APPLICATION PROCESSOR THAT PERFORMS CORE SWITCHING BASED ON MODEM DATA AND A SYSTEM ON CHIP (SOC) THAT INCORPORATES THE APPLICATION PROCESSOR

Organization Name

samsung electronics co., ltd.

Inventor(s)

Taek Kyun Shin of Suwon-si (KR)

Jun Ho Seo of Suwon-si (KR)

Jung Hun Heo of Suwon-si (KR)

APPLICATION PROCESSOR THAT PERFORMS CORE SWITCHING BASED ON MODEM DATA AND A SYSTEM ON CHIP (SOC) THAT INCORPORATES THE APPLICATION PROCESSOR - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240323845 titled 'APPLICATION PROCESSOR THAT PERFORMS CORE SWITCHING BASED ON MODEM DATA AND A SYSTEM ON CHIP (SOC) THAT INCORPORATES THE APPLICATION PROCESSOR

The abstract describes an application processor and a system on chip (SoC) that incorporates the application processor. The application processor includes a first core for processing first data per unit time, a second core for processing second data larger than the first data per unit time, and a lookup table to determine whether to activate the first core or the second core based on various signals received.

• The application processor has a unique dual-core configuration to handle different types of data efficiently.
• The activation of the first core or second core is determined based on analysis results of message signals, sensing signals, and power levels.
• This technology optimizes processing power based on real-time data analysis, improving overall system performance.
• The system on chip design integrates the application processor seamlessly for enhanced functionality.
• The lookup table plays a crucial role in dynamically allocating resources based on the workload, ensuring optimal performance.

Potential Applications: This technology can be applied in mobile devices, IoT devices, and other embedded systems requiring efficient data processing. It can also be used in communication systems, automotive systems, and industrial automation for improved performance.

Problems Solved: Efficient utilization of processing power based on real-time data analysis. Optimal resource allocation for different types of data processing. Enhanced system performance and responsiveness.

Benefits: Improved overall system performance. Efficient handling of different types of data. Dynamic resource allocation for optimal power utilization.

Commercial Applications: This technology can be utilized in smartphones, tablets, smart home devices, automotive systems, and industrial automation for enhanced performance and efficiency.

Prior Art: Researchers can explore prior art related to dual-core processors, system on chip designs, and dynamic resource allocation in embedded systems.

Frequently Updated Research: Stay updated on advancements in dual-core processor technology, system on chip designs, and real-time resource allocation algorithms for embedded systems.

Questions about the Technology: 1. How does the lookup table determine which core to activate based on the signals received? 2. What are the potential challenges in implementing this dual-core configuration in different applications?

Original Abstract Submitted

an application processor and a system on chip (soc) that incorporates the application processor are provided. the application processor includes a first core configured to process first data per unit time, a second core configured to process second data larger than the first data per unit time, and a lookup table configured to determine whether to activate the first core or the second core based on at least one of an analysis result of a message signal received by a communications processor, a sensing signal supplied to the application processor and a power level supplied to the communications processor.