@inproceedings{lee2024kimbap, author = {Lee, Hochan and Dathathri, Roshan and Pingali, Keshav}, title = {Kimbap: A Node-Property Map System for Distributed Graph Analytics}, booktitle = {2024 Architectural Support for Programming Languages and Operating Systems}, year = {2024}, month = {April}, abstract = {Most distributed graph analytics systems such as Gemini, Gluon, and SympleGraph support a computational model in which node properties are updated iteratively using properties of adjacent neighbors of those nodes. However, there are many algorithms that cannot be expressed in this model, such as the Louvain algorithm for community detection and the Shiloach-Vishkin algorithm for connected components. These algorithms may be more efficient or may produce better quality output than simpler algorithms that can be expressed using updates only from adjacent vertices. This paper describes Kimbap, a distributed graph analytics programming framework, and its high-performance implementation that addresses this problem. Kimbap supports general vertex-centric algorithms by permitting the computation at a node to read and write properties of any node in the graph, not just its adjacent neighbors. The programming model allows programmers to specify iterative graph analytics applications, while the Kimbap compiler automatically generates the required communication code, and the Kimbap runtime organizes and synchronizes node-property pairs across the distributed-memory machines. The underlying system uses a distributed node-property map that is optimized for highly concurrent sparse reductions by using a graph-partition-aware sparse representation and by avoiding thread conflicts, thereby eliminating a major bottleneck that throttles performance in systems like Pregel that also support general vertex programs. Our experiments on CPU clusters with up to 256 machines (roughly 12000 threads total) show that (1) Louvain clustering algorithm in Kimbap is on average 4x faster than the state-of-the-art hand-optimized implementation for the same algorithm and (2) Kimbap matches or outperforms the state-of-the-art distributed graph analytics system for algorithms that can be expressed in both systems.}, publisher = {ACM}, url = {http://approjects.co.za/?big=en-us/research/publication/kimbap-a-node-property-map-system-for-distributed-graph-analytics/}, }