MULTI-NODE SYSTEM AND POWER SUPPLY CONTROL METHOD

Organization Name

Inventor(s)

MULTI-NODE SYSTEM AND POWER SUPPLY CONTROL METHOD - A simplified explanation of the abstract

This abstract first appeared for US patent application 18462829 titled 'MULTI-NODE SYSTEM AND POWER SUPPLY CONTROL METHOD

Simplified Explanation: The patent application describes a multi-node system that can continue processing even in the event of a partial outage by detecting inactive nodes, saving necessary data, and restarting the system when the power is restored.

Key Features and Innovation:

Multi-node system with multiple nodes, each containing a controller with a processor, power supply control microcomputer, memory, and nonvolatile memory.
Processor detects inactive nodes due to power outage and determines if system operation can continue.
System saves data into nonvolatile memory if operation cannot continue and restarts when power is restored.
Enables the system to easily resume processing once the affected node recovers from the outage.

Potential Applications: This technology can be applied in various industries where uninterrupted processing is crucial, such as data centers, telecommunications, and industrial automation.

Problems Solved: The technology addresses the issue of system downtime and data loss caused by partial outages, ensuring continuous operation and data integrity.

Benefits:

Improved system reliability and uptime.
Minimized data loss and disruption.
Enhanced overall system performance and efficiency.

Commercial Applications: Potential commercial applications include data centers, cloud computing services, telecommunications infrastructure, and industrial automation systems. The technology can provide a competitive advantage by ensuring uninterrupted operation and data integrity.

Prior Art: Readers can explore prior art related to multi-node systems, power supply control, and data recovery technologies to understand the evolution of similar innovations in the field.

Frequently Updated Research: Stay updated on advancements in multi-node systems, power management technologies, and data recovery methods to enhance the performance and reliability of similar systems.

Questions about Multi-Node Systems: 1. How does the multi-node system detect inactive nodes during a power outage? 2. What are the key components of the controller in each node of the multi-node system?

Original Abstract Submitted

In the event of a partial outage, a multi-node system is enabled to start processing easily and appropriately. The multi-node system includes multiple nodes each including at least one controller, the controller including a processor, a power supply control microcomputer, a memory, and a nonvolatile memory. The processor detects whether or not any one of the nodes is inactive due to a power outage. The processor determines whether or not operation of the multi-node system can be continued, on the basis of operational status of the nodes. Upon determination that the operation of the multi-node system cannot be continued, the processor saves necessary data held in the memory into the nonvolatile memory. The power supply control microcomputer restarts the processor. When the node in the power outage has recovered therefrom following the restart, the multi-node system is caused to start processing.