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Scientific Computing System Requirements Scientific Computing is a vast domain! There are thousands of “scientific” applications and it is often the case that what you are working with is based on your own code development efforts. Performance bottlenecks can arise from many types of hardware, software, and job-run characteristics. Recommendations on “system requirements” published by

Scientific Computing covers many fields, including ML/AI and data-analysis within those domains. Our workstations are built for applications demanding high-performance numerical computation. GPU acceleration is also a serious consideration!

Overview This scientific workstation features Intel’s Xeon® processor platform with an EEB size motherboard, in a large tower for lots of expansion room. These processors offer a great combination of multi-GPU support alongside powerful CPU compute capabilities – especially for workflows which are optimized to utilize AVX512.

Overview This workstation features AMD’s Threadripper™ PRO processor platform, in a large tower chassis for plenty of expansion space. The Threadripper PRO offers a huge number of cores, 8 fast memory channels, and tons of PCI-Express lanes – making it excellent for CPU-based computational workloads. However, because of the higher power draw from this type

Machine Learning & AI System Requirements There are many types of Machine Learning and Artificial Intelligence applications – from traditional regression models, non-neural network classifiers, and statistical models that are represented by capabilities in Python SciKitLearn and the R language, up to Deep Learning models using frameworks like PyTorch and TensorFlow. Within these different types

Puget Systems has put together computers configured for a variety of live streaming situations: from professional gamers and individual content creators to small businesses that are moving online, and all the way up to churches and large event centers with multiple cameras

Overview Great for gaming and streaming in one box, either from the comfort of home or on the go at LAN events, this relatively compact tower system features AMD’s Ryzen processors with high clock speeds and several cores for gaming and streaming at the same time. All of the NVIDIA GeForce graphics card options support NVIDIA

Overview For those who record and edit videos, in addition to live streaming, this larger tower system features a bigger motherboard with more room for adding capture cards as well as a wider range of drive options. This set of features makes it ideally suited to use in houses of worship, corporate meeting spaces, or

Capturing Video Sources for Streaming Jump to: Screen Capture • Webcam • PC or Console • HDMI Cameras • SDI Cameras • Network Cameras • FAQ There are a number of different types of video that you might want to incorporate into your live stream, or record for later editing. Each source needs the right

Virtual Reality System Requirements The two main factors in virtual reality performance are the CPU (central processing unit, often referred to simply as the processor) and GPU (graphics processing unit, which is the main chip on a video card). In most situations, this is very similar to how traditional computer games work but with a