AI-Made Film About Iran Protests to Premiere at Tribeca

NVIDIA GPU VRAM Used as Swap Space on Linux

A new tool lets Linux users use their NVIDIA GPU's VRAM as swap space. This matters because it can increase the total addressable memory on a system. For example, a laptop with 16 GB of RAM and 8 GB of VRAM can have around 46 GB of total addressable memory. This is useful for hybrid graphics laptops with limited upgrade options. The tool works by allocating VRAM via the CUDA driver API and serving it as a block device. Users can install and start using the tool with a few commands. It will automatically start on every boot and use the available VRAM as swap space. The system will now have more memory to use.

Instagram Accounts Hacked Using Meta AI Chatbot

Hackers took over Instagram accounts by asking Meta AI's chatbot to link the account to an email they controlled. The hackers then reset the account's password and took control. Over 100 accounts were hacked, including some with unique short user-profile handles. These handles can be sold on a gray market for a high price. The company said the issue was fixed, but more users reported hacks on Tuesday. New security measures will be put in place to prevent future hacks.

AI Helps Prevent Exercise Injuries

Researchers at Drexel University have developed a program that uses AI and computer vision to provide exercise form coaching. This program is designed to prevent injuries and improve outcomes. The program is important because many people who exercise at home do not have access to coaches or trainers. During the Covid-19 pandemic, there was a 48% rise in injuries related to at-home exercise. The new program will provide live, personalized feedback to help people exercise safely. It will be presented at a conference in June. New exercise programs using AI will be available soon.

AI Agents Face Mystery Glitches, and a New Tool is Here to Solve Them

AI agents, once tested and deemed perfect, can hit unexpected snags in real-world use-like getting stuck in infinite loops or spitting out nonsense. This puzzling issue has confounded developers, leaving them clueless about the root causes. Now, a trio of tools-LangSmith, Langfuse, and Arize-are stepping in to crack this mystery. These tools provide insights into how AI agents operate, revealing when something goes wrong and why. For instance, if an agent starts looping endlessly or its responses degrade, these platforms can pinpoint the exact moment things went south. For developers and researchers, this transparency is a game-changer. It means they can identify and fix issues faster, leading to more reliable AI systems. By tracking every step of an agent’s operation, these tools offer actionable data that was previously unavailable. This could mean fewer costly errors and smoother deployments for businesses relying on AI. Looking ahead, the integration of such observability tools into the AI development pipeline is set to become a key focus. As AI agents take on more complex tasks, understanding their behavior in real-time will be crucial for trust and reliability. Developers can expect these tools to evolve, offering even deeper insights and helping to build more dependable AI systems.

Tiny AI Agents Can Now Work Offline and Make Decisions Locally

Engineers have developed a new system that lets tiny AI agents operate independently on devices like smartphones or IoT gadgets, even without internet access. These microcontrollers, often found in embedded systems, face strict memory and energy limits but now can perform complex tasks using lightweight neural networks and rule-based logic. The breakthrough introduces a tiered design where "On-Device Agents" handle quick, privacy-sensitive jobs locally, while "Cloud-Augmented Agents" use smaller language models (SLMs) for more complex reasoning. This setup ensures devices can work both offline and online, balancing latency, energy use, and reliability in resource-constrained environments. Look out for more details on how this technology integrates safety and observability features to manage fleets of autonomous devices effectively.