White Paper: Discusses performance improvements of Couchbase Server 4.0 in database workloads when upgrading to Non-Volatile Memory Express* (NVMe*).
Review this white paper, which discusses the dramatic performance improvements of Couchbase Server 4.0 in database workloads when upgrading local storage based on SSDs from SATA connectivity to Non-Volatile Memory Express* (NVMe*) architecture.
A Data Hub Architecture built on Intel® technologies can process multiple data formats in real time to deliver immediate analytics and insights, helping businesses quickly react to—and even predict—outcomes for improved decision making
High-performance computing, domain expertise, and Intel’s application expertise help demonstrate next-gen sequencing as a personalized medicine tool.
High-performance computing infrastructure, domain expertise, Dell’s financial support, and Intel’s application expertise helped a molecular guided therapy cancer study demonstrate next-gen sequencing as a tool for personalized medicine.
Case Study: DownUnder GeoSolutions harnesses the power of high-performance computing on an Intel® Xeon® processor E5-2600 v2 product family and Intel® Xeon Phi™ coprocessor-based platform to fast-track oil and gas exploration for their clients.
Case Study: Visual effects leader Framestore enables artists to maximize their potential and efficiency on Intel® Xeon® processor-based servers.
Case Study: Visual effects industry leader Framestore enables artists to realize their potential and maximize feature film efficiency while controlling operating costs using Intel® Xeon® processor-based Dell PowerEdge* servers.
Framestore enhances its visual effects leadership in film and integrated advertising with flexible IT solutions based on Intel® Xeon® processors.
Framestore, a UK-based visual effects company, drives expansion and enhances its leadership in film and integrated advertising with flexible IT solutions based on servers powered by Intel® Xeon® processors.Full View >
High-performance computing solutions with Intel® Xeon® processor 5500 series deliver intelligent, scalable performance. Dynamic performance capabilities, energy-efficient features, and greater memory bandwidth than previous dual-socket architecture.
Case Study: CERN uses Intel® processors to boost the performance of its scientific research applications and have lower energy use.
Case Study: CERN, the European Organization for Nuclear Research, uses the Intel® Xeon® processor E5-2630L to boost the performance of its scientific applications, gaining higher throughput data processing and greater energy efficiency.
Case Study: The Intel® Xeon® processor E5 family, in many of CERN’s LHC Computing Grid servers, provides the computing power for Higgs boson research.
Case Study: The Intel® Xeon® processor E5 family and other Intel® technology power the majority of the servers in the LHC Computing Grid at CERN, providing the processing power for the Higgs boson search and other high energy physics computing needs.