{GS2 – MEITY} India Semiconductor Mission (ISM) 2.0 **
- Context (IE): The Union Budget 2026-27 officially launched India Semiconductor Mission (ISM) 2.0, building on the first phase of ISM to make India a global semiconductor hub.
- ISM 2.0 shifts India’s strategy from building physical fabrication assets to developing a comprehensive high-value ecosystem.
- Objective: To achieve 70–75% self-sufficiency in domestic chip requirements by 2029 through locally designed and manufactured chips.
- Expanded Scope: The new phase focuses on the upstream supply chain, including semiconductor equipment, specialised materials, and component manufacturing.
- IP Creation: A major pillar is the creation of “Full-Stack Indian IP” to own the intellectual property of chip designs rather than manufacturing foreign designs.
- R&D Upgrade: The Semiconductor Laboratory (SCL), Mohali, is being transformed into a future-ready R&D hub with an indigenous facility for domestic prototyping.
- Skill Development: It emphasises skilling initiatives through the Chips to Startup (C2S) programme and industry partnerships.
About India Semiconductor Mission (ISM)
- ISM was launched in 2021 as an independent business division of the Digital India Corporation, under the Ministry of Electronics & Information Technology (MeitY).
- Financial Assistance: It provides fiscal support of 50% of the project cost across all eligible semiconductor manufacturing categories.
- Design Incentives: The Design Linked Incentive (DLI) offers up to 50% reimbursement of eligible expenditure for domestic design projects.
- Key Achievement: ISM has enabled 10 major projects across six states, with a cumulative investment of around ₹1.60 lakh crore.
{GS2 – MoHFW} Indian Pharmacopoeia Commission (IPC)
- Context (PIB): The Indian Pharmacopoeia Commission (IPC) signed three Memoranda of Understanding (MoUs) to enhance medicine safety, quality and healthcare professional capacity.
- A pharmacopoeia is an official, legally binding compendium of quality standards that ensure the identity, purity, and strength of medicines within a jurisdiction.
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About Indian Pharmacopoeia Commission (IPC)
- IPC is an autonomous institution, established in 2005 (operational since 2009), under the Ministry of Health and Family Welfare. It is headquartered in Ghaziabad, Uttar Pradesh.
- Its primary function is to set standards for all drugs manufactured, sold, and consumed in India to ensure quality, safety, and efficacy.
- Legal Authority: The standards prescribed by IPC are legally binding under the Second Schedule of the Drugs and Cosmetics Act, 1940.
- Key Publications: The Indian Pharmacopoeia (IP), the official book of standards for drugs, and the National Formulary of India (NFI), a manual promoting the rational use of medicines.
- Pharmacovigilance: IPC serves as the National Coordination Centre (NCC) for the Pharmacovigilance Programme of India (PvPI) to monitor Adverse Drug Reactions (ADRs) .
- Materiovigilance: It serves as the NCC for the Materiovigilance Programme of India (MvPI) to monitor the safety of medical devices.
- Global Recognition: The commission is designated as a WHO Collaborating Centre for Pharmacovigilance within Public Health Programmes.
{GS2 – IR} India and Seychelles Adopted the Joint Vision for SESEL **
- Context (TH): India and Seychelles published a joint vision document titled “India-Seychelles Joint Vision for Sustainability, Economic Growth and Security through Enhanced Linkages” (SESEL)
- Diplomatic Milestone: The document was released during President Patrick Herminie of Seychelles’ visit to New Delhi, coinciding with the 50th anniversary of bilateral diplomatic relations.
Key Highlights of India-Seychelles Joint Vision
- Vision SESEL: The ‘SESEL‘ Joint Vision outlined a comprehensive roadmap to align Seychelles’ development with India’s Vision MAHASAGAR.
- Regional Security: India welcomed Seychelles’ decision to join the Colombo Security Conclave (CSC) as a full member to enhance maritime security coordination.
- Global Coalitions: Seychelles agreed to join the Coalition for Disaster Resilient Infrastructure (CDRI) to strengthen its climate adaptation and disaster response capabilities.
- Development Finance: India announced a new $175 million economic package, including a $50 million grant, to support social housing, e-mobility, and vocational training in Seychelles.
- Institutional Capacity: A Seychelles Hydrographic Unit (SHU) will be created with Indian assistance to improve blue economy mapping and maritime safety.
- Pharmaceutical Access: The Indian Pharmacopoeia (IP) standards were recognised for procuring affordable generic medicines in Seychelles.
- Digital Cooperation: Seychelles will adopt India’s Digital Public Infrastructure (DPI) to facilitate digital payments and governance systems.
About India-Seychelles Relations
- Strategic Location: Seychelles is a central pillar of India’s SAGAR vision, monitoring critical sea lines in the Mozambique Channel.
- Economic Transition: Bilateral trade remains modest at around $100 million, with cooperation shifting toward the Blue Economy and sustainable fisheries.
- Security Partnership: India acts as a net security provider by gifting assets like patrol vessel PS Zoroaster and Coastal Surveillance Radar Systems.
- Joint Exercise: The biennial Lamitiye exercise strengthens cooperation in counter-piracy and counter-terrorism operations.
- Infrastructure Aid: India supports development by funding key public projects, including the new Police Headquarters and the Magistrates’ Court.
- Cultural Bridge: The Indian-origin diaspora constitutes about 10% of the population and strengthens people-to-people ties.
- Key Divergence: The naval facility project on Assumption Island remains stalled due to local political and environmental opposition.
Read More > Indian Ocean Region & India’s Path to Maritime Leadership
{GS2 – IR} India-Greece Joint Declaration of Intent for Defence-Industrial Cooperation **
- Context (IE): India and Greece signed a Joint Declaration of Intent to strengthen bilateral defence-industrial cooperation.
- Strategic Roadmap: Both nations agreed to formulate a five-year roadmap to align India’s ‘Aatmanirbhar Bharat‘ initiative with Greece’s ‘Agenda 2030‘ defence reforms.
- Maritime Surveillance: Greece will deploy a Liaison Officer to the Information Fusion Centre – Indian Ocean Region (IFC-IOR) in Gurugram.
Overview of India-Greece Bilateral Relations
- Strategic Partnership: The relationship was elevated to a ‘Strategic Partnership‘ during Prime Minister Narendra Modi’s visit to Greece in 2023.
- Mediterranean Gateway: Greece serves as India’s primary gateway to Europe and the entry point for the India-Middle East-Europe Economic Corridor (IMEC).
- Trade Volume: Total bilateral trade reached $1.4 billion in FY 2024-25, with a mutual target to double it by 2030; the trade balance is heavily skewed in India’s favour.
- Export Basket: Aluminium products, electrical machinery, organic chemicals, marine products, etc.
- Import Basket: Mineral fuels (petroleum products), scrap aluminium, kiwi, olives, etc.
- Military Cooperation: In 2025, the Indian Navy and the Hellenic Navy held their maiden bilateral maritime exercise in the Mediterranean Sea.
- Air Exercise: The Indian Air Force also participates in the multinational air exercise ‘INIOCHOS‘, hosted annually by the Hellenic Air Force.
- Migration Agreement: The Migration and Mobility Partnership Agreement (MMPA) regulates the legal migration of the skilled Indian workforce to Greece.
- Sovereignty Support: Greece supports India’s stance on Kashmir and on permanent membership in the UNSC, while India supports Greece on the Cyprus issue.
- Key Divergences: Greece’s participation in China’s Belt and Road Initiative (BRI) and its NATO-aligned stance against Russia.
{GS3 – Agri} Integrated Farming Models for Small Farmers
- Context (NOA): Union Agriculture Minister urged Agri-scientists to develop integrated farming models while interacting with scientists at the Indian Institute of Horticultural Research near Bengaluru.
- Integrated Farming Models (IFMs): A farm-system approach that combines crops, livestock, fisheries, poultry & horticulture on the same holding to maximise income, resilience & resource efficiency.
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How Integrated Farming Models Can Help Small Farmers?
- Higher Farm Income: Integrated farming systems raise net farm income by 30–60% compared to monocropping through diversified outputs (ICAR field studies).
- Risk Reduction: Farmers adopting mixed crop–livestock systems experience ~20–25% lower income variability during droughts and price shocks (NITI Aayog assessments).
- Employment Generation: Integrated farms generate 250–350 person-days/ha/year, compared to 120–150 days under cereal monocropping, improving family labour use (ICAR).
- Cost Efficiency: Recycling of manure and residues cuts chemical fertiliser and feed costs by 15–25%, improving profit margins (FAO–ICAR joint studies).
- Nutritional Security: Households practising integrated farming show 15–20% higher dietary diversity, improving protein and micronutrient intake (NFHS-linked rural nutrition studies).
Challenges Faced
- Credit Constraints: Nearly 45% of smallholders face difficulty accessing formal credit for allied activities.
- Initial Investment Needs: Integrated models require 20–30% higher upfront capital than single-crop systems, deterring adoption by marginal farmers.
- Institutional Coordination: Fragmented schemes across crops, livestock and fisheries delay convergence benefits; only ~30% of districts show effective scheme convergence.
Way Forward
- Cluster Scaling: Promote agro-climatic, location-specific IFM clusters with common infrastructure and advisory; E.g., National Mission for Sustainable Agriculture – Rainfed Area Development (RAD).
- Flexible Financing: Enable states to fund customised IFM assets (sheds, ponds, fodder units, pack-houses) through flexible grants; E.g., Rashtriya Krishi Vikas Yojana.
- Nutrient Cycling: Strengthen organic nutrient loops linking livestock and crops to cut input costs and improve soil health; E.g., Paramparagat Krishi Vikas Yojana.
- Lab-to-Land: Compress technology transfer timelines by deploying scientists directly in villages for adaptive trials and demos; E.g., Viksit Krishi Sankalp Abhiyan.
{GS3 – S&T} Advancement in CAR-T Cell Therapy *
- Context (IE): Researchers at IIT Bombay have developed a safer method for detaching and recovering lab-grown T-cells, removing a key bottleneck in CAR-T Cell Therapy.
- The team used 3D electrospun scaffolds (mimicking body tissue) and the enzyme Accutase to gently extract cells, ensuring higher viability than traditional methods.
- Significance: This innovation can potentially lower costs and increase production scale for indigenous therapies such as NexCAR19.
About CAR-T Cell Therapy
- Chimeric Antigen Receptor (CAR) T-cell therapy is a form of immunotherapy that genetically modifies a patient’s own T cells to target and destroy cancer cells.
- The T cells are isolated from the patient’s blood, modified to express a specific receptor ‘CAR’ (Chimeric Antigen Receptor), and re-infused.
- The ‘CAR’ acts like a GPS, guiding T-cells to attach to specific antigens, such as CD19, present on cancer cell surfaces.
- Living Drug: These modified cells remain in the body and can continue to multiply, providing long-term immunity against cancer recurrence.
- Indigenous Development: India launched Nexcar19, its first homegrown CAR-T therapy, in 2024, developed by IIT Bombay, Tata Memorial Centre, with industry partner ImmunoACT.
- The NexCAR19 treatment costs roughly 1/10 of the cost of international treatments.
- T-cells are a type of White Blood Cell (lymphocyte) that identify and destroy infected cells, thereby coordinating the overall immune response.
- CARs are proteins that enable T cells to recognise an antigen on targeted tumour cells.
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Read More > CAR-T Cell Therapy
{GS3 – S&T} DNA-Based Data Storage **
- Context (IT): With global digital data growing exponentially, researchers at Arizona State University have demonstrated DNA-based systems for ultra-dense, durable and secure data storage.
- DNA (Deoxyribonucleic Acid): The hereditary molecule present in all living organisms, arranged in a double-helix structure, capable of storing vast amounts of information in a highly stable form.
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Challenges in Conventional Data Storage
- Physical Scaling Limits: Silicon-based chips are nearing atomic-scale limits, making further miniaturisation difficult without sharp rises in error rates and fabrication costs.
- Rising Energy Demand: Data centres already consume ~1–1.5% of global electricity, and AI-driven workloads are projected to double energy demand by the early 2030s.
- Short Storage Lifespan: Hard drives, SSDs and magnetic tapes typically last only 10–30 years, forcing repeated data migration and increasing long-term management costs.
- Security Vulnerabilities: Centralised digital storage systems are exposed to cyberattacks, ransomware and data corruption, requiring constant active protection.
DNA-Based Solution to Data Crisis
DNA as a Data Storage Platform
- Ultra-High Density: DNA can theoretically store ~215 petabytes per gram, enabling extreme miniaturisation of data archives compared to silicon media.
- Fast Readout: DNA nanostructures generate electrical signals via nanoscale sensors, decoded by machine learning without slow sequencing.
- Energy Efficiency: DNA storage needs negligible energy for long-term preservation.
DNA as a Security Platform
- Structural Encryption: DNA origami hides information within complex 2D and 3D molecular patterns, unreadable without specialised imaging and AI tools.
- Expanded Code Space: Combining sequence and structural encoding creates exponentially large encryption possibilities, strengthening data protection.
- Extreme Durability: DNA remains stable for millennia; recovery of ~2-million-year-old DNA shows resilience against time and harsh environments.
{GS3 – S&T} Foundation Stone laid for Amaravati Quantum Valley *
- Context (TH): Foundation stone laid for Amaravati Quantum Valley at Uddandarayunipalem, Andhra Pradesh, positioning Amaravati as India’s quantum-tech hub.
About Amaravati Quantum Valley
- Nature: India’s first integrated quantum valley ecosystem for research, design and IP creation.
- Vision: Replicate a HITEC City-like transformation from IT to quantum technologies.
- Industry Partners: Collaboration with IBM, Tata Consultancy Services, and Larsen & Toubro.
- Talent Pipeline: Launch of Wiser Quantum Talent Hub; CoE to train ~35 lakh students by 2035.
About National Quantum Mission (NQM)
- Launch: Approved by the GOI in 2023 for the period 2023–2031 with a Financial Outlay of ₹6,000 crore to build indigenous quantum capabilities across computing, communication, sensing and materials.
- Nodal Ministry: Ministry of Science & Technology, through the Department of Science & Technology.
Thematic Hubs under NQM
- Quantum Computing: Development of intermediate-scale quantum computers with 50–1,000 physical qubits using multiple platforms.
- Quantum Communication: Creation of a nationwide quantum-secure network using Quantum Key Distribution (QKD) for strategic and civilian use.
- Quantum Sensing & Metrology: Deployment of ultra-sensitive quantum sensors for navigation, timing, gravity measurement and defence applications.
- Quantum Materials & Devices: Research on next-generation quantum materials to support hardware, chips and cryogenic systems.
Significance of NQM
- Strategic Security: Quantum-secure communication reduces cyber vulnerability as data breaches cost India ~₹2,300 crore annually on average (CERT-In).
- Economic Opportunity: Global quantum technology market projected to exceed $90–100 billion by 2040, positioning India to capture high-value IP and jobs.
- Talent & Innovation: NQM supports India’s aim to train tens of thousands of quantum-skilled professionals, strengthening R&D depth as India already produces ~1 million STEM graduates annually.
- The UN has declared 2025 as the International Year of Quantum Science and Technology (IYQ).
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Read More > Quantum Tech and India
{Prelims – A&C} Neolithic Artefacts Found at Tekkalakote in Karnataka *
- Context (HT): Recent excavations at Tekkalakote in Karnataka’s Ballari district have uncovered significant Neolithic artefacts and human skeletal remains dating back 3,000 to 5,000 years.
- Historical Significance: The site offers a rare, multi-period record of human activity, primarily spanning the Neolithic to the Early Historic period.
- Settlement Architecture: Inhabitants lived in circular thatched huts; some featured a unique “umbrella” design supported by a single central post.
- Burial & Rituals: The community practised both extended pit burials and urn burials; the presence of ash mounds indicates ritualistic dung burning.
- Gold Usage: Tekkalakote provides some of the earliest evidence of gold craftsmanship in the Southern Neolithic, including ear ornaments and toe rings.
- Ceramic Traditions: Burnished grey ware and Black-and-Red Ware were found, often decorated with engravings of bulls, snakes, and peacocks.
{Prelims – Species} Lyriothemis keralensis Dragonfly
- Context (TOI): Scientists discovered a new dragonfly species, Lyriothemis keralensis, in Kerala’s low-lying coastal regions.
- Physical Traits: Commonly called ‘Slender Bombardier’ It has a noticeably slimmer abdomen and distinct reproductive structures compared to its closely related species.
- Sexual Dimorphism: Males have a blood-red abdomen with black markings, while females have yellow and black colouration.
- Habitat Preference: The species thrives in human-modified landscapes, particularly in pineapple and rubber plantations; it inhabits shaded irrigation canals and seasonal pools.
- Seasonality: This dragonfly remains a seasonal resident, primarily active during the monsoon months.
- Ecological Role: It functions as a natural bio-control agent by regulating populations of disease-carrying vectors like mosquitoes.
{Prelims – S&T} Global CyberPeace Summit 2026
- Context (DDN): The Global CyberPeace Summit 2026 concluded in New Delhi ahead of Safer Internet Day (February 10).
- The Summit is a global multi-stakeholder conference organised by the non-profit CyberPeace.
- It established “Trust and Safety” as a central pillar of digital governance, expanding beyond cybersecurity to include digital resilience and misinformation.
- Key Launches: The Global Quantum Threat Alliance, an AI Scholarship by the EC Council, and a Centre of Excellence (CoE) focused on Automotive Cybersecurity
- Focus Areas: It addressed the convergence of AI and cybersecurity, critical infrastructure protection, and a “Netizen Townhall” to include internet users in policy discussions.
- Significance: It shifted cybersecurity from a technical issue to a human-centric “cyber-peace” concern, emphasising the protection of vulnerable groups.
- Safer Internet Day is observed annually on the second Tuesday of February to promote safe and responsible use of digital technologies.
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{Prelims – Defence} World Defence Show 2026
- Context (DDN): The third edition of the World Defence Show (WDS 2026) is taking place in Riyadh, Saudi Arabia.
- WDS is a biennial exhibition hosted by Saudi Arabia and organised by the General Authority for Military Industries (GAMI).
- It serves as a primary global platform for showcasing advancements across the air, land, sea, space, and security domains.
- The 2026 theme, “The Future of Defence Integration“, emphasises collaboration across all five domains to address modern security issues.
- Key Highlights: The exhibition featured a naval security zone, an unmanned systems zone, and a future defence lab focused on AI, robotics, and quantum technologies.
- India’s Participation: India inaugurated its first dedicated pavilion to showcase indigenous capabilities, including tanks, missiles, and radar systems.
- Significance: It aligns with Saudi Arabia’s Vision 2030 target of localising 50% of defence spending and strengthens India-Saudi Arabia relations.
{Prelims – Defence} SCALP Long-Range Missiles *
- Context (MC): The Indian Air Force is finalising a €300 million deal with France to procure additional SCALP missiles for its Rafale fleet.
- Cruise Missile: The SCALP, also known as Storm Shadow, is a long-range, air-launched cruise missile jointly developed by France and the UK.
- Target Profile: It is designed for “fire-and-forget” deep-strike missions against stationary targets like hardened bunkers and command centres.
- Core Specifications: The missile carries a 450 kg BROACH warhead, has an operational range of 560 km, and travels at high subsonic speeds (Mach 0.8–0.95).
- BROACH: Bomb Royal Ordnance Augmented Charge is a dual-stage, tandem warhead that first penetrates reinforced concrete or soil, then detonates inside for maximum damage.
- Triple Guidance: It uses a combination of Inertial Navigation, GPS, and Terrain Reference Navigation (TRN) to ensure high resilience to jamming.
- Stealth Features: The missile employs a low-observable airframe and flies at very low altitudes (terrain-hugging) to evade enemy radar detection.
- Terminal Accuracy: In the final phase, an Imaging Infrared (IIR) seeker matches the target view with stored images to ensure pinpoint accuracy.
- Operational History: India reportedly used SCALP missiles in Operation Sindoor to destroy terrorist headquarters in Pakistan.
{Prelims – Initiatives} SATYA Portal
- Context (PIB): The Ministry of State for Electronics and Information Technology (MeitY) inaugurated the STQC Lab Automation Portal, ‘SATYA’, in New Delhi.
- STQC: The Standardisation Testing and Quality Certification Directorate is an attached office of MeitY, ensuring the quality, security, and reliability of electronic and IT products nationwide.
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- Objective: The portal is designed to modernise and digitise the quality assurance services offered by the STQC Directorate.
- Development: The platform was developed in partnership with the Centre for Development of Advanced Computing (C-DAC).
- Key Features: The portal enables a fully digital workflow for certification and testing, automates laboratory processes, and includes a dedicated Ticketing System for faster grievance resolution.
- Significance: The initiative advances citizen-centric governance, aligning with Digital India, Minimum Government – Maximum Governance, and Ease of Doing Business.
{Prelims – PIN World} Ethiopia-Eritrea Conflict
- Context (TH): Ethiopia accused Eritrea of military aggression and demanded the complete withdrawal of Eritrean troops from its sovereign territory.
About Ethiopia-Eritrea Conflict
- Border War (1998–2000): Eritrea’s 1993 independence left Ethiopia landlocked and led to a border conflict that ended with the Algiers Agreement.
- Deadlock (2002–2018): A two-decade “no-war, no-peace” diplomatic deadlock persisted until the 2018 Peace Agreement.
- Tigray War (2020–2022): Eritrean forces intervened in Ethiopia’s Tigray region and allegedly retained border positions despite the Pretoria Agreement (2022) requiring withdrawal.
- Current Issue (2024–26): Ethiopia’s demand for Red Sea access through the Port of Assab and accusations of Eritrean support for internal Ethiopian insurgencies.
About Eritrea
- Eritrea is located in the Horn of Africa, bordered by Sudan to the west, Ethiopia to the south, and Djibouti to the southeast.
- Its capital, Asmara, is designated a UNESCO World Heritage site for its well-preserved Italian colonial modernist architecture.
- Eritrea is often called the “North Korea of Africa” due to its isolationist policies, mandatory indefinite service, and limited press freedom.
- Maritime Geography: It has a strategic coastline along the Red Sea to the east and north.
- Strategic Chokepoint: It lies adjacent to the Bab el-Mandeb Strait, a critical global maritime corridor linking the Red Sea to the Gulf of Aden.
- Maritime Assets: Include the ports of Massawa and Assab, along with the Dahlak Archipelago, known for pearl diving and potential naval basing.
- India’s Relations: Eritrea is a vital partner for India’s SAGAR initiative; it is also key to India’s energy security and trade routes to the Suez Canal.

Credit: BBC
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