06/15 — 2025 by abduzeedo Explore Palantis' sleek branding and visual identity for MP2E Solutions, showcasing thoughtful design and industry-specific color palettes. In the dynamic world of industrial design, a brand's visual identity must clearly communicate its expertise and innovation. Palantis, a branding, design, and strategy studio based in Nantes, recently tackled this challenge for MP2E Solutions. The result is a sleek, adaptable, and cohesive visual system that truly reflects the company's position and know-how. MP2E Solutions specializes in distributing Hauschild planetary mixers and equipment, acting as the exclusive distributor of these highly technical machines for nearly a decade. These Speed Mixer™ machines are renowned for their versatility, capable of mixing, pulverizing, and degassing, serving vital functions across the pharmaceutical, food, medical, and electronics sectors. To usher in a new era, MP2E Solutions commissioned Palantis to refresh its entire visual identity. The Hyphen: A Symbol of Solutions Palantis built the core of the new visual system around the hyphen in "MP2E-Solutions". This seemingly small detail carries significant weight, symbolizing the connection between "MP2E"—an acronym for Mélangeur Planétaire Emmanuelle Etiemble—and "Solutions," representing the company's comprehensive range of services, products, and client support. This thoughtful integration of the hyphen into the graphic language creates a strong and recognizable visual identity. The brand’s new visual identity extends beyond just the logo. Palantis developed a flexible system through the interplay of symbols and a carefully chosen color palette. Each color was intentionally selected to evoke the specific industries MP2E Solutions serves, strengthening the brand's presence within its diverse ecosystem. For example, a vibrant green might represent the pharmaceutical industry, while a deep blue could signify the electronics sector. This allows for endless variations while maintaining clear brand identification and visual consistency. A Cohesive Visual Language An integral part of this branding and visual identity overhaul included the development of a dedicated iconographic system. This system helps structure and clarify information across various communication channels, ensuring that MP2E Solutions' message is always clear and organized. From digital platforms to printed materials, the new design elements work in harmony. Palantis' work on MP2E Solutions is a testament to the power of meaningful design and transformative solutions. They believe in crafting tomorrow's story today, and this project exemplifies that philosophy. The refreshed branding not only accurately reflects MP2E Solutions' expertise but also sets them apart as a forward-thinking industrial leader. The meticulous attention to detail, from the symbolic hyphen to the industry-evoking color schemes, showcases Palantis' deep understanding of branding and visual identity. Their approach ensures that MP2E Solutions is well-positioned for its new era, with a visual language that speaks volumes about its commitment to building the future by mixing materials. Discover more of Palantis' inspiring work at www.palantis.fr. Branding and visual identity artifacts Tags branding

Daniel Pearson , CEO, KnownHostJune 12, 20253 Min ReadBusiness success concept. Cubes with arrows and target on the top.Cyber incidents are expected to cost the US $639 billion in 2025. According to the latest estimates, this dynamic will continue to rise, reaching approximately 1.82 trillion US dollars in cybercrime costs by 2028. These figures highlight the crucial importance of strong cybersecurity strategies, which businesses must build to reduce the likelihood of risks. As technology evolves at a dramatic pace, businesses are increasingly dependent on utilizing digital infrastructure, exposing themselves to threats such as ransomware, accidental data loss, and corruption.  Despite the 3-2-1 backup rule being invented in 2009, this strategy has stayed relevant for businesses over the years, ensuring that the loss of data is minimized under threat, and will be a crucial method in the upcoming years to prevent major data loss.   What Is the 3-2-1 Backup Rule? The 3-2-1 backup rule is a popular backup strategy that ensures resilience against data loss. The setup consists of keeping your original data and two backups.  The data also needs to be stored in two different locations, such as the cloud or a local drive.  The one in the 3-2-1 backup rule represents storing a copy of your data off site, and this completes the setup.  This setup has been considered a gold standard in IT security, as it minimizes points of failure and increases the chance of successful data recovery in the event of a cyber-attack.  Related:Why Is This Rule Relevant in the Modern Cyber Threat Landscape? Statistics show that in 2024, 80% of companies have seen an increase in the frequency of cloud attacks.  Although many businesses assume that storing data in the cloud is enough, it is certainly not failsafe, and businesses are in bigger danger than ever due to the vast development of technology and AI capabilities attackers can manipulate and use.  As the cloud infrastructure has seen a similar speed of growth, cyber criminals are actively targeting these, leaving businesses with no clear recovery option. Therefore, more than ever, businesses need to invest in immutable backup solutions.  Common Backup Mistakes Businesses Make A common misstep is keeping all backups on the same physical network. If malware gets in, it can quickly spread and encrypt both the primary data and the backups, wiping out everything in one go. Another issue is the lack of offline or air-gapped backups. Many businesses rely entirely on cloud-based or on-premises storage that's always connected, which means their recovery options could be compromised during an attack. Related:Finally, one of the most overlooked yet crucial steps is testing backup restoration. A backup is only useful if it can actually be restored. Too often, companies skip regular testing. This can lead to a harsh reality check when they discover, too late, that their backup data is either corrupted or completely inaccessible after a breach. How to Implement the 3-2-1 Backup Rule? To successfully implement the 3-2-1 backup strategy as part of a robust cybersecurity framework, organizations should start by diversifying their storage methods. A resilient approach typically includes a mix of local storage, cloud-based solutions, and physical media such as external hard drives.  From there, it's essential to incorporate technologies that support write-once, read-many functionalities. This means backups cannot be modified or deleted, even by administrators, providing an extra layer of protection against threats. To further enhance resilience, organizations should make use of automation and AI-driven tools. These technologies can offer real-time monitoring, detect anomalies, and apply predictive analytics to maintain the integrity of backup data and flag any unusual activity or failures in the process. Lastly, it's crucial to ensure your backup strategy aligns with relevant regulatory requirements, such as GDPR in the UK or CCPA in the US. Compliance not only mitigates legal risk but also reinforces your commitment to data protection and operational continuity. Related:By blending the time-tested 3-2-1 rule with modern advances like immutable storage and intelligent monitoring, organizations can build a highly resilient backup architecture that strengthens their overall cybersecurity posture. About the AuthorDaniel Pearson CEO, KnownHostDaniel Pearson is the CEO of KnownHost, a managed web hosting service provider. Pearson also serves as a dedicated board member and supporter of the AlmaLinux OS Foundation, a non-profit organization focused on advancing the AlmaLinux OS -- an open-source operating system derived from RHEL. His passion for technology extends beyond his professional endeavors, as he actively promotes digital literacy and empowerment. Pearson's entrepreneurial drive and extensive industry knowledge have solidified his reputation as a respected figure in the tech community. See more from Daniel Pearson ReportsMore ReportsNever Miss a Beat: Get a snapshot of the issues affecting the IT industry straight to your inbox.SIGN-UPYou May Also Like

You don't have to go for the paid software options. Image: Timothy Exodus/Unsplash Get the Popular Science daily newsletter💡 Breakthroughs, discoveries, and DIY tips sent every weekday. Most of us are signed up to plenty of digital subscriptions, covering streaming services, cloud storage, fitness apps, and plenty more. This extends to software subscriptions, too: Both Adobe Photoshop and Microsoft Office (now Microsoft 365) ask for monthly or yearly subscriptions if you want to stay up to date. Add up $5 here and $10 there and you can soon find yourself paying out more each week than you want. What you might not know is that for just about every paid software program out there, there’s a perfectly adequate and free replacement—so you can cut your dependency on software subscriptions right down. GIMP is an image editor packed with features. Screenshot: GIMP The rather oddly named GIMP—it stands for GNU Image Manipulation Program—is a head-on challenger to Adobe Photoshop, with a lot of the same advanced features on offer across object selections and manipulations, layers, and effects. GIMP doesn’t have as much AI stuffed into it as Photoshop does, but you might see that as a benefit. Whether you want to touch up and enhance the photos you’ve taken, or you want to create digital art, GIMP can handle it all. Open up the software and you’ll see you get a wealth of tools to play around with; there are plenty of third-party extensions and customizations available too—plus lots of tutorials and more help on the web. Download GIMP for Windows or macOS. LibreOffice Writer is a solid alternative to Microsoft Word. Screenshot: LibreOffice Microsoft Office is now called Microsoft 365, but however you refer to it, it’s anchored by Word, Excel, and PowerPoint. While Microsoft asks for a one-off fee or regular subscription, you can use LibreOffice completely free of charge—including the equivalent apps Writer (documents), Calc (spreadsheets), and Impress (presentations). If you have any experience using the Microsoft apps, you’ll feel right at home inside the LibreOffice apps—and they can import and export using Office file formats too. And just because you’re not paying for the software doesn’t mean you’re missing out on features, because these programs come backed with a host of useful options and tools. Download LibreOffice for Windows or macOS. Watch as much as you want on Tubi, for free. Screenshot: Tubi When it comes to movies and shows, there are plenty of services that will charge you a fee for access, including Netflix. Not so Tubi, which is completely funded by ads. Okay, it might not have the latest and greatest selection of titles, but there’s still plenty to watch, completely free. You aren’t going to run out of viewing material anytime soon. Tubi is one of a growing number of FAST streaming services, which stands for free ad-supported streaming television; others you might want to check out include Pluto TV and the Roku Channel. While content on these platforms is usually older than on the alternatives, you’ll probably be surprised at how much good stuff there is. Watch Tubi on the web, or on Android or iOS. Use KeePass as your password manager KeePass is a simple, straightforward password manager. Screenshot: KeePass We’ve written before about the benefits of using a password manager, but most of them require a subscription to use all of their features. If a password manager offers a free plan at all, it usually restricts how many passwords you can save or how many devices you can sync between, or apply some other limitations. KeePass is different, as it’s completely free and open source (so you can look at the source code yourself, if you wish). It comes with plenty of features to keep your passwords private and secure, and while there’s only an official version for Windows, there are several unofficial ports so you can sync your passwords across macOS, Android, and iOS too. Download KeePass for Windows. Create videos with ease with OpenShot. Screenshot: OpenShot We’ll finish where we started, with an alternative to a program from the Adobe Creative Cloud suite. Unless you’re a professional filmmaker who needs the very best in industry-standard tools, OpenShot will give you everything you need in video editing features and options, and it’s capable of some impressive results. The extensive list includes support for key frame animations, an unlimited number of tracks, easy-to-use scaling and trimming tools, compositing, image overlays, title creating (including 3D titles), and support for a broad range of video, audio, and image formats. Despite all of those features and more, you won’t find it difficult to use. Download OpenShot for Windows or macOS.

Al Hajar Mountains in OmanL_B_Photography/Shutters​tock A section of Earth’s mantle beneath Oman appears to be unusually warm, in what researchers say may be the first known “ghost plume” – a column of hot rock emanating from the lower mantle without apparent volcanic activity on the surface. Mantle plumes are mysterious upwellings of molten rock believed to transmit heat from the core-mantle boundary to the Earth’s surface, far from the edges of tectonic plates. There are a dozen or so examples thought to occur underneath the middle of continental plates – for instance, beneath Yellowstone and the East African rift. “But these are all cases where you do have surface volcanism,” says Simone Pilia at the King Fahd University of Petroleum and Minerals in Saudi Arabia. Oman has no such volcanic clues. Pilia first came to suspect there was a plume beneath Oman “serendipitously” after he began analysing new seismic data from the region. He observed the velocity of waves generated by distant earthquakes slowed down in a cylindrical area beneath eastern Oman, indicating the rocks there were less rigid than the surrounding material due to high temperatures. Other independent seismic measurements showed key boundaries where minerals deep in the Earth change phases in a way consistent with a hot plume. These measurements suggest the plume extends more than 660 kilometres below the surface. The presence of a plume could also explain why the region has continued to rise in elevation long after tectonic compression – a geological process where the Earth’s crust is squeezed together – stopped. It also fits with models of what could have caused a shift in the movement of the Indian tectonic plate. “The more we gathered evidence, the more we were convinced that it is a plume,” says Pilia, who named the geologic feature the “Dani plume” after his son. Unmissable news about our planet delivered straight to your inbox every month. Sign up to newsletter “It’s plausible” that a plume indeed exists there, says Saskia Goes at Imperial College London, adding the study is “thorough”. However, she points out narrow plumes are notoriously difficult to detect. If it does exist, however, the presence of a “ghost plume” contained within the mantle by the relatively thick rocky layer beneath Oman would suggest there are others, says Pilia. “We’re convinced that the Dani plume is not alone.” If there are many other hidden plumes, it could mean more heat from the core is flowing directly through the mantle via plumes, rather than through slower convection, says Goes. “It has implications, potentially, for the evolution of the Earth if we get a different estimate of how much heat comes out of the mantle.” Journal referenceEarth and Planetary Science Letters DOI: 10.1016/j.epsl.2025.119467 Topics:

432 Park Avenue | © Halkin Mason Photography, Courtesy of Rafael Viñoly Architects Located in Midtown Manhattan, 432 Park Avenue is a prominent figure in the evolution of supertall residential towers. Completed in 2015, this 1,396-foot-high building by Rafael Viñoly Architects asserts a commanding presence over the city’s skyline. Its minimalist form and rigorous geometry have sparked considerable debate within the architectural community, marking it as a significant and controversial addition to New York City’s built environment. 432 Park Avenue Technical Information Architects1-8: Rafael Viñoly Architects Location: Midtown Manhattan, New York City, USA Gross Area: 38,344 m2 | 412,637 Sq. Ft. Project Years: 2011 – 2015 Photographs: © Halkin Mason Photography, Courtesy of Rafael Viñoly Architects It’s a building designed for the enjoyment of its occupants, not for the delight of its creator. – Rafael Viñoly 432 Park Avenue Photographs © Halkin Mason Photography, Courtesy of Rafael Viñoly Architects Courtesy of Rafael Viñoly Architects Courtesy of Rafael Viñoly Architects Courtesy of Rafael Viñoly Architects Courtesy of Rafael Viñoly Architects Design Intent and Conceptual Framework At the heart of 432 Park Avenue’s design lies a commitment to pure geometry. The square, an elemental form, defines every aspect of the building, from its floor plate to its overall silhouette. This strict adherence to geometry speaks to Viñoly’s rationalist sensibilities and interest in stripping architecture to its fundamental components. The tower’s proportions, with its height-to-width ratio of roughly 1:15, transform this simple geometry into a monumental presence. This conceptual rigor positions the building as an object of formal clarity and a deliberate statement within the city’s varied skyline. The design’s minimalism extends beyond the building’s shape, reflecting Viñoly’s pursuit of a refined and disciplined expression. Eschewing decorative flourishes, the tower’s form directly responds to programmatic needs and structural imperatives. This disciplined approach underpins the project’s ambition to redefine the experience of vertical living, asserting that luxury in residential design can emerge from formal simplicity and a mastery of proportion. Spatial Organization and Interior Volumes The interior organization of 432 Park Avenue reveals an equally uncompromising commitment to clarity and openness. Each residential floor is free of interior columns, a testament to the structural ingenuity of the concrete exoskeleton. This column-free arrangement grants unobstructed floor plans and expansive panoramic views of the city, the rivers, and beyond. Floor-to-ceiling windows, measuring nearly 10 feet in height, accentuate the sense of openness and lightness within each residence. The tower’s slender core houses the vertical circulation and mechanical systems, ensuring the perimeter remains uninterrupted. This core placement allows for generous living spaces that maximize privacy and connection to the urban landscape. The interplay between structural precision and panoramic transparency shapes the experience of inhabiting these spaces. The result is a sequence of interiors that privilege intimacy and vastness, anchoring domestic life within an architectural expression of purity. Materiality, Structural Clarity, and Detailing Material choices in 432 Park Avenue reinforce the project’s disciplined approach. The building’s exposed concrete frame, treated as structure and façade, lends the tower a stark yet refined character. The grid of square windows, systematically repeated across the height of the building, becomes a defining feature of its visual identity. This modular repetition establishes a rhythmic order and speaks to the building’s underlying structural logic. High-strength concrete enables the tower’s slender profile and exceptional height while imparting a tactile materiality that resists the glassy anonymity typical of many contemporary towers. The restrained palette and attention to detail emphasize the tectonic clarity of the building’s assembly. By treating the structure itself as an architectural finish, Viñoly’s design elevates the material expression of concrete into a fundamental element of the building’s identity. Urban and Cultural Significance As one of the tallest residential buildings in the Western Hemisphere, 432 Park Avenue has significantly altered the Manhattan skyline. Its unwavering verticality and minimal ornamentation create a dialogue with the city’s diverse architectural heritage, juxtaposing a severe abstraction against a backdrop of historic and contemporary towers. 432 Park Avenue occupies a distinctive place in the ongoing narrative of New York City’s architectural evolution. Its reductive form, structural clarity, and spatial generosity offer a compelling study of the power of minimalism at an urban scale. 432 Park Avenue Plans Floor Plans | © Rafael Viñoly Architects Floor Plans | © Rafael Viñoly Architects Floor Plans | © Rafael Viñoly Architects Floor Plans | © Rafael Viñoly Architects 432 Park Avenue Image Gallery © Rafael Viñoly Architects About Rafael Viñoly Architects Rafael Viñoly, a Uruguayan-born architect (1944–2023), founded Rafael Viñoly Architects in New York City in 1983. After studies in Buenos Aires and early practice in Argentina, he relocated to the U.S.. He established a global firm with offices in cities including London, Palo Alto, and Abu Dhabi. Renowned for large-scale, function-driven projects such as the Tokyo International Forum, Cleveland Museum of Art expansions, and 432 Park Avenue, the firm is praised for combining structural clarity, context-sensitive design, and institutional rigor across six continents. Credits and Additional Notes Client: Macklowe Properties and CIM Group Design Team: Rafael Viñoly (Architect), Deborah Berke Partners (Interior Design of residential units), Bentel & Bentel (Amenity Spaces Design) Structural Engineer: WSP Cantor Seinuk Mechanical, Electrical, and Plumbing Engineers: Jaros, Baum & Bolles (JB&B) Construction Manager: Lendlease Height: 1,396 feet (425.5 meters) Number of Floors: 96 stories Construction Years: 2011–2015

The farmhouse, Flint Farm, in North Hertfordshire, was in poor condition with a number of unsympathetic additions that had altered its character over the years. Will Gamble Architects was appointed to restore and extend it for a young couple who wanted to transform it into their long-term family home and improve the house’s relationship with its garden and wider farmyard setting. While the original brief had been to replace an existing conservatory with a new extension, the practice encouraged the client to extend by integrating an adjacent barn into the envelope of the reworked house, changing the way the property was used.Advertisement Existing unsympathetic extensions were removed and the internal layout was reconfigured, with a new linking element added between the barn and farmhouse. The series of internal spaces that has been created is designed to retain the character of the historic listed property. Architect’s view The barn was sensitively restored and converted into an informal living space. Its timber-framed structure was refurbished and left exposed to celebrate the historic fabric of the barn and the craftsmanship of its original construction. A contemporary picture window with parts of the historic timber frame exposed within its reveals frames a view of the garden, as well as the barn’s unique structure. The extension, that links both barn and farmhouse, is deliberately contemporary in appearance to ensure that the historic buildings remain legible. It’s low-rise, built into the sloping garden and particularly lightweight in appearance. Floor-to-ceiling glass sits on a plinth of semi-knapped flint, rooting the intervention into the garden. A ribbon of black steel, with shallow peaks and troughs hovers above. The form of this ribbon draws inspiration from the distinctive black timber-clad gables that characterise the farmhouse and the surrounding outbuildings of the old farmstead. Internally the addition’s structure is exposed, much like the historic timber framed structure of the farmhouse and the barn. The interiors are tactile, defined by texture and pattern and inspired by the characteristics of the old farmstead. Miles Kelsey, associate, Will Gamble ArchitectsAdvertisement Client’s view We bought the farmhouse as a family home to move out of our two-bed flat in north London. Will visited the farmhouse with us whilst we were working through the purchase to understand what we were looking to do and went on to support us through each stage. The farmhouse was a combination of the original 16th century timber-framed building that had been added to with unattractive, unusable, and poorly planned extensions that meant the house was completely disconnected from the garden. Will and Miles transformed the whole house including moving the front door, converting an adjacent barn and building the modern extension as our kitchen and dining room that makes the best of the garden and views. The process that Will and Miles ran was a perfect balance of what we wanted, Sophie’s specific tastes and creativity combined with the benefit of the architects views and what they have done before. What really stood out to us was the way they worked with the council during the planning process so we got consent for almost everything we wanted, expressing their own views but ensuring we were always leading the process and the attention to detail during the build stage. Overall we are incredibly happy with what Will and Miles helped us create and the way they led us through the whole process.   Source:Will Gamble Architects Project data Location North Hertfordshire Start on site April 2023 Completion February 2025 Gross internal floor area 320m2 Form of contract or procurement route JCT MW Building Contract. Design-Bid-Build Architect Will Gamble Architects Client Private Structural engineer Axiom Structures Principal designer Will Gamble Architects Main contractor Elite Construction

Casa Morena | © Fernando Guerra / FG+SG In the coastal enclave of Lagos, Portugal, Mário Martins Atelier has crafted Casa Morena. This residence quietly asserts itself as an ode to the dialogue between architecture and its natural setting. Completed in 2024, this project demonstrates a considered response to its environment, where the interplay of light, material, and landscape defines a sense of place rather than architectural imposition. Casa Morena Technical Information Architects1-5: Mário Martins Atelier Location: Lagos, Portugal Project Years: 2024 Photographs: © Fernando Guerra / FG+SG A simple house, one that wishes to be discreet and to be influenced by its location, to become a house that is pleasant with thoughtful landscaping. – Mário Martins Atelier Casa Morena 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 A Contextual Response to Landscape and Light The design of Casa Morena finds its genesis in the site itself, a pine-scented plot overlooking the expanse of a bay. The pine trees, longstanding witnesses to the landscape’s evolution, provide the project’s visual anchor and spatial logic. In a move that both respects and celebrates these natural elements, Mário Martins Atelier structured the house’s reticulated plan to echo the presence of the trees, creating a composition that unfolds as a series of volumes harmonizing with the vertical rhythm of the trunks. The solid base of the house, built from locally sourced schist, emerges directly from the terrain. These robust walls establish a tactile continuity with the ground, their rough textures anchoring the architecture within the landscape. In contrast, the upper volumes of the house adopt a distinctly lighter expression: horizontal planes rendered in white plaster, their smooth surfaces catching and refracting the region’s luminous sun. This duality, earthbound solidity, and aerial lightness establish an architectural narrative rooted in the elemental. Casa Morena Experiential Flow Casa Morena’s spatial arrangement articulates a clear hierarchy of public and private domains. On the ground floor, the house embraces openness and transparency. An expansive entrance hall blurs the threshold inside and out, guiding inhabitants and visitors into a luminous social heart. The lounge, kitchen, and office flow seamlessly into the garden, unified by a continuous glazed façade that invites the outside in. This deliberate porosity extends to a covered terrace, an intermediary space that dissolves the boundary between shelter and exposure. The terrace, framed by the garden’s green canopy and the swimming pool’s long line, becomes a place of repose and contemplation. The pool itself demarcates the transition from a cultivated garden to the looser, more rugged landscape beyond, its linear form echoing the horizon’s expanse. Ascending to the upper floor, the architectural language shifts towards intimacy. The bedrooms, each with direct access to terraces and patios, create secluded zones that still maintain a fluid relationship with the outdoors. A discreet rooftop terrace, accessible from these private quarters, offers a hidden sanctuary where the interplay of views and light remains uninterrupted. Material Tectonics and Environmental Strategy Casa Morena’s material palette is rooted in regional specificity and tactile sensibility. Schist, extracted from the site, is not merely a structural element but a narrative thread linking the building to its geological past. Its earthy warmth and rugged surface provide a counterpoint to the luminous white of the upper volumes, an articulation of contrast that enlivens the building’s silhouette. White, the chromatic signature of the Algarve region, is employed with restraint and nuance. Its reflective qualities intensify the play of shadow and light, a dynamic that shifts with the passing of the day. In this interplay, architecture becomes an instrument for registering the ephemeral, and the environment itself becomes a participant in the spatial drama. Environmental stewardship is also woven into the project’s DNA. Discreetly integrated systems on the roof harness solar energy and manage water resources, extending the house’s commitment to a sustainable coexistence with its setting. Casa Morena Plans Basement | © Mario Martins Atelier Ground Level | © Mario Martins Atelier Upper Level | © Mario Martins Atelier Roof Plan | © Mario Martins Atelier Elevations | © Mario Martins Atelier Casa Morena Image Gallery About Mário Martins Atelier Mário Martins Atelier is an architectural studio based in Lagos and Lisbon, Portugal, led by Mário Martins. The practice is known for its context-sensitive approach, crafting contemporary projects seamlessly integrating with their surroundings while prioritizing regional materials and environmental considerations. Credits and Additional Notes Lead Architect: Mário Martins, arq. Project Team: Nuno Colaço, Sónia Fialho, Susana Jóia, Mariana Franco, Ana Graça Engineering: Nuno Grave Engenharia Landscape: HB-Hipolito Bettencourt – Arquitectura Paisagista, Lda. Building Contractor: Marques Antunes Engenharia Lda.

Submitted by WA Contents JSWD extends 1960s town hall with interlocking structures and perforated façade in Germany Germany Architecture News - Jun 12, 2025 - 04:18   html PUBLIC "-//W3C//DTD HTML 4.0 Transitional//EN" "http://www.w3.org/TR/REC-html40/loose.dtd" Cologne-based architecture firm JSWD has extended a 1960s town hall with interlocking structures and perforated brick façade in Brühl, Germany.Called Brühl City Hall and Library, the 5,200-square-metre project includes a new construction of the library and refurbishment of the old City Hall.New entrance at the pedestrian zone. Image © Taufik KenanJSWD won the first prize in a competition to built this project in 2017. The competition's goals were to design a proposal for the nearby Janshof Square and to propose an addition to the current town hall. An expansion constructed in the 1960s had to be replaced as part of the renovation.Staggered gables of the new library with partially perforated brickwork. Image © Christa LachenmaierConnecting the new structure to the historic town hall and then refurbishing it in accordance with heritage regulations presented a unique task. The end product is an easily accessible, energy-efficient town hall that satisfies the most recent regulations. It is made to allow for flexible use and to connect different building functions to create synergies.Aerial photo with Brühl Castle in the backygroundAerial photo with Brühl Castle in the backyground. Image © Franco Casaccia / JSWDAbove the civil registry offices (Bürgeramt and Standesamt) are the municipal authorities' offices. The new building has the municipal library on all floors, including a children's library in the basement that leads to a reading courtyard. The town hall is easy to find thanks to its clear signage. The pedestrian area and the now mostly car-free Janshof are also accessible from the new foyer. From here, the roads of tourists and pedestrians that enter the old structure through Markt meet.Aerial view: staggered gables of the new library in the middle of the town. Image © Schmitz.Reichard GmbHThe new structure in Brühl's old city center experiments with the concept of various urban areas and proportions. The front structure creates a cubature that is both distinctive and typical of the area by referencing the shape of the historic town hall. The brickwork is somewhat perforated to filter light entering the underneath windows, and the three interlocking structures are placed with their gables facing the nearby street. The new building's cubic impression is reinforced by the use of the same light-colored bricks for the roof and facade.Historical council chamber. Image © Christa LachenmaierThe project's goal is to be as sustainable as feasible. For instance, the company made every effort to preserve the old building's structure. Children's library at the reading courtyard. Image © Christa LachenmaierA combined heat and power plant provides both heat and energy. Concrete component activation ensures reduced energy consumption in addition to triple-glazed windows, abundant natural light, and exterior solar protection.Staircase in the listed city hall. Image © Franco Casaccia / JSWDLibrary room on the top floor. Image © Franco Casaccia / JSWDLarge dormer of the library. Image © Franco Casaccia / JSWDReading area in the dormer window. Image © Franco Casaccia / JSWDConnection of the new library to the listed town hall. Image © Taufik KenanThe listed city hall of Brühl, restored by JSWD. Image © Franco Casaccia / JSWDImage © Franco Casaccia / JSWDView of the inner courtyard of the library. Image © Franco Casaccia / JSWDLibrary dormers and staggered gables with partially perforated brickwork. Image © Franco Casaccia / JSWDSite planBasement floor planGround floor planFirst floor planSecond floor planThird floor planDetail drawingFaçade detailProject factsProject name: Brühl City Hall and LibraryProgram: New construction of the Library and Refurbishment of the old City HallLocation: Steinweg 1, 50321 Brühl, GermanyClient: City of BrühlArchitecture: JSWD, 1st prize competition 2017Completion: 2023Structural design: Kempen Krause Ingenieure AachenBuilding service engineering: DEERNSLibrary and interior planning: UKW Innenarchitekten, KrefeldLandscape: RMPSL, BonnSite: 4,800m2GFA: 5,200m2The top image in the article: New library of Brühl, Entrance from the Janshof. Image © Taufik Kenan. All drawings © JSWD.> via JSWD

If you’ve ever flown through outer space, at least while watching a documentary or a science fiction film, you’ve seen how artists turn astronomical findings into stunning visuals. But in the process of visualizing data for their latest planetarium show, a production team at New York’s American Museum of Natural History made a surprising discovery of their own: a trillion-and-a-half mile long spiral of material drifting along the edge of our solar system. “So this is a really fun thing that happened,” says Jackie Faherty, the museum’s senior scientist. Last winter, Faherty and her colleagues were beneath the dome of the museum’s Hayden Planetarium, fine-tuning a scene that featured the Oort cloud, the big, thick bubble surrounding our Sun and planets that’s filled with ice and rock and other remnants from the solar system’s infancy. The Oort cloud begins far beyond Neptune, around one and a half light years from the Sun. It has never been directly observed; its existence is inferred from the behavior of long-period comets entering the inner solar system. The cloud is so expansive that the Voyager spacecraft, our most distant probes, would need another 250 years just to reach its inner boundary; to reach the other side, they would need about 30,000 years.  The 30-minute show, Encounters in the Milky Way, narrated by Pedro Pascal, guides audiences on a trip through the galaxy across billions of years. For a section about our nascent solar system, the writing team decided “there’s going to be a fly-by” of the Oort cloud, Faherty says. “But what does our Oort cloud look like?”  To find out, the museum consulted astronomers and turned to David Nesvorný, a scientist at the Southwest Research Institute in San Antonio. He provided his model of the millions of particles believed to make up the Oort cloud, based on extensive observational data. “Everybody said, go talk to Nesvorný. He’s got the best model,” says Faherty. And “everybody told us, ‘There’s structure in the model,’ so we were kind of set up to look for stuff,” she says.  The museum’s technical team began using Nesvorný’s model to simulate how the cloud evolved over time. Later, as the team projected versions of the fly-by scene into the dome, with the camera looking back at the Oort cloud, they saw a familiar shape, one that appears in galaxies, Saturn’s rings, and disks around young stars. “We’re flying away from the Oort cloud and out pops this spiral, a spiral shape to the outside of our solar system,” Faherty marveled. “A huge structure, millions and millions of particles.” She emailed Nesvorný to ask for “more particles,” with a render of the scene attached. “We noticed the spiral of course,” she wrote. “And then he writes me back: ‘what are you talking about, a spiral?’”  While fine-tuning a simulation of the Oort cloud, a vast expanse of ice material leftover from the birth of our Sun, the ‘Encounters in the Milky Way’ production team noticed a very clear shape: a structure made of billions of comets and shaped like a spiral-armed galaxy, seen here in a scene from the final Space Show (curving, dusty S-shape behind the Sun) [Image: © AMNH] More simulations ensued, this time on Pleiades, a powerful NASA supercomputer. In high-performance computer simulations spanning 4.6 billion years, starting from the Solar System’s earliest days, the researchers visualized how the initial icy and rocky ingredients of the Oort cloud began circling the Sun, in the elliptical orbits that are thought to give the cloud its rough disc shape. The simulations also incorporated the physics of the Sun’s gravitational pull, the influences from our Milky Way galaxy, and the movements of the comets themselves.  In each simulation, the spiral persisted. “No one has ever seen the Oort structure like that before,” says Faherty. Nesvorný “has a great quote about this: ‘The math was all there. We just needed the visuals.’”  An illustration of the Kuiper Belt and Oort Cloud in relation to our solar system. [Image: NASA] As the Oort cloud grew with the early solar system, Nesvorný and his colleagues hypothesize that the galactic tide, or the gravitational force from the Milky Way, disrupted the orbits of some comets. Although the Sun pulls these objects inward, the galaxy’s gravity appears to have twisted part of the Oort cloud outward, forming a spiral tilted roughly 30 degrees from the plane of the solar system. “As the galactic tide acts to decouple bodies from the scattered disk it creates a spiral structure in physical space that is roughly 15,000 astronomical units in length,” or around 1.4 trillion miles from one end to the other, the researchers write in a paper that was published in March in the Astrophysical Journal. “The spiral is long-lived and persists in the inner Oort Cloud to the present time.” “The physics makes sense,” says Faherty. “Scientists, we’re amazing at what we do, but it doesn’t mean we can see everything right away.” It helped that the team behind the space show was primed to look for something, says Carter Emmart, the museum’s director of astrovisualization and director of Encounters. Astronomers had described Nesvorný’s model as having “a structure,” which intrigued the team’s artists. “We were also looking for structure so that it wouldn’t just be sort of like a big blob,” he says. “Other models were also revealing this—but they just hadn’t been visualized.” The museum’s attempts to simulate nature date back to its first habitat dioramas in the early 1900s, which brought visitors to places that hadn’t yet been captured by color photos, TV, or the web. The planetarium, a night sky simulator for generations of would-be scientists and astronauts, got its start after financier Charles Hayden bought the museum its first Zeiss projector. The planetarium now boasts one of the world’s few Zeiss Mark IX systems. Still, these days the star projector is rarely used, Emmart says, now that fulldome laser projectors can turn the old static starfield into 3D video running at 60 frames per second. The Hayden boasts six custom-built Christie projectors, part of what the museum’s former president called “the most advanced planetarium ever attempted.”  In about 1.3 million years, the star system Gliese 710 is set to pass directly through our Oort Cloud, an event visualized in a dramatic scene in ‘Encounters in the Milky Way.’ During its flyby, our systems will swap icy comets, flinging some out on new paths. [Image: © AMNH] Emmart recalls how in 1998, when he and other museum leaders were imagining the future of space shows at the Hayden—now with the help of digital projectors and computer graphics—there were questions over how much space they could try to show. “We’re talking about these astronomical data sets we could plot to make the galaxy and the stars,” he says. “Of course, we knew that we would have this star projector, but we really wanted to emphasize astrophysics with this dome video system. I was drawing pictures of this just to get our heads around it and noting the tip of the solar system to the Milky Way is about 60 degrees. And I said, what are we gonna do when we get outside the Milky Way?’ “Then [planetarium’s director] Neil Degrasse Tyson “goes, ‘whoa, whoa, whoa, Carter, we have enough to do. And just plotting the Milky Way, that’s hard enough.’ And I said, ‘well, when we exit the Milky Way and we don’t see any other galaxies, that’s sort of like astronomy in 1920—we thought maybe the entire universe is just a Milky Way.'” “And that kind of led to a chaotic discussion about, well, what other data sets are there for this?” Emmart adds. The museum worked with astronomer Brent Tully, who had mapped 3500 galaxies beyond the Milky Way, in collaboration with the National Center for Super Computing Applications. “That was it,” he says, “and that seemed fantastical.” By the time the first planetarium show opened at the museum’s new Rose Center for Earth and Space in 2000, Tully had broadened his survey “to an amazing” 30,000 galaxies. The Sloan Digital Sky Survey followed—it’s now at data release 18—with six million galaxies. To build the map of the universe that underlies Encounters, the team also relied on data from the European Space Agency’s space observatory, Gaia. Launched in 2013 and powered down in March of this year, Gaia brought an unprecedented precision to our astronomical map, plotting the distance between 1.7 billion stars. To visualize and render the simulated data, Jon Parker, the museum’s lead technical director, relied on Houdini, a 3D animation tool by Toronto-based SideFX. The goal is immersion, “whether it’s in front of the buffalo downstairs, and seeing what those herds were like before we decimated them, to coming in this room and being teleported to space, with an accurate foundation in the science,” Emmart says. “But the art is important, because the art is the way to the soul.”  The museum, he adds, is “a testament to wonder. And I think wonder is a gateway to inspiration, and inspiration is a gateway to motivation.” Three-D visuals aren’t just powerful tools for communicating science, but increasingly crucial for science itself. Software like OpenSpace, an open source simulation tool developed by the museum, along with the growing availability of high-performance computing, are making it easier to build highly detailed visuals of ever larger and more complex collections of data. “Anytime we look, literally, from a different angle at catalogs of astronomical positions, simulations, or exploring the phase space of a complex data set, there is great potential to discover something new,” says Brian R. Kent, an astronomer and director of science communications at National Radio Astronomy Observatory. “There is also a wealth of astronomics tatical data in archives that can be reanalyzed in new ways, leading to new discoveries.” As the instruments grow in size and sophistication, so does the data, and the challenge of understanding it. Like all scientists, astronomers are facing a deluge of data, ranging from gamma rays and X-rays to ultraviolet, optical, infrared, and radio bands. Our Oort cloud (center), a shell of icy bodies that surrounds the solar system and extends one-and-a-half light years in every direction, is shown in this scene from ‘Encounters in the Milky Way’ along with the Oort clouds of neighboring stars. The more massive the star, the larger its Oort cloud [Image: © AMNH ] “New facilities like the Next Generation Very Large Array here at NRAO or the Vera Rubin Observatory and LSST survey project will generate large volumes of data, so astronomers have to get creative with how to analyze it,” says Kent.  More data—and new instruments—will also be needed to prove the spiral itself is actually there: there’s still no known way to even observe the Oort cloud.  Instead, the paper notes, the structure will have to be measured from “detection of a large number of objects” in the radius of the inner Oort cloud or from “thermal emission from small particles in the Oort spiral.”  The Vera C. Rubin Observatory, a powerful, U.S.-funded telescope that recently began operation in Chile, could possibly observe individual icy bodies within the cloud. But researchers expect the telescope will likely discover only dozens of these objects, maybe hundreds, not enough to meaningfully visualize any shapes in the Oort cloud.  For us, here and now, the 1.4 trillion mile-long spiral will remain confined to the inside of a dark dome across the street from Central Park.

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