All-in-one computers are often traditionally seen as lower-powered alternatives to traditional desktop workstations. However, a new offering from Alafia AI, a startup focused on medical imaging appliances, aims to shatter that perception. The company's upcoming Alafia Aivas SuperWorkstation packs serious hardware muscle, demonstrating that all-in-one systems can match the performance of their more modular counterparts. At the heart of the Aivas SuperWorkstation lies a 128-core Ampere Altra processor, running at 3.0 GHz clock speed. This CPU is complemented by not one but three NVIDIA L4 GPUs for compute, and a single NVIDIA RTX 4000 Ada GPU for video output, delivering a combined 28,416 CUDA cores for accelerated parallel computing tasks. The system doesn't skimp on other components, either. It features a 4K touch display with up to 360 nits of brightness, an extensive 2 TB of DDR4 RAM, and storage options up to an 8 TB solid-state drive. This combination of cutting-edge CPU, GPU, memory, and storage is squarely aimed at the demands of medical imaging and AI development workloads.

The all-in-one form factor packs this incredible hardware into a sleek, purposefully designed clinical research appliance. While initially targeting software developers, Alafia AI hopes that institutions that can optimize their applications for the Arm architecture can eventually deploy the Aivas SuperWorkstation for production medical imaging workloads. The company is aiming for application integration in Q3 2024 and full ecosystem device integration by Q4 2024. With this powerful new offering, Alafia AI is challenging long-held assumptions about the performance limitations of all-in-one systems. The Aivas SuperWorkstation demonstrates that the right hardware choices can transform these compact form factors into true powerhouse workstations. Especially with a combined total output of three NVIDIA L4 compute units, alongside RTX 4000 Ada graphics card, the AIO is more powerful than some of the high-end desktop workstations.

Ampere Computing, known for its Altra (Max) and upcoming AmpereOne families of AArch64 server processors tailored for data centers, has released a guide for enthusiasts on running Steam for Linux on these ARM64 processors. This includes using Steam Play (Proton) to play Windows games on these Linux-powered servers. Over the summer, Ampere Computing introduced a GitHub repository detailing the process of running Steam for Linux on their AArch64 platforms, including Steam Play/Proton. While the guide is primarily designed for Ampere Altra/Altra Max and AmpereOne hardware, it can be adapted for other 64-bit Arm platforms. However, a powerful processor is essential to appreciate the gaming experience truly. Additionally, for the 3D OpenGL/Vulkan graphics to function optimally, an Ampere workstation system is more suitable than a headless server.

The guide recommends the Ampere Altra Developer platform paired with an NVIDIA RTX A6000 series graphics card, which supports AArch64 proprietary drivers. The guide uses Box86 and Box64 to run Steam x86 binaries and other x86/x86-64 games for emulation. While there are other options like FEX-Emu and Hangover to enhance the Linux binary experience on AArch64, Box86/Box64 is the preferred choice for gaming on Ampere workstations, as indicated by its mention in Ampere Computing's Once the AArch64 Linux graphics drivers are accelerated and Box86/Box64 emulation is set up, users can install Steam for Linux. By activating Proton within Steam, it becomes feasible to play Windows-exclusive x86/x86-64 games on Ampere AArch64 workstations or server processors. However, the guide doesn't provide insights into the performance of such a configuration.

Supermicro, Inc., a Total IT Solution Provider for Cloud, AI/ML, Storage, and 5G/Edge, is announcing several new servers to its already broad application optimized product line. These new servers incorporate the new AmpereOne CPU, with up to 192 single-threaded cores and up to 4 TB of memory capacity. Applications such as databases, telco edge, web servers, caching services, media encoding, and video gaming streaming will benefit from increased cores, faster memory access, higher performance per watt, scalable power management, and the new cloud security features. Additionally, Cloud Native microservice based applications will benefit from the lower latencies and power usage.

"Supermicro is expanding our customer choices by introducing these new systems that incorporate the latest high core count CPUs from Ampere Computing," said Michael McNerney, vice president of Marketing and Security, Supermicro. "With high core counts, predictable latencies, and up to 4 TB of memory, users will experience increased performance for a range of workloads and lower energy use. We continue to design and deliver a range of environmentally friendly servers that give customers a competitive advantage for various applications."

Ampere Computing today announced a new AmpereOne Family of processors with up to 192 single threaded Ampere cores - the highest core count in the industry. This is the first product from Ampere based on the company's new custom core, built from the ground up and leveraging the company's internal IP. CEO Renée James, who founded Ampere Computing to offer a modern alternative to the industry with processors designed specifically for both efficiency and performance in the Cloud, said there was a fundamental shift happening that required a new approach.

"Every few decades of compute there has emerged a driving application or use of performance that sets a new bar of what is required of performance," James said. "The current driving uses are AI and connected everything combined with our continued use and desire for streaming media. We cannot continue to use power as a proxy for performance in the data center. At Ampere, we design our products to maximize performance at a sustainable power, so we can continue to drive the future of the industry."

Supermicro, a Total IT Solution Provider for Cloud, AI/ML, Storage, and 5G/Edge, is announcing an expanded product line with exciting new ARM-based series of servers as part of the MegaDC family. Using Ampere Altra and Ampere Altra Max processors, the Mt. Hamilton platform leverages a single unified motherboard design, targeting cloud-native applications, such as Cloud Gaming, Video-on-Demand, CDN, IaaS, Database, Object-Storage, dense VDI, and Telco Edge (Distributed Unit and Centralized Unit) solutions. In addition, the new servers address several objectives for cloud-native workloads, specifically delivering high performance per watt while executing scalable workloads and those that require very low latency responses.

"Supermicro continues to bolster our product line by introducing ARM-based servers, using the Ampere Altra and Altra Max CPUs," said Ivan Tay, SVP of Product Management, Supermicro. "Expanding our already broad server product line gives customers even more choices for their specific workloads. We can quickly offer optimized application servers for customers worldwide using our Building Block Solutions approach."

GIGABYTE Technology, an industry leader in high-performance servers and workstations, today announced new high-density, Arm-based compute servers for cloud-native applications using Ampere Altra processors that support dual socket configurations with up to 256 CPU cores. The GIGABYTE R-series servers already have unique storage options, and the new servers (R182-P91, R282-P91, and R282-P92) extend the depth of support for NVMe (Gen4) SSDs on the Arm platform. For scalable, high-density compute, the last new server, H262-P61, also has no thermal limitations, as it can sustain peak, consistent performance by providing optimal airflow. This multi-node H-series server supports eight CPUs, which translates to as many as 1,024 Arm-based CPU cores in a traditional 2U server. Working off the strengths of the latest Arm architecture for System on Chip (SoC) solutions, Ampere Altra and Altra Max processors are now supported in both single and dual-socket configurations by GIGABYTE.

Microsoft is announcing the general availability of the latest Azure Virtual Machines featuring the Ampere Altra Arm-based processor. The new virtual machines will be generally available on September 1, and customers can now launch them in 10 Azure regions and multiple availability zones around the world. In addition, the Arm-based virtual machines can be included in Kubernetes clusters managed using Azure Kubernetes Service (AKS). This ability has been in preview and will be generally available over the coming weeks in all the regions that offer the new virtual machines.

Earlier this year, we launched the preview of the new general-purpose Dpsv5 and Dplsv5 and memory optimized Epsv5 Azure Virtual Machine series, built on the Ampere Altra processor. These new virtual machines have been engineered to efficiently run scale-out, cloud-native workloads. Since then, hundreds of customers have tested and experienced firsthand the excellent price-performance that the Arm architecture can provide for web and application servers, open-source databases, microservices, Java and.NET applications, gaming, media servers, and more. Starting today, all Azure customers can deploy these new virtual machines using the Azure portal, SDKs, API, PowerShell, and the command-line interface (CLI).

GIGABYTE Technology, an industry leader in high-performance servers and workstations, today became the first-to-market with a dual-socket motherboard, MP72-HB0, that supports up to 256 Arm cores, making it ideal for cloud native workloads. Also, the launch includes two more servers, G242-P35 and G242-P36, to offer up to 120 TB of NVMe (Gen4) storage capacity paired with Ampere Altra or Ampere Altra Max processors. These GPU-centric servers and motherboard will quickly find a home with hyperscaler and cloud workloads. Altra Max processors have predictable high-performance by having a high core count CPU with one thread per core, 128 threads on a monolithic 128-core chip. Multi-socket support and a wealth of PCIe/CCIX lanes make the platform highly scalable. At the same time, there is industry-leading power efficiency/core, which is highly sought after by our customers.

Hewlett Packard Enterprise (NYSE: HPE) today announced that it is the first major server provider to deliver a new line of cloud-native compute solutions using processors from Ampere. The new HPE solutions provide service providers and enterprises embracing cloud-native development with an agile, extensible, and trusted compute foundation to drive innovation.

Available in Q3 2022, the new HPE ProLiant RL300 Gen11 server is the first in a series of HPE ProLiant RL Gen11 servers that deliver next-generation compute performance with higher power efficiency using Ampere Altra and Ampere Altra Max cloud-native processors.

Today, Microsoft launches Azure Virtual Machines (VM) based on the Ampere Altra Cloud Native Processor. This marks an important milestone as developers can now take advantage of these modern high-performance VMs for their existing and greenfield applications. The Ampere Altra processor family leads in performance across a range of broadly deployed cloud workloads and is now making available the Arm architecture on Azure.

Industry leading performance and the most sustainable solution
Cloud users who have pushed the limits of legacy x86 architectures now have a high-performance compute alternative that scales up in a linear fashion and delivers predictable performance even at full utilization. For example, Ampere Altra VMs outperform equivalently sized Intel and AMD instances from the same generation by 39% and 47%, respectively.* In addition to being the high-performance choice, Ampere Altra processors are extremely power efficient, directly reducing users' overall carbon footprint.