Tool includes an ROI estimator and Intel® Xeon® server selector guide. Intel® Xeon® processors based on Intel® Core™ microarchitecture integrate hardware for virtualization into all key server components, including Intel® Virtualization Technology.
Case Study: IndustryBuilt beats hardware limits, boosting data-intensive computing performance on Intel® Cache Acceleration Software and Intel® SSD.
Case Study: Software provider IndustryBuilt boosts data-intensive computing performance and reduces latency on Intel® Cache Acceleration Software with the Intel® Solid-State Drive DCS3700 Series, making the most of limited hardware resources.
Case Study: Intel® Cache Acceleration Software and Intel® SSDs cost-effectively improve SAS business analytics performance over HDD-only systems.
Case Study: Intel® Cache Acceleration Software and Intel® Solid-State Drives improve SAS input and migration for business analytics, with nearly double the performance of HDD-only systems and about one-tenth the cost of full SSD implementations.
Complex silicon designs with large memory and compute requirements run efficiently and cost-effectively on servers with SSD swap drives.
Silicon chip designers are working on more complex designs that have considerable memory and compute requirements. Servers with SSD swap drives are a cost-effective, high-performance server platform for EDA applications.
This document describes the x2APIC architecture, extended from the xAPIC architecture. The xAPIC was first implemented on Intel® Pentium® 4 processors, and extended the APIC architecture implemented on Intel® Pentium® processor and P6 processors.
A breakthrough in supercomputing speed, Intel® Many Integrated Core Architecture delivers performance and compatibility for highly-parallel HPC apps.
Learn about the latest breakthrough in supercomputing speed; Intel® Many Integrated Core Architecture delivers performance and compatibility for highly-parallel HPC applications.