The shift of focus from north-south to east-west networking isn’t just inside the data center, it’s a global phenomenon
It’s called “east-west” networking, which when compared to its predecessor, “north-south” networking, evinces images of maelstroms and hurricane winds and tsunamis for some reason. It could be the subtle correlation between the transformative shift this change in networking patterns has on the data center with that of El Niño’s transformative power upon the weather patterns across the globe.
Traditionally, data center networks have focused on North-South network traffic. The assumption is that clients on the edge would mainly communicate with servers at the core, rather than across the network to other clients.
But server virtualization changes all this, with servers, virtual appliances and even virtual desktops scattered across the same physical infrastructure. These environments are also highly dynamic, with workloads moving to different physical locations on the network as virtual servers are migrated (in the case of data center networks) and clients move about the building (in the case of wireless LANs).
Though the term “east-west networking” really focuses on the maelstrom of traffic inside the data center, it is also applicable to the traffic patterns occurring outside the data center as well. The advent of cloud and virtualization has made it such that integration of cloud-hosted resources is becoming more and more appealing, if not already a done deal. That means there’s a lot more east-west networking between “data centers” – between the corporeal data center of the enterprise and the ethereal data center out there, in the cloud. To maintain the efficiencies and cost-savings gained by leveraging those cloud resources, such communications must occur, after all, lest organizations find themselves managing two completely separate processes and sets of policies governing the delivery of the applications they have deployed. Even dismissing the impact of monitoring and management-related traffic, it’s important to note that modern distributed architectures may result in the same sort of traffic patterns for live, user-oriented traffic.
Closely related to the concept of directional networking is that of trombone networking, a phenomenon we’ve been seeing more and more of as virtualization takes hold of data centers the world over. It, too, is equally applicable to multi-data center deployments:
When L2 domains stretch across multiple data centers, traffic flows belonging to a single user session might have to traverse Data Center Interconnect (DCI) link multiple times.
A pet peeve of mine is the notion that cloud makes infrastructure irrelevant in some way. Whether organizations themselves must deal with the infrastructure does not make it irrelevant. It may make it less frustrating, less costly, less troublesome on a day-to-day basis, but it is not in any way irrelevant. The infrastructure must still exist and, as we’re seeing in the real world, it’s not going away despite the eager predictions of pundits that it would. The enterprise needs to retain some measure of governance over applications, and they recognize that this means control over the infrastructure so vital to delivering them.
But it is important to recognize that infrastructure is changing, whether inside or outside the data center. The architectures and networking techniques of yesterday are not necessarily well-suited to the architectures and applications of this afternoon and tomorrow. There are unintended consequences to not paying enough attention to the network infrastructure and the changes being wrought on traffic patterns by the disruptive force that is cloud and virtualization. This is no summer rain shower we’re looking at, we’re facing a full-on technological squall that will, if ignored, hit the data center head on.
IT professionals need to take the wheel and be very aware of the impact of the change in traffic patterns wrought by cloud and virtualization – and not just inside the data center, but outside, as well. Architectural solutions to one challenge may inadvertently trigger a change in traffic in the network that causes congestion, overload, or simply poor performance. The notion of extending a VLAN across data centers, into the cloud, sounds appealing from the perspective of managing components in a heterogeneous deployment model, but may in fact be a source of performance and ultimately availability issues due to trombone traffic or east-west networking. Depending on the type of traffic bouncing back and forth, the result could be anything from a TCP retransmission storm to a bouncing up-down status of remote nodes in the data center caused by a heart-beat check on the Load balancer that is too short a time when checking across a LAN to a remote site.
A thorough understanding of networking and the infrastructure that is its foundation as well its relationship to applications is necessary when architecting a data center network capable of not just supporting but adapting to future challenges that arise as a result of virtualization and cloud computing . A silo-based IT organization cannot effectively address the impact from virtualization and cloud computing because no one team has all the pieces necessary. A more collaborative approach or an approach in which a team of cross-functional experts is at the fore will be required to navigate the coming storms.