HP’s operational water footprint comes from our buildings, landscaping, and production of high-purity water for manufacturing purposes.

In 2025, our operational water withdrawal1,2 was 2.03 million cubic meters of water, a 10% decrease from 2024. This included 290,000 cubic meters withdrawn in areas identified as high or extremely high risk for water stress,3 a 9% decrease over last year. Water withdrawal intensity per million U.S. dollars of net revenue decreased by 13% compared to 2024.

We continue to focus on HP’s withdrawal of potable water, which makes up 85% of our overall operational water withdrawal. In 2025, our global operations achieved a 46% reduction in potable water withdrawal compared with 2015 levels. For the fourth consecutive year, we surpassed our goal of 35% reduction in potable water withdrawal by 2025,4 focusing on high-risk sites.

We recycled and reused 301,000 cubic meters of water5 globally in 2025, for use in landscaping, indoor plumbing, and as process water—equivalent to 15% of our total water withdrawal. We also captured and used 2,000 cubic meters of rainwater to use in cooling towers.

We use the World Resources Institute’s (WRI) Aqueduct Water Risk Atlas tool to assess risk at our sites and prioritize reductions in water-stressed locations. Using this tool, we assessed 179 HP facilities as part of our risk modeling for 2025. Seventy-five of the facilities—43% of the total that reported water withdrawal—fall within the high or extremely high categories for water stress. Water withdrawn at these facilities made up 14% of our total operational water withdrawal.

See detailed information in the Transform HP’s Value Chain section of the 2025 HP Sustainability Progress Report at: www.hp.com/go/report.

1 U.S. Geological Survey (USGS) definition of water consumption used by HP: water that has been permanently removed from the immediate water environment through processes such as evaporation, transpiration, or incorporation into products or crops.

2 Direct consumption data for HP operations is based on site meter readings, utility invoices, or estimated data using an HP-calculated intensity factor. For estimations, calculations are based on internal analysis of water consumption intensity (liters per square feet) for each region and occupancy status. HP used 2024 intensity factors for 2025 water calculations.

3 Water stress refers to the ability, or lack thereof, to meet the human and ecological demand for water. Water stress can refer to the availability, quality, or accessibility of water. HP uses the WRI Aqueduct tool to assess water stress.

4 HP's goal is to reduce potable water withdrawal in global operations by 35% by 2025, compared with 2015, focusing on high-risk sites.

5 NEWater (ultrapurified wastewater used in manufacturing operations, landscaping, and graywater plumbing in Singapore) is currently our only reused source.