Intel® PCC at the Hartree Centre is to enable UK academic and industrial codes to exploit the parallel and energy.
What three code modernization techniques would I suggest to help a programmer improve the execution performance of her code? With too many specific things to choose from, these are three recommendations for any programmer anywhere and anytime.
When I first saw a session at IDF where masters of the Modern Code were discussing it got me intrigued to think more. Fellow Black Belt Gaston Hillar gave me good insight into it. I had a quick chat also with our Black Belt Program Manager Kathy(Always filled with Energy) she also explained about how cool Code modernization is.
Contrast results for manually tuning financial data and using data layout templates in the Intel® C++ Compiler.
Applications often use files to store data from one run to the next, but high-capacity, non-volatile memory devices make it possible to store data more effectively than using a disk-based file system. This article describes how to design your application to take advantage of these memory devices, thereby avoiding the need for files to serve as persistent memory.
Intel’s non-uniform memory access (NUMA) strategy is based on several new memory technologies that promise significant improvements in both capability and performance. This article provides information on Multi-Channel DRAM (MCDRAM) and High-Bandwidth Memory (HBM), Non-volatile dual inline-memory modules (NVDIMMs), and Intel® Omni-Path Fabric (Intel® OP Fabric).
Do you have a problem that Intel non-uniform memory access (NUMA) hardware and the related tools and strategies can solve? The answer depends on the problem you are facing and if you can make decisions about choosing/changing your hardware, your software, or both. This article walks you through the decision.
Learn how to build an application that runs effectively on non-uniform memory access (NUMA) hardware. This article walks you through choosing the algorithm all the way through to measuring your application's performance.
How best to align new memory subsystem hardware technologies, including MCDRAM and HBM memories of Intel® Xeon Phi™ processors and Future 3D XPoint™ DIMMs, with the needs of applications? This article provides a deeper understanding of hardware capabilities when used for usual variables and heap allocated data of an application – data that did not exist before the application started and...