Company Filing History:
Years Active: 2018-2022
Title: The Innovations of Matthew C Areno
Introduction
Matthew C Areno is a notable inventor based in Round Rock, Texas. He has made significant contributions to the field of secure booting technologies. With a total of 5 patents to his name, Areno's work focuses on enhancing the security of commercial off-the-shelf systems.
Latest Patents
One of his latest patents is titled "System and method for booting processors with encrypted boot image." This patent describes a method for secure booting that includes loading and executing firmware in a Management Engine (ME) of a system. The ME establishes a communication channel to a security device, receives an encrypted boot image, decrypts it, and stores the decrypted image in a secured storage medium. The system is then reset using the decrypted boot image.
Another significant patent is "Controlling security state of commercial off the shelf (COTS) system." This invention outlines a method for secure booting that involves receiving a public key from a security device and validating it by comparing it with a hash code. Upon validation, custom codes are received and stored in a microprocessor, which is located in a programmable memory of a primary processor. The programmable memory is then programmed by executing the custom codes, leading to the execution of a boot sequence of the primary processor.
Career Highlights
Matthew C Areno is currently employed at Raytheon Company, where he continues to innovate in the field of security technologies. His work has been instrumental in developing methods that enhance the security of various systems.
Collaborations
Areno has collaborated with notable colleagues, including John C Hoffman and Jody R Coleman, contributing to advancements in their respective fields.
Conclusion
Matthew C Areno's contributions to secure booting technologies reflect his commitment to innovation and security. His patents demonstrate a deep understanding of the complexities involved in protecting systems from unauthorized access.