my country has made a major breakthrough in the field of earthquake monitoring! The third phase test version of "Ting Ting", the world's first large-scale seismic wave model with hundreds of millions of parameters, jointly developed by the National Supercomputing Center in Chengdu, the Institute of Geophysics of the China Earthquake Administration and Tsinghua University, has been officially launched. The "True Listen" large model is designed to improve seismic signal recognition accuracy and monitoring capabilities, especially in processing complex seismic waveform data. In its application in the 6.8-magnitude earthquake in Tingri, Tibet, it successfully identified a large number of seismic events before and after the earthquake, verifying the effectiveness of the model.
The purpose of the development of the "True Listen" large model is to improve the recognition accuracy and monitoring capabilities of seismic signals, especially in processing complex seismic waveform data, to provide more efficient and accurate analysis. It is reported that this model has been successfully applied to the processing of 6.8-magnitude earthquake data in the Tingri area of Tibet. Through automated means, 452 pre-earthquake events and 429 aftershock events within 27 hours after the earthquake were identified. This success not only verified the effectiveness of the model, but also provided new technical means for future earthquake monitoring.
Looking forward to the future, the "True Listen" large model will open the fine-tuning and inference framework in 2025, and launch supporting data processing processes. By then, users will be able to use this tool directly on the supercomputing platform for business analysis and scientific research. In the short term, the application of this model will focus on seismic signal identification, seismic activity monitoring, and rapid response to major earthquakes. In the long run, seismology, as an observational science, is inseparable from the in-depth understanding and analysis of observation data.
This development is not only of great significance to scientific researchers, but will also greatly enhance the public's early warning capabilities for earthquake activity. As the model continues to improve, it is expected to provide stronger support for earthquake prediction and disaster prevention and mitigation in the future.
The successful launch of the "Tingting" large-scale model marks a key step in the field of earthquake prediction and disaster prevention and reduction in my country. In the future, it will continue to provide strong technical support for earthquake research and public safety, and make contributions to ensuring the safety of people's lives and property. greater contribution. It is believed that with the continuous development of technology, "True Listen" will become more powerful and provide more accurate and efficient services for earthquake monitoring.