Effects of virtualization and cloud computing on data center networks

If you use the HP 12518 switch as shown in Figure 8, you can have up to 248 non-blocking 10 Gb/s

ports (assuming 4 ports per switch for IRF and 4 ports per switch for uplinks). Each BladeSystem

c7000 enclosure supports up to 16 servers. You only need two VC FlexFabric modules to connect all

16 servers to your LAN and SAN.

By deploying IRF in conjunction with high-performance HP server edge switches, enterprises can

directly interconnect hundreds of VMs at the edge of the network, eliminating unnecessary network

hops, reducing latency, and improving performance for large intra-data center workloads.

Conclusion

Virtualization, cloud computing, and federated applications bring flexibility, scalability, and cost

advantages to your business. They also significantly alter how network traffic flows in your data

center. Our position is to support multiple data center options rather than forcing you down a

proprietary path that may limit other choices in your infrastructure. The typical hierarchical L2 network

structure is limited to a single-path architecture with the Spanning Tree Protocol (STP). A multipath

solution that lets traffic easily flow across multiple paths would improve performance in a L2 network

with heavy E/W traffic.

Options to consider include using VEPA or VEB technology, flattening the L2 network, or making an

L2 network more efficient by eliminating STP technologies.

Keep in mind that one size does not fit all, even in the same data center. Portions of your data center

(for example, green field deployments of a cloud infrastructure) may require a high-performance,

intelligent edge that supports lots of E/W traffic flow. Other parts of your data center may continue to

operate with the traditional three-tier architecture.