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Supercomputers have become essential systems for academic institutions. Supercomputer centers in universities like Urmia, Shiraz, Isfahan, and others reflect the computational power and research capabilities of these cities and their academic hubs. The Parallel Processing and Networking Laboratory and the High-Performance Computing (HPC) System at Urmia University significantly enhance the university’s scientific power.
In this article, we will first define and provide a brief history of supercomputers and then discuss the Cloud Processing Center and the High-Speed Processing Center at Urmia University.
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To understand the Cloud Processing Center at Urmia University, it’s essential to first grasp what a supercomputer is. What is a supercomputer? Personal computers have average processing power and are designed for general tasks. In contrast, supercomputers are advanced and powerful versions of personal computers, designed for extremely high-speed computational tasks.
Supercomputers are highly practical for performing scientific and engineering tasks involving complex computations, significantly accelerating operations and scientific discoveries. The use of supercomputers began in the 1990s. Urmia University’s High-Speed Computing Center is equipped with supercomputing facilities.
Programmable personal computers were developed by Konrad Zuse between 1935 and 1938. Ever since their invention, efforts have been made to enhance their power. Seymour Cray is recognized as the first person to introduce the supercomputer to the market, though he never used the term “supercomputer” himself.
Between 1985 and 1990, Cray was the sole active figure in the supercomputing field. He dedicated his life to advancing computer science, aiming to build the fastest computers, and made significant contributions to the development of supercomputers.
In 1985, W. Daniel Hillis, a graduate of the Massachusetts Institute of Technology (MIT), introduced an innovative idea based on the human brain’s nervous system. This field has continued to evolve as each contributor has left their mark. It’s important to note that the lifespan of a supercomputer is short, as advancements in computing technology quickly render the supercomputers of one decade equivalent to ordinary computers of the next.
High-performance computing (HPC) represents a more evolved version of supercomputers, capable of handling complex computations with large datasets. Compared to older models, these systems are less expensive. Their other benefits include easy access to components, high performance, scalability (both horizontal and vertical), better resource management, high throughput, and reduced system downtime.
The computational servers at Urmia University feature HPC capabilities. If you require access to such a system, you can easily rent the Parallel and High-Speed Processing System at Urmia University to execute your complex and large-scale operations. The High-Speed Computing Center at Urmia University facilitates rapid execution of research, academic, and even heavy business operations.
If you have any questions about renting the Parallel and High-Speed Processing System at Urmia University, you can contact Simulators of Amirkabir Company.
Supercomputer Equipment
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Supercomputer Equipment
The main distinction between supercomputers and regular computers lies in their components. A supercomputer comprises multiple Central Processing Units (CPUs). Another key feature of supercomputers is their ability to perform vector calculations—meaning computations can be performed on two lists simultaneously. In contrast, regular computers can only process calculations on two individual numbers.
This example highlights the superior processing power of supercomputers and their ability to drastically accelerate operations. The time it takes for a user to calculate a worker’s monthly salary based on their working hours using a regular computer equals the time it would take to compute the salaries of all workers using a supercomputer.
The Supercomputer Center at Urmia University offers hourly access to its high-speed processing services. While data compilation over a month could be done on a regular computer, renting a powerful computer hourly can help you complete the task in the shortest time possible, saving both time and costs.
Purchasing a supercomputer with high computational and processing power is not feasible for everyone. Moreover, there is often no need for such systems for individual use. As a result, renting parallel processing systems is common. Each center may have its specific pricing for renting supercomputers. Below are the rental rates provided by the Supercomputer Center at Urmia University:
| Service price per Hour (in IRR) | 1 GB Disk | 1 GB Memory | 1 Processing Core |
|---|---|---|---|
| 19 | 294 | 355 |
| User Groups | Discount Percentage |
|---|---|
| Urmia University Students and Faculty | 50% |
| Students and Faculty of Other Universities | 45% |
| Research Institutes, Knowledge-Based Companies, and Incubators | 25% |
| General Users | – |
For those performing complex calculations, using a supercomputer can significantly speed up your work. The Supercomputer Center at Urmia University provides rentals with specific rates and discounts. If interested, you can visit the website for more information.
In this article, we aimed to provide useful information about the Supercomputer Center at Urmia University. Supercomputers are typically compared based on their capacity and processing speed. The lifespan of a supercomputer depends on its operational speed relative to newly developed models.
Given the rapid advancements in computer science, the definition of a supercomputer changes from one period to the next. The Supercomputer Center at Urmia University has consistently maintained its equipment at the forefront of operational efficiency. Additionally, its computational servers are available for hourly rentals.
This section addresses some key questions about high-performance computing and the Supercomputer Center at Urmia University, particularly regarding its functionality and processing capabilities:
Supercomputers surpass regular computers in processing capabilities. High-performance supercomputers, often referred to as HPC, have extraordinary processing power and capacity for handling massive datasets.
Supercomputers are primarily used for mathematical computations in complex physical projects such as weather prediction, cosmic evolution, nuclear weapons, reactors, new chemical compounds (e.g., pharmaceuticals), and cryptography.
Determining the exact price of a supercomputer is challenging because configurations depend on the specific needs of the client. Thus, prices are tailored to individual requirements rather than being fixed.