Nirmala Citalaman did not mention “space” in her speech, but budgets greatly boosted sector and the total distribution increased 14.4 % (estimated revised from 2024 to 25 years. On price). The “capital” part has a 30 % increase. In addition to the budget, the tariff is abolished to “spare” to “applicable” and “applicable”, “applicable”, and the ground -installed satellite, and the launch of satellites from 5 to 5. We also propose to do. “NIL” from percent.
The total assignment to the space sector rose to 13,416 crawls from 2025 to 26 in 2025-26. Among them, the assignment to “capital spending” increased from 4,728 crawl to 6,103 crawls, increasing by 29 %.
Most of this assignment is under the “space technology” of the head -£ 5,388 to £ 5,388. “Space Technology” includes the activities of ISRO, a twelve categories of the Indian Space Organization, such as the Vikram Sarabai Space Center, the Liquid Promotion System Center, the Urlura Satellite Center, and the Satish Darwan Space Center.
However, in terms of increasing the percentage of allocation, the rapid rise was “space science”. This includes ISRO missions such as Chandolayan III, as well as small satellites for atmosphere research, climate and atmosphere. Capital allocation to “space science” has increased from 45 crawl to 244 crawls.
R & D and 20,000 crawl coops for innovation
Usually, a scheme with tens of thousands of crawls in the order of the budget speech is announced in a budget speech, but financial distribution is expanding for several years. However, in this budget, the Minister of Finance created an exception for R & D and innovation and allocated all £ 20,000 crawls announced on the budget at once.
As a result, capital distribution to the Ministry of Science and Technology has increased from only 73 crawls of the revised values from 2024 to 25 years to 20,095 crawls.
The budget document states that the £ 20,000 crawl states that “a long -term fund to promote research, development and innovation led by the private sector”.
DEEP SEA MISSION wins 600 crawls
The deep-sea mission under the Ministry of Science, Science and Technology has not increased the 2025-26 financial distribution over the previous year, but this is the same as 600 crawls, but the mission has received more capital spending and the profit. I am reducing it. The total.
The revised estimated value of 2024-25 indicates a 500-crawl revenue spending and £ 100 crawl spending, which is 300 crone under each head from 2025 to 2016. It is not clear why this was done.
The mission aimed at exploring deep -sea resources consists of six major themes, (i) deep -sea excavation, manned submarine, and underwater robot engineering technologies. (II) Development of marine climate change advisory service. (III) Technical innovation for exploration and preservation of deep -sea biodiversity. (IV) Deep -sea survey and exploration. (V) Advanced marine station for energy, freshwater and (VI) marine biology. The mission includes the development of technologies such as deep -sea floor mapping, 6000m water depth random, and deep -sea mining system.
High -performance computing
The Ministry of Earth received 759 crawls for “high-performance computing” from 2024 to 25 years, but allocated under the head of 2025-26 was probably enough last year, so only 5 crawls. It has been reduced.
In the budget document, this scheme is to set up PetaFlops HPC facilities for the Ministry of Research in order to support weather and climate forecasts, basic research, and numerical modeling for data assing. I am paying attention to. It also provides computing resources for academics and R & D communities. In addition, this initiative has developed a robust calculation and visualization environment for supporting the AI/ML application of the global science domain, promoting research in weather/climate applications, promoting research in weather/climate applications. Promote ML integration.
The document pays attention to the fact that the HPC system, which has been deployed in various agencies in the ministry during the previous planning period, is important in improving the accuracy of weather forecasts and promoting research and development in the past decade. “These HPC systems promote seamless data assimilation and accurate forecasting accurate forecasts from global and regional numerical prediction (NWP) models, and have a significant prediction of weather, climate and ocean state. It will lead to improvement. ”
