IMPROVING RESTORATION OF FIRMWARE DATA

Organization Name

dell products l.p.

Inventor(s)

Richard M. Tonry of Georgetown TX (US)

Balasingh P. Samuel of Round Rock TX (US)

Nicholas Grobelny of Evergreen CO (US)

IMPROVING RESTORATION OF FIRMWARE DATA - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240232026 titled 'IMPROVING RESTORATION OF FIRMWARE DATA

Simplified Explanation:

The abstract describes a system where a basic input/output system (BIOS) determines if an automated recovery mechanism is enabled in response to detecting data corruption. An embedded controller can extract recovery data from a storage device if the recovery mechanism is enabled. The controller can then decrypt and push BIOS firmware data and embedded controller firmware data into non-volatile random access memory if the recovery data is valid.

Key Features and Innovation:

• BIOS determines if automated recovery mechanism is enabled in response to data corruption detection.
• Embedded controller extracts recovery data from storage device.
• Controller decrypts and pushes BIOS firmware data and embedded controller firmware data into non-volatile random access memory.

Potential Applications: This technology can be applied in various industries where data corruption detection and recovery are critical, such as in computer systems, servers, and other electronic devices.

Problems Solved: This technology addresses the need for automated recovery mechanisms in response to data corruption, ensuring that systems can recover and function properly even after encountering errors.

Benefits:

• Improved system reliability and data integrity.
• Automated recovery process reduces downtime and manual intervention.
• Enhanced overall system performance and stability.

Commercial Applications: Potential commercial applications include data centers, server farms, cloud computing facilities, and any other environments where data integrity and system reliability are paramount.

Questions about the Technology: 1. How does the BIOS determine if the automated recovery mechanism is enabled? 2. What are the specific steps involved in decrypting and pushing firmware data into non-volatile random access memory?

Frequently Updated Research: Stay updated on advancements in data recovery technologies, firmware encryption methods, and system reliability enhancements to ensure the most effective implementation of this technology.

Original Abstract Submitted

a basic input/output system (bios) determine whether an automated recovery mechanism is enabled in response to a detection of a data corruption. an embedded controller may extract recovery data from a storage device upon confirmation that the automated recovery mechanism is enabled. in response to verification that the recovery data is valid, the controller may decrypt a bios firmware data in the recovery data and push the bios firmware data into a non-volatile random access memory, and decrypt an embedded controller firmware data in the recovery data and push the embedded controller firmware data into the non-volatile random access memory.