India launches most precise weather model

New Delhi: In a major boost to India's weather prediction capabilities, the government on Monday unveiled the Bharat Forecasting System (B Bharat Forecast System was made possible through the installation of Arka, a new supercomputer at the Indian Institute of Tropical Meteorology campus last year. Arka boasts a computational capacity of 11.77 petaflops and a storage capacity of 33 petabytes FS) — the world's highest-resolution weather model, operating on a 6-kilometre grid.
Developed by researchers, including Parthasarathy Mukhopadhyay, the model aims to deliver more granular and accurate forecasts, especially for small-scale weather patterns. "This significant milestone represents a major leap in India's self-reliance in meteorological sciences, enabling more accurate and granular weather forecasts up to panchayat level for disaster risk reduction, agriculture, water resource management and public safety," a senior official from the Earth Sciences Ministry said.
The BFS was made possible through the installation of Arka, a new supercomputer at the Indian Institute of Tropical Meteorology (IITM) campus last year. Arka boasts a computational capacity of 11.77 petaflops and a storage capacity of 33 petabytes.
'The previous supercomputer 'Pratyush' used to take up to 10 hours to run the forecasting model. Arka performs the same data-crunching within four hours,' Mukhopadhyay said. Union Earth Sciences Minister Jitendra Singh dedicated the Bharat Forecasting System (BFS) to the nation at a function in New Delhi. The BFS will leverage a network of 40 Doppler Weather Radars from across India to generate highly localised forecasts. It provides insight into weather events likely to take place in a grid of 6 km by 6 km against the earlier models that gave predictions for a 12 km grid. The number of Doppler radars is expected to rise to 100, which would allow the weather office to issue nowcasts — short-term forecasts for the next two hours — for the entire country.
The system offers high-resolution forecasts for the tropical region between 30 degrees South and 30 degrees North latitudes, which includes the Indian mainland spanning from 8.4 degrees to 37.6 degrees North. In comparison, the global forecast models run by the European, British, and US weather offices operate at resolutions ranging from 9 km to 14 km.

Try Our AI Features

Explore what Daily8 AI can do for you:

Learn with AIFact CheckingText to SpeechAI Summary

Related Articles

Indian Express

2 days ago

• Indian Express

Delhi's air quality ‘satisfactory' for 3rd day; monsoon may arrive this week

Delhi's air quality was in the satisfactory category — 75 — for the third day in a row on Friday. On Wednesday and Thursday, the Air Quality Index (AQI) was 81 and 89. 'The air quality is likely to be in the satisfactory category on June 20… and from June 21 to 23. The outlook for the subsequent six days: air quality likely to be in the satisfactory to moderate category,' read the daily bulletin from the Air Quality Early Warning System, Indian Institute of Tropical Meteorology (IITM), Friday. The India Meteorological Department (IMD) has sounded a yellow alert in Delhi up to June 23 (Monday), forecasting thunderstorms with rain. A generally cloudy sky with heavy rain is forecast for Sunday and Monday; gusty winds reaching up to 50 kmph during thunderstorms are also forecast up to Monday. As a result, the minimum temperature is expected to fall to around 25 degrees Celsius while the maximum temperature will settle at 36 degrees Celsius. Between June 24 and 26, light rain is forecast. No alert has been issued for these days. On the advancement of the Southwest monsoon, the IMD said that it has entered parts of Bihar and East Uttar Pradesh, Madhya Pradesh, some parts of West Uttar Pradesh, most parts of Uttarakhand, many parts of Himachal Pradesh, and some parts of Ladakh. In the next two days, as per IMD officials, the Southwest monsoon could arrive in Delhi. 'Conditions are favourable for further advance of Southwest monsoon over the remaining parts of North Arabian Sea, some more parts of Rajasthan, remaining parts of West Uttar Pradesh, Uttarakhand, Himachal Pradesh… during the next two days,' said the IMD.

Hans India

15-06-2025

• Hans India

GRAP's Stage 1 withdrawn from Delhi-NCR as AQI improves to 'moderate'

Delhiites breathed cleaner air after showers on early Sunday with the Air Quality Index (AQI) touching 140, prompting the Commission for Air Quality Management (CAQM) Sub-Committee on Graded Response Action Plan (GRAP) to revoke actions under Stage-I. 'Today, Delhi's Air Quality Index (AQI) of the day clocked 140 as per the daily AQI Bulletin provided by the Central Pollution Control Board (CPCB),' said Ministry of Environment, Forest and Climate Change in a statement. While comprehensively reviewing the overall air quality parameters in the region and other aspects, the Sub-Committee said, 'AQI of Delhi has shown consistent improvement due to favourable meteorological conditions and the AQI of Delhi has been recorded as 140 for June 15 (in 'Moderate' category). Further, the forecast by IMD/IITM also predicts AQI to mainly remain in 'Moderate' category in coming days.' 'Therefore, keeping in view this trend of improvement in the AQI of Delhi and also the forecasts by IMD/ IITM predicting the average air quality of Delhi to stay in 'Moderate' category in the coming days (for which forecast is available), the CAQM Sub-Committee on GRAP unanimously decided to revoke Stage-I of the extant schedule of GRAP in the entire NCR, with immediate effect,' the statement said. It was also stressed that all the agencies of the state governments/GNCTD in the NCR, need to ensure that all statutory directions, advisories and orders issued by the Commission are followed and implemented in right earnest to prevent the air quality from slipping to the 'Poor' category. The sub-committee said that all the agencies concerned are also required to take note of various actions and the targeted timelines as envisaged in the comprehensive policy issued by the Commission to curb air pollution in the NCR and take appropriate actions accordingly in the field, particularly the dust mitigation measures, the statement said. 'The Sub-Committee, shall be keeping a close watch on the air quality scenario and review the situation from time to time for further appropriate decision depending upon the air quality in Delhi and forecast made available by IMD/ IITM,' it said.

Time of India

11-06-2025

• Time of India

Experiencing an unusually hot summer? It may be an ‘ELLA' year, Pune study says

1 2 3 Pune: As northwest India battles another blistering heatwave this week, a new study from the India Meteorological Department (IMD) and the Indian Institute of Tropical Meteorology (IITM), Pune, has revealed how a change in the Pacific Ocean patterns can make summers in India feel like the inside of an oven. This dramatic change, from El Niño to La Niña, triggers what the researchers have now called 'ELLA years', essentially transition years when the heat can turn up across India, making days and nights hotter, longer, and more unbearable — especially for those without air-conditioning or working outdoors, the study found. "In such years, many more districts face unusually hot days and nights, especially from Feb to May. We found that even the winter months get warmer in the ELLA years, particularly in northern and northwestern states like Punjab, Rajasthan and Uttar Pradesh, making the heat season start earlier and last longer," said Rajib Chattopadhyay, an IITM scientist and one of the lead authors of the study. During the pre-monsoon months of March to May, the study found a marked increase in the number of hot days in northwest India — particularly in Rajasthan, western Uttar Pradesh, and parts of Haryana and Delhi. "In ELLA years, these districts saw many more extremely hot days compared to what's normally expected for that time of year. This suggests that residents in these areas face more frequent and prolonged spells of extreme heat, increasing risk of dehydration, heatstroke and power-grid stress," Chattopadhyay said. The joint IMD-IITM research revealed that heatwave severity across India tended to be far greater when an El Niño event in the Pacific Ocean was followed by a La Niña, or ELLA (El Niño to La Niña). The research found that during such years, more districts in the country tended to experience extreme summer temperatures, particularly between March and May, compared to years when the transition was not to La Niña. Chattopadhyay said the study analyzed data from 1961 to 2020. "It found that during ELLA years, both day and night temperatures tended to remain unusually high over most of India. Notably, night-time temperatures remained elevated across southern and eastern India, leading to lower day-night temperature differences, which aggravate heat stress and discomfort. We observed that during these transition years, the intensity and spread of hot extremes significantly increased, especially across the southern peninsula, east coast, and parts of central India," he said. He said that in fact, the number of hot days — when daily temperatures exceed the district's 90th percentile — was almost twice as high in ELLA years compared to the non-transition years. For example, during Feb to April, districts in states like Odisha, West Bengal, Andhra Pradesh, Telangana and parts of Maharashtra and Karnataka saw up to 10 extreme hot days per month, compared to about five in other years. El Niño events are known to trigger heatwaves in India by weakening the monsoon and causing atmospheric subsidence (downward air movement that warms the air). But this study showed that not all El Niño years have the same impact. The "asymmetry," as scientists call it, comes from whether or not the El Niño is followed by La Niña. "Interestingly, almost all ELLA years in the past (e.g., 1982–83, 1997–98, 2015–16) were associated with Eastern Pacific El Niño events — the more intense variety — which then transitioned rapidly to La Niña conditions. These patterns amplified heat buildup over the Indian region. We also found that during ELLA years, the Bay of Bengal and the South Indian Ocean are significantly warmer. This oceanic warming, combined with atmospheric changes like persistent high-pressure systems and increased moisture, created a perfect storm for heatwaves. Warmer seas pump more heat and humidity into the air, particularly over eastern and southern India, which can cause hot and sticky nights and increase health risks," Chattopadhyay added. The research highlighted the need for early warning systems that factor in global ocean trends and their regional effects. It also calls for region-specific heat action plans, especially for areas shown to be more vulnerable during ELLA years, the researchers said Their study was recently published in Atmosphere-Ocean, an international scientific journal. Pune: As northwest India battles another blistering heatwave this week, a new study from the India Meteorological Department (IMD) and the Indian Institute of Tropical Meteorology (IITM), Pune, has revealed how a change in the Pacific Ocean patterns can make summers in India feel like the inside of an oven. This dramatic change, from El Niño to La Niña, triggers what the researchers have now called 'ELLA years', essentially transition years when the heat can turn up across India, making days and nights hotter, longer, and more unbearable — especially for those without air-conditioning or working outdoors, the study found. "In such years, many more districts face unusually hot days and nights, especially from Feb to May. We found that even the winter months get warmer in the ELLA years, particularly in northern and northwestern states like Punjab, Rajasthan and Uttar Pradesh, making the heat season start earlier and last longer," said Rajib Chattopadhyay, an IITM scientist and one of the lead authors of the study. During the pre-monsoon months of March to May, the study found a marked increase in the number of hot days in northwest India — particularly in Rajasthan, western Uttar Pradesh, and parts of Haryana and Delhi. "In ELLA years, these districts saw many more extremely hot days compared to what's normally expected for that time of year. This suggests that residents in these areas face more frequent and prolonged spells of extreme heat, increasing risk of dehydration, heatstroke and power-grid stress," Chattopadhyay said. The joint IMD-IITM research revealed that heatwave severity across India tended to be far greater when an El Niño event in the Pacific Ocean was followed by a La Niña, or ELLA (El Niño to La Niña). The research found that during such years, more districts in the country tended to experience extreme summer temperatures, particularly between March and May, compared to years when the transition was not to La Niña. Chattopadhyay said the study analyzed data from 1961 to 2020. "It found that during ELLA years, both day and night temperatures tended to remain unusually high over most of India. Notably, night-time temperatures remained elevated across southern and eastern India, leading to lower day-night temperature differences, which aggravate heat stress and discomfort. We observed that during these transition years, the intensity and spread of hot extremes significantly increased, especially across the southern peninsula, east coast, and parts of central India," he said. He said that in fact, the number of hot days — when daily temperatures exceed the district's 90th percentile — was almost twice as high in ELLA years compared to the non-transition years. For example, during Feb to April, districts in states like Odisha, West Bengal, Andhra Pradesh, Telangana and parts of Maharashtra and Karnataka saw up to 10 extreme hot days per month, compared to about five in other years. El Niño events are known to trigger heatwaves in India by weakening the monsoon and causing atmospheric subsidence (downward air movement that warms the air). But this study showed that not all El Niño years have the same impact. The "asymmetry," as scientists call it, comes from whether or not the El Niño is followed by La Niña. "Interestingly, almost all ELLA years in the past (e.g., 1982–83, 1997–98, 2015–16) were associated with Eastern Pacific El Niño events — the more intense variety — which then transitioned rapidly to La Niña conditions. These patterns amplified heat buildup over the Indian region. We also found that during ELLA years, the Bay of Bengal and the South Indian Ocean are significantly warmer. This oceanic warming, combined with atmospheric changes like persistent high-pressure systems and increased moisture, created a perfect storm for heatwaves. Warmer seas pump more heat and humidity into the air, particularly over eastern and southern India, which can cause hot and sticky nights and increase health risks," Chattopadhyay added. The research highlighted the need for early warning systems that factor in global ocean trends and their regional effects. It also calls for region-specific heat action plans, especially for areas shown to be more vulnerable during ELLA years, the researchers said Their study was recently published in Atmosphere-Ocean, an international scientific journal.