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China’s thriving metropolis of Shanghai has played a significant part in fostering the creation and development of massive artificial intelligence (AI) models. Shanghai is establishing itself as a global leader in the AI revolution by utilising the potential of cutting-edge AI technologies and cultivating a positive ecology.
Liu Ping, Deputy Director of the Shanghai Municipal Commission of Economy and Information Technology, spoke at the 2023 World Artificial Intelligence Conference (WAIC), which was organised by the China Academy of Information and Communications Technology (CAICT), and emphasised the increased importance of generative AI and large models as a result of the new round of AI strategy.
Shanghai saw this as an opportunity to lead the way and seized it by utilising its advantages in data, urban digital transformation, and scene advantages to encourage innovation and the growth of huge models around the city.
AI terms like “large models” refer to complex neural networks with a tonne of parameters that can handle enormous volumes of data and pick up nuanced patterns. Machine translation, picture identification, natural language processing, and other AI-related jobs have all been transformed by these models. The creation of extensive language models has been one of the most impressive developments in this field.
In China, Shanghai has been at the forefront of AI development and is aggressively fostering a climate that supports the creation of huge models. The large investments made by the public and business sectors show the city’s dedication to AI research. Research organisations, startups, and tech giants now have the required assistance to investigate AI technologies, particularly large models, thanks to government-led efforts and policies.
Shanghai is home to several top-tier research and development centres that have evolved into the cradle of cutting-edge AI inventions. Leading academic institutions work closely with well-known tech firms to construct huge models through a mutually beneficial connection. To further push the limits of AI, researchers and students have access to enormous amounts of data, computational resources, and industry knowledge.
The essential window of opportunity for large models was emphasised by Yu Xiaohui, President of CAICT, who also urged for more funding for fundamental theoretical research and independent discoveries in important products. To develop high-value scenarios and test beds, the integration and use of massive models across numerous industries were promoted.
Driving large-scale model invention and iteration requires establishing pertinent standards and evaluation capabilities, building high-quality datasets, and coordinating computational power resources. Large models have transformed AI by enabling more complicated and accurate data analysis, natural language processing, picture recognition, and other challenging tasks.
The ability of large model innovation to increase productivity is one of its key advantages. Large models can dramatically increase efficiency across a variety of sectors by automating complex operations and streamlining procedures. Due to the cost savings and enhanced performance brought about by this increased productivity, firms are now more competitive in today’s quick-paced environment.
Further, promoting large-model innovation helps the economy grow on a larger scale. Investments in AI development give nations and organisations a competitive edge, luring capital, and talent from around the globe. Those at the vanguard stand to gain considerably as AI continues to alter industries, opening new job opportunities and fostering economic development.
Also, large models can help address problems like resource management, public health, and climate change by using AI for data analysis and decision-making. Large models drive smart city solutions that improve urban design, transport, and public services for a more efficient and sustainable future.