In four talks over two days, senior NVIDIA engineers will describe innovations in accelerated computing for modern data centers and systems at the edge of the network.
Speaking at a virtual Hot Chips event, an annual gathering of processor and system architects, they’ll disclose performance numbers and other technical details for NVIDIA’s first server CPU, the Hopper GPU, the latest version of the NVSwitch interconnect chip and the NVIDIA Jetson Orin system on module (SoM).
It’s not every day you get to see what the forefront of an industry looks like. And to a passerby, the office block on the outskirts of Austin, Texas, that houses Annapurna Labs—a specialist microelectronics company Amazon Web Services (AWS) acquired in 2015—looks much like any other in the area. Whatever it lacks in distinguishing features, it more than makes up for in envelope-pushing activity. Inside, a team of specialist engineers, computer scientists, operations and logistics experts, and many more are constantly reimagining computer hardware design—from how to optimize processing performance to protecting components in large, complex devices (such as servers) when they’re being transported and installed.
Immerse yourself in creative projects and entertainment experiences in full HD**. Laptops powered by AMD Ryzen™ processors take advantage of a new integrated display engine to power higher resolutions and refresh rates. Complete heavy workloads in record time with ideal performance for data-intensive tasks like rendering. Manage all your tasks with Windows 11 multitasking tools like Snap layouts.
Apple today announced M1 Ultra, the next giant leap for Apple silicon and the Mac. Featuring UltraFusion — Apple’s innovative packaging architecture that interconnects the die of two M1 Max chips to create a system on a chip (SoC) with unprecedented levels of performance and capabilities — M1 Ultra delivers breathtaking computing power to the new Mac Studio while maintaining industry-leading performance per watt. The new SoC consists of 114 billion transistors, the most ever in a personal computer chip. M1 Ultra can be configured with up to 128GB of high-bandwidth, low-latency unified memory that can be accessed by the 20-core CPU, 64-core GPU, and 32-core Neural Engine, providing astonishing performance for developers compiling code, artists working in huge 3D environments that were previously impossible to render, and video professionals who can transcode video to ProRes up to 5.6x faster than with a 28-core Mac Pro with Afterburner.1
Equipped with the new AMD Ryzen™ 6000 Series processors and AMD Radeon™ RX 6000S Series mobile graphics the AMD Advantage™ ROG Zephyrus G14 redefines the standards for portability and performance in its segment. Amazingly thin and light, the ROG Zephyrus G14 is ready to defy the speed limits while effectively managing thermals thanks to highly efficient AMD components, power-balancing AMD SmartShift and AMD Smart Access technologies, and innovative ROG Intelligent Cooling solution.