FIELD FIRMWARE UPDATE

Organization Name

Micron Technology, Inc.

Inventor(s)

Angelo Alberto Rovelli of Agrate Brianza (IT)

Alessandro Orlando of Milano (IT)

Craig A. Jones of Plano TX (US)

Federica Cresci of Milan (IT)

Niccolò Izzo of Vignate (IT)

Danilo Caraccio of Milano MI (US)

FIELD FIRMWARE UPDATE - A simplified explanation of the abstract

This abstract first appeared for US patent application 17969916 titled 'FIELD FIRMWARE UPDATE

Simplified Explanation

The abstract describes a patent application related to field firmware update (FFU) technology. The invention involves a memory module that receives an encrypted segment of a firmware (FW) package associated with FFU. The memory module then stores a decrypted segment of the FW package and re-encrypts it before communicating it to another memory module.

• The patent application relates to field firmware update (FFU) technology.
• A memory module receives an encrypted segment of a firmware (FW) package associated with FFU.
• The memory module stores a decrypted segment of the FW package.
• The memory module re-encrypts the decrypted segment of the FW package.
• The re-encrypted segment of the FW package is communicated to another memory module.

Potential Applications

• This technology can be applied in various electronic devices that require firmware updates, such as smartphones, tablets, computers, and IoT devices.
• It can be used in industrial equipment and machinery that rely on firmware for operation and require remote updates.
• The technology can be implemented in automotive systems to facilitate secure and efficient firmware updates for vehicle components.

Problems Solved

• The technology solves the problem of securely updating firmware in memory modules by encrypting and re-encrypting the FW package segments.
• It ensures that the FW package remains protected during the update process, preventing unauthorized access or tampering.
• The invention provides a reliable and efficient method for transferring FW package segments between memory modules.

Benefits

• The technology enables secure and efficient field firmware updates, reducing the risk of vulnerabilities and improving device performance.
• It allows for seamless updates without the need for physical access to the memory module, saving time and resources.
• The re-encryption process ensures the confidentiality and integrity of the FW package, enhancing overall system security.

Original Abstract Submitted

Methods, systems, and devices related to field firmware update (FFU). A first memory of a memory module may receive an encrypted segment of a FW package associated with FFU. A decrypted segment of the FW package may be stored by the first memory. A re-encrypted segment of the FW package may be stored by the first memory. The re-encrypted segment of the FW package may be communicated to a second memory of the memory module.