Amazon Prime members are eligible for free gifts this month (Picture: Ina FASSBENDER / AFP)Amazon Prime members are eligible for free gifts more than 335 and this is not an April Fools joke.The service reveals freebies are available for those paying for Prime membership each month, giving them greater value for their money.Included in this months batch are a bunch of free games, with the full list below, including Minecraft Legends and Mafia III: Definitive Edition.The releases will be staggered throughout the month, with more unlocked every Thursday.Prime Gaming is offering several free titles throughout April, with the first game available to claim starting today! Amazons Chris Leggett explained in a blog post.This months lineup allows players to take on piglin bases by day and defend allies after dusk inMinecraft Legendsand follow Kai, a lone operative war hero on an adventure in a futuristic world inhabited by sentient robots inGravity Circuit. Minecraft Legends is one of the games available to download for free this month (Picture: Jakub Porzycki/NurPhoto/Shutters)Full list of Amazon Prime games available for free in April:Here are all the games available for to download now for free from Amazon Gaming:Mafia III: Definitive EditionMinecraft LegendsGravity CircuitPaleo PinesClouds & Sheep 2Later this month, the following games will also become available:From April 10: DreadOut2ENDLESS SpaceGods TriggerNew York Mysteries: Power of Art Collectors EditionProjection: First LightFaraway: Directors CutApril 17:GloomhavenThe Last SpellFashion Police SquadGenesis NoirBlood Omen: Legacy of KainBerserk BoyThe Last Show of Mr ChardishWild CountryApril 24: Thief GoldTroublemakerKraken Academy!!Priest Simulator: Vampire ShowAccording to The Sun,the total cost of these 23 games racks up to 335.72.How to claim the free Amazon Prime gamesIts as simple as having an Amazon Prime membership, and downloading the games from Prime Gaming.More TrendingPrime Gaming is included within an Amazon Prime membership, which also gets you a monthly Twitch channel subscription and other perks.Some games are available to play with Amazons cloud gaming service Luna, with no PC or gaming console required.Got a story?If youve got a celebrity story, video or pictures get in touch with the Metro.co.uk entertainment team by emailing us celebtips@metro.co.uk, calling 020 3615 2145 or by visiting our Submit Stuff page wed love to hear from you.GameCentralSign up for exclusive analysis, latest releases, and bonus community content.This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply. Your information will be used in line with our Privacy Policy

In 1977, two probes launched less than a month apart on a mission to the great beyond. The twin Voyager spacecraft were to travel where no other mission had gone before, exploring what lies outside the vast bubble that surrounds our solar system, beyond the influence of our host star. Voyager 1 reached the beginning of interstellar space in 2012, while Voyager 2 reached the boundary in 2018, traveling beyond the protective bubble surrounding the solar system known as the heliosphere. The Voyager probes were the first spacecraft to cross into interstellar space and have been exploring the unfamiliar region for nearly 48 years. But all good things must come to an end, and the iconic mission is gradually losing steam as it approaches oblivion. The Voyagers are powered by heat from decaying plutonium, which is converted into electricity. Each year, the aging spacecraft lose about 4 watts of power. In an effort to conserve power, the mission team has turned off any systems that were deemed unnecessary, including a few science instruments. Each Voyager spacecraft began with 10 instruments, but now have just three each. The two spacecraft now have enough power to operate for another year or so before engineers are forced to turn off two more instruments. The Voyager team, some of whom have worked on the mission since it first began, are forced to make these tough decisions to keep the mission going, in addition to coming up with creative solutions to resolve menacing glitches that affect the spacecraft as they weather the harsh space environment. Linda Spilker, the Voyager missions project scientist, spoke to Gizmodo about the challenges that come with operating the outdated spacecraft, and passing on the knowledge of the Voyagers to the newer generations of scientists and engineers who have joined the mission.This interview has been lightly edited for clarity and length. Passant Rabie, Gizmodo: How long have you worked on the Voyager mission? Spilker: I started working on Voyager in 1977, it was my first job out of college, and I had a choice between the Viking extended mission or the Voyager mission. I, of course, hadnt heard of Voyager. So I said, wheres Voyager going? And they said, well, Jupiter and Saturn and onto Uranus and Neptune with Voyager 2 if all goes well. And I thought, oh my goodnessI remember in third grade, I got a little telescope I used to use to look at the Moon and look at Jupiter and Saturn, and look for little moons around Jupiter and see if I could spot the rings around Saturn. So the thought of a chance to go visit these worlds that were really only tiny dots in my little telescope, I said, sign me up. Gizmodo: How has the mission evolved over the years? Spilker:The number of people that are working on and flying Voyager is a whole lot smaller than it was in the planetary days. Weve turned off a lot of instruments on Voyager. We had some pretty big teams with the remote sensing instruments, the cameras, the spectrometers, etc, that are out on a boom on the end of the spacecraft. As the instruments turned off, the mission got smaller.There really was the thinking after Neptune, that Voyager would probably only last a few more years and so they had a very small team, and they kind of were, in a sense, basically neatening up everything and putting Voyager in a mode that could operate longterm. A lot of the engineers, as well as the scientists, were rolling off the mission, leaving just a very small operations team for what we call the Voyager interstellar mission. The challenge was, can we reach the heliopause? We didnt know where it was, we had no idea how far away it was. We got to Neptune, and then we thought, well, maybe its just another 10 [astronomical units] or so, a little bit further, a little bit further. And so every time we got a little bit further, the modelers would go back, scratch their heads and say, ah, it could be a little bit more, a little bit farther away, and so on and on that continued, until finally, Voyager 1 crossed the heliopause in 2012. If you think about that, thats like 21 years after the start of the mission. And then, six years after that, Voyager 2 crossed the heliopause, and ever since then, theyve been flying in interstellar space, making unique measurements about the particles in interstellar space, the cosmic ray abundance, the magnetic field. Basically, its a chance to exploreonce you cross that boundary, theres a whole new region, a whole new realm out there in interstellar space. Gizmodo: Is it an emotional decision to turn off Voyagers instruments? Spilker: I was talking to the cosmic ray instrument lead, and I said, Wow, this must really be tough for you to see your instrument turned off. He helped build the instrument in the early 1970s. This instrument thats been sending you data, and thats been part of your life for over 50 years now. And he said, it was hard to think about turning it off for the whole team. Its kind of like losing a best friend, or someone thats been a part of your life for so many years, and then suddenly, its silent.At the same time, theres this pride that you were part of that, and your instrument got so much great dataso its a mix of emotions. Gizmodo: What are the challenges that come with operating a mission for this long? Spilker: The spacecraft was built in the 1970s, and so thats the technology that we had in those days. And we didnt have very much computer memory, so we had to be very careful and think through what we could do with this tiny amount of computer memory.So the challenge with these aging components is, how long until a key piece fails? Were well past the warranty of four years. We also have less power every year, about 4 watts less power so we have to find 4 watts per year to turn off on the spacecraft. The spacecraft had a lot of redundancy on it, so that means two of every computer and two of all the key components. Weve been able to turn off those backup units, but were now at the point where, to really get a significant amount of power, all thats left are some of the science instruments to turn off. So, thats where were at. Then, of course, if you have less power, the temperature goes down inside. Theres something called a bus that has all the electronics inside, and thats getting colder and colder. Along the outside of the bus are these tiny lines of hydrazine that go to the thrusters, so we started to worry about the thermal constraints. How cold can the lines get before they freeze? How cold can some of these other components get before they stop working? So thats another challenge. But were hopeful that we can get one, possibly two, spacecraft to the 50th anniversary in 2027. Then there are individual tiny thrusters that align the spacecraft and keep that antenna pointed at the Earth so we can send the data back, and theyre very slowly clogging up with little bits of silica, and so their puffs are getting weaker and weaker. Thats another challenge that were going through to balance.But were hopeful that we can get one, possibly two, spacecraft to the 50th anniversary in 2027. Voyagers golden anniversary, and perhaps even into the early 2030s with one, maybe two, science instruments. Gizmodo: What about the language that the spacecraft use? Spilker: They use something called machine language, and I think its a language thats unique to Voyagers program. There are three different computers, an attitude control computer, another computer for commands, and another computer that basically configures the data and sends it back to the ground. So you have to configure these very tiny memories, and its in a machine language that nobody really uses anymore. We got some experts to come back and help us solve some of the problems weve had on the spacecraft, or other engineers who have had to learn the machine language. We had a chip failure on one of the computers, so we had to reprogram that computer and so we brought in some experts, and they really enjoyed it, trying to troubleshoot and figure out whats wrong. And it was like a detective story, you know, what can we do? And they figured it out, and it worked. With Voyager, what often happens is, everything looks really good and then something goes wrong on the spacecraft. And in this case, all of a sudden we went from data coming back every day to just a tone, a signal that said the spacecraft is still there.One good analogy is going from getting letters from Voyageryou open them up and read about whats happening every dayto now getting a letter, opening it, and finding it blank. You have no information coming back from Voyager. Imagine your computer fails, and the screen is dark We were sending up commands and trying to figure out what happened, and ultimately got something called a memory readout, and we found that a chip had failed. We knew which parts of the computer programs were on that chip, and then it was a matter of taking those pieces and then finding enough free space on the rest of the computer to reprogram it and get it to work again. But in bringing in those people, where do you start? In the 70s, we didnt have the computers we do today. A lot of Voyager material is in memos, and sometimes the memos are scanned in a PDF file. And so you have to go on, literally, a sort of a hunting, like, which would be the most useful for me to look at. Some of the engineers had a big diagram up on the wall of what the computer looked like and all the paths that it had to go through to figure it all out. And they just stuck sticky notes all over as they were figuring it out.It was a mix of bringing in people who really knew and understood that computerone of the retirees really understands the flight data system computerand subject matter experts, and we would get them up to speed and have them work with the Voyager team. Meanwhile, the scientists are patiently waiting for their data to come back. Gizmodo: Youmentioned that the team has gotten smaller over the years. Is it basically the same people that have been working on the mission all along or do you have to bring in new people and fill them in?Spilker: As you can imagine, most of the people are new. There are really only a handful that helped build the instruments in the 1970s, and a few of the scientists that are left have worked on the mission from the beginning until now. Weve actually brought back some people who retired, who were there in that time frame of building and coding Voyager, so they have come back and now work part time. Retirees are very happy to come back and help us. And then, of course, a lot of younger people that have come on and bring their own experiences, and so weve been training several new people recently into the roles that we need to operate. On the science side, theres a series of guest investigatorsbasically modelers and theoristswho work with the scientists on the Voyager teams to help pass that knowledge forward. In other words, to mentor the next generation of scientists who might want to work with the data in the future. Gizmodo: As a scientist, what have been the most important things that youve learned from the Voyager mission?Spilker:Voyager left breadcrumbs, clues for future missions to come. One of Voyagers goals was to see through to the surface of Saturns Moon, Titan. We didnt know if it could have liquid oceans on the surface, or what the surface looked like. During Voyagers close flyby of Titan, we found that none of its instruments or camera filters could penetrate through the haze. It looked like a bad day in a smoggy city. It was Voyagers discovery, or non-discovery, of not being able to see the surface of Titan, that led to the Cassini mission. After Voyagers flyby, NASA and the European Space Agency got together and said, we need to go back. I had a chance to go work on Cassini. I got in very early, and helped formulate the mission concept. I spent around 30 years on Cassini, and then the mission ended in 2017. At that point, I was thinking of retiring but then I got the opportunity to go back to Voyager and work with Edward Stone [who served as project scientist for Voyager from 1972 to 2022] and the science team, and go back to the mission where I first started. I went home and I told my husband, I dont think Im going to retire.Spilker explains the tradition of lucky peanuts, which date back to the Ranger Project in the 1960s, at a gathering in Von Karman Auditorium at NASAs Jet Propulsion Laboratory in Pasadena, California. Credit: NASA/JPL-Caltech Gizmodo: How does it feel now that the mission is approaching its end? Spilker:Were hoping to get one or both spacecraft to Voyagers golden anniversary, and thats going to be in 2027. As we get closer to the end of the mission, for me personally, its kind of like wrapping up my career in a waybecause Ill probably retire once the Voyager mission ends. Im just really, really happy to have been a part of it. Gizmodo: Theres always this debate of whether we should launch another interstellar probe. Im wondering how you feel about that? Spilker:I think it would be a great idea, it could even go further than Voyager. We know that material mostly comes from supernova explosions, and that those explosions create bubbles in space filled with material that came from the exploding star. Earth and the rest of the planets are inside this heliopause [the outer edge of the bubble that surrounds our solar system]. But there are other bubbles.You can imagine, every time you have a supernova, you get a new bubble, and those bubbles are all there in space. How far do you have to keep going to reach another bubble? And what is it like to get farther and farther away from the Sun? One of the questions of the Voyager mission is, how far does the Suns influence continue into interstellar space? Were still working and thinking about an interstellar probe that would go much, much farther than Voyager. Youre talking about a multi-generation mission. Gizmodo: Should we have already launched one? Spilker:Theres so many interesting places to go. Prior to Voyager, we had no idea what the heliopause was like. Then getting this sort of taste of interstellar space makes us want to go back. Its like going to so many places, you get to answer all these questions and make tremendous discoveries, but you leave behind a list of questions thats much longer than the ones you answered.Gizmodo: Do you worry that we wont be able to recreate a mission like Voyager again under the current circumstances at NASA? Spilker:Were entering a new and interesting era. You have the private industry wanting to play a bigger role in getting us to space. In a certain sense, some of these bigger rockets could deliver a mission to Uranus or Neptune in a much shorter time. I see hopeful signs, but its always tough when you have budgets to balance and other things to look out for. But if you look at when I started at NASAs Jet Propulsion Laboratory to now, the number of missions that are flying in space whether theyre missions to planets or to study our Sunthere are so many more missions today. Theres just been sort of a blossoming of scientific missions and our understanding of our place in the universe. So Im hopeful, theres always tough times to weather. Weve been through tough times before, and I think well weather this one.

NSA 14 205 Social Housing Units for EMVS / Ricardo Snchez GonzlezSave this picture! Imagen SubliminalSocial HousingMadrid, SpainArchitects: Ricardo Snchez GonzlezAreaArea of this architecture projectArea:150000 mYearCompletion year of this architecture project Year: 2025 PhotographsPhotographs:Imagen SubliminalMore SpecsLess SpecsSave this picture!Text description provided by the architects. The development is located in the "Nuestra Seora de los ngeles" neighborhood, on a 9,798.26 m plot with a maximum buildable area of 15,930 m for residential use. It consists of two blocks measuring approximately 70x18 meters, with a height of up to eight floors.Save this picture!Save this picture!The proposal seeks to soften the robust volumetry of the complex through subtle zigzag folds that add dynamism to the faade without compromising the functionality of the dwellings. The circulation cores integrate these shifts, allowing natural light to enter the distribution corridors.Save this picture!The main access is from Avenida de San Diego, leading to a porticoed ground floor that serves as a communal meeting space and opens onto a central garden. Each block features two stairwells and a core with four elevators, organizing the apartments around a longitudinal gallery. The layouts define distinct day and night areas, optimizing circulation and spatial perception, with strategically placed terraces enhancing the living experience.Save this picture!The project prioritizes universal accessibility, incorporating barrier-free pathways, elevators connecting all levels, and gentle slopes in the landscaped areas. The faades are designed with an External Thermal Insulation System (SATE) and terraces are protected by sliding perforated metal lattice screens, allowing for adjustable lighting and privacy control. The architectural solution balances functionality, integration with the surroundings, and a design that fosters social interaction and spatial quality.Save this picture!Save this picture!Project gallerySee allShow lessAbout this officePublished on April 05, 2025Cite: "NSA 14 205 Social Housing Units for EMVS / Ricardo Snchez Gonzlez" 05 Apr 2025. ArchDaily. Accessed . <https://www.archdaily.com/1028239/nsa-14-205-social-housing-units-for-emvs-ricardo-sanchez-gonzalez&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

Join this channel to get access to perks:https://www.youtube.com/@cghow/join Candy Crush Style Heart Burst Effect in UE5 NiagaraDownload - https://shorturl.at/YXyfC FAB - https://www.fab.com/sellers/CGHOW Whatsapp - https://bit.ly/3LYvxjK Patreon- https://www.patreon.com/Ashif NFT - https://opensea.io/CGHOW Twitter - https://twitter.com/cghow_ If you Liked it - http://bit.ly/2UZmiZ4 Channel Ashif - http://bit.ly/3aYaniw Support me on - paypal.me/9953280644 #cghow #UE5 #UE4Niagara #gamefx #ue5niagara #ue4vfx #niagara #unrealengineniagara #realtimevfxVisit - https://cghow.com/ Unreal Engine Marketplace - https://bit.ly/3aojvAa Artstation Store - https://www.artstation.com/ashif/store Gumroad - https://cghow.gumroad.com/

A new full-body reconstruction depicts a warrior wearing armor and holding weapons, all of which were found in a 4,000-year-old burial in Siberia.

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RTSpaceXThe @framonauts flew aboard Dragons 17th human spaceflight mission with 66 crewmembers now having flown aboard the spacecraft and became the first Dragon crew to splash down in the Pacific Ocean

Meta Platforms plans to release the latest version of its large language model later this month, after delaying it at least twice, the Information reported on Friday, as the Facebook owner scrambles to lead in the AI race.Meta, however, could push back the release of Llama 4 again, the report said, citing two people familiar with the matter.Big technology firms have been investing aggressively in AI infrastructure following the success of OpenAI's ChatGPT, which altered the tech landscape and drove investment into machine learning.The report said one of the reasons for the delay is during development, Llama 4 did not meet Meta's expectations on technical benchmarks, particularly in reasoning and math tasks.The company was also concerned that Llama 4 was less capable than OpenAI's models in conducting humanlike voice conversations, the report added.Meta plans to spend as much as $65 billion (roughly Rs. 5,39,000 crore) this year to expand its AI infrastructure, amid investor pressure on big tech firms to show returns on their investments.Additionally, the rise of the popular, lower-cost model from Chinese tech firm DeepSeek challenges the belief that developing the best AI model requires billions of dollars.The report said Llama 4 is expected to borrow certain technical aspects from DeepSeek, with at least one version slated to employ a machine-learning technique called mixture of experts method, which trains separate parts of models for specific tasks, making them experts in those areas.Meta has also considered releasing Llama 4 through Meta AI first and then as open-source software later, the report said.Last year, Meta released its mostly free Llama 3 AI model, which can converse in eight languages, write higher-quality computer code and solve more complex math problems than previous versions. Thomson Reuters 2025

Artificial intelligence has made its way into a wide variety of markets.1. AI in healthcare: The biggest bets are on improving patient outcomes and reducing costs. Companies are applying machine learning to make better and faster medical diagnoses than humans. One of the best-known healthcare technologies is IBM Watson. It understands natural language and can respond to questions asked of it. The system mines patient data and other available data sources to form a hypothesis, which it then presents with a confidence scoring schema. Other AI applications include using online virtual health assistants and chatbots to help patients and healthcare customers find medical information, schedule appointments, understand the billing process and complete other administrative processes. An array of AI technologies is also being used to predict, fight and understand pandemics such as COVID-19.2. AI in business: Machine learning algorithms are being integrated into analytics and customer relationship management (CRM) platforms to uncover information on how to better serve customers. Chatbots have been incorporated into websites to provide immediate service to customers. The rapid advancement of generative AI technology such as ChatGPT is expected to have far-reaching consequences: eliminating jobs, revolutionizing product design and disrupting business models.3. AI in education: AI can automate grading, giving educators more time for other tasks. It can assess students and adapt to their needs, helping them work at their own pace. AI tutors can provide additional support to students, ensuring they stay on track. The technology could also change where and how students learn, perhaps even replacing some teachers. As demonstrated by ChatGPT, Google Bard and other large language models, generative AI can help educators craft course work and other teaching materials and engage students in new ways. The advent of these tools also forces educators to rethink student homework and testing and revise policies on plagiarism.4. AI in finance: AI in personal finance applications, such as Intuit Mint or TurboTax, is disrupting financial institutions. Applications such as these collect personal data and provide financial advice. Other programs, such as IBM Watson, have been applied to the process of buying a home. Today, artificial intelligence software performs much of the trading on Wall Street.5. AI in law: The discovery process -- sifting through documents -- in law is often overwhelming for humans. Using AI to help automate the legal industry's labor-intensive processes is saving time and improving client service. Law firms use machine learning to describe data and predict outcomes, computer vision to classify and extract information from documents, and NLP to interpret requests for information.6. AI in entertainment and media: The entertainment business uses AI techniques for targeted advertising, recommending content, distribution, detecting fraud, creating scripts and making movies. Automated journalism helps newsrooms streamline media workflows reducing time, costs and complexity. Newsrooms use AI to automate routine tasks, such as data entry and proofreading; and to research topics and assist with headlines. How journalism can reliably use ChatGPT and other generative AI to generate content is open to question.7. AI in software coding and IT processes: New generative AI tools can be used to produce application code based on natural language prompts, but it is early days for these tools and unlikely they will replace software engineers soon. AI is also being used to automate many IT processes, including data entry, fraud detection, customer service, and predictive maintenance and security.8. AI in Security: AI and machine learning are at the top of the buzzword list security vendors use to market their products, so buyers should approach with caution. Still, AI techniques are being successfully applied to multiple aspects of cybersecurity, including anomaly detection, solving the false-positive problem and conducting behavioral threat analytics. Organizations use machine learning in security information and event management (SIEM) software and related areas to detect anomalies and identify suspicious activities that indicate threats. By analyzing data and using logic to identify similarities to known malicious code, AI can provide alerts to new and emerging attacks much sooner than human employees and previous technology iterations.9. AI in manufacturing: Manufacturing has been at the forefront of incorporating robots into the workflow. For example, the industrial robots that were at one time programmed to perform single tasks and separated from human workers, increasingly function as cobots: Smaller, multitasking robots that collaborate with humans and take on responsibility for more parts of the job in warehouses, factory floors and other workspaces.10. AI in banking: Banks are successfully employing chatbots to make their customers aware of services and offerings and to handle transactions that don't require human intervention. AI virtual assistants are used to improve and cut the costs of compliance with banking regulations. Banking organizations use AI to improve their decision-making for loans, set credit limits and identify investment opportunities.11. AI in transportation: In addition to AI's fundamental role in operating autonomous vehicles, AI technologies are used in transportation to manage traffic, predict flight delays, and make ocean shipping safer and more efficient. In supply chains, AI is replacing traditional methods of forecasting demand and predicting disruptions, a trend accelerated by COVID-19 when many companies were caught off guard by the effects of a global pandemic on the supply and demand of goods.Copyrights: Martin Onyisi(Tech with Martony)#techwithmartony #utility #innovative #NewsUpdate #technique #ML #interior #TechInnovation #foryoupage #softwaredeveloper #me #Free #FreeShipping #techtips #tech #technology