the underlying physical infrastructure to scale out through Layer 3 segmentation. However, it also poses a challenge from the perspective of application performance management (APM) and security monitoring. This is because the tools that depend on traffic visibility for analyzing application performance or for managing and limiting the threat envelope, can encounter blind spots when VMs move to different locations and their traffic is no longer visible to the tool at its original location.

In order to better address the operational aspects of managing, troubleshooting, and securing the SDDC, Gigamon and VMware have recently announced a new partnership that promises to simplify, and indeed accelerate, the migration to the SDDC through solutions that work in an NSX environment. The solutions extend the ability of IT Operations and Management (ITOM) to monitor and manage NSX environments while continuing to leverage their investment in their monitoring tools, as the data center evolves to a software defined model. Gigamon’s solutions will bring active, traffic-based visibility into dynamic virtual environments enabled by NSX, by automating monitoring policies to actively track VMs in an NSX environment thereby eliminating blind spots. The solution will bring visibility into east-west as well as north-south traffic flows in an NSX environment. In addition, Gigamon’s solutions will also enable active traffic- visibility into VXLAN-based overlays and physical underlays in the NSX environment, thereby simplifying and indeed adapting the traffic to the needs of the monitoring tools.

The role of traffic based visibility is only increasing as applications are virtualized and infrastructure moves to a software defined model. Looking at actual traffic provides a true assessment of real time conditions both from a performance monitoring perspective as well as from a security perspective. Gigamon, along with VMware, are committed to bringing solutions to the market that increase traffic visibility as the data center transforms into a more agile, software defined data center.

Putting the (Whitebox) Cart Before the (SDN) Horse?

By: Shehzad Merchant, Chief Strategy Officer at Gigamon Shehzad Merchant

The network today is more critical to the success of IT than ever before. As such, any disruptive change in networking has to be one that is assimilated into the production environment using a measured and carefully phased approach.

We are early in the SDN cycle and the deployment challenges associated with making SDN mainstream, including areas such as security, resiliency and scale, are still in the process of being ironed out.

One area that is still quite nascent when it comes to SDN is the area of monitoring, troubleshooting, and instrumentation. The ability for tools to monitor and manage SDN deployments is evolving, and with it, the ability to troubleshoot, manage, and respond to network issues in real time. All of this points to the fact that the success of SDN will largely depend on the quality of the implementations, the support model behind those implementations and the commitment of vendors to invest in quality, scalable and enterprise or carrier class SDN implementations.

However, we are seeing a big push towards cheaper bare metal and whitebox types of solutions leveraging merchant silicon in parallel to the interest in SDN. In isolation, these are both powerful and empowering trends; SDN for the operational simplicity it brings to the table, whitebox technology for driving down cost and opening up an eco-system of vendors.

But, this is worrisome because if history is any indicator, the adoption and maturing of a new disruptive technology or set of technologies, such as SDN, has typically preceded the commoditization of that technology. In other words, gaining a good understanding of a new technology, securing it, scaling it, and having the ability to manage and troubleshoot it, need to be resolved before the technology can be successfully commoditized.

Are we putting the whitebox cart before the SDN horse?

In my blog post on SDN Central, I explore why I think whitebox networking combined with SDN concurrently seems like taking on too much risk.

For the full blog post, visit SDN Central.

Enabling Multi-tenancy within Enterprise IT Operations

by: Shehzad Merchant, Chief Strategy Officer at GigamonShehzad Merchant

Multi-tenancy is a well understood term in cloud and carrier environments where multiple customers serve as tenants over a common infrastructure. However, the notion of multi-tenancy, the associated SLAs for each tenant, and the ability to virtualize the underlying infrastructure to isolate individual tenants, is quickly making its way into enterprise IT operations. Today, enterprise IT organizations have multiple departments such as security, networking, applications, among others. Each department is increasingly being held to stringent requirements for ensuring network and application availability, responsiveness, and a good user experience. This is leading to an increasing reliance on various classes of tools that provide the ability to monitor and manage the applications, network, security, as well as user experience.  Many of these tools leverage Gigamon’s Visibility Fabric™ for optimal delivery of traffic from across physical and virtual networks to these tools. As departments are increasingly held to their own SLAs and KPIs, they need to be able to autonomously carve out traffic delivery to the departmental tools, as well as independently configure, manage, and adapt traffic flows to the departmental tools without impacting other departmental traffic flows. And they need to be able to do all of this over a common underlying Visibility Fabric, which leads to a model where the Visibility Fabric needs to support a true multi-tenant environment.

With the GigaVUE H Series 3.1 software release, Gigamon introduces several enhancements to the Visibility Fabric that enable multi-tenancy and enable IT departments to optimize their workflows, reduce workflow provisioning times and provide for both privacy as well as collaboration among departments when it comes to their monitoring infrastructure.

There are three key aspects to these new capabilities.

  1. Enabling departments to carve out their own slice of the Visibility Fabric using an intuitive Graphical User Interface (GUI) that supports the workflow required for multi-tenancy. Empowering multiple tenants to apportion the Visibility Fabric each with their own access rights, sharing privileges and their traffic flows, through a drag and drop GUI-based model is a key step towards simplifying the provisioning model in a multi-tenant environment. Moving away from a CLI based approach to a GUI based approach is a key step towards improving workflows across departmental silos.
  2. Advancing Gigamon’s patented Flow Mapping® technology within the Visibility Fabric Nodes to support multi-tenancy whereby each tenant can carve out their own Flow Maps, ports, and actions, without impacting the traffic flows associated with other tenants. This is a significant architectural advancement that builds on Gigamon’s existing Flow Mapping technology to provision resources within the underlying visibility nodes based on the department’s (or tenant’s) requirements.
  3. Providing role based access control (RBAC) so that departmental users can work both collaboratively as well as privately over the common underlying Visibility Fabric.

These capabilities represent a significant advancement in how IT operations can take advantage of the Visibility Fabric to rapidly deploy new tools, enable real time or near real time tuning of the Visibility Fabric and better meet their individual SLAs and KPIs. Taken together, these key capabilities empower IT organizations to provide Visibility as a Service to their various departments.

For more information, please see the Visibility as a Service Solutions Overview.

Visibility in Motion at Cisco Live Orlando

by: Huy Nguyen, Senior Director of Product
Management at Gigamon

Huy_Nguyen_headshot

Now that Cisco Live Orlando has come and gone and we’re gearing up for VMworld, we’re seeing even more attention being paid to virtualization given the interest in software defined networks (SDN) and data centers (SDDC). So, virtualization remains hot and with around 60 percent of all applications running in virtualized environments according to some studies, we shouldn’t be surprised that there are even summer camps being offered around the subject (I’m not kidding). I feel like 2013 is the Summer of Virtualization!
That being said, it makes sense to let you know how Gigamon is continuing to address the visibility challenges being experienced by organizations utilizing virtualized environments.  On the first day of the Cisco Live World of Solutions expo we announced GigaVUE-VM 2.0. If you’re not familiar with our GigaVUE-VM, it is basically a virtual instance of one of our Visibility Fabric nodes. Because traffic between virtual machines may be switched locally, it will never traverse the physical network, rendering existing monitoring and analysis tools blind to this virtual traffic.  The GigaVUE-VM fabric node provides that packet-level visibility into the virtualized server world.
One of the dynamic things about the 2.0 update in addition to exposing inter-VM traffic flowing within a physical host and across physical hosts is that GigaVUE-VM now supports Cisco’s Nexus 1000V virtual switch as well as VMware’s vSphere Distributed Switch (VDS). GigaVUE-VM works with these virtual switches to abstract copies of the packets before intelligently filtering and forwarding the packets to the management, security, and monitoring tools that require packet-level visibility, such as application and network performance monitoring tools and intrusion detection systems.
Perhaps even more exciting is that GigaVUE-VM 2.0 has the ability to automatically reconfigure Gigamon’s Visibility FabricTM architecture and migrate monitoring policies to maintain continuous visibility when a virtual machine vMotion event occurs. Essentially, GigaVUE-VM preserves visibility into the traffic flowing between VMs even after that VM moves from one physical host to another for what we call “visibility in motion.”
What’s so significant about this function is that without the ability to automatically migrate the monitoring policies, visibility that had been configured would be lost once the vMotion occurs and would require manual reconciliation which very well could be arduous given the agile virtual infrastructures of today.
For even more information, check out our white paper,
Visibility into the Cloud and Virtualized Data Center”.
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