In this sponsored post from our friends over at One Stop Systems, Product Marketing Manager, Braden Cooper discusses how the latest high-performance computing systems for AI applications generate more heat than ever before. Datacenters have begun adoption of immersion cooling solutions that immerse the temperature-sensitive electronics in a non-conductive fluid which efficiently dissipates the heat.
Immersion Cooling for Transportable HPC
Scalable Inferencing for Autonomous Trucking
In this sponsored post, Tim Miller, Vice President, Product Marketing, One Stop Systems, discusses autonomous trucking and that to achieve AI Level 4 (no driver) in the vehicles, powerful AI inference hardware supporting many different inferencing engines operating and coordinating simultaneously is required.
New Supercomputer Enables Rugged, Real-Time AI at the Edge
[SPONSORED POST] Program managers face hard tradeoffs bringing artificial intelligence to in-the-field use cases. This whitepaper, “New Supercomputer Enables Rugged, Real-Time AI at the Edge,” describes a new AI server from One Stop Systems that shows what capabilities they should look for in portable, rugged AI deployments. The Rigel: Edge Supercomputer addresses AI in the field requirements: high-performance computing (HPC) using optimized CPUs, advanced GPUs and flash memory NVMe drives, and high-bandwidth interconnects.
New Supercomputer Enables Rugged, Real-Time AI at the Edge
Program managers face hard tradeoffs bringing artificial intelligence to in-the-field use cases. This whitepaper describes a new AI server from One Stop Systems that shows what capabilities they should look for in portable, rugged AI deployments.
Enhancing Security with High Performance AI Capability Deployed at the Rugged Edge
In this sponsored post from One Stop Systems, we see that whether surviving in a fast-moving battlefield situation, protecting sensitive industrial or transportation hub assets, or ensuring uninterrupted operation of critical national infrastructure, intelligent long-range surveillance is critical. The ability to provide 24/7 remote long range threat detection and situational awareness coupled with human-machine control allows for the fast and appropriate threat response that is fundamental to addressing these security imperatives.
AI Transportable Market
AI Transportable Market
This whitepaper from One Stop Systems, describes how the requirements for AI in the field form a specific and distinct segment in the big, fast-growing edge computing market, separate from the familiar segments of edge data centers and the Internet of Things. One way to describe this emerging segment is “AI Transportables.”
AI Workflow Scalability through Expansion
In this special guest feature, Tim Miller, Braden Cooper, Product Marketing Manager at One Stop Systems (OSS), suggests that for AI inferencing platforms, the data must be processed in real time to make the split-second decisions that are required to maximize effectiveness. Without compromising the size of the data set, the best way to scale the model training speed is to add modular data processing nodes.
NVMe over Fabrics and GPU Direct Storage Boost HPC and AI Edge Applications
In this special guest feature, Tim Miller, VP of Product Marketing at One Stop Systems (OSS), discuses how deploying edge HPC solutions – instead of data movement over relatively slow or unsecure networks to distant datacenters – provides significant benefits in cost, responsiveness and security. Real time decisions require sourcing and storing raw data, and converting it to actionable intelligence with high speed computing in the field close to the data source.
Intelligent Video Analytics Pushes Demand for High Performance Computing at the Edge
In this special guest feature, Tim Miller, VP of Product Marketing at One Stop Systems (OSS), writes that his company is addressing the common requirements for video analytic applications with its AI on the Fly® building blocks. AI on the Fly is defined as moving datacenter levels of HPC and AI compute capabilities to the edge.