# SuperDome 875 MHz/HyperPlex **Wikidata**: [Q72620494](https://www.wikidata.org/wiki/Q72620494) **Source**: https://4ort.xyz/entity/superdome-875-mhz-hyperplex-q72620494 ## Summary SuperDome 875 MHz/HyperPlex is a supercomputer manufactured by Hewlett-Packard with a peak performance of 3.1 teraflops and a maximum measured performance of 1.7 teraflops. It features 896 processor cores and was ranked on the TOP500 list with system ID 174437. ## Key Facts - Instance of: supercomputer - Manufacturer: Hewlett-Packard - TOP500 system ID: 174437 (stated as "SuperDome 875 MHz/HyperPlex") - Computer performance: 1.7 teraflops (Rmax) as of November 2005 - Computer performance: 3.1 teraflops (Rpeak) as of November 2005 - Number of processor cores: 896 - Manufacturer founded: 1939-07-02 - Manufacturer country: United States - Manufacturer headquarters: Palo Alto, California ## FAQs ### Q: What is the SuperDome 875 MHz/HyperPlex? A: The SuperDome 875 MHz/HyperPlex is a supercomputer built by Hewlett-Packard featuring 896 processor cores with a peak performance of 3.1 teraflops and a maximum measured performance of 1.7 teraflops. ### Q: When was the SuperDome 875 MHz/HyperPlex created? A: While the exact creation date isn't specified in the source material, the performance specifications were measured and recorded in November 2005 when it was ranked on the TOP500 list. ### Q: How powerful is the SuperDome 875 MHz/HyperPlex? A: The SuperDome 875 MHz/HyperPlex delivers 1.7 teraflops of maximum measured performance (Rmax) and has a peak theoretical performance of 3.1 teraflops (Rpeak). ## Why It Matters The SuperDome 875 MHz/HyperPlex represents a significant achievement in high-performance computing during the mid-2000s, demonstrating the rapid advancement of supercomputing capabilities. As a Hewlett-Packard product, it showcases the company's expertise in building large-scale computing systems capable of handling complex scientific and technical computations. The system's inclusion in the TOP500 rankings validates its position among the world's most powerful computers at the time, making it relevant for research institutions, government agencies, and industries requiring massive computational power for simulations, modeling, and data analysis. ## Notable For - Ranked on the prestigious TOP500 list of supercomputers - Delivers 3.1 teraflops of peak theoretical performance - Features 896 processor cores for parallel processing - Manufactured by Hewlett-Packard, a major American technology company - Represents mid-2000s supercomputing technology with Rmax/Rpeak performance metrics ## Body ### Technical Specifications The SuperDome 875 MHz/HyperPlex operates at a clock speed of 875 MHz, which is reflected in its name. This clock speed, combined with its architecture and processor configuration, enables the system to achieve its impressive performance metrics. ### Performance Metrics The system's performance is measured using two standard benchmarks in supercomputing: - Rmax (maximum measured performance): 1.7 teraflops - Rpeak (theoretical peak performance): 3.1 teraflops These metrics indicate that the system can sustain approximately 55% of its theoretical maximum performance under typical workloads, which is a reasonable efficiency ratio for large-scale computing systems. ### Architecture With 896 processor cores, the SuperDome 875 MHz/HyperPlex employs parallel processing architecture, allowing it to divide complex computational tasks across multiple processors simultaneously. This architecture is essential for handling the massive datasets and complex calculations required in scientific computing, weather modeling, and other high-performance applications. ### Manufacturer Background Hewlett-Packard, founded in 1939 and headquartered in Palo Alto, California, has been a major player in the computer hardware industry. The company employed approximately 302,000 people in 2014 and operates in the computer hardware, software, and information technology industries. The SuperDome 875 MHz/HyperPlex represents one of HP's contributions to the supercomputing field.