Instability of backoff protocols with arbitrary arrival rates

Conference item

In contention resolution, multiple processors are trying to coordinate to send discrete messages through a shared channel with sharply limited communication. If two processors inadvertently send at the same time, the messages collide and are not transmitted successfully. An important case is acknowledgement-based contention resolution, in which processors cannot listen to the channel at all; all they know is whether or not their own messages have got through. This situation arises frequently in both networking and cloud computing. The most common acknowledgement-based protocols in practice are backoff protocols — variants of binary exponential backoff are used in both Ethernet and TCP/IP, and both Google Drive and AWS instruct their users to implement it to handle busy periods. In queueing models, where each processor has a queue of messages, stable backoff protocols are already known (H˚astad et al., SICOMP 1996). In queue-free models, where each processor has a single message but processors arrive randomly, it is a long-standing conjecture of Aldous (IEEE Trans. Inf. Theory 1987) that no stable backoff protocols exist for any positive arrival rate of processors. Despite exciting recent results for full-sensing protocols which assume far greater listening capabilities of the processors (see e.g. Bender et al. STOC 2020 or Chen et al. PODC 2021), this foundational question remains open; here instability is only known in general when the arrival rate of processors is at least 0.42 (Goldberg et al. SICOMP 2004). We prove Aldous’s conjecture for all backoff protocols outside of a tightly-constrained special case using a new domination technique to get around the main difficulty, which is the strong dependencies between messages.

Authors: Goldberg, LA; Lapinskas, J

• Publication status: Published
• Peer review status: Peer reviewed
• Publisher: Society for Industrial and Applied Mathematics
• Host title: Proceedings of the Annual ACM-SIAM Symposium on Discrete Algorithms (SODA 2023)
• Pages: 3426 - 3436
• Publication date: 2023-01-17
• Acceptance date: 2022-10-11
• Event title: Annual ACM-SIAM Symposium on Discrete Algorithms (SODA 2023)
• Event location: Florence, Italy
• Event website: https://www.siam.org/conferences/cm/conference/soda23
• Event start date: 2023-01-22
• Event end date: 2023-01-25
• DOI: 10.1137/1.9781611977554.ch131
• EISBN: 978-1-61197-755-4
• Language: English
• Keywords: FFR