A method, system and terminal device for performing a post-quantum cryptographic computation task

By using field splitting and data mapping rules, the instructions for post-quantum cryptography computation tasks are transformed into a recognizable instruction set, solving the problem that terminal devices cannot be adapted to different post-quantum cryptography chips, and achieving compatibility with different chips and improved security.

CN119995855BActive Publication Date: 2026-06-09ORIGIN QUANTUM COMPUTING TECH (HEFEI) CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Patents(China)
Current Assignee / Owner
ORIGIN QUANTUM COMPUTING TECH (HEFEI) CO LTD
Filing Date
2025-01-24
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

In existing technologies, terminal devices cannot quickly adapt to the instruction sets of different post-quantum cryptographic chips, making them unable to effectively resist quantum computer attacks.

Method used

By splitting fields, transforming identifiers, and mapping data rules, the instructions for post-quantum cryptography computation tasks are transformed into a recognizable instruction set, enabling adaptation to different post-quantum cryptography chips.

Benefits of technology

It achieves universal applicability of terminal devices when facing different post-quantum cryptographic chips, simplifies the chip configuration process, and improves integration convenience and security.

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Abstract

This invention relates to the field of quantum cryptography technology, specifically to a method, system, and terminal device for executing a post-quantum cryptographic computation task. The method includes: acquiring a post-quantum cryptographic computation task instruction; splitting the instruction into target fields and converting them into corresponding identifiers based on a preset command identifier table; matching several execution instructions corresponding to the identifiers according to data mapping rules and combining these instructions into an instruction sequence; executing the instruction sequence to complete the post-quantum cryptographic computation task; utilizing field splitting, identifier conversion, and data mapping rules to convert different instruction sets, enabling the converted instructions to be recognized and executed by the post-quantum cryptographic chip; and ensuring that the terminal device's main processor can accommodate different instruction sets when adapting to different post-quantum cryptographic chips, simplifying chip configuration and improving chip integration convenience.
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