Partition hibernation energy saving method based on cross-zone atomic jump and exclusive multi-layer firewall

By employing a dedicated multi-layer firewall to verify and execute atomic jumps within a multi-directory tree architecture, only the target partition is awakened while other partitions remain dormant. This solves the high power consumption and security issues of cross-region searches, achieving a balance between energy saving and security compliance.

CN122160203APending Publication Date: 2026-06-05陈立波

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Applications(China)
Current Assignee / Owner
陈立波
Filing Date
2026-03-20
Publication Date
2026-06-05

AI Technical Summary

Technical Problem

Existing cross-region retrieval solutions do not adopt a core architecture of multiple directory trees within the same region/across regions, resulting in a tradeoff between power consumption and security. There is no guarantee of transaction atomicity between multiple directories, creating an industry bottleneck that requires both security compliance and low power consumption compatibility.

Method used

It adopts a multi-directory tree architecture and performs atomic jumps between multiple directories after verification by a dedicated multi-layer firewall. Only the target atomic-level directory partition is awakened, while the other partitions remain in a hardware-level power-off hibernation state. After the retrieval is completed, it resumes power-off hibernation.

Benefits of technology

It achieves significantly reduced power consumption for cross-directory retrieval, excellent energy-saving effect through hardware-level power-off hibernation, and integrates a dedicated multi-layer firewall with multi-directory atomic jump transaction consistency to meet enterprise-level security and compliance requirements.

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Abstract

The application discloses a partition hibernation energy-saving method based on cross-zone atomic jump and exclusive multi-layer firewall, which is suitable for a multi-directory tree core architecture, performs multi-directory atomic jump and wakes up only a target partition after exclusive multi-layer firewall verification formed by user input, an AI input door and an AI output mute door, realizes a safe and energy-saving double closed loop of cross-zone search, and is suitable for AI intelligent agents and large enterprise cross-tenant private deployment scenarios.
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Description

Technical Field

[0001] This invention relates to the fields of enterprise-level AI cross-domain data management and control, multi-directory tree atomic jump, and embodied robot scheduling technology, specifically a partition hibernation energy-saving method that combines multi-directory atomic jump with a dedicated multi-layer firewall. Background Technology

[0002] Existing cross-region retrieval solutions do not adopt a core architecture of multiple directory trees within the same region / across regions. They require loading the full cross-domain partitions, which cannot balance power consumption and security. Furthermore, they do not integrate atomic jumps between multiple directories, dedicated multi-layer firewall verification, and partition hibernation. There is no guarantee of transaction atomicity between multiple directories, resulting in industry bottlenecks in security compliance and low power consumption compatibility. Summary of the Invention

[0003] This invention enables security verification and hardware-level partition hibernation collaboration in cross-domain retrieval scenarios under a multi-directory tree architecture, addressing technical issues such as high power consumption, lack of security control, and lack of transaction consistency in atomic jumps during cross-domain access between multiple directories. Technical solution

[0004] A partition hibernation energy-saving method is based on a multi-directory tree architecture. After verification by a dedicated multi-layer firewall, atomic jumps between multiple directories are performed to locate the target atomic-level directory partition. Only the target atomic-level directory partition is woken up, while the other partitions remain in a hardware-level power-off hibernation state. After the retrieval is completed, the target atomic-level directory partition is restored to the hardware-level power-off hibernation state.

[0005] The specific implementation of the dedicated multi-layer firewall described in this invention is as follows: user input side firewall, AI input door firewall, AI output door silent firewall, and data is returned to the user after verification. Beneficial effects

[0006] 1. Power consumption is significantly reduced for multi-directory cross-region searches, and hardware-level power-off hibernation achieves excellent energy-saving effects; 2. Integrates dedicated multi-layer firewalls with multi-directory atomic jump transaction consistency to meet enterprise-level security compliance requirements; 3. The combination of technologies is non-obvious and breaks through existing technological bottlenecks. Detailed Implementation

[0008] The group's AI agent performs cross-department and cross-regional searches based on a multi-directory tree architecture. After verification by a dedicated multi-layer firewall consisting of a user input firewall, an AI input gate firewall, and an AI output gate silent firewall, it performs multi-directory atomic jumps, waking up only the target atomic partition while powering down the hardware of the other partitions. After the search is completed, it resumes power-off hibernation, balancing security and energy saving.

Claims

1. A zoned hibernation energy-saving method, characterized in that, include: After verification by a dedicated multi-layer firewall, a cross-region atomic jump is performed to locate the target atomic-level directory partition; Only the target atomic-level directory partition is woken up, while the remaining partitions remain in a hardware-level power-off hibernation state; After the search is completed, the target atomic-level directory partition is restored to a hardware-level power-off hibernation state.

2. The method according to claim 1, characterized in that: Hardware-level full-area physical isolation is used between different directory trees.

3. The method according to claim 1, characterized in that: The atomic jump has transaction atomicity.

4. The method according to claim 1, characterized in that: The target atomic-level directory partition adopts independent hardware power supply and independent computing power allocation.

5. The method according to claim 1, characterized in that: If the jump fails, the entire process will be rolled back without waking up any partitions.

6. The method according to claim 1, characterized in that: Dedicated multi-layer firewalls, atomic redirects, and hardware-level hibernation are a combination of technologies that are not readily apparent.