Case Study: SGCC’s power grid simulation capacity, scalability, and performance improve with an integrated Intel® architecture-based solution.
Case Study: State Grid Corporation of China (SGCC) increases their Advanced Digital Power System Simulator* capacity, scalability, and performance with an integrated hardware and software solution based on Intel® architecture.
Case Study: Ben-Gurion University runs Intel® Distribution on the Intel® Xeon® processor family, allowing students to mine larger security datasets.
Case Study: Ben-Gurion University of the Negev opens the Big Data Lab running Intel® Distribution for Apache Hadoop* software on the Intel® Xeon® processor family, allowing students to mine larger datasets focused on web mining and cyber security.
Case Study: ISE reduces trade latency and adds capacity for second options exchange using Intel® Xeon® processor E5 family-based HP ProLiant* servers for an environment with better performance and nearly double the processing speed.
Understanding Intel® processor numbers helps you identify the best microserver, server, or workstation processor for your computing needs.
Understanding Intel® processor numbers and letter codes, such as C for microservers, X for enhanced performance, E for mainstream, and L for low power, helps identify the best microserver, server, or workstation processor for your computing needs.
The Intel® Xeon® processor E5 family reduces latency, and improves workstation throughput and efficiency by merging the I/O hub onto the processor.