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thepotentialof2007 · 3 months

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But who made Lewis do it, to bet on a Ferrari that's been losing for almost two decades?

Leo Turrini interviews Aldo Costa about working with Hamilton and Schumacher

A vegan menu is already ready at [Ristorante] Montana. Guess for whom.

While waiting to enjoy it in the company of the person to whom it will be dedicated (the menu), I chatted with a gentleman who has known those two up close and personal. Aldo Costa, my dear friend.

Costa: "Michael Schumacher and Lewis Hamilton have a lot in common. But there are also significant differences between them. However, it is beautiful that the two most successful drivers in F1 history have chosen to link their name to Ferrari."

Aldo Costa, now technical director of the wonderful Dallara ("From the Parma hills we deal with 17 automotive projects, from IndyCar to Formula E"), Aldo Costa, I said, is the only Top engineer to have worked with both Schumi and with Hamilton. At Maranello he was part of the Dream Team of Montezemolo and Todt. In Mercedes, he won everything and more with Lewis.

Engineer, who is better between the two?

Costa: "I refuse to answer, this is a provocation. I want to say right away that Michael and Lewis are less far apart than you might imagine. Both have always had a very analytical approach to things off track. They are meticulous, very professional. They know that at certain levels it's the details that shift the balance, that determine the outcome."

From the outside Schumi looked like a robot, an alien....

Costa: "Wrong impression! Michael was very human in the work. He would sit there with the engineers and calmly convey his feelings about the car he was driving. He was never obsessive, that's it."

In contrast, Hamilton?

Costa: "Same dough. Lewis I got to know better, because in Mercedes I had a role that put me in more direct contact with the driver. He and I were symbiotic. Hamilton, like Schumi, asks for trust and trusts you."

That must be why the two of them won 14 world titles.

Costa: "So. Then, of course, they are also distinct and distant from each other."

In what sense?

Costa: "You see, they belong to non-overlapping cultures. Can I give an example? Schumacher was the last driver of an era when cars were developed on the track, through continuous testing on the asphalt. And in this he was formidable, unique I dare say."

Hamilton was not.

Costa: "No. Lewis belongs to the time of the simulator.They changed the rules. In short: Michael was always behind the wheel, Hamilton almost never because he can't. Not surprisingly, Schumi when he returned to racing in 2010, with no more circuit testing, he had a bad time. He, the simulator, just really hated it."

But other than that, the substance, I mean as achievements and victories, has not changed.

Costa: "Indeed, because we are talking about two Phenomena! I will give you another example. Schumi determined tire development with his testing, because he could do it. In Hamilton's era, the tires are baptized first by the sole supplier, and the greatness of the driver lies in his ability to make the most out of tires right away that he does not know, that he did not have a hand in choosing beforehand. And in this he is an absolute master, as Michael was in his world."

But who made Lewis do it, to bet on a Ferrari that's been losing for almost two decades?

Costa: "Well, he is an instinctive one. He followed his heart. It's not a turn dictated by the God of money."

But what are the chances that...

Costa: "I won't answer here. In Maranello they know they have a lot of things to fix..."

Does he think Hamilton will pull in technicians he trusts from the Mercedes school?

Costa:"I don't know. When he came over to Mercedes in 2013, leaving McLaren, he presented just himself. They called him crazy, but you know how it went."

One last thing, dear Costa. Since everyone understood that in 2011 the Ferrari made an own goal by torpedoing you from the role of technical director, in short , yes, would you go back to Maranello with your friend Lewis?

Costa: "No. I am happily ... married to engineer Dallara, by the way we collaborate with the Cavallino on the Le Mans project."

Hamilton will win without Costa.

Costa: "For the good it brings him, I wish him well."

#lewis hamilton #michael schumacher #aldo costa #ferrari #f1 #red team signs lh #preseason #2024 #leo turrini #mercedes amg f1 #racecar design and engineering #translated from the italian via deepl

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padawansuggest · 2 years

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Jaster: *speaks minimum basic* Oh, I love rural fairs! I wonder if they have… what do you call it when you have a car accident on purpose?

Jango: *a 10 year old polyglot translator for his Buir already* A crime?

Jaster: Nyac, the game!

Jango: It’s not a game to play with people’s lives.

Jaster: Nyac, ner’ad! The- the one where you drive together? *rapid fire Mando’a confusion*

Jango: I’m sorry, didn’t catch that part.

Jaster: Oi! Okay the ‘automotive emergency simulator’ they have at rural fairs.

Jango: …how do you have an easier time remembering harder words than you mean?

Jaster: Well, normally I do it to mess with you, but right now, in this conversation, it’s a curse.

Jango: Amazing, you’re thinking of bumper cars, and I think they’re on the other side of the fair grounds.

Jaster: *heavily accented with excitement* I love boomper cars.

#star wars #incorrect star wars quotes #jaster mereel #jango fett #part two comin on this one they are on a fair on Stewjon

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charlottefree · 9 months

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Isaiah (The Holy Seed)

Harris Rosenblum

French Green Cosmetic Clay, MicroSD card boot drive(Headless Debian 12 Distribution, text files for published sequences plasmodial slime molds, text files for all published sequences of Chytrid fungus, multithreaded python script which recombines text files while searching for duplicate strings of text, CAD files and simulation scripts used in production of the object), sand, CNC machined acrylic, Polylactic Acid, wargame flocking, custom machined brass hardware, lamp black pigment, gum arabic, automotive filler primer, Nitrocellulose based enamel paint, stainless steel hardware, custom made anodized aluminum M3 socket, head bolts

#Harris Rosenbaum #wargame flocking

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rofnal203 · 3 months

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2024’s Ultimate GPU Showdown: The Best Options for Your Needs

Introduction

Welcome to our blog where we are diving into the realm of high-performance computing and graphics processing units. In this article, we’ll be exploring the anticipated 2024 GPU showdown, analyzing the best options available to cater to a wide range of needs. Whether you’re a avid gamer, a content creator, or a professional in need of top-notch visualization capabilities, we’ve got you covered. Join us as we unravel the most promising GPU options and help you make an informed decision for your specific requirements.

The Evolution of GPU Architecture: What to Expect in 2024

The advancements in AI integration are set to revolutionize the rendering process, promising more efficient graphics processing and improved overall performance. Furthermore, the increased focus on ray tracing technology will undoubtedly elevate the visual quality of graphics, delivering more realistic lighting, shadows, and reflections in graphical output. Another key feature on the horizon is the enhanced support for 8K and virtual reality displays, which will cater to the escalating demand for high-resolution and immersive experiences. Notably, the continued emphasis on power efficiency and thermal management will be a driving force behind the development of cooler, quieter, and more energy-efficient GPUs, ensuring optimal performance while maintaining sustainable computing solutions.

Rising Demand for AI and Machine Learning Capabilities in GPUs

The increasing integration of AI and machine learning applications in various industries such as healthcare, finance, and automotive is propelling the demand for more powerful GPU capabilities. As these technologies continue to advance, the need for GPUs with enhanced parallel processing and deep learning capabilities is becoming increasingly apparent. GPU manufacturers are directing their efforts towards developing specialized hardware and software solutions tailored to the specific requirements of AI and machine learning workloads, addressing the growing demand for GPUs optimized to handle neural networks and large datasets.

The Role of Ray Tracing in Next-Generation Graphics Cards

The integration of ray tracing technology in next-generation GPUs is poised to revolutionize the gaming and graphics industry. By simulating the behavior of light in virtual environments, ray tracing will offer unparalleled levels of detail and accuracy, bringing about an unprecedented level of visual fidelity. This advancement not only enhances the visual quality of games but also opens up new possibilities for interactive storytelling in industries such as architecture and film production. Moreover, the cinematic-quality visuals generated in real-time will undoubtedly elevate the immersive experience for both gamers and content creators, setting new standards for visual excellence.

Advancements in Cooling Technology for High-Performance GPUs

Liquid cooling solutions have gained traction in the realm of high-performance GPUs, as they excel in dissipating heat effectively while operating quietly. Additionally, manufacturers are focusing on the development of innovative fan designs with advanced blade technology to enhance airflow and minimize noise levels in GPU cooling systems. Furthermore, the integration of phase-change materials in cooling solutions presents a promising trend, offering efficient heat transfer and improved thermal management. Moreover, the utilization of advanced thermal interface materials (TIMs) is optimizing the contact between the GPU die and cooling solutions, ultimately enhancing overall thermal performance. These advancements in cooling technologies are poised to elevate the efficiency and effectiveness of GPU thermal management.

Impact of Quantum Computing on Future GPU Development

The integration of quantum computing principles into GPU development has the potential to redefine the landscape of computational power and speed. By leveraging the capabilities of quantum computing, future GPUs are poised to deliver unprecedented performance, making real-time ray tracing and AI-driven features more accessible than ever. This innovative approach to GPU architecture holds the promise of enhancing graphics rendering for complex visual tasks and virtual reality experiences, ushering in a new era of computational efficiency and capabilities. The convergence of quantum computing and GPU development may unleash a wave of advancements that revolutionize the field of graphics processing.

Comparing the Top GPU Models of 2024

The 2024 NVIDIA GTX 12800 sets a new standard with its exceptional ray tracing capabilities, catering to the needs of both gamers and digital artists seeking unparalleled visual fidelity and performance. On the other hand, AMD’s Radeon RX 9800 emerges as a powerhouse in the realm of 8K gaming, delivering seamless performance and breathtaking visuals, setting a new benchmark for immersive gaming experiences. For those seeking cost-effective options, the Intel Xe-HP 9600 presents an enticing choice, offering impressive 4K gaming performance while prioritizing efficient power consumption. Additionally, the ASUS ROG Strix RTX 12600 Ti distinguishes itself with its exceptional cooling system, ensuring low temperatures even during the most demanding tasks, making it an appealing option for users with high-performance needs. Each GPU presents a compelling option catering to a diverse range of user preferences and requirements.

How to Choose the Right GPU for Your Gaming Setup

When it comes to selecting a GPU, it’s essential to carefully consider your budget and performance needs. While high-end options may offer better graphics, they often come with a higher price tag, so weighing the cost against the desired performance is crucial. Additionally, researching the compatibility of the GPU with your gaming setup is vital. Factors such as power supply requirements, physical dimensions, and available ports can significantly impact the overall functionality of the GPU within your system. It’s also important to take into account the specific games you play and their recommended system requirements to ensure the chosen GPU can handle your favorite titles at optimal settings. Lastly, don’t overlook additional features such as ray tracing, DLSS, or software suites that may enhance your gaming experience based on your preferences and usage. Each of these considerations plays a pivotal role in selecting the right GPU for your gaming needs.

Maximizing Performance: The Best GPUs for Content Creation

When it comes to high-resolution video editing, the NVIDIA GeForce RTX 3090 is a standout choice with its massive 24GB of GDDR6X memory, ensuring smooth playback and rendering of 8K footage. For graphic designers and illustrators, the NVIDIA Quadro RTX 6000 offers superb support for Adobe Creative Suite and other design software, providing unparalleled stability and accuracy. If your workflow involves real-time visual effects and virtual production, the AMD Radeon VII’s 16GB of HBM2 memory and high bandwidth make it a powerhouse for demanding real-time applications. Additionally, for 3D rendering and complex simulations, the AMD Radeon Pro W6800X Duo delivers exceptional multi-GPU performance, making it ideal for professional content creators. Each of these GPUs caters to specific creative needs, offering optimal performance for different aspects of content creation and design work.

Budget-Friendly GPU Options for Every Need

For casual gamers or office work, the NVIDIA GeForce GTX 1650 offers solid performance without breaking the bank. Its affordability and reliable performance make it an ideal choice for everyday use. If you’re into content creation, the AMD Radeon RX 580 provides a cost-effective solution with great rendering capabilities. Its ability to handle rendering tasks efficiently makes it a valuable asset for content creators seeking an affordable yet capable solution. Gamers looking for a budget-friendly option with ray tracing support can consider the NVIDIA GeForce RTX 2060 for an optimal gaming experience. The inclusion of ray tracing support at an affordable price point opens up a new level of visual immersion for budget-conscious gamers. For those seeking a versatile GPU that balances price and performance, the AMD Radeon RX 5600 XT is a compelling choice with its excellent value proposition. Its balance of affordability and performance makes it a strong contender for those seeking a well-rounded gaming experience without breaking the bank.

Future-Proofing Your System: Upcoming GPU Technologies

In 2024, the ultimate GPU showdown is poised to showcase cutting-edge technologies that aim to revolutionize gaming and professional workstations. With a focus on advancements in AI and machine learning, the upcoming GPUs are anticipated to deliver unprecedented performance for handling complex computational tasks with ease. As users look for the best options to meet their needs in 2024, the emphasis will be on efficiency, prioritizing high frame rates and real-time ray tracing capabilities for truly immersive gaming experiences. Moreover, future-proofing your system with these upcoming GPU technologies will ensure compatibility with next-generation games and software, maximizing longevity and overall value for users.

Conclusion

In 2024, the GPU landscape is set to deliver an array of cutting-edge technologies that will redefine gaming and professional workstations. From the increasing importance of AI and machine learning capabilities to the pivotal role of ray tracing in next-generation graphics cards, the ever-evolving GPU architecture promises to revolutionize the way we experience visual content. As users seek to optimize their systems for gaming, content creation, and everyday use, the careful selection of GPUs based on performance, price, and specific needs will be crucial. Whether it’s maximizing performance with GPUs tailored for content creation or identifying budget-friendly options, the choices available cater to a wide range of user requirements. Looking ahead, with the constant evolution of GPU technologies, future-proofing your system will be essential to ensure compatibility with next-generation games and software, ultimately maximizing longevity and overall value for users.

#devlog #coding #indiedev

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katemorrison211 · 6 months

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Unlocking Success in Mechanical Engineering: Your Trusted Mechanical Engineering Assignment Helper

Are you passionate about mechanical engineering but often find yourself struggling with complex assignments and projects? Fret not! You've just landed on the ultimate resource for guidance and assistance. Welcome to a world where your mechanical engineering endeavors become smoother and more rewarding. In this extensive blog post, we'll explore how a dedicated mechanical engineering assignment helper can be your key to academic and professional success.

Why Mechanical Engineering Matters: Mechanical engineering is the backbone of many industries, from automotive and aerospace to energy and manufacturing. It involves designing, analyzing, and optimizing mechanical systems and structures. As a mechanical engineering student or professional, you are on the path to shaping the future by solving real-world problems and making life-changing innovations.

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The Evolution of Mechanical Engineering: The practice of mechanical engineering has evolved significantly over the years. Today, it's not just about nuts and bolts but also about cutting-edge technology. With the advent of digital tools and simulations, mechanical engineers can design and test complex systems with greater precision and efficiency.

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Case Studies and Success Stories: Let's take a look at some real-life case studies and success stories in the field of mechanical engineering. These stories will inspire you and demonstrate how professionals overcome challenges and achieve remarkable results.

Case Study 1: The Mars Rover The design and construction of the Mars rovers, such as Curiosity and Perseverance, exemplify the cutting-edge work of mechanical engineers. These rovers are equipped with advanced systems to explore the Martian surface, collect data, and make groundbreaking discoveries.

Case Study 2: The World of Sustainable Energy Mechanical engineers play a pivotal role in developing sustainable energy solutions. Solar panels, wind turbines, and advanced batteries are just a few examples of their contributions. We'll delve into these innovations and discuss the challenges they address.

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The Importance of Continuous Learning: In the world of engineering, learning never stops. We'll discuss the significance of continuous education, staying updated with industry trends, and networking with fellow engineers. This is crucial for staying competitive and ensuring a successful career.

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#academia #college life #study motivation #studying #Mechanical Engineering Assignment Help #Mechanical Engineering #Education #University #Students #Professional Guide #Expert Advice

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leafsprings · 6 months

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The Evolution of Leaf Spring Technology in the Automotive Industry

Leaf springs have been a fundamental component of vehicle suspension systems for centuries, providing stability and support to a wide range of vehicles. Their evolution over time has been a remarkable journey, showcasing advancements in material science, design, and engineering to meet the changing needs of the automotive industry.

Early Beginnings

The concept of leaf springs dates back to ancient civilizations, where horse-drawn carriages utilized flexible wooden or metal strips to provide support and cushioning. As the automotive industry emerged, these early leaf springs were adapted for use in early automobiles. Initially, simple semi-elliptical springs made of multiple layers of steel were employed to handle the vehicle's weight and smooth out the ride.

Transition to Modern Materials

With the advent of the industrial revolution, the automotive industry witnessed a shift towards the use of high-strength steel alloys. These alloys offered increased durability and resilience compared to traditional materials. By the mid-20th century, advancements in metallurgy allowed for the production of leaf springs with superior strength-to-weight ratios, enhancing their overall performance and longevity.

Multi-Leaf and Mono-Leaf Spring Designs

In the mid-20th century, engineers began experimenting with different leaf spring designs to improve suspension performance. Multi-leaf springs, which featured several thinner leaves stacked on top of each other, gained popularity due to their ability to distribute weight more evenly and provide a smoother ride.

Later, the mono-leaf spring design emerged, utilizing a single, thicker leaf with varying thicknesses along its length to optimize load distribution and enhance ride comfort. Mono-leaf springs offered advantages in terms of reduced weight, improved handling, and ease of manufacturing.

Composite Leaf Springs

In recent decades, the automotive industry has explored innovative materials such as composite materials for leaf springs. Composite leaf springs are manufactured using reinforced plastics or composite fibers, offering significant weight savings compared to traditional steel leaf springs. This reduction in weight contributes to improved fuel efficiency and reduces the vehicle's overall carbon footprint.

Composite leaf springs are also known for their corrosion resistance, enhanced fatigue life, and the ability to be precisely tailored to specific load requirements. They have become increasingly prevalent in both commercial and passenger vehicles, representing a modern and sustainable approach to leaf spring technology.

Computer-Aided Design and Simulation

The advent of computer-aided design (CAD) and simulation technologies has revolutionized leaf spring design and optimization. Engineers can now use sophisticated software to model, analyze, and simulate various leaf spring configurations, enabling them to fine-tune designs for optimal performance, durability, and cost-effectiveness. This technology has significantly accelerated the development process and facilitated the creation of highly efficient leaf spring designs.

Future Trends and Innovations

Looking ahead, the future of leaf spring technology in the automotive industry appears promising. Advancements in materials science, such as the integration of carbon fiber and other advanced composites, hold the potential to further reduce weight and enhance the performance of leaf springs.

Moreover, research into smart materials and adaptive suspension systems may lead to leaf springs that can adjust their characteristics in real-time, optimizing the ride and handling based on driving conditions and load variations. These innovations will play a crucial role in shaping the automotive landscape, promoting sustainability, fuel efficiency, and improved driving experiences.

In conclusion, the evolution of leaf spring technology in the automotive industry has been a remarkable journey of innovation and adaptation. From humble beginnings as simple wooden or metal strips to the sophisticated composite leaf springs of today, this fundamental suspension component continues to evolve, driven by advancements in materials, design methodologies, and engineering techniques. As we continue to push the boundaries of technology, the leaf spring remains a vital element in ensuring a safe, comfortable, and efficient ride for vehicles of all kinds.

#leaf springs #leaf spring

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usafphantom2 · 2 years

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Modified X-62 jet helps accelerate the development of tactical autonomy

The Air Force Research Laboratory has invested millions in the modernization of an F-16 to make it relevant to the challenges of 21st century fighters.

Fernando Valduga By Fernando Valduga 08/22/2022 - 12:00 PM in Military

NF-16D VISTA jet, designated X-62 by the USAF.

The Strategic Development Planning and Experimentation office of the Air Force Research Laboratory invested $15 million upgrading an old F-16 fighter of decades of service provided to make it relevant to the combat challenges of the 21st century.

AFRL's Autonomous Aircraft Experimentation team is using a highly modified NF-16 from the U.S. Air Force School of Test Pilots, a newly designated X-62 aircraft, to accelerate the development of tactical autonomy for unmanned aircraft.

Matthew Niemiec, leader of the portfolio of autonomous aircraft experiments, said that the updates to the X-62, also known as VISTA, include software that allows you to imitate the performance characteristics of other platforms. He said he can also host a variety of autonomy behaviors, including those of the Skyborg Autonomy Control System and others provided by third-party partners in the industry.

Skyborg is a cutting-edge project of the Department of the Air Force that reported the transition from open modular autonomy to allow mass combat using low-cost unmanned aircraft. These vehicles will be equipped with autonomy systems and will assist human-mannered aircraft to carry out critical missions.

Since March 2021, the Autonomous Aircraft Experimentation team has performed 16 live test events focused on the evaluation of the Skyborg Autonomy Control System on unmanned aerial vehicles Kratos XQ-58 Valkyrie, UTAP-22 Mako and General Atomics MQ-20 Avenger.

"The data generated during these tests, along with the feedback provided by our user community, shows that in order to quickly develop and mature tactical autonomy on an appropriate schedule, it is necessary to invest and use a mature and tactically relevant platform," Niemiec said.

The X-62 uses a "safety sandbox" that allows the integration and flight of modeled aerial vehicles, control laws and autonomy capabilities. Unlike unmanned aerial vehicles such as Valkyrie, Mako and Avenger, the X-62 has room for a crew of two, including a pilot who can supervise the performance of the autonomy control system, similar to the way the automotive industry has tested autonomous driving capabilities.

"The ground and in-flight tests on the X-62 are one of several steps we are taking to build critical information networks and physical storage infrastructure necessary to enable the rapid development of autonomy," Niemiec said. "The goal by the fall of 2022 is to have it flying next to an unmanned platform, with both using tactically relevant sensors while flying with autonomy behaviors. We are also building a robust simulation environment to capture operator feedback and integrate their entries into our autonomy development process.”

Two systems have been modified on the X-62. One of them is the VISTA simulation system, which allows the aircraft to imitate the flight characteristics of a different plane. The other is the simulation's autonomous control system, which enables different autonomous behaviors to fly the plane.

"When you combine these two features, you get a tactically relevant aircraft that allows quick testing of autonomy capabilities, as well as proving the interface requirements necessary for different vehicle platforms," Niemiec said.

He said that Skyborg and other advanced autonomy development efforts, such as DARPA's Air Combat Evolution (Advanced Defense Research Project Agency) can leverage the X-62 as a replacement for testing high-risk autonomous maneuvers, in parallel with unmanned aircraft development efforts that are evaluating new-risk vehicle model designs.

"Since we have a safety pilot, we can always disable him and improve our performance to test the autonomy capacity by 10 times," Niemiec said.

VISTA's safety flight system can also automatically disengage the VISTA simulation system when the limits of your safety sandbox are violated, allowing larger and riskier measures to be taken without impact on flight safety, he said.

Dr. M. Christopher Cotting, director of research at USAF Test Pilot School, said that VISTA is maintained and operated under a partnership with Calspan Corporation and Lockheed Martin Skunkworks. The USAF Test Pilot School acts as the main integrator, manager and organization of VISTA tests.

"The USAF Pilot Test School has been home to the NF-16D VISTA since 2001," Cotting said. “It has been used to expose students to a wide range of aircraft dynamics, allowing students to experiment firsthand with 'good' and 'dangerous' aircraft after being discussed and analyzed in the classroom.”

VISTA has also been a risk mitigation platform for future USAF technologies.

"After a long history of support for the School of Test Pilots [USAF] and the U.S. Air Force, the aircraft's research systems were becoming obsolete and unsustainable," Cotting said.

As part of the transformation to the X-62 VISTA, Lockheed Martin Skunkworks designed the Simulation Autonomous Control system, a new system for VISTA. This highly flexible computer architecture allows VISTA to test a wide variety of standalone systems.

Another integral part of the transformation was the new VISTA simulation system that Calspan Corporation designed and installed. Lockheed Martin Skunkworks contributed the model's tracking algorithm, an improved modeling structure capability for the simulation system. The improvements allow VISTA to support a wide range of aircraft simulation and various research control laws.

Cotting said that the model's tracking algorithm supports a modeling structure that can be distributed openly to researchers.

"Once researchers have integrated their simulation models, the new VISTA simulation system can take these models and implement them easily on the X-62," he said.

"Normally, a new control system for an aircraft can take years to implement in an aircraft," Cotting said. "With VISTA, a new control system can be installed and operated in just a few months. Once installed, changes can be made overnight to modify the control system based on the information learned during that day's flight test."

The X-62 VISTA was developed to be a technology demonstrator and a risk reduction platform. For example, the control laws used to fly the Joint Strike Fighter were first used in VISTA before the first flight of the attack fighter, reducing significant technical and safety risks.

"LOOK's simulation structure is flexible enough to allow aircraft designers the chance to fly their aircraft before they leave the ground," Cotting said. “Although modern simulation laboratories are getting much better at aircraft simulation, they still cannot replicate some of the unknowns of operating an aircraft in a relevant flight environment. VISTA and its simulation system allow digital aircraft designs to be 'tested in flight' before the aircraft is built."

Niemiec said AFRL is working with several industry partners to integrate advanced tactical performance vehicle designs, along with state-of-the-art autonomy features on the X-62.

" VISTA will allow us to parallel the development and testing of cutting-edge artificial intelligence techniques with new designs of unmanned vehicles," he said. "This approach, combined with tests focused on new vehicle systems as they are produced, will quickly mature autonomy for unmanned platforms and allow us to provide tactically relevant capacity for our combatant."

Tags: AFRLMilitary AviationNF-16 VIEWUSAF - United States Air Force / U.S. Air ForceX-62

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Fernando Valduga

Aviation photographer and pilot since 1992, he has participated in several events and air operations, such as Cruzex, AirVenture, Dayton Airshow and FIDAE. He has works published in a specialized aviation magazine in Brazil and abroad. He uses Canon equipment during his photographic work in the world of aviation.

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f1 · 1 year

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Alonso to join Aston Martins Pirelli tyre test next month | RaceFans Round-up

In the round-up: Aston Martin’s new hire will perform tyre testing duties for the team next month. In brief Aston Martin call upon race drivers for Pirelli test Aston Martin’s new driver Fernando Alonso and team mate Lance Stroll will drive their 2022 car in the Pirelli tyre test being conducted by the team next month. Pirelli is testing with several teams during the off-season to aid the development of their next tyre compounds for F1, and Aston Martin’s test is taking place at Spanish track Jerez. The team plan for Alonso to drive on the seventh and Stroll will take over the AMR22 the next day. Chadwick to continue Williams simulator work Williams have announced three-time W Series champion Jamie Chadwick’s role within their young driver development programme will not change despite the relocation of her racing career to the United States. Chadwick, who was champion of the Formula Regional-spec-W Series in 2019, 2021 and ’22, will race for Andretti Autosport in Indy Nxt this year. She was signed by Williams as a development driver in 2019 (with the team’s Driver Academy not created until 2020), and two years ago the team decided to increase her involvement within the team by giving her more time in their simulator in Grove, England. Williams already announced at the end of 2022 that they would continue their support of Chadwick into 2023, and on Wednesday added that she “will continue with a personalised simulator programme to aid in her progression as a driver and provide valuable support to the team’s race preparations” through 2023. Sato funded move to IndyCar after F1 career ended Sato has scaled back to an oval-only campaign for 2023 Takuma Sato has explained on motorsport journalist Marshall Pruett’s podcast how he self-funded his move into IndyCar back in 2010 after his Formula 1 career came to an end. The Japanese driver raced in F1 from 2002 to 2008, and was in contention to race for Toro Rosso in 2009 but ended up with a year on the sidelines before joining IndyCar with KV Racing Technology. After 13 years of full-time competition in the series with five different teams, and six wins, he has decided to scale back to only contesting the oval races for 2023 and has moved to Chip Ganassi Racing. “Of course, all the drivers want to be always professional, always want to be employed and admitted on your performance,” said Sato. “But sometimes these things are not going that simple, and I thought now is the time I really need to open the door myself even using just pure personal budget, at the very beginning. I was confident that I could get it back in the end. It took time, of course!” Using his own income, Sato got his first IndyCar seat aged 33. He’s now 45, and has been earning money by driving since then thanks to pay cheques from teams wanting his services but also in earnings from major races like the Indianapolis 500, which he has won twice. McLaren welcome new engineering scholars University of Auckland mechanical engineering students Sabrina Yarndley and Joshua Cates have been selected as the latest recipients of McLaren Automotive’s Bruce McLaren engineering scholarship. The pair will work in Woking’s iconic McLaren Technology Centre for three months, undertaking jobs in multiple departments of the road car firm. Advert | Become a RaceFans supporter and go ad-free Happy birthday! Happy birthday to Markg! On this day in motorsport 65 years ago today Stirling Moss scored the first wins for Cooper and Climax engines in the Argentinian Grand Prix, while Juan Manuel Fangio came fourth in his last home race via RaceFans - Independent Motorsport Coverage https://www.racefans.net/

#F1 #Alonso to join Aston Martin’s Pirelli tyre test next month | RaceFans Round-up #Formula 1

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sunnyinside1 · 2 years

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#hud #unit #for #car

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avnnetwork · 3 days

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Precision at Its Best: Explore the Cutting-Edge Features of CAD Design Platform

In the realm of design and engineering, precision isn’t just a goal; it's a mandatory criterion that drives the success of every project, big or small. Computer-Aided Design (CAD) platforms have become the cornerstone of achieving this level of accuracy, offering a suite of features that transform the way professionals create, modify, and optimize their designs. As technology evolves, CAD platforms continue to impress with their innovative features and capabilities, pushing the boundaries of what's possible in design and manufacturing.

1. Enhanced 3D Modeling Tools

One of the most significant advantages of modern CAD platforms is their enhanced 3D modeling capabilities. These tools allow designers to construct detailed and layered three-dimensional models of their projects, offering a visualization that is as close to reality as possible. From complex components of automotive engineering to intricate architectural structures, 3D modeling tools help in building, viewing, and editing every tiny detail of the model, making it easier to identify potential issues early in the design process. Visit https://cadbase.rs/

2. Intuitive User Interfaces

Today’s CAD platforms are designed with user experience in mind. The intuitive user interfaces make it easy for professionals, whether seasoned experts or beginners, to navigate through complex design processes. With drag-and-drop functionality, customizable toolbars, and gesture navigation, users can streamline their workflow, thereby increasing efficiency and reducing the time spent on design iterations.

3. Advanced Simulation Tools

Simulation tools embedded within CAD platforms are groundbreaking. They allow designers to put their models through various real-world scenarios and observe how they react to different conditions such as stress, pressure, temperature, and airflow. This not only ensures that the product is viable in real-life conditions but also saves costs and time associated with physical prototyping and testing.

4. Seamless Collaboration Features

Collaboration is key in large-scale projects where multiple stakeholders are involved. Modern CAD systems are equipped with features that facilitate seamless collaboration among team members, regardless of their physical location. Cloud-based sharing, real-time feedback and changes, version control, and access permissions ensure that every member of the team stays updated and can contribute effectively to the project’s development.

5. Comprehensive Material Libraries

Access to comprehensive material libraries is another feature that significantly boosts the functionality of CAD platforms. These libraries include a wide range of materials, each with its predefined properties such as weight, strength, texture, and cost. Designers can simulate different materials to see how they affect the overall functionality and aesthetics of the design, making informed choices that optimize both performance and cost.

6. Integration with Other Software

The ability to integrate with other software enhances the versatility of CAD tools. Whether it’s project management software, ERP systems, or specialized engineering applications, integration capabilities ensure that CAD platforms can work seamlessly within broader digital ecosystems. This integration helps streamline workflows, improves data accuracy, and enhances project management efficiency.

7. Customization and Extensibility

Flexibility is at the core of modern CAD platforms. Users are not confined to standard tools and features; instead, they can customize the software according to their specific project needs. Furthermore, many CAD systems support plugins and add-ons developed by third-party vendors or the user community, which extend the capabilities of the software even further.

8. Enhanced Security Measures

With the increasing emphasis on data security, CAD platforms have strengthened their security frameworks. Features such as end-to-end encryption, secure cloud storage, and robust access controls ensure that sensitive design data remains protected from unauthorized access and breaches.

9. Mobile Compatibility

The ability to access CAD platforms on mobile devices is a game-changer, especially for professionals who need to work on-the-go. Mobile apps offer core functionality, allowing users to make quick edits, share updates, and review designs directly from their smartphones or tablets, ensuring productivity remains unhindered no matter where they are.

10. Sustainable Design and Manufacturing

Lastly, modern CAD platforms support sustainable design and manufacturing practices. With tools that optimize material usage and reduce waste, along with features that simulate energy consumption and sustainability, designers can create more eco-friendly products.

In conclusion, the cutting-edge features of CAD design platforms epitomize precision and innovation. These tools not only enhance the efficiency and accuracy of design processes but also push the envelope in terms of what can be achieved in the world of design and manufacturing. As technology continues to evolve, the potential of CAD platforms will only grow, further revolutionizing this critical field.

#CAD Platform

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influencermagazineuk · 3 days

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Revolutionizing the Ride: How AI is Shaping the Future of Car Design

The automotive industry is on the cusp of a transformative era, fueled by the power of Artificial Intelligence (AI). While AI's impact on self-driving cars is widely discussed, its influence extends beyond just autonomous vehicles. AI is rapidly changing the way cars are designed, engineered, and even experienced, with exciting possibilities for the future. Let's delve into how AI is contributing to car design, particularly in the realm of color-shifting exteriors and other innovative features. Beyond the Paint Job: AI-Powered Color Customization Imagine a car that can change its color at your whim. This isn't science fiction; AI is making it a reality. Several companies are developing e-ink technology for car exteriors. These "electronic skin" panels use millions of tiny capsules containing colored pigments that can be manipulated by electrical signals. AI algorithms can control these signals, allowing for a virtually infinite range of color options and even dynamic patterns. - Personalized Color Palettes: AI can learn your preferences and suggest color schemes that suit your style. Imagine a car that automatically adjusts its color based on the weather or your mood. - Enhanced Safety and Visibility: AI can adjust the car's exterior color based on weather conditions or time of day, improving visibility and safety. For example, a car could automatically switch to a brighter color at night or during foggy weather. - Interactive Experiences: AI could take color customization a step further. Imagine a car that displays dynamic lighting effects or even personalized messages on its exterior through color manipulation. AI: The Design Guru AI isn't just about flashy color-changing exteriors; it's also transforming the core design process. AI algorithms can analyze vast amounts of data, including customer preferences, market trends, and aerodynamic principles, to generate innovative car designs. - Optimizing Aerodynamics: AI can analyze complex airflow simulations, helping designers create cars with improved fuel efficiency and handling. - Predicting Customer Preferences: AI can analyze consumer data to predict future design trends and ensure cars cater to evolving tastes. - Personalized Interiors: AI could personalize car interiors based on driver preferences. Imagine a car that automatically adjusts seat positions, temperature, and even the ambient lighting based on your profile. The Road Ahead: A Collaborative Future While AI plays an increasingly crucial role in car design, it's important to remember that it's not meant to replace human creativity. The future of car design lies in a collaborative approach, where AI empowers human designers by providing powerful tools and insights. This collaboration will lead to cars that are not only aesthetically pleasing but also safer, more efficient, and personalized to our individual needs. Beyond Color and Design: Other AI-Powered Innovations The impact of AI on car design extends beyond color-shifting exteriors and personalized interiors. Here's a glimpse into some other exciting possibilities: - Predictive Maintenance: AI can analyze sensor data to predict potential problems before they occur, allowing for preventative maintenance and reducing downtime. - Enhanced Safety Features: AI can analyze real-time traffic data and road conditions, assisting with features like automatic emergency braking and lane departure warnings. - Improved Manufacturing Efficiency: AI can optimize production lines, streamline processes, and reduce waste in car manufacturing. Buckle Up for the Future The future of car design is brimming with possibilities thanks to AI. From color-changing exteriors to personalized experiences and enhanced safety features, AI is revolutionizing the way we think about and interact with our vehicles. While some of these innovations might seem futuristic, AI's influence is rapidly transforming the automotive landscape. So, fasten your seatbelts and get ready for a thrilling ride as AI shapes the cars of tomorrow. Read the full article

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4x4enginespecialists · 5 days

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How Does The Range Rover Engine 2.0 Balance Performance, Fuel Consumption, And Emissions?

Introduction

In the realm of automotive engineering, the pursuit of balance is a perpetual quest. The Range Rover Engine 2.0 stands as a testament to this ethos, seamlessly integrating performance, fuel efficiency, and emissions control. We delves into the intricate engineering marvels that enable the Range Rover Engine 2.0 to achieve such harmony, exploring its key features and the technology driving its operation.

Evolutionary Engineering: A Brief History of the Range Rover Engine

The journey towards the Range Rover Engine 2.0 began with a lineage of innovation and refinement. Tracing back through the history of Range Rover engines unveils a progression marked by continuous improvement. From its predecessors to the latest iteration, each engine iteration has iteratively refined the balance between performance, fuel consumption, and emissions.

Power Unleashed: Performance Optimization in the Range Rover Engine 2.0

At the heart of the RangeRover Engine 2.0 lies a symphony of power and precision. Through meticulous engineering and advanced technologies, this powerhouse delivers exhilarating performance without compromise. From turbocharging to direct fuel injection, every component is optimized to extract maximum power while maintaining efficiency.

Efficiency Redefined: Fuel Consumption Strategies in the Range Rover Engine 2.0

Efficiency is not merely a goal but a cornerstone of the RangeRover Engine 2.0's design philosophy. Leveraging innovative strategies such as variable valve timing and cylinder deactivation, this engine achieves remarkable fuel economy without sacrificing performance. By intelligently managing fuel delivery and combustion, it sets new standards for efficiency in its class.

Taming Emissions: Environmental Responsibility in the Range Rover Engine 2.0

In an era of increasing environmental awareness, reducing emissions is imperative for automotive manufacturers. The RangeRover Engine 2.0 rises to this challenge with a suite of emissions control technologies. From exhaust gas recirculation to selective catalytic reduction, it minimizes harmful pollutants while maintaining optimal engine performance.

The Marriage of Technology and Engineering: Key Features of the Range Rover Engine 2.0

The RangeRover Engine 2.0 is a culmination of cutting-edge technology and precision engineering. Its key features, including lightweight construction, advanced engine management systems, and dynamic torque vectoring, synergize to deliver an unparalleled driving experience. By seamlessly integrating these elements, it achieves a harmonious balance between performance, efficiency, and emissions control.

Testing the Limits: Rigorous Quality Assurance in Range Rover Engine Development

Before a RangeRover Engine 2.0 finds its way into a vehicle, it undergoes rigorous testing and quality assurance protocols. From simulated durability tests to real-world performance evaluations, every aspect of its design is scrutinized to ensure reliability and longevity. This commitment to quality is a testament to Range Rover's dedication to delivering excellence in engineering.

Driving Towards the Future: Innovation and Sustainability in Range Rover Engine Development

As automotive technology evolves, so too does the RangeRover Engine 2.0. With a focus on innovation and sustainability, engineers continually push the boundaries of performance, efficiency, and emissions control. From hybrid powertrains to electrification, Range Rover remains at the forefront of automotive engineering, driving towards a greener and more sustainable future.

Beyond Boundaries: The Legacy of the Range Rover Engine 2.0

The RangeRover Engine 2.0 not only sets new benchmarks in automotive engineering but also leaves a lasting legacy. Its innovative design and unparalleled performance redefine what is possible in the realm of luxury SUVs. As drivers embark on journeys across varied terrains, they can trust in the reliability, efficiency, and performance of the RangeRover Engine 2.0 to accompany them every step of the way. More details about the range rover engine here at the https://4x4enginespecialists.co.uk/ .

Conclusion

In the pursuit of automotive excellence, the RangeRover Engine 2.0 stands as a pinnacle of engineering achievement. By harmonizing performance, fuel consumption, and emissions control, it sets new standards for luxury SUVs. With a legacy built on innovation and sustainability, it paves the way towards a greener and more efficient future. As automotive technology continues to evolve, one thing remains certain: the RangeRover Engine 2.0 will continue to drive progress and inspire generations to come. Read the full article

#RangeRoverEngine2.0

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roamnook · 5 days

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"NVIDIA Accelerates Asia's Largest Automotive Show with Cutting-Edge AI Solutions - Find Out How at Auto China 2024"

RoamNook - Unveiling the Power of Hard Facts

Welcome to the world of hard facts, where every piece of information is backed by concrete data and numbers. In this article, we will delve deep into various realms of knowledge, providing you with a wealth of technical, professional, and scientific terms that will broaden your understanding of the world we live in. Our aim is to bring you new, polarizing information that will challenge your perceptions and expand your horizons. So sit back, relax, and let the numbers do the talking!

The Revolutionary Power of Artificial Intelligence Computing

Artificial Intelligence (AI) is revolutionizing the way we live, work, and interact with technology. NVIDIA, a global leader in AI computing, is at the forefront of this cutting-edge technology. With their advanced AI platforms and solutions, NVIDIA is reshaping industries and driving digital growth worldwide.

Autonomous Machines

NVIDIA's Autonomous Machines platform is bringing AI capabilities to a wide range of industries, from manufacturing and logistics to agriculture and healthcare. By leveraging deep learning algorithms, these autonomous machines are capable of performing complex tasks with precision and efficiency. From self-driving cars to intelligent robots, NVIDIA is paving the way for a future where machines can operate autonomously and interact seamlessly with humans.

Cloud & Data Center

In today's data-driven world, the Cloud & Data Center platform plays a pivotal role in providing scalable and efficient computing resources. NVIDIA's advanced GPU technology is powering data centers, enabling organizations to process and analyze massive amounts of data in real-time. With AI-powered data analytics and machine learning models, businesses can gain valuable insights and make informed decisions that drive growth and innovation.

Deep Learning & AI

Deep Learning is a subfield of AI that focuses on training neural networks to learn and make decisions without explicit programming. NVIDIA's Deep Learning & AI platform provides developers and researchers with powerful tools and frameworks to train and deploy deep learning models at scale. With applications ranging from image and speech recognition to autonomous vehicles and drug discovery, deep learning is revolutionizing various industries and pushing the boundaries of what is possible.

Design & Pro Visualization

NVIDIA's Design & Pro Visualization platform is empowering designers, architects, and engineers with cutting-edge visualization technology. By leveraging GPU-accelerated rendering and virtual reality, professionals can create realistic and immersive visual experiences. From architectural visualization to automotive design, NVIDIA's solutions are enabling professionals to bring their ideas to life with unparalleled realism and detail.

Healthcare

The healthcare industry is undergoing a transformation with the integration of AI and advanced computing technologies. NVIDIA's Healthcare platform is revolutionizing medical imaging, drug discovery, and patient care. With AI-driven diagnostic tools and precision medicine, healthcare professionals can provide personalized and more effective treatments. NVIDIA's innovations in healthcare are improving patient outcomes and reshaping the industry as a whole.

High Performance Computing

High Performance Computing (HPC) is pushing the boundaries of scientific research and computational modeling. NVIDIA's HPC platform provides researchers and scientists with supercomputing capabilities to tackle complex problems and simulate real-world scenarios. From climate modeling and astrophysics to genomics and drug discovery, HPC is enabling breakthroughs in various scientific disciplines.

Self-Driving Cars

The future of transportation lies in self-driving cars, and NVIDIA is leading the way with its Self-Driving Cars platform. By combining AI, computer vision, and sensor fusion technologies, NVIDIA is making autonomous driving a reality. With their advanced hardware and software solutions, NVIDIA is enabling automakers to develop safe and reliable self-driving vehicles that will revolutionize the way we travel.

Gaming & Entertainment

Gaming and entertainment have always been at the forefront of technological innovation, and NVIDIA's Gaming & Entertainment platform is no exception. With their powerful GPUs and game-changing technologies like real-time ray tracing and DLSS, NVIDIA is redefining the gaming experience. From lifelike graphics and immersive virtual reality to AI-powered game development tools, NVIDIA is pushing the boundaries of what is possible in the world of gaming and entertainment.

The Power of Hard Facts for Real-World Applications

Now that we have explored the numerous applications of NVIDIA's innovative platforms, it is important to understand the real-world implications of these advancements. By harnessing the power of hard facts, we can drive digital growth, transform industries, and improve the quality of life for people around the world.

For businesses, embracing AI and advanced computing technologies is crucial for staying competitive in the digital age. By leveraging NVIDIA's platforms, organizations can gain a competitive edge by making data-driven decisions, optimizing operations, and providing personalized experiences to customers. Whether it's improving manufacturing processes, enhancing healthcare outcomes, or revolutionizing transportation, the practical applications of AI and advanced computing are limitless.

In addition to businesses, individuals can also benefit from these technological advancements. From self-driving cars that improve road safety to personalized healthcare solutions that enhance patient care, NVIDIA's innovations are reshaping our daily lives. Moreover, the gaming and entertainment industry is undergoing a renaissance with lifelike graphics and immersive virtual experiences. With NVIDIA's technologies, gamers and entertainment enthusiasts can indulge in a truly immersive and realistic entertainment experience like never before.

RoamNook - Empowering Digital Growth

At RoamNook, we are passionate about fueling digital growth through IT consultation, custom software development, and digital marketing. We understand the power of hard facts and the transformative potential of advanced technologies. By partnering with NVIDIA and leveraging their innovative platforms, we help businesses unlock their full potential and drive success in the digital era.

Our team of experts is well-versed in the latest AI technologies and can provide tailored solutions that meet your specific needs. Whether you need assistance with optimizing your data center, developing AI-driven applications, or enhancing your digital marketing strategies, RoamNook is your trusted partner.

With our comprehensive IT consultation services, we can help you navigate the complexities of AI and advanced computing. Our custom software development services ensure that your applications are built to the highest standards, enabling you to harness the full power of NVIDIA's platforms. And with our digital marketing expertise, we can help you reach your target audience and drive meaningful growth for your business.

In conclusion, the power of hard facts cannot be understated. By embracing objective, numerical, and data-driven information, we can unlock new possibilities, challenge existing norms, and drive digital growth. With NVIDIA's innovative platforms and RoamNook's expertise, businesses and individuals alike can tap into the transformative potential of AI and advanced computing. So join us on this journey of discovery and let the power of hard facts guide you to unprecedented success.

Visit RoamNook

Source: https://nvidianews.nvidia.com/news/nvidia-launches-cloud-quantum-computer-simulation-microservices&sa=U&ved=2ahUKEwjRh8KB5uaFAxXBM1kFHUmaCc8QxfQBegQIBBAC&usg=AOvVaw2c7-w0d9GR_b9QkHkE_tTf

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