The 'Siestario' Project Set to Represent Argentina at the 2025 Venice Architecture BiennaleSave this picture! Brian EjsmontThe19th Venice Architecture Biennale 2025 will showcase 'Siestario,' the winning project by architects Juan Manuel Pachu and Marco Zampieron, with Brian Ejsmont as a collaborator. Both architects, graduates of the Faculty of Architecture, Planning, and Design at the National University of Rosario, are also co-founders of Cooperativa, a space dedicated to organizing architecture competitions. Currently, Pachu and Zampieron practice professionally and teach in the city of Rosario, Argentina.Save this picture!The selected project was the result of an open competition organized by the Directorate of Cultural Affairs of the Argentine Ministry of Foreign Affairs and the Chamber of Urban Developers (CEDU), in collaboration with the Argentine Agency for Investments and International Trade (AAICI). The proposal was selected by a jury composed of architect Brbara Berson, representing the Argentine Federation of Architects' Associations (FADEA); architect Daniela Bergaizen, representing the Argentine Agency for Investments and International Trade (AAICI); and architects Gerardo Caballero, Marcelo Faiden, and Mariano Clusellas, representing CEDU. This project will represent the country at the Venice Biennale, which will take place from May 10 to November 23, 2025.With general curatorship by Carlo Ratti and titled "Intelligens. Natural. Artificial. Collective," the Biennale will focus on the interconnectedness of architecture with diverse disciplines, such as art, engineering, biology, data science, and social sciences, all playing a role in shaping the built environment. In this context, the 'Siestario' project presents itself as a reflection on the relationship between architecture and time. This space not only serves as a refuge but also invites visitors to experience a momentary interruption in their journey, where time is suspended, and the experience of the 'siesta' becomes a metaphor for pause and connection. Related Article "Intelligens. Natural. Artificial. Collective": Carlo Ratti Announces Theme and Title for 2025 Venice Architecture Biennale Save this picture!Throughout the room, an inflated and extended silo-bag invades the space, decontextualized from its original function. It retains its essence while resignifying its purpose. Its surreal and strange presence evokes a remnant of another reality: a vestige of the Argentine economy, a fragment suspended in memory. The silo becomes a support for sleep; a soft plastic mattress, immobile, where bodies sink. In the very act of resting, a transition to sleep begins, toward another, undefined time. In this state, the dreamlike permeates the space: desires occupy the walls, filter between bodies, and suspend in the air. The atmosphere transforms into a landscape, where the possible and the uncertain coexist in the indeterminate. Excerpt from the projects presentation by the authors.A reproduction of the silo bag, a temporary storage system widely used in agriculture and a symbol of the Argentine countryside and economy, repurposed and re-signified, will serve as a device for resting the body. In the context of the pavilion and amidst the dynamism of an exhibition like the Biennale, it will offer a space to rest, temporarily pausing the journey and, in essence, taking a 'siesta.' Conceived as a space for collective leisure, the project will also include images, drawings, and blurred photographs, arranged without a chronological order or apparent logic.Save this picture!Save this picture!Save this picture!Among the other finalist projects in the Argentine competition were 'Inventos Colectivos' by Leonardo Rota, which received the first mention, and the proposal 'Instantes de luz' by Joaqun Alarcia, Federico Ferrer Deheza, and Franco Gramaglia, which received the second mention. Several other countries have also announced their participation in the Venice Architecture Biennale 2025. Among them, the Belgian Pavilion will present a project curated by landscape architect Bas Smets focused on architecture through the lens of plant intelligence, while Brazil's proposal led by the Plano Coletivo group aims to open a dialogue on the role of architecture as both a cultural artifact and a tool for addressing global challenges.Image gallerySee allShow lessAbout this authorPaula PintosAuthorCite: Pintos, Paula. "The 'Siestario' Project Set to Represent Argentina at the 2025 Venice Architecture Biennale" ['Siestario': el proyecto que representar a Argentina en la Bienal de Arquitectura de Venecia 2025] 06 Jan 2025. ArchDaily. Accessed . <https://www.archdaily.com/1025104/siestario-the-project-that-will-represent-argentina-at-the-2025-venice-architecture-biennale&gt ISSN 0719-8884Save!ArchDaily?You've started following your first account!Did you know?You'll now receive updates based on what you follow! 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Stainless Steel in Interior Design: Transforming Spaces with Industrial EleganceSave this picture!JHW Store / Atelier TAO+C. Image Fangfang TianAs we close the chapter on 2024, a review of ArchDaily's extensive database projects highlights a few standout interior design trends that defined the year. Among these is the use of stainless steel, often paired with concrete and shades of grey, creating interiors with a refined, industrial elegance. This article delves into the increasing prominence of stainless steel as an interior element, exploring its applications, pairings, and growing appeal despite lingering perceptions of its cold, industrial nature.Mastering Precision: The Rise of Stainless Steel in Contemporary DesignStainless steel has long been associated with a sharp, rigid, and utilitarian aesthetic, often viewed as less luxurious than materials like marble or exotic stone, especially in regions like Asia, where opulent textures are highly prized. However, this perception is gradually shifting. Established retail brands and premium kitchen manufacturers have started to embrace stainless steel more apparently, showcasing its distinct advantages: durability, resistance to wear and tear, and the precise, clean lines it offers. Additionally, when paired with a sanded and matte finish, its ability to subtly reflect light enhances interiors by creating indirect illumination, lending a sense of sophistication often overlooked. Related Article Miniature Architecture: 17 Projects that Explore Interior Design for Children The rise in the popularity of stainless steel can also be attributed to its inherent challenges and the craftsmanship required to work with it. Unlike natural stone or wood, which allows for on-site adjustments such as cutting and sanding, stainless steel offers minimal room for error. The material's rigidity means it exposes even the slightest misalignment or surface irregularity, making flawless execution crucial. In a sense, this material makes it significantly more difficult for builders to cut corners in the process of making. This exacting nature has elevated stainless steel as a material that signals design and construction precision.Save this picture!Much like architectural glass, stainless steel demands foresight in design and meticulous planning in construction. Its sharp, laser-precise edges and alignments, when executed correctly, elevate a project, offering a visual language of technical expertise and high-caliber craftsmanship. Designers who successfully incorporate stainless steel into their projects demonstrate a mastery of sequencing and detail, pushing the material beyond its industrial roots into the realm of modern luxury.Crafting Fluidity: Stainless Steel in Organic FormsTypically perceived as cold, rigid, and sharp-edged, stainless steel takes on a new identity in the projects highlighted below. It challenges these stereotypes to create a hybrid aestheticbalancing its characteristic precision with an organic softness. Through advanced manufacturing techniques, stainless steel tubes are bent into intricate forms, transforming them into display shelves, decorative elements, and spatial features. In the MKR Store in Seville, stainless steel dominates the space, unifying the interior with a striking vertical spiral staircase and precisely bent plates, exemplifying technical rigor and meticulous craftsmanship.Beyond pushing the boundaries of stainless steel's physical properties, as seen in the literal bending of steel plates, the Sandy Liang Store reinterprets the material in innovative ways. Here, stainless steel tubes are shaped into flowing, organic forms, while stainless steel mesh introduces an atypical dimension to the material. This mesh serves as a semi-transparent screen, playing with light, texture, and sound to create a softer, more dynamic presence. Used as wall decor, flexible space dividers, and mesh partitions, the material defines spaces while maintaining openness and imbuing the interior with an airy volume. These creative applications showcase stainless steel's versatility and potential for enhancing user experiences in unexpected and imaginative ways.Sandy Liang Store / Almost StudioSave this picture!Milla Nova Boutique Store / balbek bureauSave this picture!MKR Store in Seville / Guillermo Vzquez ConsuegraSave this picture!Illuminating Interiors and The Reflective Potential of Stainless SteelOne of stainless steel's most underrated qualities is its ability to diffuse and reflect light. Depending on the specified finish, designers can manipulate the material to control the uniformity, brightness, and clarity of the reflected light (or image). This allows for a range of effects, from a softly diffused moir finish to a sharp, crisp reflection subtly dimmed for a refined visual impact.In the design examples below, stainless steel is not just a supporting element but a defining feature, used extensively across architectural surfaces such as walls, floors, and other expansive areas. Unlike projects where the material is employed sparingly in accents, these designs leverage stainless steel as a cohesive, space-defining element. Its reflective properties are skillfully utilized to enhance interior illumination, creating moir-like reflections or, as in the andwander GINZA SIX Store, a dimmed-mirror effect on the floors. Stainless steel's resistance to abrasion and wear makes it particularly well-suited for large-scale applications, including high-traffic areas, where concerns about uneven wear often discourage using more delicate or exotic materials. By carefully specifying the finish, designers can integrate stainless steel seamlessly into the lighting strategy, ensuring it complements and elevates the overall interior design.NINYAS Restaurant / Ignacio Urquiza + apda Ana Paula de AlbaSave this picture!andwander GINZA SIX Store / Jo Nagasaka + Schemata ArchitectsSave this picture!Brunstranda Service Building / Vatn Architecture + Jrgen Tandberg Arkitekt MNALSave this picture!Ton Corner Coffee Shop / TON ArchitectsSave this picture!Beyond Gray: Stainless Steel and its Textural HarmonyOne of the most popular ways to incorporate stainless steel into interior design is within spaces that embrace a neutral, often monochromatic palette. In such projects, the focus shifts from bold colors to the interplay of textures, creating depth and richness. A muted color scheme serves as the perfect canvas for designers to juxtapose, highlight, and experiment with diverse textures. Stainless steel, with its versatile finishes, complements other gray-toned materials such as microcement, concrete, and stone, adding a distinct layer of visual and tactile interest.Within this restrained palette, stainless steel's reflective properties act almost like a secondary medium of light, introducing dynamic visual elements that can resemble the shimmering quality of water reflections. For instance, in the Stravinskij Salon, stainless steel with a moir-mirror finish is paired with gray leather, stone, tiles, and white paint, creating a captivating interplay of materials. Within this highly controlled and sterile material palette, each material contributes a unique quality: stone and tile add texture, white paint provides crisp clarity, gray leather introduces softness, and sandblasted stainless steel adds a luminous depth that amplifies the overall spatial experience. This ability to harmonize and enhance other materials within a gray-toned interior has established stainless steel as one of the standout trends in ArchDaily's 2024 project database.Haus aa / guudpin designSave this picture!Phuffle Restaurant and Caf / Too.architectsSave this picture!JHW Store / Atelier TAO+CSave this picture!Stravinskij Salon / Seear-Budd RossSave this picture!This article is part of an ArchDaily series that explores features of interior architecture, from our own database of projects. Every month, we will highlight how architects and designers are utilizing new elements, new characteristics and new signatures in interior spaces around the world. As always, at ArchDaily, we highly appreciate the input of our readers. If you think we should mention specific ideas, please submit your suggestions.Image gallerySee allShow lessAbout this authorJonathan YeungAuthorCite: Jonathan Yeung. "Stainless Steel in Interior Design: Transforming Spaces with Industrial Elegance" 06 Jan 2025. ArchDaily. Accessed . <https://www.archdaily.com/1025349/stainless-steel-in-interior-design-transforming-spaces-with-industrial-elegance&gt ISSN 0719-8884Save!ArchDaily?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

Project Files: https://www.patreon.com/posts/119401964 .In this episodes of the top down shooter series, I am going to implement an auto shoot/ auto attack system for the player to attack enemies similar to the game "Deep Rock Galactic: Survivor". So, player will still control characters movement, but the player character will automatically attack enemies. So the player character will determine the closest enemies are automatically target them and start firing. CodeLikeMe Top Down shooter series: https://www.youtube.com/playlist?list=PLNTm9yU0zou4pEFizUOVzcM5roBFYa1oN CodeLikeMe Third-Person shooter series: https://www.youtube.com/playlist?list=PLNTm9yU0zou4HL7SAyIQoCqJRJ5QeQAl8 // ! https://www.patreon.com/codelikeme Patrons will have access to project files of all the stuff I do in the channel and other extra benefitsJoin this channel to get access to perks:https://www.youtube.com/channel/UClb6Jh9EBV7a_Nm52Ipll_Q/join Like my facebook page for more content : https://www.facebook.com/gamedevelopersclub/ Follow me on twitter : https://twitter.com/CodeLikeMe2 Follow me on reddit : https://www.reddit.com/user/codelikeme #CodeLikeMe #unrealengine #ue5 #indiegamedev

An astronomer describes how the moon's surface temperature changes.

While World of Warcraft Classic may have had a pretty big 2024 with three versions filled with content, Blizzard seems to be taking things even further in 2025. Not only can players expect to see more adventures within World of Warcraft Classic, but the Season of Discovery is also set to continue with its final content phase for now. If that was not enough, the newest version of WoW Classic will also be forging ahead, making for an extremely packed year of content for fans to enjoy.

Genshin Impact has officially unveiled Yumemizuki Mizuki as a 5-Star Anemo character from Inazuma, set to make her playable debut in Version 5.4. With Version 5.3 expected to wrap up the storyline in Natlan, Genshin Impact is preparing its players for a small adventure in Inazuma in the upcoming update. Its Flagship Event will take place in Inazuma and will largely revolve around the yokai, with Yae Miko taking center stage.

Fighting games possess some of the most iconic and recognizable rosters of characters across the entire medium of video games. Fighting games allow players to express and represent themselves and their playstyle via diverse rosters of characters that each come alongside their own strengths and weaknesses.

In 2024, Artificial Intelligence (AI) hit the limelight with major advancements. The problem with reaching common knowledge and so much public attention so quickly is that the term becomes ambiguous. While we all have an approximation of what it means to use AI in something, its not widely understood what infrastructure having AI in your project, product, or feature entails.So, lets break down the concepts that make AI tick. How is data stored and correlated, and how are the relationships built in order for an algorithm to learn how to interpret that data? As with most data-oriented architectures, it all starts with a database.Data As CoordinatesCreating intelligence, whether artificial or natural, works in a very similar way. We store chunks of information, and we then connect them. Multiple visualization tools and metaphors show this in a 3-dimensional space with dots connected by lines on a graph. Those connections and their intersection are what make up for intelligence. For example, we put together chocolate is sweet and nice and drinking hot milk makes you warm, and we make hot chocolate.We, as human beings, dont worry too much about making sure the connections land at the right point. Our brain just works that way, declaratively. However, for building AI, we need to be more explicit. So think of it as a map. In order for a plane to leave CountryA and arrive at CountryB it requires a precise system: we have coordinates, we have 2 axis in our maps, and they can be represented as a vector: [28.3772, 81.5707].For our intelligence, we need a more complex system; 2 dimensions will not suffice; we need thousands. Thats what vector databases are. Our intelligence can now correlate terms based on the distance and/or angle between them, create cross-references, and establish patterns in which every term occurs.A specialized database that stores and manages data as high-dimensional vectors. It enables efficient similarity searches and semantic matching.Querying Per ApproximationAs stated in the last session, matching the search terms (your prompt) to the data is the exercise of semantic matching (it establishes the pattern in which keywords in your prompt are used within its own data), and the similarity search, the distance (angular or linear) between each entry. Thats actually a roughly accurate representation. What a similarity search does is define each of the numbers in a vector (thats thousands of coordinates long), a point in this weird multi-dimensional space. Finally, to establish similarity between each of these points, the distance and/or angles between them are measured.This is one of the reasons why AI isnt deterministic we also arent for the same prompt, the search may produce different outputs based on how the scores are defined at that moment. If youre building an AI system, there are algorithms you can use to establish how your data will be evaluated. This can produce more precise and accurate results depending on the type of data. The main algorithms used are 3, and Each one of them performs better for a certain kind of data, so understanding the shape of the data and how each of these concepts will correlate is important to choosing the correct one. In a very hand-wavy way, heres the rule-of-thumb to offer you a clue for each:Cosine SimilarityMeasures angle between vectors. So if the magnitude (the actual number) is less important. Its great for text/semantic similarityDot ProductCaptures linear correlation and alignment. Its great for establishing relationships between multiple points/features.Euclidean DistanceCalculates straight-line distance. Its good for dense numerical spaces since it highlights the spatial distance.INFOWhen working with non-structured data (like text entries: your tweets, a book, multiple recipes, your products documentation), cosine similarity is the way to go.Now that we understand how the data bulk is stored and the relationships are built, we can start talking about how the intelligence works let the training begin!Language ModelsA language model is a system trained to understand, predict, and finally generate human-like text by learning statistical patterns and relationships between words and phrases in large text datasets. For such a system, language is represented as probabilistic sequences.In that way, a language model is immediately capable of efficient completion (hence the quote stating that 90% of the code in Google is written by AI auto-completion), translation, and conversation. Those tasks are the low-hanging fruits of AI because they depend on estimating the likelihood of word combinations and improve by reaffirming and adjusting the patterns based on usage feedback (rebalancing the similarity scores).As of now, we understand what a language model is, and we can start classifying them as large and small.Large Language Models (LLMs)As the name says, use large-scale datasets &mdash with billions of parameters, like up to 70 billion. This allows them to be diverse and capable of creating human-like text across different knowledge domains.Think of them as big generalists. This makes them not only versatile but extremely powerful. And as a consequence, training them demands a lot of computational work.Small Language Models (SLMs)With a smaller dataset, with numbers ranging from 100 million to 3 billion parameters. They take significantly less computational effort, which makes them less versatile and better suited for specific tasks with more defined constraints. SLMs can also be deployed more efficiently and have a faster inference when processing user input.Fine-TunningFine-tuning an LLM consists of adjusting the models weights through additional specialized training on a specific (high-quality) dataset. Basically, adapting a pre-trained model to perform better in a particular domain or task.As training iterates through the heuristics within the model, it enables a more nuanced understanding. This leads to more accurate and context-specific outputs without creating a custom language model for each task. On each training iteration, developers will tune the learning rate, weights, and batch-size while providing a dataset tailored for that particular knowledge area. Of course, each iteration depends also on appropriately benchmarking the output performance of the model.As mentioned above, fine-tuning is particularly useful for applying a determined task with a niche knowledge area, for example, creating summaries of nutritional scientific articles, correlating symptoms with a subset of possible conditions, etc.Fine-tuning is not something that can be done frequently or fast, requiring numerous iterations, and it isnt intended for factual information, especially if dependent on current events or streamed information.Enhancing Context With InformationMost conversations we have are directly dependent on context; with AI, it isnt so much different. While there are definitely use cases that dont entirely depend on current events (translations, summarization, data analysis, etc.), many others do. However, it isnt quite feasible yet to have LLMs (or even SLMs) being trained on a daily basis.For this, a new technique can help: Retrieve-Augmented Generation (RAG). It consists of injecting a smaller dataset into the LLMs in order to provide it with more specific (and/or current) information. With a RAG, the LLM isnt better trained; it still has all the generalistic training it had before but now, before it generates the output, it receives an ingest of new information to be used.INFORAG enhances the LLMs context, providing it with a more comprehensive understanding of the topic.For an RAG to work well, data must be prepared/formatted in a way that the LLM can properly digest it. Setting it up is a multi-step process:RetrievalQuery external data (such as web pages, knowledge bases, and databases).Pre-ProcessingInformation undergoes pre-processing, including tokenization, stemming, and removal of stop words.Grounded GenerationThe pre-processed retrieved information is then seamlessly incorporated into the pre-trained LLM. RAG first retrieves relevant information from a database using a query generated by the LLM. Integrating an RAG to an LLM enhances its context, providing it with a more comprehensive understanding of the topic. This augmented context enables the LLM to generate more precise, informative, and engaging responses.Since it provides access to fresh information via easy-to-update database records, this approach is mostly for data-driven responses. Because this data is context-focused, it also provides more accuracy to facts. Think of a RAG as a tool to turn your LLM from a generalist into a specialist.Enhancing an LLM context through RAG is particularly useful for chatbots, assistants, agents, or other usages where the output quality is directly connected to domain knowledge. But, while RAG is the strategy to collect and inject data into the language models context, this data requires input, and that is why it also requires meaning embedded.EmbeddingTo make data digestible by the LLM, we need to capture each entrys semantic meaning so the language model can form the patterns and establish the relationships. This process is called embedding, and it works by creating a static vector representation of the data. Different language models have different levels of precision embedding. For example, you can have embeddings from 384 dimensions all the way to 3072.In other words, in comparison to our cartesian coordinates in a map (e.g., [28.3772, 81.5707]) with only two dimensions, an embedded entry for an LLM has from 384 to 3072 dimensions.Lets BuildI hope this helped you better understand what those terms mean and the processes which encompass the term AI. This merely scratches the surface of complexity, though. We still need to talk about AI Agents and how all these approaches intertwine to create richer experiences. Perhaps we can do that in a later article let me know in the comments if youd like that!Meanwhile, let me know your thoughts and what you build with this!Further Reading on SmashingMagUsing AI For Neurodiversity And Building Inclusive Tools, Pratik JoglekarHow To Design Effective Conversational AI Experiences: A Comprehensive Guide, Yinjian HuangWhen Words Cannot Describe: Designing For AI Beyond Conversational Interfaces, Maximillian PirasAIs Transformative Impact On Web Design: Supercharging Productivity Across The Industry, Paul Boag

Weekly curated resources for designersthinkers andmakers.We could argue all day about which things are fundamentally different in an AI-first world, but one undeniable difference is that the more intelligent technology gets, the fewer visible interfaces a human sees.()With each automated decision, we remove a choice, a slice of agency, from the user. As we do this more often, we begin to leave some of our personality behind. If the algorithms are an average of our calculated habits, then living on autopilot will leave us regressing toward themean.Reclaiming your humanity in an algorithmic world By Joe BernsteinIs your UX Research reaching its full potential in business decisions? [Sponsored] Join leading UX research experts as we explore the reasons why UX research is undervalued despite the high demand for it. Well also look at practical ways to reframe research to tackle visibility issues and enhance its impact on the business.Editor picksWhat does it mean to have an experience? Different definitions shape product perspectives.By RogerLaureanoAI and cognitive offloading Sharing the thinking process with machines.By Tetiana SydorenkoMaking product quality a team sport Two intentional rituals you should try.By AletheiaDelivreThe UX Collective is an independent design publication that elevates unheard design voices and helps designers think more critically about theirwork.The challenge with design sprints, by Elan MillerMake methinkEthical web principles These principles are not merely theoretical; they constitute a call to action. They encourage everyone involved in the webs evolution to assess their contributions societal and environmental impacts. We can create a web that truly benefits everyone by adhering to these principles.Resist summary The output of Large Language Models (AI) is an aid to learning extremely simple things, and it is an impediment to learning anything complex or creative. I worry that without a complex model in ones own mind, one may never notice complex relationships that are otherwise missed. A loss of attention todetail.The web is too big, or scaling down Ultimately, though, the problem with this situation isnt that Mozilla or Firefox arent good enough. Its that the web is too complicated. A browser is an extraordinarily complex piece of software.Little gems thisweekWhat we can learn from the 7 worst designs ByBenRedefining chatbot design in the age of AI By Wojciech WasilewskiHow tabs changed the way we browse By ElvisHsiaoTools and resourcesRewards strategies How Duolingo, Nike, and Amazon use rewards to keep you hooked.By Angele LenglemetzShould AI write your alt text? Its time you write alt text on every meaningful image.By AlliePaschalUX storytelling Practical advice, not vague analogies, on how to use UX storytelling.By KaiWongSupport the newsletterIf you find our content helpful, heres how you can supportus:Check out this weeks sponsor to support their worktooForward this email to a friend and invite them to subscribeSponsor aneditionReclaiming your humanity, cognitive offloading, UX storytelling was originally published in UX Collective on Medium, where people are continuing the conversation by highlighting and responding to this story.