INTEGRATING AUTONOMOUS MEMORY SUBSYSTEM SELF-REFRESH WITH SYSTEM POWER MANAGEMENT STATES

Organization Name

intel corporation

Inventor(s)

Vijay Anand Mathiyalagan of Austin TX (US)

Michelle M. Wigton of Timnath CO (US)

INTEGRATING AUTONOMOUS MEMORY SUBSYSTEM SELF-REFRESH WITH SYSTEM POWER MANAGEMENT STATES - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240211016 titled 'INTEGRATING AUTONOMOUS MEMORY SUBSYSTEM SELF-REFRESH WITH SYSTEM POWER MANAGEMENT STATES

Simplified Explanation:

The system described in the abstract includes a resource controller that can detect when memory has been idle for a certain period. When this happens, the resource controller can instruct the memory controller to initiate a shallow self-refresh command, which is a type of self-refresh without stopping the clock.

Key Features and Innovation:

• Resource controller can determine idle memory.
• System-level resource controller triggers memory controller.
• Shallow self-refresh command is initiated.
• Self-refresh without clock stop.

Potential Applications: This technology could be used in various electronic devices that require efficient memory management, such as smartphones, tablets, and laptops.

Problems Solved: This technology addresses the issue of memory inefficiency by allowing for self-refresh commands to be triggered when memory is idle, improving overall system performance.

Benefits:

• Improved memory management.
• Enhanced system performance.
• Energy efficiency.

Commercial Applications: The technology could be applied in the development of mobile devices, computers, and other electronic systems to optimize memory usage and enhance overall performance in the market.

Questions about Memory Management: 1. How does the resource controller determine if memory has been idle for a certain period? 2. What are the potential drawbacks of using shallow self-refresh commands in memory management systems?

Original Abstract Submitted

a system includes a resource controller that can determine if a memory has been idle for longer than a threshold. the resource controller is at the system level, above the memory subsystem. in response to determining the memory has been idle for at least the threshold, the resource controller can trigger the memory controller to send a shallow self-refresh command, which is self-refresh without clock stop.