DELIVERING FILE SYSTEM NAMESPACE FEATURES WITHOUT ON-DISK LAYOUT CHANGES

Organization Name

Dell Products L.P.

Inventor(s)

Geetha Shendge of San Jose CA (US)

Shashikanth Lakshmikantha of San Jose CA (US)

DELIVERING FILE SYSTEM NAMESPACE FEATURES WITHOUT ON-DISK LAYOUT CHANGES - A simplified explanation of the abstract

This abstract first appeared for US patent application 18182570 titled 'DELIVERING FILE SYSTEM NAMESPACE FEATURES WITHOUT ON-DISK LAYOUT CHANGES

Simplified Explanation: The patent application describes a method of identifying and correcting anomalies in a file system without making changes to the on-disk layout.

Key Features and Innovation:

• An iterator in the file system identifies anomalies in the hierarchical data structure.
• An annotation about the anomaly is stored in an external in-memory storage.
• An asynchronous agent corrects the identified anomaly based on the stored annotation.

Potential Applications: This technology can be applied in various file systems to improve data integrity and organization.

Problems Solved: This technology addresses the challenge of identifying and correcting anomalies in file systems without altering the on-disk layout.

Benefits:

• Improved data structure integrity.
• Efficient anomaly detection and correction.
• Minimal disruption to the existing file system layout.

Commercial Applications: The technology can be utilized in cloud storage systems, data centers, and large-scale file management systems to enhance data organization and reliability.

Prior Art: Readers can explore prior research on file system anomaly detection and correction methods to understand the evolution of this technology.

Frequently Updated Research: Researchers are constantly exploring new methods and algorithms for enhancing file system integrity and performance.

Questions about File System Anomaly Detection and Correction: 1. How does this technology impact the overall efficiency of file system management? 2. What are the potential challenges in implementing this method in different types of file systems?

Question 1: How does this technology impact the overall efficiency of file system management?

Answer 1: This technology improves efficiency by enabling the identification and correction of anomalies without disrupting the existing file system layout, leading to enhanced data integrity and organization.

Question 2: What are the potential challenges in implementing this method in different types of file systems?

Answer 2: Challenges may include compatibility issues with legacy file systems, the scalability of the method to handle large data sets, and ensuring seamless integration with existing file system architectures.

Original Abstract Submitted

Delivering file system namespace features without on-disk layout changes is described. An iterator in a file system identifies an anomaly in a hierarchical data structure, which includes a root node at a highest level in a file set, includes directories of connected nodes corresponding to other levels in the file set, and includes leaf nodes at a lowest level in the file set. The iterator stores an annotation, about the anomaly, into an in-memory storage that is external to the file system. An asynchronous agent in the file system identifies the annotation, about the anomaly, which is stored in the in-memory storage, thereby enabling the asynchronous agent to correct the anomaly.