Speedo

Abstract

Structuring cloud applications as collections of interacting fine-grained microservices makes them scalable and affords the flexibility of hot upgrading parts of the application. The current avatar of serverless computing (FaaS) with its dynamic resource allocation and auto-scaling capabilities make it the deployment model of choice for such applications. FaaS platforms operate with user space dispatchers that receive requests over the network and make a dispatch decision to one of multiple workers (usually a container) distributed in the data center. With the granularity of microservices approaching execution times of a few milliseconds combined with loads approaching tens of thousands of requests a second, having a low dispatch latency of less than one millisecond becomes essential to keep up with line rates. When these microservices are part of a workflow making up an application, the orchestrator that coordinates the sequence in which microservices execute also needs to operate with microsecond latency. Our observations reveal that the most significant component of the dispatch/orchestration latency is the time it takes for the request to traverse into and out of the user space from the network. Motivated by the presence of a multitude of low power cores on today's SmartNICs, one approach to keeping up with these high line rates and the stringent latency expectations is to run both the dispatcher and the orchestrator close to the network on a SmartNIC. Doing so will save valuable cycles spent in transferring requests to and back from the user space. The operating characteristics of short-lived ephemeral state and low CPU burst requirements of FaaS dispatcher/orchestrator make them ideal candidates for offloading from the server to the NIC cores. This also brings other benefit of freeing up the server CPU. In this paper, we present Speedo--- a design for offloading of FaaS dispatch and orchestration services to the SmartNIC from the user space. We implemented Speedo on ASIC based Netronome Agilio SmartNICs and our comprehensive evaluation shows that Speedo brings down the dispatch latency from ~150ms to ~140μs at a load of 10K requests per second.