Casa Sofia | © Fernando Guerra / FG+SG Located in the historic heart of Lagos, Portugal, Casa Sofia by Mário Martins Atelier is a thoughtful exercise in urban integration and contemporary reinterpretation. Occupying a site once held by a modest two-story house, the project is situated on the corner of a block facing the Church of St Sebastião. With its commanding presence, this national monument set a formidable challenge for the architects: introducing a new residence that respects the weight of history while offering a clear, contemporary expression. Casa Sofia Technical Information Architects1-4: Mário Martins Atelier Location: Lagos, Portugal Project Completion Years: 2023 Photographs: © Fernando Guerra / FG+SG It is therefore important to design a building to fit into and complete the block. A house that is quiet and solid, with rhythmic metrics, whose new design brings an identity, with the weight and scent of the times, to a city that has existed for many centuries. – Mário Martins Atelier Casa Sofia Photographs © Fernando Guerra / FG+SG © Fernando Guerra / FG+SG © Fernando Guerra / FG+SG © Fernando Guerra / FG+SG © Fernando Guerra / FG+SG © Fernando Guerra / FG+SG © Fernando Guerra / FG+SG © Fernando Guerra / FG+SG © Fernando Guerra / FG+SG © Fernando Guerra / FG+SG © Fernando Guerra / FG+SG Spatial Organization and Circulation The design’s ambition is anchored in reconciling modern residential needs with the dense urban fabric that defines the walled city. Rather than imposing a bold or disruptive form, the project embraces the existing rhythms and textures of the surrounding architecture. The result is a building that both defers to and elevates the neighborhood’s character. Its restrained profile and carefully modulated facade echo the massing and articulation of the original house while introducing an identity that is clearly of its time. At the core of Casa Sofia’s spatial organization is a deliberate hierarchy of spaces that transitions seamlessly between public, semi-public, and private domains. Entry from the street occurs through a modest set of steps leading to an exterior atrium. This threshold mediates the relationship between the public realm and the interior, grounding the house in its urban context. Once inside, an open hall reveals the vertical flow of the building, dominated by a staircase that appears to float, linking the house’s various levels while maintaining visual continuity throughout. The ground floor houses three bedrooms, each with an ensuite bathroom, radiating from the central hall. This level also contains a small basement for technical support, reinforcing the discreet layering of functional and domestic spaces. Midway up the staircase, the house opens onto a garage, a laundry room, and an intimate courtyard. These areas, essential for daily life, are seamlessly integrated into the overall composition, contributing to a spatial richness that is both pragmatic and sensorial. On the first floor, an open-plan arrangement accommodates the main living spaces. Around a central void, the living and dining areas, kitchen, and master suite are arranged to encourage visual interplay and shared light. This configuration enhances the spatial porosity, ensuring that despite the density of the historic center, the house retains a sense of openness and fluidity. Above, a recessed roof level recedes from the street, culminating in a panoramic terrace with a swimming pool. Here, the building dissolves into the sky, offering expansive views and light-filled leisure spaces that contrast with the more enclosed lower floors. Materiality and Craftsmanship Materiality plays a decisive role in mediating the building’s relationship with its context. White-painted plaster, a familiar element in the region, is punctuated by deep limestone moldings. These details create a play of light and shadow that emphasizes the facade’s verticality and rhythm. The generous thickness of the walls, carried over from the site’s earlier construction, lends a sense of solidity and permanence to the house, recalling the tactile traditions of the Algarve’s architecture. The interior and exterior detailing is characterized by an economy of means, where each material is selected for its ability to reinforce the house’s quiet presence. Local materials and craftsmanship ground the project in its immediate context while responding to environmental imperatives. High thermal comfort is achieved through careful orientation and passive design strategies, complemented by the integration of solar control and water conservation measures. These considerations underscore the project’s commitment to sustainability without resorting to superficial gestures. Broader Urban and Cultural Implications Beyond its immediate function as a family home, Casa Sofia engages in a broader dialogue with its urban and cultural surroundings. The project exemplifies a measured response to the question of how to build within a historical setting without resorting to nostalgia or pastiche. It demonstrates that contemporary architecture can find resonance within heritage contexts by prioritizing the values of continuity, scale, and material authenticity. In its measured dialogue with the Church of St Sebastião and the centuries-old urban landscape of Lagos, Casa Sofia illustrates the potential for architecture to enrich the experience of place through quiet, rigorous interventions. It is a project that reaffirms architecture’s capacity to negotiate between past and present, crafting spaces that are at once deeply contextual and unambiguously of their moment. Casa Sofia Plans Sketch | © Mário Martins Atelier Ground Level | © Mário Martins Atelier Level 1 | © Mário Martins Atelier Level 2 | © Mário Martins Atelier Roof Plan | © Mário Martins Atelier Section | © Mário Martins Atelier Casa Sofia Image Gallery About Mário Martins Atelier Mário Martins Atelier is a Portuguese architecture and urbanism practice founded in 2000 by architect Mário Martins, who holds a degree from the Faculty of Architecture at the Technical University of Lisbon (1988). Headquartered in Lagos with a secondary office in Lisbon, the firm operates with a dedicated multidisciplinary team. The office has developed a broad spectrum of work, from single-family homes and collective housing to public buildings and urban regeneration, distinguished by technical precision, contextual sensitivity, and sustainable strategies. Credits and Additional Notes Lead Architect: Mário Martins, arq. Project Team: Rita Rocha, Sónia Fialho, Susana Caetano, Susana Jóia, Ana Graça Engineering: Nuno Grave Engenharia Building: Marques Antunes Engenharia Lda

IBM Plans Large-Scale Fault-Tolerant Quantum Computer by 2029 By John P. Mello Jr. June 11, 2025 5:00 AM PT IBM unveiled its plan to build IBM Quantum Starling, shown in this rendering. Starling is expected to be the first large-scale, fault-tolerant quantum system. (Image Credit: IBM) ADVERTISEMENT Enterprise IT Lead Generation Services Fuel Your Pipeline. Close More Deals. Our full-service marketing programs deliver sales-ready leads. 100% Satisfaction Guarantee! Learn more. IBM revealed Tuesday its roadmap for bringing a large-scale, fault-tolerant quantum computer, IBM Quantum Starling, online by 2029, which is significantly earlier than many technologists thought possible. The company predicts that when its new Starling computer is up and running, it will be capable of performing 20,000 times more operations than today’s quantum computers — a computational state so vast it would require the memory of more than a quindecillion (10⁴⁸) of the world’s most powerful supercomputers to represent. “IBM is charting the next frontier in quantum computing,” Big Blue CEO Arvind Krishna said in a statement. “Our expertise across mathematics, physics, and engineering is paving the way for a large-scale, fault-tolerant quantum computer — one that will solve real-world challenges and unlock immense possibilities for business.” IBM’s plan to deliver a fault-tolerant quantum system by 2029 is ambitious but not implausible, especially given the rapid pace of its quantum roadmap and past milestones, observed Ensar Seker, CISO at SOCRadar, a threat intelligence company in Newark, Del. “They’ve consistently met or exceeded their qubit scaling goals, and their emphasis on modularity and error correction indicates they’re tackling the right challenges,” he told TechNewsWorld. “However, moving from thousands to millions of physical qubits with sufficient fidelity remains a steep climb.” A qubit is the fundamental unit of information in quantum computing, capable of representing a zero, a one, or both simultaneously due to quantum superposition. In practice, fault-tolerant quantum computers use clusters of physical qubits working together to form a logical qubit — a more stable unit designed to store quantum information and correct errors in real time. Realistic Roadmap Luke Yang, an equity analyst with Morningstar Research Services in Chicago, believes IBM’s roadmap is realistic. “The exact scale and error correction performance might still change between now and 2029, but overall, the goal is reasonable,” he told TechNewsWorld. “Given its reliability and professionalism, IBM’s bold claim should be taken seriously,” said Enrique Solano, co-CEO and co-founder of Kipu Quantum, a quantum algorithm company with offices in Berlin and Karlsruhe, Germany. “Of course, it may also fail, especially when considering the unpredictability of hardware complexities involved,” he told TechNewsWorld, “but companies like IBM exist for such challenges, and we should all be positively impressed by its current achievements and promised technological roadmap.” Tim Hollebeek, vice president of industry standards at DigiCert, a global digital security company, added: “IBM is a leader in this area, and not normally a company that hypes their news. This is a fast-moving industry, and success is certainly possible.” “IBM is attempting to do something that no one has ever done before and will almost certainly run into challenges,” he told TechNewsWorld, “but at this point, it is largely an engineering scaling exercise, not a research project.” “IBM has demonstrated consistent progress, has committed $30 billion over five years to quantum computing, and the timeline is within the realm of technical feasibility,” noted John Young, COO of Quantum eMotion, a developer of quantum random number generator technology, in Saint-Laurent, Quebec, Canada. “That said,” he told TechNewsWorld, “fault-tolerant in a practical, industrial sense is a very high bar.” Solving the Quantum Error Correction Puzzle To make a quantum computer fault-tolerant, errors need to be corrected so large workloads can be run without faults. In a quantum computer, errors are reduced by clustering physical qubits to form logical qubits, which have lower error rates than the underlying physical qubits. “Error correction is a challenge,” Young said. “Logical qubits require thousands of physical qubits to function reliably. That’s a massive scaling issue.” IBM explained in its announcement that creating increasing numbers of logical qubits capable of executing quantum circuits with as few physical qubits as possible is critical to quantum computing at scale. Until today, a clear path to building such a fault-tolerant system without unrealistic engineering overhead has not been published. Alternative and previous gold-standard, error-correcting codes present fundamental engineering challenges, IBM continued. To scale, they would require an unfeasible number of physical qubits to create enough logical qubits to perform complex operations — necessitating impractical amounts of infrastructure and control electronics. This renders them unlikely to be implemented beyond small-scale experiments and devices. In two research papers released with its roadmap, IBM detailed how it will overcome the challenges of building the large-scale, fault-tolerant architecture needed for a quantum computer. One paper outlines the use of quantum low-density parity check (qLDPC) codes to reduce physical qubit overhead. The other describes methods for decoding errors in real time using conventional computing. According to IBM, a practical fault-tolerant quantum architecture must: Suppress enough errors for useful algorithms to succeed Prepare and measure logical qubits during computation Apply universal instructions to logical qubits Decode measurements from logical qubits in real time and guide subsequent operations Scale modularly across hundreds or thousands of logical qubits Be efficient enough to run meaningful algorithms using realistic energy and infrastructure resources Aside from the technological challenges that quantum computer makers are facing, there may also be some market challenges. “Locating suitable use cases for quantum computers could be the biggest challenge,” Morningstar’s Yang maintained. “Only certain computing workloads, such as random circuit sampling [RCS], can fully unleash the computing power of quantum computers and show their advantage over the traditional supercomputers we have now,” he said. “However, workloads like RCS are not very commercially useful, and we believe commercial relevance is one of the key factors that determine the total market size for quantum computers.” Q-Day Approaching Faster Than Expected For years now, organizations have been told they need to prepare for “Q-Day” — the day a quantum computer will be able to crack all the encryption they use to keep their data secure. This IBM announcement suggests the window for action to protect data may be closing faster than many anticipated. “This absolutely adds urgency and credibility to the security expert guidance on post-quantum encryption being factored into their planning now,” said Dave Krauthamer, field CTO of QuSecure, maker of quantum-safe security solutions, in San Mateo, Calif. “IBM’s move to create a large-scale fault-tolerant quantum computer by 2029 is indicative of the timeline collapsing,” he told TechNewsWorld. “A fault-tolerant quantum computer of this magnitude could be well on the path to crack asymmetric ciphers sooner than anyone thinks.” “Security leaders need to take everything connected to post-quantum encryption as a serious measure and work it into their security plans now — not later,” he said. Roger Grimes, a defense evangelist with KnowBe4, a security awareness training provider in Clearwater, Fla., pointed out that IBM is just the latest in a surge of quantum companies announcing quickly forthcoming computational breakthroughs within a few years. “It leads to the question of whether the U.S. government’s original PQC [post-quantum cryptography] preparation date of 2030 is still a safe date,” he told TechNewsWorld. “It’s starting to feel a lot more risky for any company to wait until 2030 to be prepared against quantum attacks. It also flies in the face of the latest cybersecurity EO [Executive Order] that relaxed PQC preparation rules as compared to Biden’s last EO PQC standard order, which told U.S. agencies to transition to PQC ASAP.” “Most US companies are doing zero to prepare for Q-Day attacks,” he declared. “The latest executive order seems to tell U.S. agencies — and indirectly, all U.S. businesses — that they have more time to prepare. It’s going to cause even more agencies and businesses to be less prepared during a time when it seems multiple quantum computing companies are making significant progress.” “It definitely feels that something is going to give soon,” he said, “and if I were a betting man, and I am, I would bet that most U.S. companies are going to be unprepared for Q-Day on the day Q-Day becomes a reality.” John P. Mello Jr. has been an ECT News Network reporter since 2003. His areas of focus include cybersecurity, IT issues, privacy, e-commerce, social media, artificial intelligence, big data and consumer electronics. He has written and edited for numerous publications, including the Boston Business Journal, the Boston Phoenix, Megapixel.Net and Government Security News. Email John. Leave a Comment Click here to cancel reply. Please sign in to post or reply to a comment. New users create a free account. Related Stories More by John P. Mello Jr. view all More in Emerging Tech

Gardenful / TAOASave this picture!© Tao LeiLandscape Architecture•Beijing, China Architects: TAOA Area Area of this architecture project Area:  227 m² Year Completion year of this architecture project Year:  2024 Photographs Photographs:Tao LeiMore SpecsLess Specs Save this picture! Text description provided by the architects. This is an urban garden built for private use. As a corner of the city, I hope to fill the whole garden with abundant nature in this small space. The site is an open space in a villa compound, surrounded by a cluster of European-style single-family villas typical of Chinese real estate. Modern buildings greatly meet the requirements of indoor temperature and humidity comfort because of their complete facilities, but the building also has a clear climate boundary, cutting off the connection between indoor and outdoor, but also cut off the continuity of nature and life.Save this picture!Save this picture!There is no simple definition of the project as a garden or a building, too simple definition will only fall into the narrow imagination, the purpose is only to establish a place that can accommodate a piece of real nature, can give people shelter, can also walk in it. It is the original intention of this design to build a quiet place where you can be alone, a semi-indoor and semi-outdoor space, and re-lead the enclosed life to the outdoors and into the nature.Save this picture!Save this picture!The square site in the middle of the garden, which is a relatively independent space, the top shelter provides a comfortable life and cozy, the middle of the garden exposed a sky, sunshine and rain and snow will be staged here. With the corresponding land below, the trees and vegetation of the mountains are introduced into it, maintaining the most primitive wildness. To remain wild in this exquisite urban space, in this abstract geometric order, will naturally get rid of the wild gas of the original nature. A spatial transformation is made on both sides to the north, through the stairway and the upward pull of the roof space, extending the narrow auxiliary garden, which has no roof and is therefore bright, maintaining a different light and shade relationship from the central garden, which is filled with rocks and plants transplanted from the mountains.Save this picture!Save this picture!Save this picture!The structure of the garden is thin and dense synthetic bamboo, and the cross combination of dense structures forms a partition of the space, like a bamboo fence, forming a soft boundary. The interior of the space is lined with wooden panels, and the exterior is covered with thin and crisp aluminum panels. The "bridge" made of stone panels passes through different Spaces, sometimes standing between the bamboo structures, sometimes crossing the rocks, walking between them. Moving between order and wildness.Save this picture!Nature is difficult to measure, and because of its rich and ever-changing qualities, nature provides richness to Spaces. This is from the mountains to large trees, rocks, small flowers and plants, as far as possible to avoid artificial nursery plants. The structure of the garden will geometrically order the nature, eliminating the wild sense of nature. The details of nature can be discovered, and the life force released can be unconsciously perceived. The nature of fragments is real, is wild, and does not want to lose vitality and richness because of artificial transplantation. The superposition of wild abundance and modern geometric space makes it alive with elegance and decency.Save this picture!Save this picture!The nature is independent of the high-density urban space, becoming an independent world, shielding the noise of the city. These are integrated into a continuous and integral "pavilion" and "corridor" constitute the carrier of outdoor life of the family, while sheltering from the wind and rain, under the four eaves also create the relationship between light and dark space, the middle highlights the nature, especially bright, and becomes the center of life. From any Angle one can see a picture of hierarchy and order, a real fragment of nature, built into a new context by geometric order. The richness of nature is therefore more easily perceived, and the changes of nature are constantly played out in daily life and can be seen throughout the year.Save this picture! Project gallerySee allShow less Project locationAddress:Beijing, ChinaLocation to be used only as a reference. It could indicate city/country but not exact address.About this officeTAOAOffice••• Published on June 15, 2025Cite: "Gardenful / TAOA" 15 Jun 2025. ArchDaily. Accessed . <https://www.archdaily.com/1028408/gardenful-taoa&gt ISSN 0719-8884Save想阅读文章的中文版本吗?满园 / TAOA 陶磊建筑是否 You've started following your first account!Did you know?You'll now receive updates based on what you follow! Personalize your stream and start following your favorite authors, offices and users.Go to my stream

Garry Elmendorf isn’t just a special effects supervisor, he’s a master of controlled chaos. With over 50 years in the business, from Logan’s Run in the ’70s to the high-octane worlds of Yellowstone, 1883, 1923, and Landman. Elmendorf has shaped the visual DNA of Taylor Sheridan’s TV empire with a mix of old-school craft and jaw-dropping spectacle. In the latest fxpodcast, Garry joins us to break down the physical effects work behind some of the most explosive moments in Landman. As regular listeners know, we occasionally conduct interviews with individuals working in SFX, rather than with VFX. Garry’s work is not the kind of work that’s built in post and his approach is grounded in real-world physics, practical fabrication, and deeply collaborative on-set discipline. Take the aircraft crash in Landman’s premiere: there was no CGI here, other than comp cleanup. It was shot with just a Frankenstein plane built from scrap, rigged with trip triggers and detonated in real time. Or the massive oil rig explosion, which involved custom pump jacks, 2,000 gallons of burning diesel and gasoline, propane cannons, and tightly timed pyro rigs. The scale is cinematic. Safety, Garry insists, is always his first concern, but what keeps him up at night is timing. One mistimed trigger, one failed ignition, and the shot is ruined. In our conversation, Garry shares incredible behind-the-scenes insights into how these sequences are devised, tested, and executed, whether it’s launching a van skyward via an air cannon or walking Billy Bob Thornton within 40 feet of a roaring fireball. There’s a tactile intensity to his work, and a trust among his crew that only comes from decades of working under pressure. From assembling a crashable aircraft out of mismatched parts to rigging oil rig explosions with precise control over flame size, duration, and safety, his work is rooted in mechanical problem-solving and coordination across departments. In Landman, whether coordinating multiple fuel types to achieve specific smoke density or calculating safe clearances for actors and crew around high-temperature pyrotechnics, Elmendorf’s contribution reflects a commitment to realism and repeatability on set. The result is a series where the physicality of explosions, crashes, and fire-driven action carries weight, both in terms of production logistics and visual impact. Listen to the full interview on the fxpodcast.

“Utopian Visions of Hope” (2025). All images courtesy of Sapar Contemporary, shared with permission An Astronaut Finds Symbiosis with Nature in Agus Putu Suyadnya’s Uncanny Paintings June 6, 2025 ArtClimate Grace Ebert In Symbiotic Utopia, Agus Putu Suyadnya imagines a future in which tropical ecosystems not unlike those of Southeast Asia become sites for humanity to commune with nature. Surrounded by verdant foliage and moss-covered roots that seem to glow with blue and green fuzz, a recurring astronaut figure approaches each scene with comfort and ease. In one work, the suited character cradles a chimpanzee à la notable conservationist Jane Goodall and waves a large bubble wand to create trails of the iridescent orbs in another. And in “Cosmic Self Healing,” the figure sits in a comfortable chair, a large potted plant at his side. This typical domestic scene, though, is situated on the moon, and Earth’s swirling atmosphere appears behind him. “Cosmic Self Healing” (2022) While alluring in color and density, Suyadnya’s paintings are surreal and portend an eerie future irredeemably impacted by the climate crisis. The astronaut, after all, is fully covered in a protective capsule, a sign that people can only survive with this critical adaptation. “Humans cannot live without nature,” the artist says, “whereas the natural world without mankind will continue to survive. So why, as humans, do we think we have the upper hand?” Symbiotic Utopia is on view through July 7 at Sapar Contemporary in New York. Find more from Suyadnya on Instagram. Detail of “Cosmic Self Healing” (2022) “A Hug for Hope” “Steady Humility Wins Every Time” (2025) “Yearning for Home” (2024) “Playful Nature is the Future” (2024) Next article