18420053. INFORMATION PROCESSING DEVICE simplified abstract (TOYOTA JIDOSHA KABUSHIKI KAISHA)
Contents
INFORMATION PROCESSING DEVICE
Organization Name
TOYOTA JIDOSHA KABUSHIKI KAISHA
Inventor(s)
Tomoaki Karasawa of Matsudo-shi (JP)
INFORMATION PROCESSING DEVICE - A simplified explanation of the abstract
This abstract first appeared for US patent application 18420053 titled 'INFORMATION PROCESSING DEVICE
The information processing device described in the patent application manages a non-volatile memory that can be rewritten in units of cells. The device includes a CPU as an execution device. When the remaining number of times until the number of times of rewriting of the cell reaches the upper limit is set as the rewrite life, the CPU executes a process of acquiring the temperature of the cell requested to be written and a process of calculating the rewrite life based on the acquired temperature.
- The device manages a non-volatile memory that can be rewritten in units of cells.
- Includes a CPU as an execution device.
- Monitors the remaining number of times until the cell reaches the upper limit of rewrites.
- Acquires the temperature of the cell requested to be written.
- Calculates the rewrite life based on the acquired temperature.
Potential Applications: - Data storage systems - Embedded systems - IoT devices
Problems Solved: - Managing the rewrite life of non-volatile memory cells - Ensuring optimal performance and longevity of memory storage
Benefits: - Efficient management of memory rewrites - Enhanced performance and reliability of memory storage
Commercial Applications: Title: "Optimized Memory Management Technology for Enhanced Data Storage Systems" This technology can be utilized in various data storage systems, embedded devices, and IoT applications to improve memory performance and longevity, leading to more reliable and efficient operations in commercial settings.
Prior Art: Researchers can explore prior patents related to memory management systems, CPU execution devices, and non-volatile memory technologies to gain insights into the evolution of similar innovations in the field.
Frequently Updated Research: Stay updated on advancements in non-volatile memory technologies, CPU processing capabilities, and memory management systems to leverage the latest developments in the industry.
Questions about the technology: 1. How does the device determine the rewrite life of a memory cell based on its temperature? The device calculates the rewrite life by acquiring the temperature of the cell requested to be written and using this information to determine the remaining number of times until the upper limit of rewrites is reached.
2. What are the potential implications of this technology for the future of data storage systems? This technology could revolutionize the efficiency and reliability of data storage systems, leading to improved performance and longevity in various applications.
Original Abstract Submitted
The information processing device manages a non-volatile memory that can be rewritten in units of cells. The information processing device includes a CPU as an execution device. When the remaining number of times until the number of times of rewriting of the cell reaches the upper limit is set as the rewrite life, CPU executes a process of acquiring the temperature of the cell requested to be written and a process of calculating the rewrite life based on the acquired temperature.