Param, based on PowerPC Architecture, is the first of its type in the country, to support the National Supercomputing Mission (NSM) recently launched three PARAM Rudra supercomputers has been unveiled by the Prime Minister Narendra Modi. These supercomputers are a big leap that may be a boost to India in terms of computational development and science. Here is the overview of PARAM Rudra supercomputers to make sure you stay informed about them.
What Are PARAM Rudra Supercomputers?
The PARAM Rudra are formation supercomputers created under the umbrella of National Supercomputing Mission initiated in India. They are designed to handle complex computational tasks across scientific, engineering, and research domains, enabling groundbreaking advancements in areas such as:
- Physics
- Earth Sciences
- Cosmology
- Material Science
- Atomic Physics
The deployment of these systems reinforces India’s position in the global supercomputing landscape.
Which IIT Has Developed PARAM Supercomputer?
IIT Gandhinagar and IIT Kanpur have been part of PARAM supercomputers under the National Supercomputing Mission. These institutes working in collaboration with C-DAC were instrumental in ensuring that the systems present developed to a level, which is quite world class.
What Is the Cost of PARAM Supercomputers?
The development and deployment of PARAM Rudra supercomputers have been completed at an approximate cost of ₹130 crore (about $16 million).
This investment underlines India’s commitment to advancing its technological and research capabilities.
PARAM Rudra Supercomputers Price and Deployment
The three PARAM Rudra supercomputers have been deployed in the following locations:
- Pune – Giant Metre Radio Telescope (GMRT)
- Delhi – Inter-University Accelerator Centre (IUAC)
- Kolkata – S. N. Bose National Centre for Basic Sciences
These systems are now being used for cutting-edge research in physics, cosmology, and more.
PARAM Rudra Supercomputer Speed
The PARAM Rudra supercomputers which are in operations deliver the peak performance of 837 TFLOPS or Tera Floating-Point Operations per Second. Such an immense computational capacity guarantees that simulations are completed faster, data processed efficiently or accurately modeled since they are critical for research-oriented applications. Another very important parameter of PARAM Rudra supercomputers
PARAM Rudra Supercomputer Specifications
Here are the key technical specifications of PARAM Rudra supercomputers:
- Processor: Intel Xeon Scalable Processors
- GPU: NVIDIA V100
- Memory: 52 TiB (Tebibytes) of RAM
- Storage: 1 PiB (Pebibyte) of usable storage
- Network: 100 Gbps EDR InfiniBand
These specifications reflect the supercomputers’ ability to handle complex calculations and large-scale data analysis seamlessly.
Significance of PARAM Rudra Supercomputers
The PARAM Rudra systems are vital for India’s advancement in:
- Weather and Climate Research: Enhancing the accuracy of forecast of tropical cyclones, thunderstorms and heat waves.
- Scientific Innovation: Providing enhanced computational support to the researchers whenever they need it.
- Economic Growth: By applying state of the art simulation and modeling techniques to support industries. Supercomputer National Mission (SNM)
National Supercomputing Mission (NSM)
The National Supercomputing Mission (NSM) is a joint initiative by the Ministry of Electronics and Information Technology (MeitY) and the Department of Science and Technology (DST).
Key Features of NSM:
- Indigenous Development: Do Local Hardware and Software Development.
- Collaborative Implementation:Coordinated by C-DAC and Indian Institute of Science, Bengaluru.
- Global Competitiveness: The government plans to put India on the map of the supercomputing countries.
The PARAM Rudra supercomputers have added another feather in India’s cap and strongly positions India on the path to lead the world in supercomputing and research. These systems will persist to enhance the progress of the diverse sectors of science and industry, so, India’s vital concern of technology and rationality shall not dwindle.