18235149. AUTOMATED GUI-DRIVEN OPROM VALIDATION simplified abstract (Micron Technology, Inc.)
Contents
AUTOMATED GUI-DRIVEN OPROM VALIDATION
Organization Name
Inventor(s)
Harsha Vardhana Gonchigara Vemanna of Bangalore (IN)
Sathyashankara Bhat Muguli of Bangalore (IN)
AUTOMATED GUI-DRIVEN OPROM VALIDATION - A simplified explanation of the abstract
This abstract first appeared for US patent application 18235149 titled 'AUTOMATED GUI-DRIVEN OPROM VALIDATION
Simplified Explanation
- A method for automated GUI-driven OpROM validation involves executing an automated test script on a processor. - The processor remotely accesses a memory sub-system using a web driver and an interface. - A BIOS terminal window of the memory sub-system is displayed on a display screen. - The processor captures a screenshot of the BIOS terminal window and generates an image based on the screenshot. - The image is converted to text using OCR, and an output comprising BIOS configuration details is generated using a machine-learning algorithm. - The output is analyzed to validate the memory sub-system for errors. - If errors are detected, the memory sub-system is flagged. - Potential applications of this technology include automated testing and validation of memory sub-systems in computer systems. - The problems solved by this technology include efficient and accurate validation of BIOS configuration details in memory sub-systems. - The benefits of this technology include increased reliability and performance of computer systems through thorough validation processes.
Original Abstract Submitted
A method for performing automated GUI-driven OpROM validation starts with a processor executing an automated test script; and in response to executing the automated test script, the processor is caused to remotely accessing a memory sub-system using a web driver and an interface. The processor causes a BIOS terminal window of the memory sub-system to be displayed on a display screen. The processor captures a screenshot of the BIOS terminal window and generating an image based on the screenshot. The processor converts the image to text using OCR and generates an output comprising BIOS configuration details based on the text using a machine-learning algorithm. The processor then analyzes the output to validate the memory sub-system when no errors are detected in the output or to flag the memory sub-system when errors are detected in the output. Other embodiments are described herein.
