2023年6月27日,夏季达沃斯论坛在天津梅江会展中心开幕,本届论坛的主题是:“企业家精神:世界经济驱动力”。国务院总理李强、世界经济论坛创始人兼执行主席Klaus Schwab出席开幕式并致辞。
当天下午,中国工程院院士,清华大学讲席教授、智能产业研究院(AIR)院长张亚勤出席了Generative AI: Friend or Foe(生成式人工智能:友或敌)分论坛并发言。一同出席的还有IBM公司董事长兼总经理陈旭东,斯洛文尼亚数字化转型部部长Emilija Stojmenova Duh,香港科技大学电子及计算机工程系讲席教授冯雁,可之科技创始人王冠,本次分论坛由世界经济论坛AI、数据和元宇宙业务负责人李琪主持。
张亚勤院士首先分享了他对ChatGPT、Stable-diffusion等生成式人工智能的发展的三个观察:- ChatGPT是第一个通过图灵测试的软件,这对于计算机科学家来说是一个重大的成就;
- 生成式AI为实现人工通用智能(AGI)提供了一条途径,虽然还不完全是AGI,但已经显示出了可能性;
- 大模型是人工智能的操作系统,就像PC时代的Windows和Linux,移动时代的iOS和Android一样,它将完全重塑整个生态系统,无论是底层芯片还是应用层面。
他表示,如今整个技术已经完全改变了行业,包括中国。中国在基础研究、算法、行业应用等方面都做了很好的工作,尽管ChatGPT不是在中国发明的,但在过去的六个月左右,有近百家新兴的生成式人工智能公司涌现,不论初创公司还是大公司,充分竞争的市场才是好市场,充分竞争的公司才是好公司。大模型时代才刚刚开始,42公里的马拉松我们刚跑到5公里,算力、数据不够都不成问题。中国在PC时代落后于美国,但在移动互联时代领先于美国(数字支付、微信、短视频),AI时代要给创业者、科研人员、企业更多信心。随后张院士着重介绍了清华大学智能产业研究院(AIR)。AIR是一个面向第四次工业革命的一个国际化、智能化、产业化的研究机构。在产业方面,我们希望和产业合作来解决真正的问题、实际的问题。同时,作为清华大学的研究机构,我们肩负着人才培养的职责和使命,目标是培养未来的CTO、未来的架构师。AIR的科研方向包括三个,也是人工智能在未来五年十年具有巨大影响力的三个方向。第一个是机器人和无人驾驶,又称为智慧交通;第二是智慧物联,特别是面向双碳的绿色计算、小模型部署到端等;第三是智慧医疗,包括药物研发等。以机器人和自动驾驶研究为例,这方面的研究需要海量的数据,尽管我们与百度Apollo合作,同时也有自己的机器人,但收集的真实数据远远不够,所以我们提出了Real2Sim2Real 现实-仿真-现实 (RSR)的概念,用仿真技术来增强数据,模拟驾驶长尾现象,实现真实场景和仿真场景的双向连接。在生物计算研究方面,AIR最近开源了一个轻量级的模型BioMedGPT-1.6B,用大数据、模型结合规则、知识体系、知识图谱把知识和数据相结合,里面有文献信息、专利信息、蛋白质基因、细胞等这些数据,同时AIR也有已经做好的知识图谱,集成训练出基础模型,经过一些监督微调训练,就可以做各类下游的任务,包括蛋白质结构解析、分子对接、靶点生成等。此外,AIR还有很多其他的科研工作,包括多模态大模型,模型间的交互,强化学习,边缘部署等,目标是通过模型轻量化和系统底层优化等手段,支撑模型在边缘端的高效运行。分论坛上,其他嘉宾也从不同角度分享了对生成式人工智能的看法和见解。IBM公司董事长兼总经理陈旭东着重介绍了IBM在生成式人工智能方面的技术创新和商业应用,以及公司如何帮助企业实现自身AI的发展和数据安全管理。斯洛文尼亚数字化转型部部长Emilija Stojmenova Duh阐述了斯洛文尼亚政府在推动数字化转型和支持生成式人工智能发展方面的政策和举措,如将AI引入学校教育、提升公务员和公民的数字化能力、开辟与公民沟通的新渠道等。她也指出了AI可能带来的偏见问题,呼吁消除人工智能带来的偏见。香港科技大学电子及计算机工程系讲席教授冯雁深耕对话型AI领域研究近30年,她惊叹于如今大模型的智能涌现,同时也呼吁大家关注AI治理,并建议应该探寻如何与机器更好地合作,而非对立。可之科技创始人王冠则重点探讨了AI大模型在教育领域的应用,致力于提升优质教育的规模化,降低甚至消除教育资源获取的不平等。分论坛最后,嘉宾们与现场观众还就生成式人工智能的机遇与挑战,以及未来的发展趋势和合作方向进行了热烈的讨论和互动。生成式人工智能是人工智能领域的一个重要方向,也是全球经济社会发展的一个重要驱动力。嘉宾们表示,希望继续加强跨国界、跨领域、跨学科的交流和合作,共同推动生成式人工智能的科学研究和实际应用,为解决全球性问题和提升人类福祉做出贡献。以下为张亚勤院士对话原文:
Cathy Li: You are a industry veteran, with your experience with Vidua, Microsoft and now you're working at Tsinghua University. Can you tell us a bit more about, in particular the generative AI landscape in China?Ya-Qin Zhang: It's quite interesting; we had a similar panel about 7 years ago at the winter Davos, and now we're here in China. The whole technology has completely transformed the industry, including in China. I'll talk about China a little bit more later, but I'd like to spend one minute summarizing my observations regarding ChatGPT and Stable-diffusion over the last couple of years.- ChatGPT is the first software that actually passed the Turing test. For a computer scientist this has been a major endeavor to develop something that can pass the Turing test.
- This leads to AGI. It's not exactly AGI yet but it does provide them a pathway towards artificial general intelligence that is another goal that we've been trying to pursue.
More importantly, for industry, I consider GPT as an operating system for AI. Back in the PC days, we had Windows and Linux. In the mobile days, we had iOS and Android. So, this is the new operating system for the era of AI. It will completely reshape the whole ecosystem, whether it's the semiconductor or the application ecosystem. For example, Professor Wang just talked about education, which is actually a vertical model based on the large operating system. The data he used to train the exams is not the same data used to train the GPT, but it really works out because you can have an operating system that is a large language model, and then you're going to have a number of vertical models for different industries. They will have applications built on top of that. So, the industry world will be very different. All the apps and models will be rewritten and completely restructured.
All these years, China has been doing some terrific work in basic research, algorithms, and industry applications in every sector. And even though ChatGPT was not invented in China, there are almost a hundred companies that have emerged in the last six months or so in the generative AI space. Some of these companies are developing large models, while others are diving into generative AI for vertical models that can generate not only language but also images, videos, robotics, and even in the biological computing space. There are tremendous activities going on in China, and Professor Wang's company is one of them.Cathy Li: I wanted to go back to you in your new capacity as a professor at Tsinghua University and also the dean of Institute for AI Industry Research. Can you elaborate how your research has integrated and incorporated genital AI and what are some of the significant outcomes so far that you're allowed to share.Ya-Qin Zhang: I started this lab when I retired from Baidu about 3 years ago. We are obviously doing basic research, but a lot of our work involves applying that research to real-world problems. We use general AI for almost everything we do.One of our research focuses is on robotics and autonomous driving. Obviously, we need to collect a lot of data. We work with Baidu Apollo, which has hundreds of cars driving around in China, collecting a lot of data. We also have robots that collect data. However, the data we currently have is still very small compared to what we need. So, we use general AI to augment some of this data. Additionally, we use general AI for simulations because there's a dilemma. When you put a car on the street, you want to avoid accidents, but the goal of model training and algorithms is to minimize accidents, which means we don't have enough accident data. This is where stable-diffusion and the techniques we use come in handy. They allow us to generate long-tail cases, which have been extremely helpful. Furthermore, it enables us to establish end-to-end connectivity, from real-world scenarios to simulation and back to real-world scenarios. I call this "RSR," which stands for "real scenario to simulation and simulation back to real scenario."The second example is in biological computing, which is also one of our major efforts. We have built a GPT called BiomedGPT, similar to the education model, but focused on the biological and medical field. It doesn't have trillion parameters; rather, it has only 1.6B parameters. This model gathers data from various sources, including the protein structure, molecus structure in cells, genetic structure, literature, and patent data. The advantage of this model is that once you have it, you can easily generate downstream tasks, such as predicting and generating protein structures, performing molecular docking, and determining binding structures. We also have individuals working on multi-models, large models, and model-model interactions.Xudong just mentioned the ability to use a large model to train more models. In the future, when you attempt to accomplish a task, you can utilize a federation of different models, obtained from different companies and sources, including open-source and closed-source, as well as various verticle models. Additionally, we have people working on reinforcement learning. Moreover, we are deploying large models onto edge devices such as phones, robots, and IoT devices. However, I must note that this poses significant risks. When connecting the information world to the physical and biological world, there will be a plethora of safety issues and risks.清华大学智能产业研究院(Institute for AI Industry Research, Tsinghua University,英文简称AIR,THU)是面向第四次工业革命的国际化、智能化、产业化的校级研究机构。AIR的使命是利用人工智能技术赋能产业升级、推动社会进步。通过大学与企业创新双引擎,突破人工智能核心技术,培养智能产业领军人才,推动智能产业跨越式发展。AIR于2020年由多媒体及人工智能领域的世界级科学家、企业家张亚勤院士创建。智慧交通(AI+Transportation)、智慧物联(AI+IoT)、智慧医疗(AI+Life Science)是清华大学智能产业研究院的三个重点研发方向。欢迎添加小编微信,链接一线创业者、投资人,进入全球高端科技创投交流群!工业和信息化部工业文化发展中心主办,北京高创汇智科技有限公司承办,北京大兴国际机场临空经济区管理委员会联合承办,北京大兴区投资促进服务中心支持,共同开展的“专精特新”企业创新特训营第一期在北京大兴成功举办!
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