In the world of machine learning, we obsess over model architectures, training pipelines, and hyper-parameter tuning, yet often overlook a fundamental aspect: how our features live and breathe throughout their lifecycle. From in-memory calculations that vanish after each prediction to the challenge of reproducing exact feature values months later, the way we handle features can make or break our ML systems’ reliability and scalability. Who Should Read This Starting Point: The invisible approach Many ML teams, especially those in their early stages or without dedicated ML engineers, start with what I call “the invisible approach” to feature engineering. It’s deceptively simple: fetch raw data, transform it in-memory, and create features on the fly. The resulting dataset, while functional, is essentially a black box of short-lived calculations — features that exist only for a moment before vanishing after each prediction or training run. While this approach might seem to get the job done, it’s built on shaky ground. As teams scale their ML operations, models that performed brilliantly in testing suddenly behave unpredictably in production. Features that worked perfectly during training mysteriously produce different values in live inference. When stakeholders ask why a specific prediction was made last month, teams find themselves unable to reconstruct the exact feature values that led to that decision. Core Challenges in Feature Engineering These pain points aren’t unique to any single team; they represent fundamental challenges that every growing ML team eventually faces. Evolution of Solutions Approach 1: On-Demand Feature Generation The simplest solution starts where many ML teams begin: creating features on demand for immediate use in prediction. Raw data flows through transformations to generate features, which are used for inference, and only then — after predictions are already made — are these features typically saved to parquet files. While this method is straightforward, with teams often choosing parquet files because

Join our daily and weekly newsletters for the latest updates and exclusive content on industry-leading AI coverage. Learn More Advanced Micro Devices reported revenue of $7.658 billion for the fourth quarter, up 24% from a year ago. But AMD’s stock price fell in after-hours trading to $113.66, down 4.89%. Net income was $482 million for the fourth quarter ended December 31, down 28% from $667 million a year earlier. AMD saw data center segment revenue of $3.9 billion in the quarter, up 69% from a year ago. It was driven by record Epyc CPU and Instinct GPU revenues — and the demand is being driven by the rapid adoption of AI. For 2024, data center segment revenue was a record $12.6 billion, an increase of 94% compared to the prior year, driven by growth in both AMD Instinct and Epyc processors. Exiting 2024, there are more than 450 Epyc platforms available from the leading server OEMs and ODMs, including more than 120 “Turin” platforms that went into production in the fourth quarter from Cisco, Dell, HPE, Lenovo, Supermicro and others. “2024 was an outstanding year as we accelerated our AI hardware roadmap to deliver an annual cadence of new Instinct accelerators, expanded our ROCm software suite with significant uplifts in inferencing and training performance, built strong customer relationships with key industry leaders and delivered greater than $5 billion of data center AI revenue for the year,” Su said. Lisa Su is CEO of AMD. In cloud, AMD exited 2024 with well over 50% share at the majority of the largest hyperscale customers. “Hyperscaler demand for EPYC CPUs was very strong, driven by expanded deployments powering both their internal compute infrastructure and online services,” Su said. “Public cloud demand was also very strong with the number of Epyc instances increasing 27%

Join our daily and weekly newsletters for the latest updates and exclusive content on industry-leading AI coverage. Learn More ByteDance researchers have developed an artificial intelligence system that transforms single photographs into realistic videos of people speaking, singing and moving naturally — a breakthrough that could reshape digital entertainment and communications. The new system, called OmniHuman, generates full-body videos showing people gesturing and moving in ways that match their speech, surpassing previous AI models that could only animate faces or upper bodies. How OmniHuman Uses 18,700 Hours of Training Data to Create Realistic Motion “End-to-end human animation has undergone notable advancements in recent years. However, existing methods still struggle to scale up as large general video generation models, limiting their potential in real applications,” the researchers wrote in a paper published on arXiv. The team trained OmniHuman on more than 18,700 hours of human video data using a novel approach that combines multiple types of inputs — text, audio, and body movements. This “omni-conditions” training strategy allows the AI to learn from much larger and more diverse datasets than previous methods. Credit: ByteDance AI video generation breakthrough shows full-body movement and natural gestures “Our key insight is that incorporating multiple conditioning signals, such as text, audio, and pose, during training can significantly reduce data wastage,” the research team explained. The technology marks a significant advance in AI-generated media, demonstrating capabilities from creating videos of people delivering speeches to showing subjects playing musical instruments. In testing, OmniHuman outperformed existing systems across multiple quality benchmarks. Credit: ByteDance Tech giants race to develop next-generation video AI systems The development emerges amid intensifying competition in AI video generation, with companies like Google, Meta, and Microsoft pursuing similar technology. ByteDance’s breakthrough could give the TikTok parent company an advantage in this rapidly evolving field. Industry

Our next iteration of the FSF sets out stronger security protocols on the path to AGIAI is a powerful tool that is helping to unlock new breakthroughs and make significant progress on some of the biggest challenges of our time, from climate change to drug discovery. But as its development progresses, advanced capabilities may present new risks.That’s why we introduced the first iteration of our Frontier Safety Framework last year – a set of protocols to help us stay ahead of possible severe risks from powerful frontier AI models. Since then, we’ve collaborated with experts in industry, academia, and government to deepen our understanding of the risks, the empirical evaluations to test for them, and the mitigations we can apply. We have also implemented the Framework in our safety and governance processes for evaluating frontier models such as Gemini 2.0. As a result of this work, today we are publishing an updated Frontier Safety Framework.Key updates to the framework include:Security Level recommendations for our Critical Capability Levels (CCLs), helping to identify where the strongest efforts to curb exfiltration risk are neededImplementing a more consistent procedure for how we apply deployment mitigationsOutlining an industry leading approach to deceptive alignment risk

Recommendations for Heightened SecuritySecurity mitigations help prevent unauthorized actors from exfiltrating model weights. This is especially important because access to model weights allows removal of most safeguards. Given the stakes involved as we look ahead to increasingly powerful AI, getting this wrong could have serious implications for safety and security. Our initial Framework recognised the need for a tiered approach to security, allowing for the implementation of mitigations with varying strengths to be tailored to the risk. This proportionate approach also ensures we get the balance right between mitigating risks and fostering access and innovation.Since then, we have drawn on wider research to evolve these security mitigation levels and recommend a level for each of our CCLs.* These recommendations reflect our assessment of the minimum appropriate level of security the field of frontier AI should apply to such models at a CCL. This mapping process helps us isolate where the strongest mitigations are needed to curtail the greatest risk. In practice, some aspects of our security practices may exceed the baseline levels recommended here due to our strong overall security posture.This second version of the Framework recommends particularly high security levels for CCLs within the domain of machine learning research and development (R&D). We believe it will be important for frontier AI developers to have strong security for future scenarios when their models can significantly accelerate and/or automate AI development itself. This is because the uncontrolled proliferation of such capabilities could significantly challenge society’s ability to carefully manage and adapt to the rapid pace of AI development.Ensuring the continued security of cutting-edge AI systems is a shared global challenge – and a shared responsibility of all leading developers. Importantly, getting this right is a collective-action problem: the social value of any single actor’s security mitigations will be significantly reduced if not broadly applied across the field. Building the kind of security capabilities we believe may be needed will take time – so it’s vital that all frontier AI developers work collectively towards heightened security measures and accelerate efforts towards common industry standards.

Deployment Mitigations ProcedureWe also outline deployment mitigations in the Framework that focus on preventing the misuse of critical capabilities in systems we deploy. We’ve updated our deployment mitigation approach to apply a more rigorous safety mitigation process to models reaching a CCL in a misuse risk domain.The updated approach involves the following steps: first, we prepare a set of mitigations by iterating on a set of safeguards. As we do so, we will also develop a safety case, which is an assessable argument showing how severe risks associated with a model’s CCLs have been minimised to an acceptable level. The appropriate corporate governance body then reviews the safety case, with general availability deployment occurring only if it is approved. Finally, we continue to review and update the safeguards and safety case after deployment. We’ve made this change because we believe that all critical capabilities warrant this thorough mitigation process.Approach to Deceptive Alignment RiskThe first iteration of the Framework primarily focused on misuse risk (i.e., the risks of threat actors using critical capabilities of deployed or exfiltrated models to cause harm). Building on this, we’ve taken an industry leading approach to proactively addressing the risks of deceptive alignment, i.e. the risk of an autonomous system deliberately undermining human control.An initial approach to this question focuses on detecting when models might develop a baseline instrumental reasoning ability letting them undermine human control unless safeguards are in place. To mitigate this, we explore automated monitoring to detect illicit use of instrumental reasoning capabilities.We don’t expect automated monitoring to remain sufficient in the long-term if models reach even stronger levels of instrumental reasoning, so we’re actively undertaking – and strongly encouraging – further research developing mitigation approaches for these scenarios. While we don’t yet know how likely such capabilities are to arise, we think it is important that the field prepares for the possibility.ConclusionWe will continue to review and develop the Framework over time, guided by our AI Principles, which further outline our commitment to responsible development.As a part of our efforts, we’ll continue to work collaboratively with partners across society. For instance, if we assess that a model has reached a CCL that poses an unmitigated and material risk to overall public safety, we aim to share information with appropriate government authorities where it will facilitate the development of safe AI. Additionally, the latest Framework outlines a number of potential areas for further research – areas where we look forward to collaborating with the research community, other companies, and government.We believe an open, iterative, and collaborative approach will help to establish common standards and best practices for evaluating the safety of future AI models while securing their benefits for humanity. The Seoul Frontier AI Safety Commitments marked an important step towards this collective effort – and we hope our updated Frontier Safety Framework contributes further to that progress. As we look ahead to AGI, getting this right will mean tackling very consequential questions – such as the right capability thresholds and mitigations – ones that will require the input of broader society, including governments.

The meteoric rise of DeepSeek—the Chinese AI startup now challenging global giants—has stunned observers and put the spotlight on China’s AI sector. Since ChatGPT’s debut in 2022, the country’s tech ecosystem has been in relentless pursuit of homegrown alternatives, giving rise to a wave of startups and billion-dollar bets.  Today, the race is dominated by tech titans like Alibaba and ByteDance, alongside well-funded rivals backed by heavyweight investors. But two years into China’s generative AI boom we are seeing a shift: Smaller innovators have to carve out their own niches or risk missing out. What began as a sprint has become a high-stakes marathon—China’s AI ambitions have never been higher. An elite group of companies known as the “Six Tigers”—Stepfun, Zhipu, Minimax, Moonshot, 01.AI, and Baichuan—are generally considered to be at the forefront of China’s AI sector. But alongside them, research-focused firms like DeepSeek and ModelBest continue to grow in influence. Some, such as Minimax and Moonshot, are giving up on costly foundational model training to hone in on building consumer-facing applications on top of others’ models. Others, like Stepfun and Infinigence AI, are doubling down on research, driven in part by US semiconductor restrictions. We have identified these four Chinese AI companies as the ones to watch.
Stepfun Founded in April 2023 by former Microsoft senior vice president Jiang Daxin, Stepfun emerged relatively late onto the AI startup scene, but it has quickly become a contender thanks to its portfolio of foundational models. It is also committed to building artificial general intelligence (AGI), a mission a lot of Chinese startups have given up on. With backing from investors like Tencent and funding from Shanghai’s government, the firm released 11 foundational AI models last year—spanning language, visual, video, audio, and multimodal systems. Its biggest language model so far, Step-2, has over 1 trillion parameters (GPT-4 has about 1.8 trillion). It is currently ranked behind only ChatGPT, DeepSeek, Claude, and Gemini’s models on LiveBench, a third-party benchmark site that evaluates the capabilities of large language models.
Stepfun’s multimodal model, Step-1V, is also highly ranked for its ability to understand visual inputs on Chatbot Arena, a crowdsource platform where users can compare and rank AI models’ performance. This company is now working with AI application developers, who are building on top of its models. According to Chinese media outlet 36Kr, demand from external developers to use Stepfun’s multimodal API surged over 45-fold in the second half of 2024. ModelBest Researchers at the prestigious Tsinghua University founded ModelBest in 2022 in Beijing’s Haidian district. Since then, the company has distinguished itself by leaning into efficiency and embracing the trend of small language models. Its MiniCPM series—often dubbed “Little Powerhouses” in Chinese—is engineered for on-device, real-time processing on smartphones, PCs, automotive systems, smart home devices, and even robots. Its pitch to customers is that this combination of smaller models and local data processing cuts costs and enhances privacy.  ModelBest’s newest model, MiniCPM 3.0, has only 4 billion parameters but matches the performance of GPT-3.5 on various benchmarks. On GitHub and Hugging Face, the company’s models can be found under the profile of OpenBMB (Open Lab for Big Model Base), its open-source research lab.  Investors have taken note: In December 2024, the company announced a new, third round of funding worth tens of millions of dollars.  Zhipu Also originating at Tsinghua University, Zhipu AI has grown into a company with strong ties to government and academia. The firm is developing foundational models as well as AI products based on them, including ChatGLM, a conversational model, and a video generator called Ying, which is akin to OpenAI’s Sora system.  GLM-4-Plus, the company’s most advanced large language model to date, is trained on high-quality synthetic data, which reduces training costs, but has still matched the performance of GPT-4. The company has also developed GLM-4V-Plus, a vision model capable of interpreting web pages and videos, which represents a step toward AI with more “agentic” capabilities. Among the cohort of new Chinese AI startups, Zhipu is the first to get on the US government’s radar. On January 15, the Biden administration revised its export control regulations, adding over 20 Chinese entities—including 10 subsidiaries of Zhipu AI—to its restricted trade list, restricting them from receiving US goods or technology for national interest reasons. The US claims Zhipu’s technology is helping China’s military, which the company denies. 

Valued at over $2 billion, Zhipu is currently one of the biggest AI startups in China and is reportedly soon planning an IPO. The company’s investors include Beijing city government-affiliated funds and various prestigious VCs. Infinigence AI Founded in 2023, Infinigence AI is smaller than other companies on this list, though it has still attracted $140 million in funding so far. The company focuses on infrastructure instead of model development. Its main selling point is its ability to combine chips from lots of different brands successfully to execute AI tasks, forming what’s dubbed a “heterogeneous computing cluster.” This is a unique challenge Chinese AI companies face due to US chip sanctions. Infinigence AI claims its system could increase the effectiveness of AI training by streamlining how different chip architectures—including various models from AMD, Huawei, and Nvidia—work in synchronization. In addition, Infinigence AI has launched its Infini-AI cloud platform, which combines multiple vendors’ products to develop and deploy models. The company says it wants to build an effective compute utilization solution “with Chinese characteristics,” and native to AI training. It claims that its training system HetHub could reduce AI models training time by 30% by optimizing the heterogeneous computing clusters Chinese companies often have. Honorable mentions Baichuan While many of its competitors chase scale and expansive application ranges, Baichuan AI, founded by industry veteran Wang Xiaochuan (the founder of Sogou) in April 2023, is focused on the domestic Chinese market, targeting sectors like medical assistance and health care.  With a valuation over $2 billion after its newest round of fundraising, Baichuan is currently among the biggest AI startups in China. Minimax Founded by AI veteran Yan Junjie, Minimax is best known for its product Talkie, a companion chatbot available around the world. The platform provides various characters users can chat with for emotional support or entertainment, and it had even more downloads last year than leading competitor chatbot platform Character.ai.  Chinese media outlet 36Kr reported that Minimax’s revenue in 2024 was around $70 million, making it one of the most successful consumer-facing Chinese AI startups in the global market. 
Moonshot Moonshot is best known for building Kimi, the second-most-popular AI chatbot in China, just after ByteDance’s Doubao, with over 13 million users. Released in 2023, Kimi supports input lengths of over 200,000 characters, making it a popular choice among students, white-collar workers, and others who routinely have to work with long chunks of text. Founded by Yang Zhilin, a renowned AI researcher who studied at Tsinghua University and Carnegie Mellon University, Moonshot is backed by big tech companies, including Alibaba, and top venture capital firms. The company is valued at around $3 billion but is reportedly scaling back on its foundational model research as well as overseas product development plans, as key people leave the company.

Join our daily and weekly newsletters for the latest updates and exclusive content on industry-leading AI coverage. Learn More Adobe is expanding its push into artificial intelligence with new features that aim to demystify complex contracts and legal documents for both businesses and consumers, as the company seeks to maintain its dominant position in the document management market. The software giant announced today that its Acrobat AI Assistant can now automatically detect contracts, summarize key terms, and compare differences across multiple versions — capabilities that Adobe says could help address a widespread problem: Most people don’t fully read agreements before signing them. According to Adobe’s research, nearly 70% of consumers have signed contracts without understanding all the terms. The problem extends into the business world, where 64% of small business owners have avoided signing contracts due to uncertainty about the content. “Control F is dead,” said Lori DeFurio, a product executive at Adobe, referring to the traditional way people search documents. “Why would I ever search again when I can just ask?” The shift from keyword searching to conversational AI reflects Adobe’s broader vision for making complex documents more accessible to everyone. Credit: Adobe How Adobe’s AI actually reads your contracts The new features represent a significant enhancement to Adobe’s AI capabilities, but notably stop short of providing legal advice. Instead, the system acts more like an intelligent research assistant, helping users locate and understand important contract terms while providing clear citations back to source material. “This is not a replacement for legal advice,” emphasized Michi Alexander, vice president of product marketing at Adobe, in an exclusive interview with VentureBeat. “This is just to help you understand as a starting point your contracts and then where you potentially might want to ask questions.” The technology works by analyzing contract text