Taiwan researchers are addressing complex challenges in the development of AI, climate science and quantum computing.
His work will soon be promoted by a new supercomputer at the National High Performance Computer Center of Taiwan that delivers more than eight times more yield than the previous Taiwania 2 system of the center, announced the CEO of Nvidia Jensen Huang in a Taang.
The AI supercomputer in NCHC is programmed to have NVIDIA H200 NVIDIA systems with more than 1,700 GPU, two NVIDIA GB200 NVL72 RACK-SCALY NVL Announced today in Computex, it is expected to be launched at the end of this year.
NChc also plans to implement a set of personal NVIDIA DGX Spark and a cluster of NVIDIA HGX systems in the cloud.
Researchers from academic institutions, government agencies and small businesses in Taiwan may request access to the new system to accelerate innovative projects.
“The new NCHC supercomputer will generate advances in sovereign, quantum computing and advanced scientific calculation,” said Chau-and Chang, CEO of NCHC, in a statement. “It is designed to train Taiwan’s technological autonomy, fostering collaboration between domains and global leadership of AI.”
Development of local language models for sovereign AI
The new supercomputer will admit projects such as Taiwan AI Rap, a generative platform for the development of AI applications. Taiwan AI Rap aims to support the rapid development of AI products through the offer of startups, researchers and companies access to personalized models that reflect local cultural and linguistic nuances.
Among the offers of the platform are models created by the reliable Motor of Dialogue of the IA of Taiwan, or Taide, an initiative of the public sector to build large -language models (LLM) Taiwanese for tasks that include natural service and processing.
Collaborators who provide text data, images, audio and video for the initiative include local governments, news organizations and public departments such as the Ministry of Education and the Ministry of Culture.
To support the creation of Savereign AI applications, TAIDE currently offers developers access to a collection of flame models3.1-Taide Foundation. The equipment is building additional services from Sovereign AI LLM using Nvidia Nemotron models.
A professor at the National University of Tainan is using the Taide model to feed a conversational robot that Taiwanés and English speaks with primary and secondary students. It is a leg used by more than 2,000 students, teachers and parents to date. Another teacher took advantage of the model to generate high quality educational materials, shortening the preparation time of lessons for teachers.
In medical care, Taiwan research teams used the Taide model to develop an AI chatbot with an aquatic recovery generation that helps cases of cases to deliver timely and precise medical information to patients with important injuries and diseases. And the Epidemic Prevention Center in the Centers for Taiwan disease control is to train the model to generate news summaries to support the monitoring and prevention of how diseases are propagated.
Scientific research in climate and beyond
In climate research, NCHC supports researchers who use the NVIDIA Earth-2 platform to advance atmospheric science. These researchers are taking advantage of the land ai model of the Earth-2 to exacerbate the accuracy of coarse resolution meteorological models, and the Deepmind Graphcast model in Nvidia Physicsnemo for the forecast of the global climate.
They are also adopting NVIDIA NIM microservice for Fourcastnet, a NVIDIA model that predicts global atmospheric dynamics of climatic and climatic variables, and the use of NVIDIA GPUs to accelerate the simulation of numerical models.
With the new supercomputer, researchers may execute more complex simulations and acceleration the training and inference rhythm of AI.
Advance of quantum innovation
NCHC researchers are also advancing in quantum research using the NVIDIA CUDA-Q platform and the Nvidia Cuquantum library aimed at applications in quantum, chemical, finance, cryptography and more applications.
The Research Institute has developed a quantum molecular generator, a tool that generates valid chemical molecules, using quantum circuits and the CUDA-Q platform. It has also created CUTN-QSVM, an open source tool built in the Cuquantum library that accelerates quantum circuits on a large scale.
The tool allows researchers to address more complex problems, offer linear scalability and support quantum hybrid computer systems to help accelerate the development of large -scale quantum algorithms.
NCHC researchers recently used CUTN-QSVM to perform a record simulation of 784 qubits for a quantum automatic learning algorithm. The institute also plans to build a hybrid computer system with quantum access by integrating NVIDIA DGX quantum systems.