![]() This UITS system or service meets certain requirements established in the HIPAA Security Rule thereby enabling its use for work involving data that contain protected health information ( PHI). ![]() ![]() Physical, and technical safeguards to maintain the confidentiality, integrity, and availability of protected health information ( PHI). The HIPAA Privacy Rule and Security Rule set national standards requiring organizations and individuals to implement certain administrative, The Health Insurance Portability and Accountability Act of 1996 ( HIPAA) established rules protecting the privacy and security of individually identifiable health information. To inquire about the colocation service on Carbonate, email the UITS High Performance Systems (HPS) team. This colocation service gives schools and departments access to compute nodes that are dedicated solely to their use within Carbonate's physical, electrical, and network framework while leveraging the security and energy efficiency benefits provided by location within the IU Data Center. IU schools and departments can purchase nodes that are compatible with IU's Carbonate cluster, have them installed in the very secure IUB Data Center, have them available when members want to use them, and have them managed and secured by UITS Research Technologies staff. The Modules environment management package allows users to dynamically customize their shell environments.īesides being available to IU students, faculty, and staff for standard, cluster-based, high-throughput computing, Carbonate offers a colocation service to the IU community. The Slate, Slate-Project, and Slate-Scratch file systems are mounted for temporary storage of research data. 24 GPU-accelerated Apollo 6500 nodes, each equipped with two Intel 6248 2.5 GHz 20-core CPUs, 768 GB of RAM, 4 NVIDIA V100-PCIE-32GB GPUs, and one 1.92 TB solid-state drive.Īll Carbonate nodes are housed in the IU Bloomington Data Center, run Red Hat Enterprise 7.x, and are connected to the IU Science DMZ via 10-gigabit Ethernet.12 GPU-accelerated Lenovo ThinkSystem SD530 deep learning (DL) nodes, each equipped with two Intel Xeon Gold 6126 12-core CPUs, two NVIDIA GPU accelerators (eight with Tesla P100s four with Tesla V100s), four 1.92 TB solid-state drives, and 192 GB of RAM.In support of deep learning applications and research, Carbonate also features: Each general-purpose compute node is a Lenovo NeXtScale nx360 M5 server equipped with two 12-core Intel Xeon E5-2680 v3 CPUs and four 480 GB solid-state drives. Additionally, Carbonate offers a colocation service to IU researchers, research labs, departments, and schools.Ĭarbonate has 72 general-purpose compute nodes, each with 256 GB of RAM, and eight large-memory compute nodes, each with 512 GB of RAM. Carbonate provides specialized deep learning (DL) and GPU partitions for researchers with deep learning applications and other applications that require GPUs. Designed to support data-intensive computing, Carbonate is particularly well-suited for running genome assembly software, large-scale phylogenetic software, and other genome analysis applications that require large amounts of computer memory. With the most innovative 3D Printing technologies available, coupled with extraordinary service and craftsmanship, we aim to provide you with the ideal manufacturing experience to fit your specific need, every time.Carbonate is Indiana University's large-memory computer cluster. ![]() ![]() As the West Coast experience center for HP, our growth from a world-class prototype shop to a 50,000 square foot modern 3D manufacturing facility, our team is ready to help you leverage our Additive Manufacturing capabilities. From a quick turn, intricate surgical device to a large intake manifold for a jet engine, to a production run of 4,000 radomes, we have the technology and experience to deliver. We provide 3D printing and custom manufacturing to customers in a variety of industries. Capabilities include MJF (Multi Jet Fusion) by HP, SLA (Stereolithography) models, PolyJet high-precision color 3D printing, FDM (Fused Deposition Modeling) patterns in engineering grade thermoplastics, DMLS (Direct Metal Laser Sintering) by SLM for additive metal parts, CNC Machining, and our ProCAST RTV tooling for high quality urethane castings. We focus on bringing your ideas to life faster than you thought possible using the best in Additive and Digital Manufacturing technologies. For more than 25 years, we have been providing industrial 3D printing, short-run manufacturing, and high-volume production services to empower companies to speed their product development cycle. ![]()
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |