Instrument multi-module synchronous execution method and device and related medium

By constructing an integrated multi-module collaborative scheduling process and dynamically adjusting the execution order of multi-module instruments, the problem of low operating efficiency of multi-module instruments in existing technologies is solved, and efficient resource utilization and process shortening are achieved.

CN122285286APending Publication Date: 2026-06-26SHENZHEN DARTMON BIOTECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Applications(China)
Current Assignee / Owner
SHENZHEN DARTMON BIOTECH CO LTD
Filing Date
2026-04-02
Publication Date
2026-06-26

AI Technical Summary

Technical Problem

The lack of a collaborative scheduling mechanism for existing multi-module instruments results in low overall operating efficiency, excessively long process times, and resource consumption exceeding the necessary range.

Method used

By acquiring the task information to be executed from each module of the instrument, parsing and verifying dependencies, sorting based on priority rules and verifying resource usage, an integrated multi-module collaborative scheduling process is constructed, and the execution order is dynamically adjusted to utilize the idle time of the modules.

Benefits of technology

It improved the overall operating efficiency of the instrument, shortened the process time, and reduced resource consumption.

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Abstract

This invention discloses a method, apparatus, and related media for synchronous execution of multiple modules in an instrument. The method includes parsing the step information of tasks to be executed by each module of the instrument to obtain a module status table and a list of steps to be executed. After sequentially performing pre-dependency verification, priority sorting, resource usage and conflict verification, and interleaving impact verification, the final executable steps are sent to the target module for execution, and the execution status is monitored and the module status table is updated. This invention constructs a multi-module collaborative scheduling process by sequentially performing pre-dependency verification, dynamic priority sorting, resource usage and conflict verification, and interleaving impact verification on the steps to be executed. Combined with real-time updates to the module status table, it achieves dynamic monitoring and feedback of the execution status of each module. This allows each module to dynamically adjust its execution order according to task priority and real-time resource status, utilizing idle time to interleave execution steps, thereby improving the overall operating efficiency of the instrument and shortening process time.
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