Mehrangarh Fort, Jodhpur, Rajasthan India. Photo by Sanhitasinha. License Creative Commons Attribution-Share Alike 4.0 International
India's palaces and former colonial warehouses are witnessing a new kind of restoration, one that happens beneath the surface. From discreet steel supports tucked behind centuries-old masonry to digital sensors embedded in frescoed ceilings, technology is quietly reshaping how heritage buildings are protected for the future. These upgrades are more about subtle precision and less about spectacle; invisible engineering wonders.
As the world moves towards adaptive reuse, architects and engineers are confronted with an evolving challenge to make historic structures safe for public access while maintaining the authenticity of the architecture. Whether it's upgrading palaces to cool efficiently or seismic reinforcement of Victorian godowns, the goal is beyond preservation. It's about the intelligent coexistence of the old and the new.
There's a quiet rebellion happening in the bathroom. Forget glossy marble and showy gold fittings; the new mood in design is one of calm confidence. Luxury today is understated, sensory and precise. It celebrates craftsmanship over extravagance and authenticity over spectacle. The bathroom, once the most functional room in the house, has become a space where materiality, touch and light are orchestrated to create a sense of calm.
Balcony House / Ryo Matsui Architects. Image Courtesy of Ryo Matsui Architects Inc
We walk on "flat" ground every day and rarely think twice—but how flat is it, really? In the city, curbs are chamfered, sidewalks pitch toward grates, and roadways are crowned to shed water into shallow gutters. In suburbs and on unpaved paths, irregular terrain is the norm. Inside buildings, by contrast, we pursue near-perfect horizontality—structural frames, slabs, and finishes are all disciplined to create level walking surfaces in the name of safety and accessibility. Yet flatness is inherently at odds with water. A closer look reveals a quiet repertoire of accommodations: slight falls at entries, thresholds raised a few millimeters, wet areas with barely perceptible pitches. The floor is read as flat, but it is in fact carefully tuned—micro-topographies masquerading as plane—to manage water without calling attention to themselves.
What are the common ways architects "keep things flat" while actually managing water—the perennial enemy of buildings? A useful way to look at it is by zooming into three recurring conditions: exterior or roof decking, bathrooms and other wet rooms, and exterior ground planes. Each relies on a slightly different toolkit—pedestal systems over sloped waterproofing, micro-gradients to floor traps, hidden perimeter drains, split slopes—to maintain the illusion of a seamless, level surface. Studying these situations side by side reveals just how much design effort goes into reconciling perceptual flatness with the messy reality.
Snaptrude announced the launch of the Snaptrude Student Plan, a free offering that gives architecture students worldwide full access to Snaptrude's professional platform and intelligent AI workflows. The initiative reflects Snaptrude's commitment to strengthening architectural education and ensuring that emerging designers can build real-world skills while still in school. Full access to the professional platform and AI tools empowers students to design faster and build portfolio-ready work.
In total, the three-day festival will see over 460 live pitches from the 2025 finalists in front of over 160 international judges. Today has seen shortlisted projects from around the world compete for 22 award categories within Completed Buildings, Future Projects, and Interiors. Award winners include WOW Architects, BIG-Bjarke Ingels Group, Batlleiroig, and Perkins&Will.
https://www.archdaily.com/1035985/world-architecture-festival-2025-day-one-winners-announcedEnrique Tovar
For over 125 years, Tarkett has been manufacturing linoleum flooring based on its original 1898 formulation. Trusted by architects worldwide, this natural floor covering is a benchmark in sustainability, durability, and timeless design. Today, Tarkett Linoleum is not only known for its heritage but also for its innovative application in modern architecture — particularly in the education sector. Learn more about the impact of Lino Materiale by Tarkett on today's spaces.
Amid the orderly grid of the Giardini della Biennale, the Swiss Pavilion appears almost reticent. Its low white volumes, completed in 1952 by Bruno Giacometti, seem to withdraw from the surrounding display of national pride. The building embodies a form of modernism that resists monumentality, where precision and restraint replace spectacle, and architecture becomes less an object than a framework for encounter.
Emerging from a Europe rebuilding itself, the pavilion reflects a time when nations were reimagining how to appear in the world. For Switzerland, neutrality had long been both a political stance and a cultural condition, and Giacometti translated this identity into a sequence of measured rooms arranged around an open courtyard, defined not by what they contain but by how they hold light, movement, and pause. The result is an architecture that does not speak loudly of belonging but invites attention through balance and care.
Coding Plants: An Artificial Reef and Living Kelp Archive. Courtesy of Terreform ONE
This curated selection of projects from the 2025 Venice Architecture Biennale explores how architects and designers are rethinking the relationship between the built environment and water in response to the global climate crisis. As sea levels rise and extreme weather events increase, water is no longer a distant threat but an immediate design condition. Rather than resisting it, these projects look at how architecture can coexist with, adapt to, and even regenerate through natural forces. Together, they suggest a shift toward working with the elements, acknowledging water not as a limit to construction but as an active participant in shaping future environments.
The history of the Olympic Games, while marked by athletic achievement, is consistently contrasted by infrastructure challenges. Across host cities, from Athens to Rio and Beijing, similar issues arise: significant cost overruns and the complex issue of legacy. The big question is: What is the best viable long-term use for purpose-built sport venues? Montreal's 1976 Games shared this fate after building an Olympic Park that faced heavy criticism for cost overruns and debt from specialized construction. Post-Games, venues like the Montreal Velodrome risked becoming a financial burden. However, the city demonstrated a proactive response by proposing the transformation of the building into a thriving civic asset that now stands as an internationally recognized example of successful Olympic venue repurposing.
Architecture is being reshaped by artificial intelligence, climate change, and shifting social structures. At SCI-Arc, students learn to face these challenges head-on, using design to shape a rapidly changing world.
This fall, SCI-Arc's upper-level Vertical Studios bring the world into the studio. Each is led by a practicing architect working at the forefront of the field—from experimental fabrication to urban and environmental design. Drawing on real projects and professional experience, faculty challenge students to engage with the realities of the present and to design with precision, empathy, and imagination.
Behind layers of plaster, paint, and finishes lies an intricate network of pipes, electrical conduits, beams, and other structural elements that make a building function and stand, yet remain invisible to the everyday eye. Within these layers, traces of different periods accumulate: replaced systems, improvised adaptations, and technical solutions that once responded to specific contexts and urgencies. In adaptive reuse, the greatest challenge often begins before construction even starts, which is understanding what lies within when little or no reliable documentation exists. During a renovation, pleasant or unpleasant surprises are inevitable. The unexpected is part of the process, but it also represents cost, delay, and risk factors that often discourage investors and professionals from engaging in this type of project.
This international competition invited architects to design a boutique wellness retreat along the serene banks of the Vez River in northern Portugal. The project challenged participants to propose a space of tranquility and renewal that would harmonize with its extraordinary natural setting and complement a restored historic watermill already on site. The project partner, the site landowner, plans to construct one of the winning entries.
Biodiversity, defined by the World Wide Fund for Nature (WWF) as the different kinds of life found in an area, is in a state of crisis all across the world, with declines in the numbers of organisms and many species declared as at risk of extinction. All types are affected, from plants and fungi to large mammals, and there is a clear link to human activity being the cause. Although farming methods and climate change due to greenhouse gases play a major role, cities and buildings can play a small but important role in countering this decline.
At voco Brussels City North, hansgrohe and Hydraloop unite for smarter water use. Image Courtesy of Hansgrohe
Water is the foundation of life. It shapes landscapes, regulates climates, and sustains every living organism. Yet on the only known inhabited planet, this essential resource faces a growing crisis: although 70% of Earth's surface is covered by water, less than 1% is actually available for human use. Most of it is consumed by agriculture and industry, while in households, activities like bathing and flushing use vast amounts of drinking water for non-essential purposes. The bathroom, therefore, has become a key space for innovation, where technology and design can help redefine how we use and reuse this vital element.
What happens when a city’s industrial past becomes the raw material for its future? In Copenhagen, Nordhavn transforms the old harbor into a living laboratory of sustainable urbanism, where warehouses and docks give way to independent districts, small islands, and canals that redefine what it means to inhabit the city.
The practice of combining materials to achieve better performance has accompanied humanity since the earliest constructions. One of the first known examples emerged over five thousand years ago, when civilizations in Mesopotamia and Egypt mixed mud and straw to mold sun-dried adobe bricks. Light and fibrous, straw prevented cracking and increased strength, while mud acted as a binder and protection. This simple yet ingenious invention can be considered the first composite in history, illustrating the ancestral intuition that distinct materials, when combined, can become something stronger and better.
Based in Florianópolis, Brazil, Eduardo Souza brings a nuanced perspective to architecture shaped by his lifelong engagement with design, research, and editorial practice. Growing up in an environment deeply connected to architecture—his father a civil engineer and professor—Eduardo developed an early fascination with creativity, craftsmanship, and spatial thinking. This foundation naturally led him to study architecture, and later, to explore the editorial realm where writing and curation became extensions of his architectural passion.
Eduardo joined ArchDaily as a translator in its early years and gradually grew into various editorial roles, developing a keen interest in the intersection of materials, technologies, and construction systems. His editorial work focuses on uncovering innovations that challenge traditional modes of making architecture, emphasizing coherence between concept, execution, and context. He pays close attention to sustainable practices such as circularity, local material use, and vernacular reinterpretations that respond to today's environmental and cultural challenges.
Faced with the combined forces of population growth, economic prosperity, and urban expansion, cities are witnessing a significant rise in the movement of people and goods—mirroring the evolution of diverse mobility systems within urban environments. As technologies advance and modes of transport evolve, the adaptive reuse of train carriages, airplane cabins, and other service infrastructures reveals opportunities to explore their creative potential. Materials, technologies, and design tools converge around a shared goal: refurbishing and repurposing disused structures to give them new life.
In the low-lying deltas of Bangladesh, water defines both life and loss. Every year, millions are forced to rebuild after floods wash away their homes, crops, and livelihoods. In these precarious territories, the act of building has become an act of resilience. It is here that Khudi Bari emerges as a modest yet radical proposal. Designed by Marina Tabassum Architects, the project provides a lightweight, modular, and affordable dwelling for communities displaced by climate change. Recognized as one of the winners of the 2025 Aga Khan Award for Architecture, it represents a form of architecture that empowers rather than imposes.
Edinburgh Castle in Scotland’s Capital. Image by 瑞丽江的河水, via Wikimedia Commons (CC BY-SA 4.0)
Edinburgh, Scotland's capital, has long been recognized for its rich cultural history and intricate urban fabric. The city thrives within its museums, tenement housing, and shops nestled in Georgian buildings. In 2022, Time Out ranked Edinburgh as the world's best city, citing its efficiency across community building and urban systems such as public transport. However, as climate change makes its effects progressively visible at an urban level, the city inevitably runs into a pressing dilemma: how to sustain this quality of life in increasingly difficult conditions.
The journey toward this balance unfolds through several interconnected strategies, such as retrofitting, adaptive reuse, circular design, and community collaboration, each contributing to Edinburgh's evolving vision of a sustainable urban future.
The new Muskiz Secondary School building (Vizcaya), designed by BAT Architecture studio, has become a leading symbol of sustainable architecture for educational centers. Designed in accordance with Passivhaus criteria and built using cross-laminated timber (CLT), the project combines innovation and comfort with environmental care.
In this equation, Faveker's tiled ventilated facade, tailor-designed using its GA16 system as a basis, plays a key role. This precise, luminous tiled skin enhances the building's energy efficiency and infuses it with a unique architectural personality that harmonizes with the surrounding natural setting.
It is undeniable that, at first glance, the idea of a Louvre in Abu Dhabi or a Centre Pompidou in Brazil may seem somewhat disconcerting. The image of these museums, internationally renowned, appears in many ways inseparable from their original cultural contexts. And to some extent, it truly is. The Louvre, deeply rooted in the history of France as a former fortress and later royal residence, embodies a set of invaluable heritage values, further amplified by I. M. Pei’s iconic glass pyramid intervention in 1989. The Pompidou, meanwhile, is remembered as a historic turning point: by redefining the concept of public infrastructure through radically unconventional architecture, it marked the first time culture drew in mass audiences.
Nearly three years after artificial intelligence captured the world's attention, architecture is still searching for stable ground in the conversation. Between confident claims and cautious trials, many professionals still question whether—and how—AI is truly changing everyday practice.
A new white paper from Chaos addresses this through practitioner interviews and in-depth internal research, revealing how the technology is beginning to reshape productivity, authorship, and creative identity across the industry.
The white paper offers a closer look at where AI creates value, where it falls short, and how architects can navigate what comes next.
