Latest news with #RaspberryPi
United News of India
2 days ago
- Business
- United News of India
IIES: Best Embedded Systems & IoT Training Institute in Bangalore
Bangalore (Karnataka) [India], June 25: The demand for skilled professionals in embedded systems and IoT is booming, and the Indian Institute of Embedded Systems (IIES) is fast becoming the top embedded training institute in Bangalore. With a focus on real-world learning, hands-on projects, and guaranteed placement support, IIES offers some of the best embedded systems courses and best IoT courses for freshers, graduates, and working professionals alike. Whether you're searching for the best embedded systems course in Bangalore with placement or looking to upskill through an advanced IoT course online, IIES offers flexible programs that combine theory with practical lab work. Courses include embedded C, C++, Python, Arduino, Raspberry Pi, STM32 and more. Why IIES Stands Out Job-Oriented Embedded & IoT Courses What makes IIES one of the best institutes for embedded systems and IoT training in Bangalore is its commitment to outcomes. The institute maintains close ties with core embedded companies and tech startups that actively hire from its talent pool. Many students get placed in embedded and IoT roles within 3 to 6 months of completing the training. From beginners to advanced learners, IIES offers options like the embedded systems course for freshers with placements, automotive embedded systems course online, and advanced IoT training programs. These are designed to help you build a career—not just earn a certificate. Online and Offline Learning Options IIES understands that today's learners need flexibility and accessibility. That's why its online IoT training and embedded course programs are just as robust as the offline batches in Bangalore. With live interactive sessions, one-on-one mentorship, and assignment feedback, students can learn from anywhere and still receive the same high-quality training. Start Your Tech Career Today If you're looking for the best embedded systems training or searching for a trusted IoT training institute in Bangalore, IIES is the place to begin. New batches start soon, and seats are limited. Visit: to enroll or request a free counseling session.
Arabian Post
3 days ago
- Business
- Arabian Post
Tether Targets Top Spot Among Bitcoin Miners
Tether chief executive Paolo Ardoino has pledged to catapult the company into the position of the world's leading Bitcoin miner by the end of 2025, asserting that crypto‑mining is key to safeguarding its $10 billion‑plus Bitcoin reserves. He outlined a sweeping strategy centred on large‑scale investment in mining and energy infrastructure across Latin America. Ardoino said Tether has already channelled upwards of $2 billion into mining and energy systems and is now accelerating deployment. While the company's precise hash‑rate remains confidential, executives emphasise that their investment reflects both scale and strategic intent. The mining push forms part of a broader financial architecture designed to secure the firm's Bitcoin holdings and further embed it within the Bitcoin ecosystem. The announcement emerged at the Bitcoin Conference in Las Vegas, where Ardoino noted Tether's robust earnings—reporting a $13 billion profit in 2024—and a sizeable portfolio of U.S. Treasuries. He revealed the firm holds more than 100,000 BTC and hinted that the mining operation will leverage renewable energy sources supporting its underlying reserves. ADVERTISEMENT Tether is concurrently preparing to open‑source its Bitcoin Mining Operating System, which the company says will democratise mining by enabling participants ranging from individual Raspberry Pi setups to large‑scale farms to connect into secure point‑to‑point networks. The move is intended to broaden participation, enhance resilience of the Bitcoin network, and solidify Tether's position as a leader in infrastructure innovation. Energy infrastructure forms a crucial part of Tether's strategy. Ardoino highlighted investments across Latin America in renewable energy projects, including substantial commitments in Uruguay and El Salvador, where Tether relocated its headquarters and backs geothermal initiatives through a project known as Volcano Energy. These investments reflect a dual focus: securing clean, reliable power for mining and contributing to regional energy resilience. The strategic rationale centres on mitigating the risks of holding large Bitcoin reserves. Mining, Ardoino explained, provides not only operational control but also reinforces financial sovereignty, anchoring assets within a secured blockchain‑based ecosystem. By internalising hash‑rate and power sources, Tether aims to shield its holdings from external dependency and volatility. Security considerations have informed the launch of MOS. As a decentralised architecture, the system allows devices to operate without reliance on central servers, reducing vulnerability to single‑point failures or third‑party disruptions. Looking ahead, Tether plans to integrate artificial‑intelligence tools into MOS to monitor performance and optimise operations in real time. Tether's move into open‑source mining software dovetails with its broader tech ambitions. Ardoino introduced QVAC, an AI platform that uses non‑custodial wallets, and unveiled plans for a Bitcoin‑centric wallet developed with Rumble. These projects underscore Tether's strategy to embed Bitcoin deeper into digital finance and expand its ecosystem services. Market observers note that Tether's mining ambition places it in direct competition with publicly traded mining firms. Although exact hashrate figures are absent, the scale of investment and reserve holdings suggest that surpassing existing miners is credible by late 2025. Tracking progress will require scrutiny of deployment timelines and performance metrics, which Tether has declined to specify. Financial analysts regard Tether's diversified asset approach—spanning Bitcoin, gold and U.S. Treasuries—as a deliberate hedge strategy. The large Bitcoin reserves, reportedly worth over $10 billion, alongside substantial gold and treasury holdings, underpin a multifaceted capital structure. By converting passive holdings into active mining assets, Tether aims to generate operational yield and enhance asset security. Critics of large‑scale corporate mining warn of environmental strains and centralisation risks. Tether's emphasis on renewable energy uptake and decentralised software architecture reflects an attempt to mitigate these concerns. If MOS and energy projects deliver as promised, the model may provide a template for sustainable, corporate-scale participation in Bitcoin mining. Next steps include the public release of MOS, scheduled for later in 2025, alongside scaling up of energy infrastructure across targeted Latin American sites. Close monitoring of mining output, energy efficiency, and systems performance will determine whether Tether's pledge translates into actual dominance in global Bitcoin mining.
Geeky Gadgets
4 days ago
- Geeky Gadgets
Build a Palm-Sized Desktop PC with Raspberry Pi 5 and Mini-ITX Magic
What if your next desktop PC wasn't a bulky tower or an off-the-shelf laptop, but a palm-sized powerhouse you built yourself? The Raspberry Pi 5, already celebrated for its versatility, is now stepping into the realm of compact desktop computing with the Mini-ITX form factor. Imagine a system that combines the raw adaptability of a Raspberry Pi with the sleek, organized design of a traditional PC case. This isn't just a DIY project—it's a bold reimagining of what small-scale computing can achieve, offering enthusiasts the chance to create a machine that's as functional as it is unique. In the video below Explaining Computers show you how to transform the Raspberry Pi 5 into a Mini-ITX system, unlocking its potential as a compact and customizable desktop solution. From integrating an M.2 NVMe SSD for lightning-fast storage to using 3D-printed components for a tailored fit, this build is a perfect blend of innovation and practicality. Whether you're intrigued by the idea of a Raspberry Pi-powered desktop or simply looking for a new way to push the boundaries of DIY computing, this guide will walk you through the possibilities—and perhaps inspire your next big project. After all, who says small can't be mighty? Mini-ITX Raspberry Pi 5 Why Choose the Mini-ITX Form Factor? The Mini-ITX form factor is a widely recognized standard for compact PC builds, offering compatibility with a variety of cases and accessories. Adapting the Raspberry Pi 5 to this format allows you to house it in a standard PC case, giving it the appearance and functionality of a traditional desktop computer. This approach not only ensures a compact design but also provides easy access to ports and components, making it a practical and visually appealing solution. The Mini-ITX form factor also supports better cooling options and cable management compared to standalone Raspberry Pi setups. By using this format, you can enhance the Raspberry Pi 5's usability while maintaining a professional and organized build. Steps to Adapt the Raspberry Pi 5 Adapting the Raspberry Pi 5 to fit a Mini-ITX case requires some modifications and customizations. These steps ensure proper alignment and functionality within the case: Design and 3D-print a custom baseboard to securely mount the Raspberry Pi 5 to the Mini-ITX case. Create a custom IO panel to align the Raspberry Pi's ports with the case's rear openings for easy access. Ensure precise alignment of all components to maintain accessibility and functionality. These modifications allow the Raspberry Pi 5 to integrate seamlessly into a Mini-ITX case, transforming it into a compact yet fully functional desktop system. Raspberry Pi 5 Mini-ITX Project 2025 Watch this video on YouTube. Explore further guides and articles from our vast library that you may find relevant to your interests in Raspberry Pi 5. Enhancing Connectivity with the Wave Share Adapter The Wave Share adapter is a critical component in this build, simplifying connectivity and improving cable management. It extends the Raspberry Pi's ports to a single edge, making them more accessible and user-friendly. Key features of the Wave Share adapter include: Conversion of micro HDMI to full-size HDMI, allowing easier connections to monitors and displays. Additional power and UART connectors, offering greater flexibility for peripheral integration. Improved cable organization, resulting in a cleaner and more professional setup. By incorporating the Wave Share adapter, you can ensure that all necessary ports are conveniently accessible from the rear of the Mini-ITX case, enhancing the overall usability of your system. Boosting Performance with an M.2 NVMe SSD Adding an M.2 NVMe SSD to your Raspberry Pi 5 significantly improves its performance, providing faster boot times and enhanced application responsiveness. The official Raspberry Pi M.2 hat kit enables storage speeds of up to 811 MB/s, making it a valuable upgrade for demanding tasks. The process involves: Securely mounting the M.2 NVMe SSD onto the Raspberry Pi 5 using the hat kit. Configuring the SSD to optimize performance and ensure compatibility with the system. Testing the SSD to verify its functionality and speed improvements. This upgrade transforms the Raspberry Pi 5 into a more capable computing platform, suitable for tasks that require higher storage performance and reliability. Adding a Case Power Switch Integrating a case power switch into your Mini-ITX Raspberry Pi 5 build enhances its usability by mimicking the functionality of a traditional desktop PC. This involves connecting a hardware power button to the Raspberry Pi's unpopulated headers. The addition of a power switch allows you to conveniently turn the system on and off, aligning it with the expectations of a desktop experience. This small yet impactful feature adds a layer of practicality to your build. Custom 3D-Printed Components 3D printing plays a pivotal role in adapting the Raspberry Pi 5 to the Mini-ITX form factor. Custom components, such as a baseboard and IO panel, ensure that all parts are securely mounted and properly aligned. These components not only provide structural stability but also allow for aesthetic customization. With 3D printing, you can tailor the design to meet your specific needs, creating a build that is both functional and visually appealing. Additionally, 3D printing enables the creation of unique features, such as cable management brackets or decorative elements, further enhancing the overall design of your Mini-ITX Raspberry Pi 5 system. Testing and Verifying the Build Thorough testing is essential to ensure that your Mini-ITX Raspberry Pi 5 system functions as intended. Key steps in the testing process include: Verifying the functionality of the case power switch to ensure reliable operation. Testing the performance of the M.2 NVMe SSD to confirm speed and compatibility. Checking the accessibility and operation of all ports and connectors to ensure seamless usability. Successfully booting and shutting down the system, along with verifying the performance of all components, confirms the effectiveness of your design and assembly process. Exploring Customization and Future Potential This project highlights the flexibility and adaptability of the Raspberry Pi 5, showcasing its potential as a compact yet powerful computing platform. By combining off-the-shelf components with custom 3D-printed parts, you can create a system that is both functional and visually striking. The Mini-ITX Raspberry Pi 5 also opens the door to future innovations, such as the possibility of a Raspberry Pi with a native Mini-ITX form factor. The potential for customization and expansion makes this project an exciting opportunity for technology enthusiasts. Whether you're looking to build a unique desktop system or explore the limits of Raspberry Pi's capabilities, this project offers a compelling starting point for creative and practical applications. Media Credit: Explaining Computers Filed Under: DIY Projects, Guides, Hardware Latest Geeky Gadgets Deals Disclosure: Some of our articles include affiliate links. If you buy something through one of these links, Geeky Gadgets may earn an affiliate commission. Learn about our Disclosure Policy.
Geeky Gadgets
6 days ago
- Geeky Gadgets
Raspberry Pi 5 Linux Mini Computer Soulscircuit Pilet $199 : Pre Orders Open Now
What if your next computer wasn't just a tool, but a canvas for creativity, experimentation, and innovation? The Souls Circuit Pilet, powered by the Raspberry Pi 5, is redefining what a Linux mini-computer can be. With its open source DNA and compact yet powerful design, this device is more than a gadget—it's a statement about the future of user-driven technology. Whether you're a developer pushing the boundaries of code, a maker diving into hardware tinkering, or simply someone who values portability without compromise, the Pilet promises to deliver an experience that's as empowering as it is versatile. And with a crowdfunding campaign that has already raised over $1.3 million CAD, it's clear that this vision resonates with a growing community of tech enthusiasts. In this exploration of the Souls Circuit Pilet, we'll uncover what makes this device such a standout in the world of portable computing. From its open source foundation that invites customization to its energy-efficient performance that keeps you going for hours, the Pilet is packed with features designed to inspire and enable. You'll learn how its thoughtful design balances usability with innovation, why its LTE connectivity and GPIO capabilities make it a dream for IoT projects, and how its Linux-based DRO Pilet OS ensures seamless operation. But beyond the specs, this is a story about technology that puts control back in the hands of its users. Could this be the future of computing we've been waiting for? Raspberry Pi 5 Mini PC Open source Innovation at Its Core At the heart of the Souls Circuit Pilet is its commitment to open source principles, offering users the ability to modify, customize, and optimize both hardware and software. Every component of the device, from its physical design to its software stack, is fully open source. This transparency not only enables users but also fosters a collaborative environment where innovation thrives. The device operates on DRO Pilet OS, a Linux-based operating system that incorporates Plasma Mobile, making sure a seamless and efficient user experience. This open source approach makes the Pilet an ideal platform for experimentation, development, and creative projects. Watch this video on YouTube. Battery Efficiency That Keeps You Going The Souls Circuit Pilet stands out with its impressive battery performance, powered by a 60Wh battery. Depending on usage, it delivers a runtime of 7 to 10 hours, making it suitable for both light tasks and demanding workloads. The device's power consumption ranges from 2.5W at idle to 12W under maximum load, showcasing its energy efficiency. Whether you're coding, creating, or experimenting, the Pilet ensures you can work uninterrupted without constantly searching for a power source. This level of optimization is particularly valuable for users who require portability and reliability in their computing devices. Raspberry Pi 5 Linux Mini Computer Watch this video on YouTube. Browse through more resources below from our in-depth content covering more areas on Raspberry Pi 5. Connectivity and GPIO: Built for Versatility Designed with versatility in mind, the Pilet offers robust connectivity options and GPIO (General Purpose Input/Output) accessibility. With built-in LTE cellular connectivity, you can access the internet from virtually anywhere, eliminating the need to rely solely on Wi-Fi networks. This feature is especially beneficial for users who require consistent connectivity on the go. Additionally, the GPIO pins allow you to connect sensors, modules, and other peripherals, making the Pilet an excellent tool for prototyping, hardware experimentation, and IoT projects. This combination of connectivity and adaptability ensures the device is well-suited for a wide range of applications. Thoughtful Design for Comfort and Usability The design of the Souls Circuit Pilet prioritizes ergonomics and usability, making sure a comfortable and efficient user experience. Both the console and tablet versions are crafted for portability, making them easy to carry and use during extended sessions. The placement of ports and GPIO pins has been carefully considered, providing convenient access without compromising the device's compact form. These thoughtful design choices enhance the overall experience, whether you're coding, tinkering with hardware, or simply browsing the web. The Pilet's design reflects a balance between functionality and user comfort, making it a practical choice for a variety of tasks. Watch this video on YouTube. A Crowdfunding Triumph and a Promising Future The Souls Circuit Pilet's Kickstarter campaign has been a resounding success, raising over $1.3 million CAD and demonstrating the strong demand for open source, portable computing solutions. This achievement underscores the growing interest in devices that empower users with flexibility, transparency, and control. While the Pilet has already set a high standard, there is potential for further refinement in future iterations. For example, simplifying naming conventions and enhancing certain features could make the device even more accessible to a broader audience. The success of the campaign also signals a promising future for open source computing, with the Pilet leading the way. A Versatile Platform for the Future The Souls Circuit Pilet represents a significant advancement in the realm of Linux-based mini computers. By combining the power of the Raspberry Pi 5 with open source principles, efficient power management, LTE connectivity, and ergonomic design, it offers a versatile platform for a wide range of applications. Whether you're a developer seeking a reliable tool for coding, a hobbyist exploring hardware projects, or someone in need of a portable computing solution, the Pilet delivers on all fronts. Its emphasis on transparency, flexibility, and innovation makes it a valuable addition to the world of portable computing. As it prepares for release, the Souls Circuit Pilet is set to become an indispensable tool for users who value creativity and control in their technology. Media Credit: Ronan Fourie Filed Under: Design News, Hardware, Top News Latest Geeky Gadgets Deals Disclosure: Some of our articles include affiliate links. If you buy something through one of these links, Geeky Gadgets may earn an affiliate commission. Learn about our Disclosure Policy.
Saudi Gazette
19-06-2025
- Automotive
- Saudi Gazette
AI-powered system to monitor emergency lane violations in real time
Saudi Gazette report JEDDAH — King Abdulaziz University has completed an innovative research project that uses AI to monitor violations of emergency lanes on highways in real time. The system uses the 'Raspberry Pi' device, which employs advanced computer vision techniques. The project utilizes the 'YOLO' algorithm to detect vehicles encroaching on designated emergency lanes, with the model trained on a customized dataset of images. It is a low-cost, highly efficient solution ideal for integration into smart city infrastructure, traffic management agencies, and government authorities. By supporting unobstructed emergency lanes, the project aims to improve response times during emergencies and ultimately save lives.
