Control method and device of in-memory server, equipment, medium and product

Abstract

This invention relates to a control method, apparatus, device, medium, and product for an in-memory computing server. The method includes the following steps: sampling the hardware operating parameters of the core hardware unit of the in-memory computing server and comparing them against thresholds to determine if any parameter anomalies exist. If an anomaly is found, the corresponding unit's operating log is captured, the log for the abnormal period is obtained, and a fault signature code is extracted from it. The fault signature code is then matched and queried in a hardware fault database to determine the fault type and location. Based on the fault type, the power supply circuit connected to the hardware unit corresponding to the fault location is subjected to pre-power-off state detection. Power-off isolation is performed based on the detection results, and finally, a fault isolation result containing execution feedback is generated, achieving precise fault location and safe isolation. This invention solves the technical problem of existing methods where, once a local fault occurs, its impact can quickly spread to adjacent modules, leading to complex fault propagation paths and difficulty in fault location.