The HPC industry is ever facing more and more challenges on various topics and especially a significant increase in cooling requirements. To meet those requirements, liquid cooling looks like the solution. But there is an alternative cooling solution that work without a pump and without water.
The process to vectorize application code is very important and can result in major performance improvements when coupled with vector hardware. In many cases, incremental work can mean a large payoff in terms of performance. “When applications that have successfully been implemented on supercomputers or have made use of SIMD instructions such as SSE or AVX are excellent candidates for a methodology to take advantage of modern vector capabilities in servers today.”
The use of vector instructions can speed up applications tremendously when used correctly. The benefit is that much more work can be done in a clock cycle than by performing the operation one at a time. The Intel Xeon Phi coprocessor was designed with strong support for vector level parallelism. “When these techniques are used either individually or in combination in different areas of the application, the performance will surely be increased, in many cases without a lot of effort.”
Intel has been working on a new HPC design philosophy for HPC systems called Intel® Scalable System Framework (Intel® SSF), an approach designed to enable sustained, balanced performance in HPC as the community pushes towards the Exascale computing era. Central to Intel SSF performance is the Lustre* scalable, parallel file system (PFS). Intel® Enterprise Edition for Lustre software (Intel® EE for Lustre software) is the Intel distribution of the well-known PFS, which is used by the majority of the fastest supercomputers around the world.
IBM has introduced a new way for organizations of all sizes to buy and acquire a full HPC management suite including a community edition for those just starting out. The new IBM Platform LSF Suites are packages that include more than IBM Platform LSF, they provide additional functionalities designed to simplify HPC for users, administrators and the IT organization.
“The Intel Xeon Phi coprocessor is an example of a many core system that can greatly increase the performance of an application when used correctly. Simply taking a serial application and expecting tremendous performance gains will not happen. Rewriting parts of the application will be necessary to take advantage of the architecture of the Intel Xeon Phi coprocessor.”
Altair is making a big investment toward uniting the whole HPC community to accelerate the state of the art (and the state of actual production operations) for HPC scheduling. Altair is joining the OpenHPC project with PBS Pro. They are focused on longevity – creating a viable, sustainable community to focus on job scheduling software that can truly bridge the gap in the HPC world.
According to the latest Intersect360 Research site census data, of the 50 most popular application packages mentioned by HPC users, 34 have offer GPU support, including 9 of the top 10. As is evident from the number of GPU-accelerated applications available in areas such as chemical research, physics, structural analysis, and visualization, the use of this accelerator technology has become well established in the HPC user community. “According to the latest Intersect360 Research site census data, of the 50 most popular application packages mentioned by HPC users, 34 have offer GPU support, including 9 of the top 10. As is evident from the number of GPU-accelerated applications available in areas such as chemical research, physics, structural analysis, and visualization, the use of this accelerator technology has become well established in the HPC user community.”
“While new technology will be developed that reduces the power per operation needed, in today’s environments it is important to understand how an application affects power usage. For modern applications that have been optimized to take advantage of both the Intel Xeon CPU and the Intel Xeon Phi coprocessor, the hardware mentioned does include various power states, which can minimize the power consumption when idle.”
Through the microarchitecture improvements, increased core counts, and faster memory speeds of the new Intel Xeon processor E5-2600 v4 product family based on the “Broadwell” microarchitecture, you can increase your HPC application performance. You will see significantly improved per-core performance with these just announced Intel® Xeon® processors that can then be multiplied by parallel programs that utilize the number of cores available inside these processors. Improvements to the memory and virtual memory capabilities – including the ability to utilize faster DDR4-2400 memory – means that these processors can speed all aspects of your application from IO DMA operations, to processing serial sections of code, as well as delivering increased performance on both task- and data-parallel applications.