Ultra Business Center, Building No. 6788, Prince Saud Al-Faisal Street, Khalidiyah Janubiyah-2, Dammam Khobar Highway-32225-KSA
Ultra Information Technology UIT
Ultra Business Center, Building No. 6788, Prince Saud Al-Faisal Street, Khalidiyah Janubiyah-2, Dammam Khobar Highway-32225-KSA
Ultra Information Technology UIT
Cray XC series supercomputers are designed to handle the most challenging simulation, analytics and AI workloads with an architecture and software environment that provide extreme scalability and sustained performance. Seamless integration of Cray® ClusterStor™ storage into your overall system configuration provides enhanced data management and faster time to discovery.
We take a comprehensive approach to our XC series software environment, delivering an optimized suite of Linux®-based OS, management, monitoring and development tools which provide scalable performance and reliability for challenging HPC workloads. The environment efficiently supports the application development life cycle by providing a tightly coupled software stack. Multiple programming languages, programming models, compilers, I/O libraries, optimized scientific libraries, and tools for debugging, performance analysis, workload management, environment setup and more are supported.
Cray® Urika-XC® AI and Analytics
With the Cray Urika-XC advanced analytics software suite, Cray XC users can unlock sophisticated big data analytics at the speed of supercomputing using modern tools and languages. With no need to purchase purpose-built analytics solutions, Urika-XC software tools enable customers to profit from the scaling provided by the Aries network and get more value from their investment in XC systems.
Cray ClusterStor Storage Solutions
Cray ClusterStor storage allows you to optimize your compute resources by delivering the greatest performance for the most demanding workloads. ClusterStor storage reduces complexity, enabling workload management, data flow, scalability and faster time to results. ClusterStor systems balance the value equation to achieve the right performance levels, scalability and availability, all at the right budget and without the complexity typically associated with high-performance data storage architecture.