“Supermicro RSD makes it easy for companies of any size to build cloud infrastructure that until now are limited to leading large public and private cloud providers,” said Charles Liang, President and CEO of Supermicro. “The Supermicro RSD solution enables more customers to build large scale modern data centers leveraging Supermicro’s best-of-breed server, storage and networking product portfolio.”
A team of researchers at Berkeley Lab, PNNL, and Intel are working hard to make sure that computational chemists are prepared to compute efficiently on next-generation exascale machines. Recently, they achieved a milestone, successfully adding thread-level parallelism on top of MPI-level parallelism in the planewave density functional theory method within the popular software suite NWChem. “Planewave codes are useful for solution chemistry and materials science; they allow us to look at the structure, coordination, reactions and thermodynamics of complex dynamical chemical processes in solutions and on surfaces.”
In this podcast, the Radio Free HPC team looks at some the top High Performance Computing stories from this week. First up, we look at Europe’s effort to lead HPC in the next decade. After that, we look at why small companies like Scalable Informatics have such a hard time surviving in the HPC marketplace.
“The new CooLMUC 3 system outperforms its predecessors in a number of respects, including its key feature of cooling in thermally insulated racks all compute and login nodes, power supply units, and Omni-Path switches directly with hot water, a combination the likes of which has never been seen before,” said Axel Auweter, Head of HPC Development at MEGWARE. “Even at a cooling water temperature of 40 degrees Celsius and a room temperature of 25 degrees Celsius, a maximum of just 3% waste heat is produced in the ambient air.”
Today Penguin Computing announced a significant expansion of their Penguin Computing On-Demand (POD) High Performance Computing Cloud. The new offering includes the latest Intel Xeon processorss, Lustre, and Intel Omni-Path. “As current Penguin POD users, we are excited to have more resources available to handle our mission-critical real-time global environmental prediction workload,” said Dr. Greg Wilson, CEO, EarthCast Technologies. “The addition of the Lustre file system will allow us to scale our applications to full global coverage, run our jobs faster and provide more accurate predictions.”
Today SuperMicro rolled out a wide range of NVMe Flash server and storage systems with support for the new Intel Optane SSD DC P4800X based on 3D XPoint technology. “Being First-To-Market with the latest in computing technology continues to be our corporate strength, the addition of Intel Optane memory technology gives our top tier customers a new memory deployment strategy that provides better write performance and latency than existing NVMe NAND SSD solutions,” said Charles Liang, President and CEO of Supermicro. “In addition this new memory is slated to consume 30 percent lower max-power than SSD NAND memory, supporting our customer’s green computing priorities.”
“Artificial Intelligence will deliver the next wave of societal transformation on parallel with the industrial, technical and internet revolutions that preceded it. As our AI-fueled future evolves, we have a tremendous opportunity to address opportunities from scare resource utilization and scientific exploration to inclusion and human rights expansion. Intel Executive VP Diane Bryant will share Intel’s vision for unleashing AI as well as a perspective on how to accelerate the delivery of #AIforgood.”
“Delivering an industry-leading combination of low latency, ultra endurance, high QoS, and high throughput, the Intel Optane SSD DC P4800X Series is the most responsive data center SSD. Built with the revolutionary new 3D XPoint memory media, the SSD DC P4800X is the first product to combine the attributes of memory and storage. This innovative solution is optimized to break through storage bottlenecks by providing a new data tier.”
Today NEC Corporation announced the deployment of an LX supercomputer at RWTH Aachen University in Germany. Featuring offering high performance computing services for engineering and scientific research. “We selected the NEC LX technology because of its superior performance, as well as low total cost of ownership due to innovative cooling technology,” said Professor Matthias Muller, head of the IT Center at RWTH Aachen University. “Going forward, we are excited to work with NEC as a strong corporate partner in expanding our IT research.”
Today Hewlett Packard Enterprise announced plans to deploy one of the world’s largest supercomputers for industrial chemical research at BASF’s Ludwigshafen headquarters. Based on the latest generation of HPE Apollo 6000 systems, the new supercomputer will drive the digitalization of BASF’s worldwide research. “The new supercomputer will promote the application and development of complex modeling and simulation approaches, opening up completely new avenues for our research at BASF,” said Dr. Martin Brudermueller, Vice Chairman of the Board of Executive Directors and Chief Technology Officer at BASF.