Opportunistic flooding to improve TCP transmit performance in virtualized clouds.

ABSTRACTVirtualization is a key technology that powers cloud computing platforms such as Amazon EC2. Virtual machine (VM) consolidation, where multiple VMs share a physical host, has seen rapid adoption in practice with increasingly large number of VMs per machine and per CPU core. Our investigations, however, suggest that the increasing degree of VM consolidation has serious negative effects on the VMs' TCP transport performance. As multiple VMs share a given CPU, the scheduling latencies, which can be in the order of tens of milliseconds, substantially increase the typically sub-millisecond round-trip times (RTTs) for TCP connections in a datacenter, causing significant degradation in throughput. In this paper, we propose a light-weight solution called vFlood that (a) allows a TCP sender VM to opportunistically flood the driver domain in the same host, and (b) offloads the VM's TCP congestion control function to the driver domain in order to mask the effects of VM consolidation. Our evaluation of a vFlood prototype on Xen suggests that vFlood substantially improves TCP transmit throughput with minimal per-packet CPU overhead. Further, our application-level evaluation using Apache Olio, a web 2.0 cloud application, indicates a 33% improvement in the number of operations per second.