Effects of virtualization and cloud computing on data center networks
9
Latency
In many cases, latency may be more of a challenge than oversubscription and raw bandwidth. As
pointed out in the “Changing Business Applications” section, as businesses need to supply immediate,
context-sensitive information to end users (remember that travel website on page 7?), latency and
application responsiveness are driving network designs. Traditional hierarchical and newer
architectures like the fabric extension technology require more network hops and increase latency.
When running even moderate levels of traffic in these systems, latencies increase because of the
multiple hops through the congested and oversubscribed points in the network.
Practical solutions for optimizing E/W traffic flow
This section describes some different architectures and technologies to consider when optimizing your
data center structure for E/W traffic flows. They include:
• Fostering E/W traffic flow at the physical server-network edge
• Distributing management intelligence at the physical server-network edge rather than concentrating
it at higher layers in your network
• Flattening your L2 network by using technologies like HP Intelligent Resilient Framework™ (IRF)
• Making your L2 network more efficient by implementing future multi-path standards
Identify your traffic bottlenecks
It is important to identify where the E/W traffic flows are occurring in your data center: at the
physical switch-server edge between physical servers, or internal to the virtualized server (VM-to-VM).
You can make tradeoffs, depending on two criteria:
• Whether you want to optimize the E/W traffic flow by providing intelligent management at the
physical switch-server edge
• Whether you want to optimize for performance inside a physical server between multiple VMs (with
possible degradation of network management visibility and control)
Virtual switch architectures
Today’s hypervisors implement a virtualized network switch commonly known as a vSwitch. It is also
known as a Virtual Ethernet Bridge (VEB). The vSwitch supports communication between VMs, the
hypervisor, and external network switches. It provides efficient and low latency traffic flow between
local VM-to-VM servers without the need to go to an external network switch (Figure 5).