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Samsung’s new foldable display is harder to crease and damageSamsung has unveiled a new flexible display technology for foldable phones that’s designed to be slimmer, more durable, and less prone to creasing. The Flex Titanium tech is the culmination of everything that the company has learned over seven generations of foldables, according to Samsung, and will debut with the upcoming Galaxy Z Fold 8 and Galaxy Z Fold 8 Ultra. And since Samsung Display is a long-time Apple supplier, this improved display might even appear in the rumored iPhone foldable expected later this year.As its name suggests, the Flex Titanium display uses a combination of two titanium-based components to improve strength, flexibility, and slimness. A titanium-alloy film provides structural support from underneath the OLED panel, providing “20 times greater mechanical stiffness” compared to polymer film, and measures about one-third the thickness of an average human hair.A titanium plate located under the film enables tighter bonding with the display module, improving stability when unfolded while “retaining the flexibility needed to accommodate repeated folding,” according to Samsung. This new display tech will also consume less power and produce “ultra-vivid” display visual resolution.“Together, these advancements enable a strong foldable display that maximizes content immersion on a seamless screen and reduces crease visibility — all while keeping it slim,” Samsung said in its announcement. “By balancing strength, flexibility and structural stability, Samsung continues to set the bar for foldable displays.”Further details about the display will be available at Samsung’s Galaxy Unpacked event on July 22nd where Samsung’s latest foldables are expected to be showcased.#Samsungs #foldable #display #harder #crease #damageFoldable Phones,Mobile,News,Samsung,Tech

Samsung’s new foldable display is harder to crease and damage

Samsung has unveiled a new flexible display technology for foldable phones that’s designed to be slimmer, more durable, and less prone to creasing. The Flex Titanium tech is the culmination of everything that the company has learned over seven generations of foldables, according to Samsung, and will debut with the upcoming Galaxy Z Fold 8 and Galaxy Z Fold 8 Ultra. And since Samsung Display is a long-time Apple supplier, this improved display might even appear in the rumored iPhone foldable expected later this year.

As its name suggests, the Flex Titanium display uses a combination of two titanium-based components to improve strength, flexibility, and slimness. A titanium-alloy film provides structural support from underneath the OLED panel, providing “20 times greater mechanical stiffness” compared to polymer film, and measures about one-third the thickness of an average human hair.

A titanium plate located under the film enables tighter bonding with the display module, improving stability when unfolded while “retaining the flexibility needed to accommodate repeated folding,” according to Samsung. This new display tech will also consume less power and produce “ultra-vivid” display visual resolution.

“Together, these advancements enable a strong foldable display that maximizes content immersion on a seamless screen and reduces crease visibility — all while keeping it slim,” Samsung said in its announcement. “By balancing strength, flexibility and structural stability, Samsung continues to set the bar for foldable displays.”

Further details about the display will be available at Samsung’s Galaxy Unpacked event on July 22nd where Samsung’s latest foldables are expected to be showcased.

#Samsungs #foldable #display #harder #crease #damageFoldable Phones,Mobile,News,Samsung,Tech

Samsung has unveiled a new flexible display technology for foldable phones that’s designed to be slimmer, more durable, and less prone to creasing. The Flex Titanium tech is the culmination of everything that the company has learned over seven generations of foldables, according to Samsung, and will debut with the upcoming Galaxy Z Fold 8 and Galaxy Z Fold 8 Ultra. And since Samsung Display is a long-time Apple supplier, this improved display might even appear in the rumored iPhone foldable expected later this year.

As its name suggests, the Flex Titanium display uses a combination of two titanium-based components to improve strength, flexibility, and slimness. A titanium-alloy film provides structural support from underneath the OLED panel, providing “20 times greater mechanical stiffness” compared to polymer film, and measures about one-third the thickness of an average human hair.

A titanium plate located under the film enables tighter bonding with the display module, improving stability when unfolded while “retaining the flexibility needed to accommodate repeated folding,” according to Samsung. This new display tech will also consume less power and produce “ultra-vivid” display visual resolution.

“Together, these advancements enable a strong foldable display that maximizes content immersion on a seamless screen and reduces crease visibility — all while keeping it slim,” Samsung said in its announcement. “By balancing strength, flexibility and structural stability, Samsung continues to set the bar for foldable displays.”

Further details about the display will be available at Samsung’s Galaxy Unpacked event on July 22nd where Samsung’s latest foldables are expected to be showcased.

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#Samsungs #foldable #display #harder #crease #damage

The Esports World Cup 2026 has just begun in Paris and is expected to see thousands of players compete over the coming weeks. The tournament will continue until August 23 at the Paris Expo Porte de Versailles. The event has seen the participation of over 2,000 professional players and over 200 esports teams from over 100 nations. With a record $75 million prize pool on the line, the event promises weeks of intense competition across some of the world’s most popular games like PUBG Mobile. Here’s everything you need to know.

Players had to compete through the biggest qualification program in Esports World Cup history. More than 1.5 million players joined the qualification process. Organizers hosted around 330 qualifying tournaments, publisher leagues, and international circuits worldwide. Only the best-performing players and teams reached the final stage in Paris.

Club Championship Returns with Massive Rewards

The Club Championship remains one of the major highlights of the Esports World Cup 2026. Points can be scored by different teams playing many games over seven weeks. The championship will not be about winning a particular title but rather about the clubs’ performance. As much as $30 million in total will be awarded across different positions, with the winner receiving $7 million. Team Falcons will aim for another successful campaign after winning previous editions.

The Esports World Cup 2026 has retained Cristiano Ronaldo and Magnus Carlsen as Global Ambassadors. Both icons represent excellence in their respective fields. The involvement of these individuals enables the link between the worlds of esports, football, and chess.

[embed]https://www.youtube.com/watch?v=ZGJhWLYQjrU[/embed]

Games Included in Esports World Cup 2026

The Esports World Cup 2026 comprises 25 tournaments across 24 esports titles. Some of the best-known games on PC, console, and mobile platforms will be represented in this list.

VALORANTCounter-Strike 2Dota 2
League of LegendsPUBG MOBILEPUBG: Battlegrounds
FortniteApex LegendsRocket League
EA SPORTS FC 26Call of Duty: Black Ops 7Call of Duty: Warzone
ChessTekken 8Street Fighter 6
Honor of KingsMobile Legends: Bang BangOverwatch 2
Rainbow Six Siege XTeamfight TacticsFree Fire
CrossfireFatal Fury: City of the WolvesTrackmania

The 2026 Esports World Cup will be widely available on TV and online platforms. Viewers from more than 160 countries can follow the tournament on television and the Internet. Coverage will be available in more than 40 languages worldwide, and over 100 broadcasting partners will air the tournament. There will be over 7,000 hours of live coverage and 5,000 official co-streamers.

#Esports #World #Cup #Opens #PariseSports">Esports World Cup 2026 Opens in Paris: Everything You Need to Know
	
The Esports World Cup 2026 has just begun in Paris and is expected to see thousands of players compete over the coming weeks. The tournament will continue until August 23 at the Paris Expo Porte de Versailles. The event has seen the participation of over 2,000 professional players and over 200 esports teams from over 100 nations. With a record  million prize pool on the line, the event promises weeks of intense competition across some of the world’s most popular games like PUBG Mobile. Here’s everything you need to know.



Players had to compete through the biggest qualification program in Esports World Cup history. More than 1.5 million players joined the qualification process. Organizers hosted around 330 qualifying tournaments, publisher leagues, and international circuits worldwide. Only the best-performing players and teams reached the final stage in Paris.



Club Championship Returns with Massive Rewards



The Club Championship remains one of the major highlights of the Esports World Cup 2026. Points can be scored by different teams playing many games over seven weeks. The championship will not be about winning a particular title but rather about the clubs’ performance. As much as  million in total will be awarded across different positions, with the winner receiving  million. Team Falcons will aim for another successful campaign after winning previous editions.



The Esports World Cup 2026 has retained Cristiano Ronaldo and Magnus Carlsen as Global Ambassadors. Both icons represent excellence in their respective fields. The involvement of these individuals enables the link between the worlds of esports, football, and chess.




[embed]https://www.youtube.com/watch?v=ZGJhWLYQjrU[/embed]




Games Included in Esports World Cup 2026



The Esports World Cup 2026 comprises 25 tournaments across 24 esports titles. Some of the best-known games on PC, console, and mobile platforms will be represented in this list.



VALORANTCounter-Strike 2Dota 2League of LegendsPUBG MOBILEPUBG: BattlegroundsFortniteApex LegendsRocket LeagueEA SPORTS FC 26Call of Duty: Black Ops 7Call of Duty: WarzoneChessTekken 8Street Fighter 6Honor of KingsMobile Legends: Bang BangOverwatch 2Rainbow Six Siege XTeamfight TacticsFree FireCrossfireFatal Fury: City of the WolvesTrackmania



The 2026 Esports World Cup will be widely available on TV and online platforms. Viewers from more than 160 countries can follow the tournament on television and the Internet. Coverage will be available in more than 40 languages worldwide, and over 100 broadcasting partners will air the tournament. There will be over 7,000 hours of live coverage and 5,000 official co-streamers.

#Esports #World #Cup #Opens #PariseSports

PUBG Mobile. Here’s everything you need to know.

Players had to compete through the biggest qualification program in Esports World Cup history. More than 1.5 million players joined the qualification process. Organizers hosted around 330 qualifying tournaments, publisher leagues, and international circuits worldwide. Only the best-performing players and teams reached the final stage in Paris.

Club Championship Returns with Massive Rewards

The Club Championship remains one of the major highlights of the Esports World Cup 2026. Points can be scored by different teams playing many games over seven weeks. The championship will not be about winning a particular title but rather about the clubs’ performance. As much as $30 million in total will be awarded across different positions, with the winner receiving $7 million. Team Falcons will aim for another successful campaign after winning previous editions.

The Esports World Cup 2026 has retained Cristiano Ronaldo and Magnus Carlsen as Global Ambassadors. Both icons represent excellence in their respective fields. The involvement of these individuals enables the link between the worlds of esports, football, and chess.

[embed]https://www.youtube.com/watch?v=ZGJhWLYQjrU[/embed]

Games Included in Esports World Cup 2026

The Esports World Cup 2026 comprises 25 tournaments across 24 esports titles. Some of the best-known games on PC, console, and mobile platforms will be represented in this list.

VALORANTCounter-Strike 2Dota 2
League of LegendsPUBG MOBILEPUBG: Battlegrounds
FortniteApex LegendsRocket League
EA SPORTS FC 26Call of Duty: Black Ops 7Call of Duty: Warzone
ChessTekken 8Street Fighter 6
Honor of KingsMobile Legends: Bang BangOverwatch 2
Rainbow Six Siege XTeamfight TacticsFree Fire
CrossfireFatal Fury: City of the WolvesTrackmania

The 2026 Esports World Cup will be widely available on TV and online platforms. Viewers from more than 160 countries can follow the tournament on television and the Internet. Coverage will be available in more than 40 languages worldwide, and over 100 broadcasting partners will air the tournament. There will be over 7,000 hours of live coverage and 5,000 official co-streamers.

#Esports #World #Cup #Opens #PariseSports">Esports World Cup 2026 Opens in Paris: Everything You Need to Know

The Esports World Cup 2026 has just begun in Paris and is expected to see thousands of players compete over the coming weeks. The tournament will continue until August 23 at the Paris Expo Porte de Versailles. The event has seen the participation of over 2,000 professional players and over 200 esports teams from over 100 nations. With a record $75 million prize pool on the line, the event promises weeks of intense competition across some of the world’s most popular games like PUBG Mobile. Here’s everything you need to know.

Players had to compete through the biggest qualification program in Esports World Cup history. More than 1.5 million players joined the qualification process. Organizers hosted around 330 qualifying tournaments, publisher leagues, and international circuits worldwide. Only the best-performing players and teams reached the final stage in Paris.

Club Championship Returns with Massive Rewards

The Club Championship remains one of the major highlights of the Esports World Cup 2026. Points can be scored by different teams playing many games over seven weeks. The championship will not be about winning a particular title but rather about the clubs’ performance. As much as $30 million in total will be awarded across different positions, with the winner receiving $7 million. Team Falcons will aim for another successful campaign after winning previous editions.

The Esports World Cup 2026 has retained Cristiano Ronaldo and Magnus Carlsen as Global Ambassadors. Both icons represent excellence in their respective fields. The involvement of these individuals enables the link between the worlds of esports, football, and chess.

[embed]https://www.youtube.com/watch?v=ZGJhWLYQjrU[/embed]

Games Included in Esports World Cup 2026

The Esports World Cup 2026 comprises 25 tournaments across 24 esports titles. Some of the best-known games on PC, console, and mobile platforms will be represented in this list.

VALORANTCounter-Strike 2Dota 2
League of LegendsPUBG MOBILEPUBG: Battlegrounds
FortniteApex LegendsRocket League
EA SPORTS FC 26Call of Duty: Black Ops 7Call of Duty: Warzone
ChessTekken 8Street Fighter 6
Honor of KingsMobile Legends: Bang BangOverwatch 2
Rainbow Six Siege XTeamfight TacticsFree Fire
CrossfireFatal Fury: City of the WolvesTrackmania

The 2026 Esports World Cup will be widely available on TV and online platforms. Viewers from more than 160 countries can follow the tournament on television and the Internet. Coverage will be available in more than 40 languages worldwide, and over 100 broadcasting partners will air the tournament. There will be over 7,000 hours of live coverage and 5,000 official co-streamers.

#Esports #World #Cup #Opens #PariseSports

Like it or not, data centers are now intrinsic to our modern lives, supporting not just the AI boom but healthcare, banking, government services, and other essential sectors. Reliable data center operation depends on effective cooling, which is already a major challenge as many methods require huge inputs of water or energy. To make matters worse, new research suggests that one of our cheapest, most efficient cooling strategies could stop working in a warmer world.

The findings, published Monday in the journal Scientific Reports, show that rising temperatures and humidity levels threaten the viability of direct air free cooling, an energy-efficient, waterless technique that pulls outside air in to cool data center servers. Over the past 45 years, weather conditions that limit direct air cooling have become significantly more common, particularly across the tropics and the southeastern United States, according to the study. As the global temperature continues to rise, this problem is only going to get worse.

“We found that periods of time when temperature and humidity exceed recommended operating thresholds for direct air free cooling are becoming more frequent and lasting longer in many regions,” lead author Christina Karamperidou, a professor of atmospheric sciences professor at the University of Hawaii at Mānoa, said in a statement. “This will reduce the availability of air free cooling for a growing number of data centers globally.”

Climate-driven cooling constraints

For direct air free cooling, the American Society of Heating, Refrigerating and Air-Conditioning Engineers recommends keeping the air entering a data center between 64 and 81 degrees Fahrenheit (18 and 27 degrees Celsius), with 10% to 70% relative humidity and a dew point below 59 degrees F (15 degrees C). Air that is hotter and more humid than this won’t cool the servers effectively and could corrode metal components.

To investigate how this cooling method will function in a warmer, wetter world, Karamperidou and her colleagues used a combination of high-resolution hourly weather observations, climate model simulations, and global records of data center locations. With this data, they evaluated how often environmental conditions exceeded recommended operating limits for direct air free cooling over the past 45 years and in future climate scenarios.

The researchers found that the prevalence of weather conditions that limit direct air free cooling has increased significantly in recent decades. Even regions that have only seen modest long-term increases in heat and humidity are experiencing longer daily exceedance events, and the share of data centers exposed to conditions that limit direct air free cooling availability for at least one quarter of the year is rising.

Interestingly, the findings suggest that the hottest, most humid days are intensifying faster than average days, indicating that environmental stress on direct air free cooling systems is become more and more concentrated in rare, highly consequential events.

“From an operational perspective, those worst-day conditions often drive contingency planning, system overrides, redundancy requirements, and reliability decisions,” Karamperidou said. “This suggests that infrastructure planning may need to account not only for average environmental conditions but also for how the most stressful days are changing over time.”

By 2050, the number of hours that exceed temperature and humidity limits for direct air free cooling is protected to increase under high greenhouse gas emissions scenarios, according to the researchers. In most regions globally, the average number of hours per day during which this cooling strategy is constrained increases by more than two hours per day, the findings show.

A troubling feedback loop

While this study focuses on how weather can influence data centers, it’s important to remember that data centers can influence local weather too. These facilities dissipate a lot of heat, and research has shown that they can actually create heat islands within a 6-mile radius of themselves.

Karamperidou and her colleagues did not account for this effect, so the direct air free cooling constraints they identified may be conservative, they write in their report. Still, they emphasize that their findings do not mean that this cooling strategy is necessarily infeasible in warm, humid regions. Rather, the study shows that the window of feasibility for direct air free cooling is narrowing due to climate change.

“Alternative strategies—including indirect evaporative cooling, liquid cooling, and hybrid architectures—can partially offset these constraints, albeit with distinct trade-offs in water use, system complexity, and operational design,” the researchers write.

Indeed, as one of the simplest, cheapest, and most efficient cooling strategies becomes increasingly unreliable, data center operators may be forced to turn to more energy- and water-intensive methods. This, in turn, could put added strain on electric grids and water resources that are themselves strained by climate change. Adapting data centers to a warming world without exacerbating the impacts of rising global temperatures will require innovative solutions.

#Cheapest #Cool #Data #Centers #Wont #Work #Warmer #WorldAI,data centers,extreme heat,Global warming">The Cheapest Way to Cool Data Centers Won’t Work in a Warmer World 
                Like it or not, data centers are now intrinsic to our modern lives, supporting not just the AI boom but healthcare, banking, government services, and other essential sectors. Reliable data center operation depends on effective cooling, which is already a major challenge as many methods require huge inputs of water or energy. To make matters worse, new research suggests that one of our cheapest, most efficient cooling strategies could stop working in a warmer world. The findings, published Monday in the journal Scientific Reports, show that rising temperatures and humidity levels threaten the viability of direct air free cooling, an energy-efficient, waterless technique that pulls outside air in to cool data center servers. Over the past 45 years, weather conditions that limit direct air cooling have become significantly more common, particularly across the tropics and the southeastern United States, according to the study. As the global temperature continues to rise, this problem is only going to get worse. “We found that periods of time when temperature and humidity exceed recommended operating thresholds for direct air free cooling are becoming more frequent and lasting longer in many regions,” lead author Christina Karamperidou, a professor of atmospheric sciences professor at the University of Hawaii at Mānoa, said in a statement. “This will reduce the availability of air free cooling for a growing number of data centers globally.”

 Climate-driven cooling constraints For direct air free cooling, the American Society of Heating, Refrigerating and Air-Conditioning Engineers recommends keeping the air entering a data center between 64 and 81 degrees Fahrenheit (18 and 27 degrees Celsius), with 10% to 70% relative humidity and a dew point below 59 degrees F (15 degrees C). Air that is hotter and more humid than this won’t cool the servers effectively and could corrode metal components.

 To investigate how this cooling method will function in a warmer, wetter world, Karamperidou and her colleagues used a combination of high-resolution hourly weather observations, climate model simulations, and global records of data center locations. With this data, they evaluated how often environmental conditions exceeded recommended operating limits for direct air free cooling over the past 45 years and in future climate scenarios. The researchers found that the prevalence of weather conditions that limit direct air free cooling has increased significantly in recent decades. Even regions that have only seen modest long-term increases in heat and humidity are experiencing longer daily exceedance events, and the share of data centers exposed to conditions that limit direct air free cooling availability for at least one quarter of the year is rising.

 Interestingly, the findings suggest that the hottest, most humid days are intensifying faster than average days, indicating that environmental stress on direct air free cooling systems is become more and more concentrated in rare, highly consequential events. “From an operational perspective, those worst-day conditions often drive contingency planning, system overrides, redundancy requirements, and reliability decisions,” Karamperidou said. “This suggests that infrastructure planning may need to account not only for average environmental conditions but also for how the most stressful days are changing over time.” By 2050, the number of hours that exceed temperature and humidity limits for direct air free cooling is protected to increase under high greenhouse gas emissions scenarios, according to the researchers. In most regions globally, the average number of hours per day during which this cooling strategy is constrained increases by more than two hours per day, the findings show.

 A troubling feedback loop While this study focuses on how weather can influence data centers, it’s important to remember that data centers can influence local weather too. These facilities dissipate a lot of heat, and research has shown that they can actually create heat islands within a 6-mile radius of themselves. Karamperidou and her colleagues did not account for this effect, so the direct air free cooling constraints they identified may be conservative, they write in their report. Still, they emphasize that their findings do not mean that this cooling strategy is necessarily infeasible in warm, humid regions. Rather, the study shows that the window of feasibility for direct air free cooling is narrowing due to climate change.

 “Alternative strategies—including indirect evaporative cooling, liquid cooling, and hybrid architectures—can partially offset these constraints, albeit with distinct trade-offs in water use, system complexity, and operational design,” the researchers write. Indeed, as one of the simplest, cheapest, and most efficient cooling strategies becomes increasingly unreliable, data center operators may be forced to turn to more energy- and water-intensive methods. This, in turn, could put added strain on electric grids and water resources that are themselves strained by climate change. Adapting data centers to a warming world without exacerbating the impacts of rising global temperatures will require innovative solutions.      #Cheapest #Cool #Data #Centers #Wont #Work #Warmer #WorldAI,data centers,extreme heat,Global warming

AI boom but healthcare, banking, government services, and other essential sectors. Reliable data center operation depends on effective cooling, which is already a major challenge as many methods require huge inputs of water or energy. To make matters worse, new research suggests that one of our cheapest, most efficient cooling strategies could stop working in a warmer world.

The findings, published Monday in the journal Scientific Reports, show that rising temperatures and humidity levels threaten the viability of direct air free cooling, an energy-efficient, waterless technique that pulls outside air in to cool data center servers. Over the past 45 years, weather conditions that limit direct air cooling have become significantly more common, particularly across the tropics and the southeastern United States, according to the study. As the global temperature continues to rise, this problem is only going to get worse.

“We found that periods of time when temperature and humidity exceed recommended operating thresholds for direct air free cooling are becoming more frequent and lasting longer in many regions,” lead author Christina Karamperidou, a professor of atmospheric sciences professor at the University of Hawaii at Mānoa, said in a statement. “This will reduce the availability of air free cooling for a growing number of data centers globally.”

Climate-driven cooling constraints

For direct air free cooling, the American Society of Heating, Refrigerating and Air-Conditioning Engineers recommends keeping the air entering a data center between 64 and 81 degrees Fahrenheit (18 and 27 degrees Celsius), with 10% to 70% relative humidity and a dew point below 59 degrees F (15 degrees C). Air that is hotter and more humid than this won’t cool the servers effectively and could corrode metal components.

To investigate how this cooling method will function in a warmer, wetter world, Karamperidou and her colleagues used a combination of high-resolution hourly weather observations, climate model simulations, and global records of data center locations. With this data, they evaluated how often environmental conditions exceeded recommended operating limits for direct air free cooling over the past 45 years and in future climate scenarios.

The researchers found that the prevalence of weather conditions that limit direct air free cooling has increased significantly in recent decades. Even regions that have only seen modest long-term increases in heat and humidity are experiencing longer daily exceedance events, and the share of data centers exposed to conditions that limit direct air free cooling availability for at least one quarter of the year is rising.

Interestingly, the findings suggest that the hottest, most humid days are intensifying faster than average days, indicating that environmental stress on direct air free cooling systems is become more and more concentrated in rare, highly consequential events.

“From an operational perspective, those worst-day conditions often drive contingency planning, system overrides, redundancy requirements, and reliability decisions,” Karamperidou said. “This suggests that infrastructure planning may need to account not only for average environmental conditions but also for how the most stressful days are changing over time.”

By 2050, the number of hours that exceed temperature and humidity limits for direct air free cooling is protected to increase under high greenhouse gas emissions scenarios, according to the researchers. In most regions globally, the average number of hours per day during which this cooling strategy is constrained increases by more than two hours per day, the findings show.

A troubling feedback loop

While this study focuses on how weather can influence data centers, it’s important to remember that data centers can influence local weather too. These facilities dissipate a lot of heat, and research has shown that they can actually create heat islands within a 6-mile radius of themselves.

Karamperidou and her colleagues did not account for this effect, so the direct air free cooling constraints they identified may be conservative, they write in their report. Still, they emphasize that their findings do not mean that this cooling strategy is necessarily infeasible in warm, humid regions. Rather, the study shows that the window of feasibility for direct air free cooling is narrowing due to climate change.

“Alternative strategies—including indirect evaporative cooling, liquid cooling, and hybrid architectures—can partially offset these constraints, albeit with distinct trade-offs in water use, system complexity, and operational design,” the researchers write.

Indeed, as one of the simplest, cheapest, and most efficient cooling strategies becomes increasingly unreliable, data center operators may be forced to turn to more energy- and water-intensive methods. This, in turn, could put added strain on electric grids and water resources that are themselves strained by climate change. Adapting data centers to a warming world without exacerbating the impacts of rising global temperatures will require innovative solutions.

#Cheapest #Cool #Data #Centers #Wont #Work #Warmer #WorldAI,data centers,extreme heat,Global warming">The Cheapest Way to Cool Data Centers Won’t Work in a Warmer World The Cheapest Way to Cool Data Centers Won’t Work in a Warmer World 
                Like it or not, data centers are now intrinsic to our modern lives, supporting not just the AI boom but healthcare, banking, government services, and other essential sectors. Reliable data center operation depends on effective cooling, which is already a major challenge as many methods require huge inputs of water or energy. To make matters worse, new research suggests that one of our cheapest, most efficient cooling strategies could stop working in a warmer world. The findings, published Monday in the journal Scientific Reports, show that rising temperatures and humidity levels threaten the viability of direct air free cooling, an energy-efficient, waterless technique that pulls outside air in to cool data center servers. Over the past 45 years, weather conditions that limit direct air cooling have become significantly more common, particularly across the tropics and the southeastern United States, according to the study. As the global temperature continues to rise, this problem is only going to get worse. “We found that periods of time when temperature and humidity exceed recommended operating thresholds for direct air free cooling are becoming more frequent and lasting longer in many regions,” lead author Christina Karamperidou, a professor of atmospheric sciences professor at the University of Hawaii at Mānoa, said in a statement. “This will reduce the availability of air free cooling for a growing number of data centers globally.”

 Climate-driven cooling constraints For direct air free cooling, the American Society of Heating, Refrigerating and Air-Conditioning Engineers recommends keeping the air entering a data center between 64 and 81 degrees Fahrenheit (18 and 27 degrees Celsius), with 10% to 70% relative humidity and a dew point below 59 degrees F (15 degrees C). Air that is hotter and more humid than this won’t cool the servers effectively and could corrode metal components.

 To investigate how this cooling method will function in a warmer, wetter world, Karamperidou and her colleagues used a combination of high-resolution hourly weather observations, climate model simulations, and global records of data center locations. With this data, they evaluated how often environmental conditions exceeded recommended operating limits for direct air free cooling over the past 45 years and in future climate scenarios. The researchers found that the prevalence of weather conditions that limit direct air free cooling has increased significantly in recent decades. Even regions that have only seen modest long-term increases in heat and humidity are experiencing longer daily exceedance events, and the share of data centers exposed to conditions that limit direct air free cooling availability for at least one quarter of the year is rising.

 Interestingly, the findings suggest that the hottest, most humid days are intensifying faster than average days, indicating that environmental stress on direct air free cooling systems is become more and more concentrated in rare, highly consequential events. “From an operational perspective, those worst-day conditions often drive contingency planning, system overrides, redundancy requirements, and reliability decisions,” Karamperidou said. “This suggests that infrastructure planning may need to account not only for average environmental conditions but also for how the most stressful days are changing over time.” By 2050, the number of hours that exceed temperature and humidity limits for direct air free cooling is protected to increase under high greenhouse gas emissions scenarios, according to the researchers. In most regions globally, the average number of hours per day during which this cooling strategy is constrained increases by more than two hours per day, the findings show.

 A troubling feedback loop While this study focuses on how weather can influence data centers, it’s important to remember that data centers can influence local weather too. These facilities dissipate a lot of heat, and research has shown that they can actually create heat islands within a 6-mile radius of themselves. Karamperidou and her colleagues did not account for this effect, so the direct air free cooling constraints they identified may be conservative, they write in their report. Still, they emphasize that their findings do not mean that this cooling strategy is necessarily infeasible in warm, humid regions. Rather, the study shows that the window of feasibility for direct air free cooling is narrowing due to climate change.

 “Alternative strategies—including indirect evaporative cooling, liquid cooling, and hybrid architectures—can partially offset these constraints, albeit with distinct trade-offs in water use, system complexity, and operational design,” the researchers write. Indeed, as one of the simplest, cheapest, and most efficient cooling strategies becomes increasingly unreliable, data center operators may be forced to turn to more energy- and water-intensive methods. This, in turn, could put added strain on electric grids and water resources that are themselves strained by climate change. Adapting data centers to a warming world without exacerbating the impacts of rising global temperatures will require innovative solutions.      #Cheapest #Cool #Data #Centers #Wont #Work #Warmer #WorldAI,data centers,extreme heat,Global warming

Like it or not, data centers are now intrinsic to our modern lives, supporting not just the AI boom but healthcare, banking, government services, and other essential sectors. Reliable data center operation depends on effective cooling, which is already a major challenge as many methods require huge inputs of water or energy. To make matters worse, new research suggests that one of our cheapest, most efficient cooling strategies could stop working in a warmer world.

The findings, published Monday in the journal Scientific Reports, show that rising temperatures and humidity levels threaten the viability of direct air free cooling, an energy-efficient, waterless technique that pulls outside air in to cool data center servers. Over the past 45 years, weather conditions that limit direct air cooling have become significantly more common, particularly across the tropics and the southeastern United States, according to the study. As the global temperature continues to rise, this problem is only going to get worse.

“We found that periods of time when temperature and humidity exceed recommended operating thresholds for direct air free cooling are becoming more frequent and lasting longer in many regions,” lead author Christina Karamperidou, a professor of atmospheric sciences professor at the University of Hawaii at Mānoa, said in a statement. “This will reduce the availability of air free cooling for a growing number of data centers globally.”

Climate-driven cooling constraints

For direct air free cooling, the American Society of Heating, Refrigerating and Air-Conditioning Engineers recommends keeping the air entering a data center between 64 and 81 degrees Fahrenheit (18 and 27 degrees Celsius), with 10% to 70% relative humidity and a dew point below 59 degrees F (15 degrees C). Air that is hotter and more humid than this won’t cool the servers effectively and could corrode metal components.

To investigate how this cooling method will function in a warmer, wetter world, Karamperidou and her colleagues used a combination of high-resolution hourly weather observations, climate model simulations, and global records of data center locations. With this data, they evaluated how often environmental conditions exceeded recommended operating limits for direct air free cooling over the past 45 years and in future climate scenarios.

The researchers found that the prevalence of weather conditions that limit direct air free cooling has increased significantly in recent decades. Even regions that have only seen modest long-term increases in heat and humidity are experiencing longer daily exceedance events, and the share of data centers exposed to conditions that limit direct air free cooling availability for at least one quarter of the year is rising.

Interestingly, the findings suggest that the hottest, most humid days are intensifying faster than average days, indicating that environmental stress on direct air free cooling systems is become more and more concentrated in rare, highly consequential events.

“From an operational perspective, those worst-day conditions often drive contingency planning, system overrides, redundancy requirements, and reliability decisions,” Karamperidou said. “This suggests that infrastructure planning may need to account not only for average environmental conditions but also for how the most stressful days are changing over time.”

By 2050, the number of hours that exceed temperature and humidity limits for direct air free cooling is protected to increase under high greenhouse gas emissions scenarios, according to the researchers. In most regions globally, the average number of hours per day during which this cooling strategy is constrained increases by more than two hours per day, the findings show.

A troubling feedback loop

While this study focuses on how weather can influence data centers, it’s important to remember that data centers can influence local weather too. These facilities dissipate a lot of heat, and research has shown that they can actually create heat islands within a 6-mile radius of themselves.

Karamperidou and her colleagues did not account for this effect, so the direct air free cooling constraints they identified may be conservative, they write in their report. Still, they emphasize that their findings do not mean that this cooling strategy is necessarily infeasible in warm, humid regions. Rather, the study shows that the window of feasibility for direct air free cooling is narrowing due to climate change.

“Alternative strategies—including indirect evaporative cooling, liquid cooling, and hybrid architectures—can partially offset these constraints, albeit with distinct trade-offs in water use, system complexity, and operational design,” the researchers write.

Indeed, as one of the simplest, cheapest, and most efficient cooling strategies becomes increasingly unreliable, data center operators may be forced to turn to more energy- and water-intensive methods. This, in turn, could put added strain on electric grids and water resources that are themselves strained by climate change. Adapting data centers to a warming world without exacerbating the impacts of rising global temperatures will require innovative solutions.

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