646jili com Emboldened 'manosphere' accelerates threats and demeaning language toward women after US election

Trump aims to appoint son-in-law’s father as US ambassador to France

OTTAWA — The RCMP will create a new aerial intelligence task force to provide round-the-clock surveillance of Canada’s border using helicopters, drones and surveillance towers. The move is part of the federal government’s $1.3-billion upgrade to border security and monitoring to appease concerns of U.S. president-elect Donald Trump about the flow of migrants and illegal drugs. Trump has threatened to impose a 25 per cent tariff on all Canadian and Mexican exports to the U.S. as soon as he is inaugurated next month unless both countries move to improve border security. Public Safety Minister Dominic LeBlanc says he has discussed parts of the plan with American officials and that he is optimistic about its reception. Canada will also propose to the United States to create a North American “joint strike force” to target organized crime groups that work across borders. The government also intends to provide new technology, tools and resources to the Canada Border Services Agency to seek out fentanyl using chemical detection, artificial intelligence and canine teams. This report by The Canadian Press was first published Dec. 17, 2024. Jim Bronskill, The Canadian Press

Server. Server racks in server room cloud data center. Datacenter hardware cluster. Backup, hosting, ... [+] mainframe, mining, farm and computer rack with storage information. 3d illustration The race to build powerful AI data centers is accelerating, with tech giants vying to be key players in AI’s future. Microsoft and OpenAI, for instance, are reportedly planning a $100 billion investment in data center projects to expand their AI capabilities. This competition highlights supercomputing infrastructure as the backbone of AI development. Elon Musk’s xAI is scaling new heights with its Colossus supercomputing center in Memphis, Tennessee. Already outfitted with 100,000 Nvidia Hopper GPUs, the facility is doubling its capacity to 200,000 GPUs. Leveraging Nvidia’s Spectrum-X Ethernet networking, it’s aiming to become a cornerstone of AI research and applications. Named after Colossus, the world’s first programmable electronic computer built in 1945, Elon Musk evokes the historic significance and transformative potential of supercomputing. This fierce competition marks supercomputing data centers as critical infrastructure of the economy, akin to railways, highways, or the electricity grid in earlier eras of social development. Alan Turing’s foundational ideas in his 1950 article Computing Machinery and Intelligence illuminate this transformation, offering a lens to understand the societal impact of the rapidly growing demand for supercomputing. Britain / UK: Alan Turing (1912-1954), computer scientist and cryptologist instrumental in breaking ... [+] Germany's 'enigma' machine code during World War II, c. 1928. Alan Mathison Turing was a British pioneering computer scientist, mathematician, logician, cryptanalyst, philosopher, mathematical biologist, and marathon and ultra distance runner. He was highly influential in the development of computer science. (Photo by: Pictures from History/Universal Images Group via Getty Images) Data Centers: From Universal Machines to Universal Infrastructure Turing’s concept of the “universal machine” envisioned computation as adaptable, capable of performing any task with the right programming and resources. Supercomputing datacenters now embody this idea, designed as a general-purpose platform for diverse AI applications—training language models, developing humanoid robots, and enhancing self-driving cars. The 130 Best Black Friday Deals You Can Still Shop Now Refresh Your Wardrobe And Home With Quince’s Black Friday Deals The infrastructure supporting this universal capability is just as critical as the computation itself. Data centers facilitate the flow of information much like transportation networks moved goods and people in industrial economies. However, this infrastructure should not remain the sole domain of private corporations. Public investment in supercomputing is necessary to ensure that access to computational power doesn’t become overly commoditized, exacerbating inequities in research, education, and innovation. Historically, governments and public institutions played an important role in building infrastructure such as railways, highways, waterways, and electricity grids, which supported economic growth and more equitable access to resources. Today, AI-driven productivity relies on vast data centers, which process and store the immense datasets powering modern machine learning models. However, the infrastructure of the AI era is largely controlled by private corporations. This concentration risks creating uneven access to the computational power that drives innovation. Governments must step in to establish publicly funded or subsidized supercomputing facilities. Such efforts could democratize AI access, enabling small businesses, academic researchers, and public institutions to participate in AI development. Speed and Storage of Learning Machines Turing’s vision of “learning machines” has come to life in neural networks and AI models that refine their performance with reinforced learning and more training data. Turing emphasized the importance of speed and storage in determining the capabilities of a digital computer. In today’s supercomputing, these two factors remain paramount. The expanded data centers will enable exascale data processing, addressing the growing demand for computational power as industries push the boundaries with more advanced large language models and multimodal AI agents. The doubling of GPU capacity is not just about raw power; it's a response to the exponential growth in data requirements for training sophisticated AI models. Colossus’s architecture, with its vast storage and advanced networking capabilities, exemplifies Turing's foresight. It's designed to maximize throughput, allowing AI systems to learn and iterate faster. Supercomputing requires vast amounts of energy. Colossus uses advanced supermicro liquid-cooled racks, each containing 64 Nvidia H100 GPUs, grouped into clusters for high-performance AI training tasks. These cutting-edge systems are designed with integrated liquid cooling, ensuring optimal efficiency and easy servicing through quick-disconnect features and accessible tray designs. Public Investment for Sustainable AI Managing the energy demands and costs of supercomputing is a societal challenge that requires public involvement. Without coordinated efforts, private ownership of supercomputing infrastructure could prioritize profit over equity and sustainability. Publicly funded AI infrastructure could be built with broader societal goals in mind, such as sustainability, open access, and the ethical use of AI. Turing’s work reminds us that computation isn’t just about machines—it’s about systems and the societal frameworks that support them. Supercomputing is too important to be left solely to private entities. The commoditization of these resources risks creating barriers to entry for small innovators, public institutions, and educational initiatives. Governments can and should take a proactive role in funding and regulating AI infrastructure to prevent monopolization and ensure equitable access. The governance of data centers could mirror internet regulation, where agencies like the Federal Trade Commission and Federal Communications Commission set standards for fairness and accessibility. Similar oversight could ensure equitable access to computational resources, ethical AI use, and prevent monopolistic practices, fostering broader societal benefits. Turing’s legacy offers a roadmap for navigating the AI era. His insights into universal machines and efficient computation are combined with the challenges of building equitable, sustainable supercomputing infrastructure today. As data centers become the railways and electricity grids of the 21st century, their governance must reflect broader social values. The expansion of supercomputing data centers demonstrates the potential of AI to drive innovation, but it also highlights the need for public oversight. Balancing ambition with equity, sustainability, and accessibility will ensure that the infrastructure of the AI age benefits all—continuing the journey that Turing began toward a more intelligent, inclusive future.None