Intel and Katana Graph today announced a collaboration to port and optimize the Katana Graph engine on Intel Xeon Scalable processors, Xeon-based clusters and the upcoming line of Intel's discrete GPUs, including the GPU (code-named 'Ponte Vecchio').
Together, Intel and Katana Graph will enable customers to exploit high-performance, scale-out parallel computing to solve large-scale problems with unstructured data with unmatched efficiency.
Large, unstructured datasets are typical in social network analysis, security and authentication, electronic chip design tools, biomedical and pharma applications (gene network analysis and medical knowledge graph mining), and epidemiological studies for modeling the spread of infectious diseases. Intel's broad ecosystem of technologies enables customers to accelerate analytics at every stage of the data pipeline. For example, Intel Xeon Scalable processors make it possible to analyze massive amounts of data at high speeds while Intel Optane persistent memory technology helps customers overcome bottlenecks in how data is moved and stored.
'For deep analytics on large, unstructured data to scale into mainstream usage, it will need to be deployable and performant on both volume CPUs and GPUs. Our collaboration with Katana Graph will accelerate the adoption of graph analytics on market-leading Intel Xeon Scalable processors as well as our upcoming GPUs, enabling more customers to take advantage of graph computing,' explains Wei Li, vice president, Intel Architecture, Graphics and Software, and general manager, Machine Learning and Performance.
The Katana Graph engine is the leader in scale-up and scale-out analytics that can run on large clusters of x86 CPUs, large memory systems with Intel Optane persistent memory, single or multi-node GPU platforms, or any combination of these technologies. Additionally, it can scale to hundreds of machines in production clusters.
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Customers are already utilizing the Katana Graph engine:
A major defense contractor is using Katana Graph to solve security problems by implementing a system for real-time intrusion detection in computer networks. The system builds online interaction graphs representing how network users interact with each other and with network resources.
Electronic design automation companies are evaluating Katana Graph for implementing high-performance parallel modules to solve electronic circuit design problems, including logic synthesis, hypergraph partitioning, placement and global routing. Projects that model pollution and epidemiological studies on the spread of COVID-19 used the graph engine to construct unstructured representations.
Katana Graph's enterprise system is supported on various infrastructure deployment models such as on-premises, hybrid and major cloud platforms, including AWS and
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