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Subject: Science and Technology

  • AI’s workhorse: What is a GPU? How does it work?

    Why in the News?

    European regulators are examining Nvidia’s dominance in AI GPUs amid concerns of anti-competitive practices and software lock-in through CUDA. The NVIDIA CUDA ecosystem is a comprehensive, proprietary parallel computing platform and programming model that enables GPUs to perform general-purpose computing (GPGPU). Nvidia holds nearly 90% of the discrete AI GPU market, creating high entry barriers. AI training workloads rely on thousands of GPUs operating continuously, raising electricity demand and carbon concerns. The transition from CPU-centric to GPU-centric computing marks a structural shift in global digital infrastructure with strategic and regulatory implications.

    Introduction

    It is a specialised processor designed to execute large numbers of parallel computations simultaneously. Initially developed for rendering computer graphics, GPUs now form the backbone of artificial intelligence (AI), machine learning, simulations, and high-performance computing.

    The Story So Far

    1. 1999 Launch: Nvidia marketed GeForce 256 as the first GPU.
    2. Shift in Function: Moved from video game graphics to AI infrastructure.
    3. Current Role: Powers generative AI, data centres, scientific simulations, defence modelling.

    What is a Graphics Processing Unit (GPU)?

    1. Parallel Compute Engine: Contains thousands of smaller cores performing repetitive calculations simultaneously.
    2. Workload Design: Optimised for image rendering, matrix multiplication, and tensor operations.
    3. High Bandwidth Memory: Ensures rapid movement of large datasets.
    4. Data-Heavy Efficiency: Suitable for neural networks with millions or billions of parameters.

    How Does a GPU Work? 

    GPU rendering operates through a structured sequence called the rendering pipeline:

    1. Vertex Processing
      1. Function: Processes vertices (corner points of 3D objects).
      2. Operation: Applies mathematical transformations to determine position, rotation, scaling, and camera perspective.
      3. Outcome: Converts 3D coordinates into screen-space positions.
    2. Rasterisation
      1. Function: Converts geometric shapes into pixels.
      2. Operation: Determines which pixels on the screen are covered by each triangle.
      3. Outcome: Transforms vector graphics into a pixel grid.
    3. Fragment Processing
      1. Function: Determines final colour and appearance of each pixel.
      2. Operation: Applies lighting, textures, shading, shadows, reflections.
      3. Outcome: Produces realistic visual effects.
    4. Frame Buffer Writing
      1. Function: Stores processed pixel data in memory.
      2. Operation: Writes final image data into frame buffer for display output.
      3. Outcome: Displays rendered image on screen.

    How Do GPUs Enable Artificial Intelligence?

    1. Matrix Operations: Neural networks multiply large grids of numbers repeatedly.
    2. Tensor Operations: Handles multi-dimensional data structures beyond 2D matrices.
    3. Tensor Cores: Specialised hardware (e.g., Nvidia H100) capable of ~1.9 quadrillion operations per second.
    4. Parallelism: Enables simultaneous processing of thousands of data inputs.
    5. Training Efficiency: Reduces time required for large model training.

    Where is the GPU Located?

    1. Discrete GPU: Separate graphics card connected to CPU via high-speed interface.
    2. Integrated GPU: Embedded within CPU chip.
    3. Data Centre Clusters: Installed in racks powering AI training and inference systems.

    How Are GPUs Different from Central Processing Units?

    1. CPU Architecture: Few powerful cores; optimised for sequential logic and control tasks.
    2. GPU Architecture: Many smaller cores; optimised for repetitive parallel workloads.
    3. Control Logic vs Compute Throughput: CPU manages system operations; GPU maximises computation throughput.
    4. Use Case Distinction: CPUs handle operating systems and general tasks; GPUs handle AI training and graphics.

    How Much Energy Do GPUs Consume?

    1. Board Power: Nvidia A100 consumes ~250 W during training.
    2. Continuous Operation: AI training can run for 12 hours or longer.
    3. Energy Estimate: Four GPUs operating continuously consume ~6 kWh per day (excluding server overhead).
    4. Infrastructure Overhead: Additional 30-60% energy required for cooling, CPUs, networking.
    5. Climate Implication: Data centre expansion increases electricity demand and carbon emissions.

    Does Nvidia Have a Monopoly?

    1. Market Share: Nearly 90% of discrete AI GPU market.
    2. CUDA Ecosystem: Proprietary software platform increases switching costs.
    3. Hardware Performance Edge: High-performance GPUs strengthen dominance.
    4. Regulatory Scrutiny: European authorities examining potential anti-competitive practices.
    5. Entry Barriers: Semiconductor fabrication requires high capital and advanced manufacturing ecosystems.

    Governance and Policy Implications

    1. Competition Regulation: Requires anti-trust oversight to prevent abuse of dominant position.
    2. Digital Sovereignty: Countries dependent on foreign AI chips face strategic vulnerability.
    3. Energy Governance: Necessitates integration of renewable energy and green data centre norms.
    4. Export Controls: Advanced chips increasingly subject to geopolitical restrictions.
    5. Industrial Policy: Encourages domestic semiconductor ecosystem development.

    Conclusion

    GPUs have become foundational to artificial intelligence and modern digital infrastructure. Their dominance raises concerns of market concentration, energy sustainability, and strategic dependence. Effective competition regulation, green computing standards, and domestic semiconductor capacity are essential to ensure technological growth remains inclusive, secure, and sustainable.

    PYQ Relevance

    [UPSC 2020] What do you understand by nanotechnology and how is it helping in health sector?

    Linkage: Both nanotechnology and GPU-based AI fall under GS-3 emerging technologies and test conceptual clarity about hardware-driven technological transformation.

  • ISRO to test improved fire detection algorithm during rabi harvest  

    Why in the News?

    Indian Space Research Organisation will pilot a modified algorithm to better detect farm fire events during the upcoming wheat harvesting season. The move follows discrepancies between satellite detected fires and ground reports flagged by the Commission for Air Quality Management.

    Background: Stubble Burning

    • Paddy stubble generated within a 30 day window in Punjab, Haryana and western UP.
    • Farmers burn residue due to:
      • Short gap between harvest and next sowing cycle
      • Low cost and quick clearance
    • Burning releases PM2.5 and gaseous pollutants.
    • During peak season, farm fires can contribute up to 40 percent of Delhi pollution load.

    Satellite Monitoring Mechanism

    • Fire data based on sun synchronous polar orbiting satellites:
      • NASA Terra and Aqua using MODIS sensor
      • National Oceanic and Atmospheric Administration Suomi NPP using VIIRS sensor
    • Issue identified:
      • Peak burning time shifted from around 1.30 pm in 2020 to nearly 5 pm in 2024.
      • Late evening fires may escape detection due to fixed satellite overpass timings.
    • Rabi Season Focus
      • Wheat harvesting: Late March to May.
    • 2025 data recorded:
      • Punjab: 10,207 fire events
      • Haryana: 1,832
      • NCR districts of UP: 259
    • For first time, CAQM directing monitoring of summer wheat stubble burning.
    [2019] For the measurement/estimation of which of the following are satellite images/remote sensing data used? 1. Chlorophyll content in the vegetation of a specific location 

    2. Greenhouse gas emissions from rice paddies of a specific location 

    3. Land surface temperatures of a specific location 

    Select the correct answer using the code given below: 

    (a) 1 only (b) 2 and 3 only (c) 3 only (d) 1, 2 and 3

  • AI Mission 2.0 and Expansion of Common Compute

    Why in the News?

    At the AI Impact Summit in New Delhi, the Union IT Minister announced the launch of AI Mission 2.0 and the addition of 20,000 GPUs to the government’s common compute infrastructure under the IndiaAI Mission.

    What is the Common Compute Cluster?

    • Government supported shared AI infrastructure
    • Objective: Democratise access to expensive AI computing resources and reduce entry barriers.
    • Provides access to high performance GPUs
    • Open to:
      • Startups
      • Researchers
      • Academia
      • Indian AI firms

    Key Announcements

    • Addition of 20,000 GPUs

      • To be installed within six months
      • Strengthens national AI compute capacity
      • Supports training of large language models and advanced AI systems
    • AI Mission 2.0

      • Greater focus on:
      • AI research and development
      • Innovation ecosystem
      • AI diffusion across sectors
      • Strengthening public digital infrastructure
    • Indigenous Foundational Model

      • A foundational large language model from an Indian firm expected
      • Aim: Build applications with real public impact
    [2025] Consider the following statements: I. It is expected that Majorana 1 chip will enable quantum computing. 

    II. Majorana 1 chip has been introduced by Amazon Web Services (AWS). 

    III. Deep learning is a subset of machine learning. 

    Which of the statements given above are correct? 

    (a) I and only I (b) II and III only (c) I and III only (d) I, II and III

  • District Cooling as a Climate and Urban Solution for India

    Why in the News?

    With rising temperatures, prolonged heatwaves and increasing air conditioner use, experts are advocating district cooling systems as an energy efficient solution aligned with India’s climate and urban planning goals.

    What is District Cooling?

    • A centralised cooling system that supplies chilled water from one large plant to multiple buildings through insulated underground pipes.
    • Instead of each building installing separate chillers:
      • A central plant produces chilled water at 6 to 7°C.
      • Water circulates to buildings and absorbs indoor heat.
      • Returns at 12 to 14°C to be cooled again.
    • It works like a public utility similar to piped gas or electricity.
    [2010] What is the principle by which a cooling system (Radiator) in a motor car works? (a) Conduction only 

    (b) Convection 

    (c) Radiation only 

    (d) Both conduction and radiation

  • On gravity’s role on Earth’s journey through space

    Why in the News?

    The article becomes relevant at the start of a new year, as it reflects on Earth’s continuous journey around the Sun at nearly 1,07,000 km per hour. It points out that even at such enormous speed, life remains stable because gravity keeps everything in balance. The piece recalls an important scientific milestone, the rejection of the ether theory in 1887, and pays tribute to Prof. Jayant Narlikar, founder of IUCAA, after his recent passing. It contrasts old beliefs about “aether” with today’s scientific understanding of vacuum and gravitational forces. The striking figures, Earth travelling nearly 1 billion kilometres in a year and about 40,000 kilometres in an hour, highlight how vast this motion is, even though we do not feel it in everyday life.

    What is Gravity?

    1. Gravity is a fundamental, invisible force of attraction that pulls any two objects with mass toward each other. 
    2. Its strength depends on the mass of the objects and the distance between them
    3. Gravity governs both terrestrial and cosmic systems. 
    4. It explains falling objects, planetary motion, and Earth’s stable revolution around the Sun. 
    5. The Earth completes one revolution in 365 days while travelling nearly one billion kilometres annually at high velocity. This motion remains unnoticed due to gravitational balance and absence of resistive friction in space.

    How Does Gravity Function as a Centripetal Force?

    1. Centripetal Mechanism: Gravity acts as the centripetal force pulling bodies towards a centre, ensuring orbital motion.
    2. Bicycle Analogy: Pulling a string tied to a rotating object redirects its motion inward, similar to gravitational pull maintaining planetary orbits.
    3. Planet-Sun Interaction: Earth does not fall into the Sun because forward motion balances gravitational pull.
    4. Universal Application: The same mechanism explains the Earth-Moon system and other celestial rotations.

    Why Do Objects Fall Toward Earth?

    1. Universal Gravitation: Objects fall toward Earth because Earth is the heaviest nearby mass.
    2. Mass Attraction: All objects with mass attract one another.
    3. Everyday Example: Falling bodies move toward Earth’s centre unless acted upon by another force.

    How Fast Is Earth Travelling in Space?

    1. Annual Distance: Earth travels nearly 1,000,000,000 km in one year.
    2. Hourly Speed: Approximate orbital speed equals 1,07,000 km per hour.
    3. Comparative Illustration: A car travelling at 100 km per hour without stopping would take around 1,000 years to cover a comparable distance.
    4. Temporal Perspective: Earth covers nearly 40,000 km in about one hour.

    Why Is There No Friction in Space?

    1. Friction Concept: Friction arises due to surrounding particles resisting motion.
    2. Earthly Examples: Air slows a bird; water resists a fish; road friction stops a car.
    3. Vacuum Condition: Space lacks resisting medium, preventing deceleration of planetary motion.
    4. Energy Continuity: Continuous motion persists without need for refuelling unlike vehicles requiring oil.

    What Was the Ether Hypothesis and Why Did It Fail?

    1. Ether Assumption: Earlier belief held that an invisible material called “aether” filled space.
    2. Michelson-Morley Experiment (1887): Attempted to detect ether; failed to find evidence.
    3. Scientific Outcome: Demonstrated absence of ether, marking a major conceptual correction.
    4. Modern Understanding: Space functions as vacuum without a resistive medium.

    What Is the Significance of Space Studies in India?

    1. Institutional Role: IUCAA in Pune advances astrophysics research.
    2. Scientific Leadership: Prof. Jayant Narlikar contributed to cosmological theories and public science communication.
    3. Recognition: Awarded Padma Vibhushan in 2004.
    4. Public Outreach: Science communication through television series such as “Brahmand.”

    Conclusion

    Earth’s silent, high-speed journey through space is sustained by the precise balance of gravity and motion. What once required speculative ideas like “ether” is now explained through tested scientific principles. By reflecting on these discoveries, and the contributions of scientists like Jayant Narlikar, it reinforces the importance of scientific temper in understanding our place in the universe.

    PYQ Relevance

    [UPSC 2017] How does the Juno Mission of NASA help to understand the origin and evolution of earth?

    Linkage: Juno’s study of Jupiter’s gravitational structure reinforces the article’s explanation of gravity as the fundamental force shaping Earth’s origin and sustaining its motion through space.

  • Safe Landing Patch Identified near Mons Mouton for Chandrayaan 4

    Why in the News

    A study by ISRO Space Applications Centre has identified a safe landing patch near Mons Mouton for Chandrayaan-4, India’s first lunar sample return mission.

    About Moon’s Mons Mouton

    • Mons Mouton is a large flat topped lunar mountain massif
    • Officially named by the International Astronomical Union

    Location

    • Situated in the south polar region of the Moon
    • Lies close to the rim of the South Pole Aitken Basin
    • Approximately 160 km from the lunar south pole

    Origin

    • Formed due to rim uplift during ancient massive asteroid impacts
    • Represents exposed deep lunar crust, rare and scientifically valuable

    Key Physical Features

    • Width of nearly 100 km
    • Elevation of about 6,000 metres above surrounding terrain
    • Rugged topography with craters and boulder fields
    • Unique illumination conditions
      • Some regions receive near continuous sunlight
      • Others remain in permanent shadow
    • Can be observed during favourable libration even with amateur telescopes
    [2009] India has recently landed its Moon Impact Probe on the Moon. Among the following countries, which one landed such probe on the Moon earlier? (a) Australia 

    (b) Canada 

    (c) China 

    (d) Japan

  • Sodium Ion Batteries and India’s Battery Strategy  

    Why in the News?

    A recent policy focused analysis highlighted sodium ion battery technology as a strategic alternative for India to reduce dependence on lithium ion batteries, strengthen energy security and address critical mineral supply risks.

    Background

    • Batteries are central to EVs, renewable energy storage and digital devices
    • Lithium ion batteries currently dominate due to high energy density and long cycle life
    • India faces high import dependence for lithium, cobalt and nickel

    India’s Current Battery Push

    • Advanced Chemistry Cell manufacturing supported under PLI scheme
    • About 40 GWh capacity allocated, but limited domestic upstream ecosystem
    • Heavy reliance on imported raw materials and components

    What are Sodium Ion Batteries

    • Batteries that use sodium instead of lithium as the charge carrier
    • Sodium is abundant and widely available
    • Compatible with existing lithium ion manufacturing lines with minor changes

    Performance Comparison

    • Lower energy density than lithium ion batteries
    • Suitable for grid storage, two wheelers and stationary applications

    Global Status

    • Around 70 GWh sodium ion capacity operational globally in 2025
    • Expected to reach nearly 400 GWh by 2030
    [2025] In the context of electric vehicle batteries, consider the following elements: I. Cobalt 

    II. Graphite 

    III. Lithium 

    IV. Nickel 

    How many of the above usually make up battery cathodes? 

    (a) Only one (b) Only two (c) Only three (d) All the four

  • Solid Fuel Ducted Ramjet (SFDR) Technology Test 2026

    Why in the News?

    Defence Research & Development Organisation successfully demonstrated Solid Fuel Ducted Ramjet (SFDR) technology on February 03, 2026 from Integrated Test Range, marking India’s entry into an elite group of nations with this advanced missile propulsion capability.

    About Solid Fuel Ducted Ramjet (SFDR)

    • An advanced air breathing propulsion system for long range air to air missiles
    • Uses solid fuel with controlled airflow for sustained thrust
    • Allows missiles to maintain high speed during terminal phase
    • Significantly increases range and no escape zone

    Key Highlights of the Test

    • All subsystems including nozzle less booster, SFDR motor and fuel flow controller performed as expected
    • Missile was boosted to the required Mach number before ramjet ignition
    • Performance validated through tracking instruments along the coast of the Bay of Bengal
    • Successful data capture confirmed stable combustion and thrust control

    Strategic Significance

    • Enables development of next generation long range air to air missiles
    • Provides major tactical advantage against hostile aircraft
    • Strengthens indigenous defence research and manufacturing
    • Reduces dependence on imported propulsion technologies
    [2023] Consider the following statements: 1. Ballistic missiles are jet-propelled at subsonic speeds throughout their flights, while cruise missiles are rocket-powered only in the initial phase of flight

    2. Agni-V is a medium-range supersonic cruise missile, while BrahMos is a solid-fuelled intercontinental ballistic missile

    Which of the statements given above is/are correct? 

    (a) 1 only (b) 2 only (c) Both 1 and 2 (d) Neither 1 nor 2

  • Stealth Coronal Mass Ejection and Geomagnetic Storm

    Why in the News?

    Astronomers have identified a Stealth Coronal Mass Ejection (CME) as the cause of an intense geomagnetic storm in March 2023, revealing major challenges in space weather forecasting.

    What is a Stealth CME?

    • A weak and faint Coronal Mass Ejection with little or no visible solar signatures
    • Lacks common warning signs like X ray flares or radio bursts
    • Often escapes detection by conventional solar observation tools
    • Responsible for nearly 10 percent of intense geomagnetic storms

    What is a Geomagnetic Storm?

    • A temporary disturbance of Earth’s magnetosphere
    • Triggered by solar wind shocks or CMEs interacting with Earth’s magnetic field
    • Strongest effects when the interplanetary magnetic field is southward

    Key Scientific Findings

    • The stealth CME erupted on 19 March 2023
    • It travelled through a coronal hole, a region of open magnetic field releasing high speed solar wind
    • This enabled the weak CME to reach Earth and trigger a strong storm after about three days
    • CMEs near coronal holes get accelerated, increasing their Earth impact potential
    [2022] If a major solar storm (solar flare) reaches the Earth, which of the following are the possible effects on the Earth? 1. GPS and navigation systems could fail. 

    2. Tsunamis could occur at equatorial regions. 

    3. Power grids could be damaged. 

    4. Intense auroras could occur over much of the Earth. 

    5. Forest fires could take place over much of the planet. 6. Orbits of the satellites could be disturbed. 

    7. Shortwave radio communication of the aircraft flying over polar regions could be interrupted. 

    Select the correct answer using the code given below: 

    (a) 1, 2, 4 and 5 only (b) 2, 3, 5, 6 and 7 only (c) 1, 3, 4, 6 and 7 only (d) 1, 2, 3, 4, 5, 6 and 7

  • Rare Blood Red Aurora over Ladakh 

    Why in the News?

    A rare blood red aurora was observed over Hanle in Ladakh on 19–20 January 2026 following a powerful geomagnetic storm triggered by a fast coronal mass ejection from the Sun.

    Key Facts about the Event

    • Observed at the Indian Astronomical Observatory, Hanle
    • Captured by an all sky camera operated by the Indian Institute of Astrophysics
    • Sixth such intense red aurora recorded at Hanle during the current solar cycle
    • Rare because auroras usually occur near polar regions, not mid latitudes like Ladakh

    Cause of the Red Aurora

    • Triggered by a Coronal Mass Ejection (CME) launched on 18 January
    • CME associated with an X1.9 class solar flare
    • Originated from Active Region 14341 near the centre of the Sun
    • CME interacted with Earth’s magnetosphere
    • Resulted in a G4 level geomagnetic storm on the NOAA scale classified as severe

    Why the Aurora Appeared Red

    • Caused by excitation of oxygen atoms in the upper atmosphere
    • Occurs at high altitudes around 200 to 400 km
    • Red auroras are rarer than green ones and indicate strong space weather

    [2012] Electrically charged particles from space travelling at speeds of several hundred km/sec can severely harm living beings if they reach the surface of the Earth. What prevents them from reaching the surface of the Earth? 

    (a) The Earth’s magnetic field diverts them towards its poles 

    (b) Ozone layer around the Earth reflects them back to outer space 

    (c) Moisture in the upper layers of atmosphere prevents them from reaching the surface of the Earth 

    (d) None of the statements (a), (b) and (c) given above is correct