English

On-Demand Redundancy Grouping: Selectable Soft-Error Tolerance for a Multicore Cluster

Distributed, Parallel, and Cluster Computing 2023-11-30 v2 Hardware Architecture Signal Processing

Abstract

With the shrinking of technology nodes and the use of parallel processor clusters in hostile and critical environments, such as space, run-time faults caused by radiation are a serious cross-cutting concern, also impacting architectural design. This paper introduces an architectural approach to run-time configurable soft-error tolerance at the core level, augmenting a six-core open-source RISC-V cluster with a novel On-Demand Redundancy Grouping (ODRG) scheme. ODRG allows the cluster to operate either as two fault-tolerant cores, or six individual cores for high-performance, with limited overhead to switch between these modes during run-time. The ODRG unit adds less than 11% of a core's area for a three-core group, or a total of 1% of the cluster area, and shows negligible timing increase, which compares favorably to a commercial state-of-the-art implementation, and is 2.5×\times faster in fault recovery re-synchronization. Furthermore, when redundancy is not necessary, the ODRG approach allows the redundant cores to be used for independent computation, allowing up to 2.96×\times increase in performance for selected applications.

Keywords

Cite

@article{arxiv.2205.12580,
  title  = {On-Demand Redundancy Grouping: Selectable Soft-Error Tolerance for a Multicore Cluster},
  author = {Michael Rogenmoser and Nils Wistoff and Pirmin Vogel and Frank Gürkaynak and Luca Benini},
  journal= {arXiv preprint arXiv:2205.12580},
  year   = {2023}
}
R2 v1 2026-06-24T11:28:03.260Z