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Enabling AI & Machine Learning: The Role of Tensor Cores
Tensor cores are indispensable for performing the types of calculations needed for artificial intelligence (AI) and machine learning. The role of AI and machine learning in defense applications is on the rise, making tensor cores critical for defense.
How Can I Teach My Machine to Learn
Like humans, machines learn from experience. They make observations from inputs of images, text, or other data, and then look for patterns. After the machine runs through the mathematical layers, it learns to make better decisions based on the examples it was given.
Comparing CPUs and GPUs for Deep Learning and Artificial Intelligence
Which is better for machine learning applications, 2nd Generation Intel Xeon Scalable Processors or NVIDIA’s T4? A head-to-head comparison helps explain whether you should choose a CPU or a GPU for your high-performance machine learning solution.
Enabling AI at the Network Edge of the Battlefield
This white paper describes how modern AI technology can benefit the warfighter as embedded solutions at the network edge are deployed for military and aerospace platforms. Edge computing brings data storage and computation closer to where it's needed.
Machine Learning and Artificial Intelligence in Defense and Aerospace Applications - What You Need to Know
This white paper discusses the terminology, applications, challenges, and technology enablers for machine learning, deep learning, and artificial intelligence (AI) in the embedded computing market.
How Does the FMC (FPGA Mezzanine Card) Standard Measure up Against the PMC/XMC Format White Paper
Interest in reconfigurable embedded computing in the defense and aerospace market has grown significantly as new generations of FPGAs present developers with a level of processing performance and potential I/O bandwidth that cannot easily be matched by conventional CPU configurations.
Interoperability Considerations Between Different Host FMC and FMC Mezzanine Vendors White Paper
In the same way as one might strip out unnecessary weight in a car aimed for racing, the FMC is a performance solution that strips away unnecessary generic interfaces for direct FPGA driven I/O. But that requires knowledge to achieve the desired performance and to ensure the host and FMC module will work well together. This paper outlines some of the considerations in order to assess and the ensure that the host and module will integrate.