MANAGEMENT PLANE ORCHESTRATION ACROSS SERVICE CELLS

Organization Name

ORACLE INTERNATIONAL CORPORATION

Inventor(s)

Gabriel Thomas Hurley of Oakland CA (US)

Danne Lauren Stayskal of Eastsound WA (US)

MANAGEMENT PLANE ORCHESTRATION ACROSS SERVICE CELLS - A simplified explanation of the abstract

This abstract first appeared for US patent application 18429688 titled 'MANAGEMENT PLANE ORCHESTRATION ACROSS SERVICE CELLS

Abstract: Service cells may be utilized to limit the blast radius and reduce the probability of operational incidents (e.g., attacks, load spikes, distributed thrash, and the like). Techniques discussed herein provide any suitable number of service cells, each of which include a management plane and a data plane. A work request that includes an intended state of the service cell can be received and stored. One or more execution tasks can be executed by a management plane of the service cell to bring the data plane to a state corresponding to the intended state. The management plane can monitor the actual state of the data plane with respect to the intended state (e.g., the state requested by a user). Over time, the management plane can make modifications to the service cell to ensure the resources of the data plane are ever in conformance with the intended state requested by the user.

Key Features and Innovation:

• Utilization of service cells to limit blast radius and reduce operational incidents
• Management plane and data plane included in each service cell
• Execution tasks executed by management plane to bring data plane to intended state
• Monitoring of actual state of data plane with respect to intended state
• Continuous modifications to service cell to ensure conformance with intended state

Potential Applications: - Network security - Cloud computing - Data center management - IoT device management

Problems Solved: - Mitigating operational incidents - Improving resource allocation - Enhancing system stability

Benefits: - Increased security - Enhanced performance - Improved operational efficiency

Commercial Applications: Title: "Enhancing Operational Efficiency with Service Cells" This technology can be applied in various industries such as cybersecurity, cloud computing, and IoT device management to improve operational efficiency and reduce the risk of incidents. Companies can utilize service cells to enhance their system stability and security, leading to better overall performance and customer satisfaction.

Prior Art: Readers can explore prior art related to service cells, network security, and system management in academic journals, patent databases, and industry publications to gain a deeper understanding of the technology's development and applications.

Frequently Updated Research: Researchers are continuously exploring new ways to optimize service cells for different industries and applications. Stay updated on the latest advancements in network security, cloud computing, and data center management to leverage the full potential of service cells in your organization.

Questions about Service Cells: 1. How do service cells contribute to reducing operational incidents in a network environment? Service cells help limit the blast radius and reduce the probability of attacks, load spikes, and other operational incidents by ensuring resources are in conformance with the intended state requested by the user.

2. What are the key components of a service cell and how do they work together to maintain system stability? A service cell consists of a management plane and a data plane, with the management plane executing tasks to bring the data plane to the intended state. This collaboration ensures that the resources of the data plane are continuously monitored and modified to align with the user's requested state.

Original Abstract Submitted

Service cells may be utilized to limit the blast radius and reduce the probability of operational incidents (e.g., attacks, load spikes, distributed thrash, and the like). Techniques discussed herein provide any suitable number of service cells, each if which include a management plane and a data plane. A work request that includes an intended state of the service cell can be received and stored. One or more execution tasks can be executed by a management plane of the service cell to bring the data plane to a state corresponding to the intended state. The management plane can monitor the actual state of the data plane with respect to the intended state (e.g., the state requested by a user). Over time, the management plane can make modifications to the service cell to ensure the resources of the data plane are ever in conformance with the intended state requested by the user.