Combining HoL-blocking avoidance and differentiated services in high-speed interconnects

Current high-performance platforms such as Datacenters or High-Performance Computing systems rely on highspeed interconnection networks able to cope with the ever-increasing communication requirements of modern applications. In particular, in high-performance systems that must offer differentiated services to applications which involve traffic prioritization, it is almost mandatory that the interconnection network provides some type of Quality-of-Service (QoS) and Congestion-Management mechanism in order to achieve the required network performance. Most current QoS and Congestion-Management mechanisms for high-speed interconnects are based on using the same kind of resources, but with different criteria, resulting in disjoint types of mechanisms. By contrast, we propose in this paper a novel, straightforward solution that leverages the resources already available in InfiniBand components (basically Service Levels and Virtual Lanes) to provide both QoS and Congestion Management at the same time. This proposal is called CHADS (Combined HoL-blocking Avoidance and Differentiated Services), and it could be applied to any network topology. From the results shown in this paper for networks configured with the novel, cost-efficient KNS hybrid topology, we can conclude that CHADS is more efficient than other schemes in reducing the interferences among packet flows that have the same or different priorities.