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Discover PARAM Rudra: India’s Latest Supercomputers for Advancing Research and Development (September 26, 2024)

Discover PARAM Rudra: India’s Latest Supercomputers for Advancing Research and Development

PM Modi Inaugurates PARAM Rudra Supercomputers: A Leap Forward in India’s Tech Landscape

On September 26, 2024, Prime Minister Narendra Modi launched three PARAM Rudra supercomputers, marking a significant advancement in India’s technological capabilities. Developed under the National Supercomputing Mission (NSM), these supercomputers are a part of India’s push for self-reliance in technology, aligning with the “Make in India” initiative.

Overview of PARAM Rudra Supercomputers

What is PARAM Rudra?

PARAM Rudra, named after the fierce avatar of Lord Shiva, is an advanced supercomputing system designed to handle complex computational tasks across various fields. Developed by the Centre for Development of Advanced Computing (C-DAC), the supercomputer boasts a computing speed of 1 petaflops (10^15 operations per second), making it a powerful tool for researchers and scientists.

Cost and Development

The total investment for the three PARAM Rudra supercomputers is approximately ₹130 crores. C-DAC has been pioneering high-performance computing in India since 1988, creating a series of supercomputers known as the PARAM series.

Recent Deployments

The recently inaugurated PARAM Rudra supercomputers are strategically located in three key research institutions:

  1. Giant Metre Radio Telescope (GMRT), Pune: This supercomputer will be utilized for real-time searches for Fast Radio Bursts (FRBs) and pulsars, significantly enhancing astrophysical research capabilities.
  2. Inter-University Accelerator Centre (IUAC), Delhi: The installation here is aimed at advancing research in material science and atomic physics, contributing to significant scientific breakthroughs.
  3. S.N. Bose Centre, Kolkata: This facility will aid in research related to physics, cosmology, and earth sciences, fostering a deeper understanding of these critical areas.

High-Performance Computing (HPC) Systems

In addition to the PARAM Rudra supercomputers, PM Modi also inaugurated two High-Performance Computing (HPC) systems named Arka and Arunika. These systems have been installed at the Indian Institute of Tropical Meteorology (IITM) in Pune and the National Center for Medium-Range Weather Forecast (NCMRWF) in Noida, Uttar Pradesh.

Purpose of HPC Systems

The Arka and Arunika systems are specifically designed for meteorological applications. They aim to enhance the accuracy and lead time of weather predictions, improving forecasts related to:

National Supercomputing Mission (NSM)

Launched in 2015, the National Supercomputing Mission is a collaborative effort between the Ministry of Electronics & Information Technology (MeiTY) and the Department of Science and Technology (DST). The mission aims to provide a robust supercomputing infrastructure to meet the computational needs of researchers, academia, and small to medium enterprises (SMEs).

Goals of the NSM

The primary goals of the National Supercomputing Mission include:

Impact on Research and Development

The launch of the PARAM Rudra supercomputers is expected to have far-reaching implications for various scientific fields:

Astronomy

With the PARAM Rudra supercomputer at GMRT, astronomers will gain the capability to conduct more detailed studies of cosmic phenomena, enhancing our understanding of the universe.

Material Science and Physics

Research in material science and atomic physics at the IUAC will be bolstered, paving the way for innovative discoveries that could lead to significant advancements in technology and materials.

Weather and Climate Research

The HPC systems, Arka and Arunika, are poised to revolutionize India’s meteorological capabilities, leading to more accurate predictions and better disaster management strategies.

Significance for India

The launch of the PARAM Rudra supercomputers represents a major milestone in India’s technological advancement. It supports the vision of Atmanirbhar Bharat (Self-Reliant India) and emphasizes the importance of indigenous technology development. The supercomputers will provide essential resources for tackling real-world problems, including climate change and public health.

Comparison with Global Supercomputers

Performance Metrics

Feature PARAM Rudra Top Global Supercomputers (e.g., Fugaku, Summit)
Processing Speed 1 petaflop Fugaku: 442 petaflops; Summit: 200 petaflops
Architecture Indigenously developed Fugaku: Fujitsu A64FX; Summit: IBM Power9
Primary Use Cases Climate modeling, astrophysics Fugaku: COVID-19 research, AI; Summit: AI, genomics
Memory 35 terabytes Fugaku: 7.6 million cores; Summit: 2.4 million cores
Cost Approximately ₹130 crore (~$16 million) Fugaku: ~$1 billion; Summit: ~$200 million
Deployment Year 2024 Fugaku: 2020; Summit: 2018

Key Differences

Future Prospects

The deployment of PARAM Rudra marks the beginning of a new era for supercomputing in India. It opens the doors for enhanced research capabilities that could position India as a competitive player in the global scientific community. The government’s commitment to supporting indigenous technology development will further bolster the nation’s research landscape, ensuring that India remains at the forefront of scientific innovation.

In conclusion, the launch of the PARAM Rudra supercomputers signifies not just a technological leap but also a strategic move towards making India self-reliant in high-performance computing, paving the way for advancements in various critical sectors.

FAQs:

1. What is the significance of the PARAM Rudra supercomputers launched by PM Modi?

Answer: The PARAM Rudra supercomputers enhance India’s high-performance computing capabilities, supporting research in areas such as climate modeling, astrophysics, material science, and weather forecasting. They represent a significant step towards self-reliance in technology and contribute to the National Supercomputing Mission.

2. How many PARAM Rudra supercomputers were launched, and where are they installed?

Answer: Three PARAM Rudra supercomputers were launched. They are installed at:

3. What is the processing speed of the PARAM Rudra supercomputer?

Answer: The PARAM Rudra supercomputer has a processing speed of 1 petaflop, which equates to 10^15 operations per second.

4. What is the purpose of the High-Performance Computing (HPC) systems Arka and Arunika?

Answer: The HPC systems Arka and Arunika are designed for meteorological applications, improving the accuracy and lead time of weather predictions, including forecasts for tropical cyclones, heavy rainfall, and other critical weather phenomena.

5. What is the estimated cost of the recently launched PARAM Rudra supercomputers?

Answer: The estimated cost of the three PARAM Rudra supercomputers is approximately ₹130 crores.

6. What initiative is the PARAM Rudra supercomputer a part of?

Answer: The PARAM Rudra supercomputer is part of the National Supercomputing Mission (NSM), which aims to enhance the supercomputing infrastructure in India to support research and development across various fields.

7. What are the primary areas of research supported by the PARAM Rudra supercomputers?

Answer: The primary areas of research supported by the PARAM Rudra supercomputers include astrophysics, material science, atomic physics, climate research, and environmental studies.

8. What is the goal of the National Supercomputing Mission (NSM)?

Answer: The goal of the NSM is to provide a robust supercomputing infrastructure to meet the computational demands of researchers, academia, MSMEs, and startups, thereby boosting innovation and technological advancements in the country.

9. What advancements are expected from the use of the PARAM Rudra supercomputers?

Answer: The use of PARAM Rudra is expected to advance research capabilities in various scientific fields, improve weather forecasting accuracy, enhance disaster management strategies, and foster breakthroughs in material science and astrophysics.

10. How do the PARAM Rudra supercomputers compare to global supercomputers?

Answer: While PARAM Rudra has a processing speed of 1 petaflop, leading global supercomputers like Fugaku and Summit operate at thousands of petaflops. However, PARAM Rudra emphasizes indigenous technology and cost-effectiveness, positioning India for growth in supercomputing capabilities.

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