17945592. APPLICATION PROCESSOR THAT PERFORMS CORE SWITCHING BASED ON MODEM DATA AND A SYSTEM ON CHIP (SOC) THAT INCORPORATES THE APPLICATION PROCESSOR simplified abstract (SAMSUNG ELECTRONICS CO.,LTD.)

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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 GWANGMYEONG-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 17945592 titled 'APPLICATION PROCESSOR THAT PERFORMS CORE SWITCHING BASED ON MODEM DATA AND A SYSTEM ON CHIP (SOC) THAT INCORPORATES THE APPLICATION PROCESSOR

Simplified Explanation

The abstract describes a patent application for an application processor and system on chip (SoC) that includes the application processor. The application processor consists of a first core that processes smaller data per unit time, a second core that processes larger data per unit time, and a lookup table that determines which core to activate based on various factors.

  • The application processor has two cores: a first core for processing smaller data and a second core for processing larger data.
  • A lookup table is used to decide whether to activate the first core or the second core.
  • The decision is based on factors such as the analysis result of a message signal received by a communications processor, a sensing signal supplied to the application processor, and the power level supplied to the communications processor.

Potential Applications

  • This technology can be applied in various devices that require efficient processing of different types of data, such as smartphones, tablets, and IoT devices.
  • It can be used in communication systems to optimize the processing power based on the type of data being transmitted or received.
  • The application processor can be utilized in automotive systems for processing different types of sensor data in real-time.

Problems Solved

  • The technology solves the problem of inefficient processing of different types of data by providing separate cores for different data sizes.
  • It addresses the challenge of determining which core to activate based on various factors, ensuring optimal performance and power efficiency.
  • The application processor solves the problem of limited processing capabilities in devices by providing a flexible and adaptable solution.

Benefits

  • The use of separate cores for different data sizes allows for efficient processing and improved performance.
  • The lookup table-based decision-making process ensures the appropriate core is activated, optimizing power consumption.
  • The application processor provides a versatile solution that can be integrated into various devices and systems, enhancing their processing capabilities.


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.

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