1. Computing Power Perception and Measurement
This involves evaluating and measuring the status and distribution of various computing resources across the entire network, serving as the basis for resource discovery, trading, and scheduling. By collecting and analyzing computing power usage in real time, it ensures rational resource allocation and efficient utilization, thereby enhancing overall system performance and reliability. Effective measurement and evaluation of heterogeneous computing power provide a foundation for computing power transactions and usage.
2. Computing Power Identification
Computing power identification technology refers to the means of uniquely identifying and recognizing computing resources. By assigning a unique identifier to each computing node, the system can accurately identify and manage computing resources, facilitating precise resource localization, scheduling, and monitoring, thus improving resource utilization efficiency and overall system performance.
3. Computing Power Trading
Computing power trading technology aims to establish an efficient, fair, and reliable computing power trading platform to promote flexible configuration and utilization of computing resources, encouraging user participation and third-party computing resource integration. It primarily includes key technologies such as resource pricing models, trading mechanisms, security and privacy protection, resource scheduling and allocation algorithms, and blockchain technology applications.
China Telecom Cloud Computing Research Institute Beijing Headquarters
(No. 42, Xueyuan Road, Haidian District, Beijing)
China Telecom Cloud Computing Research Institute Shanghai Branch (No. 211, Century Avenue, Pudong New Area, Shanghai)
Beijing Public Security Registration No. 11040140060 | Beijing ICP No. 12007914
Value-Added Telecommunications Business Operation License A2.B1.B2-20090001
1. Computing Power Perception and Measurement
This involves evaluating and measuring the status and distribution of various computing resources across the entire network, serving as the basis for resource discovery, trading, and scheduling. By collecting and analyzing computing power usage in real time, it ensures rational resource allocation and efficient utilization, thereby enhancing overall system performance and reliability. Effective measurement and evaluation of heterogeneous computing power provide a foundation for computing power transactions and usage.
2. Computing Power Identification
Computing power identification technology refers to the means of uniquely identifying and recognizing computing resources. By assigning a unique identifier to each computing node, the system can accurately identify and manage computing resources, facilitating precise resource localization, scheduling, and monitoring, thus improving resource utilization efficiency and overall system performance.
3. Computing Power Trading
Computing power trading technology aims to establish an efficient, fair, and reliable computing power trading platform to promote flexible configuration and utilization of computing resources, encouraging user participation and third-party computing resource integration. It primarily includes key technologies such as resource pricing models, trading mechanisms, security and privacy protection, resource scheduling and allocation algorithms, and blockchain technology applications.
