18062774. SYSTEMS AND METHODS FOR ADAPTIVE THERMAL CONFIGURATIONS IN A HETEROGENEOUS COMPUTING PLATFORM simplified abstract (Dell Products, L.P.)
Contents
SYSTEMS AND METHODS FOR ADAPTIVE THERMAL CONFIGURATIONS IN A HETEROGENEOUS COMPUTING PLATFORM
Organization Name
Inventor(s)
Suraj M Varma of Portland OR (US)
Daniel L. Hamlin of Round Rock TX (US)
Travis C. North of Cedar Park TX (US)
SYSTEMS AND METHODS FOR ADAPTIVE THERMAL CONFIGURATIONS IN A HETEROGENEOUS COMPUTING PLATFORM - A simplified explanation of the abstract
This abstract first appeared for US patent application 18062774 titled 'SYSTEMS AND METHODS FOR ADAPTIVE THERMAL CONFIGURATIONS IN A HETEROGENEOUS COMPUTING PLATFORM
Simplified Explanation: The patent application describes systems and methods for managing thermal operations in heterogeneous computing platforms of Information Handling Systems (IHSs). An orchestrator device receives reports of changes in user context and configures thermal operations in the IHS based on the reported user context.
- Devices and memory storing firmware instructions in a heterogeneous computing platform
- Firmware instructions executed by devices to provide firmware services
- Orchestrator device receives reports of changes in user context
- Orchestrator determines thermal settings mapped to reported user context
- Orchestrator configures thermal operations in the IHS based on thermal settings
Potential Applications: - Data centers - High-performance computing systems - Mobile devices - Internet of Things (IoT) devices
Problems Solved: - Efficient management of thermal operations in heterogeneous computing platforms - Optimization of thermal settings based on user context - Enhanced performance and reliability of IHSs
Benefits: - Improved thermal management - Enhanced user experience - Increased system efficiency - Extended device lifespan
Commercial Applications: Title: "Smart Thermal Management System for Heterogeneous Computing Platforms" This technology can be applied in data centers, high-performance computing systems, and IoT devices to optimize thermal operations and improve overall system performance. The market implications include increased efficiency, reduced energy consumption, and enhanced reliability in various computing environments.
Prior Art: Prior art related to this technology may include research papers, patents, and publications on thermal management in computing systems, heterogeneous computing platforms, and user context-based system optimization.
Frequently Updated Research: Researchers are continuously exploring new methods for thermal management in heterogeneous computing platforms, including machine learning algorithms for predictive thermal control and adaptive cooling strategies based on user behavior.
Questions about Thermal Management in Heterogeneous Computing Platforms: 1. How does the orchestrator device determine thermal settings based on user context? 2. What are the potential challenges in implementing user context-based thermal management in IHSs?
Original Abstract Submitted
Systems and methods for managing thermal operations in heterogenous computing platforms of IHSs (Information Handling Systems) are described. In an illustrative, non-limiting embodiment, a heterogeneous computing platform includes devices and a memory storing firmware instructions. Based on execution of these firmware instructions by a respective device, a corresponding firmware service is provided such that one of the devices operates as an orchestrator. The orchestrator receives reports of changes in context of operation of the IHS by a user and determines one or more thermal settings that are mapped to the reported user context, where the thermal settings configure thermal operations by the IHS. The orchestrator configures thermal operations by the IHS based on the thermal settings, where the configured thermal operations are utilized until additional reports of changes in user context are received by the orchestrator.