SAIC Motor and AWS Partner for Intelligent Mobility

Introducing SAIC MOTOR Overseas Intelligent Mobility Technology today. The Fortune Global 500 corporation and biggest automaker in China, i-SMART connected vehicle platform, has chosen AWS as its key cloud provider. SAIC MOTOR powers its i-SMART connected vehicle platform which enables intelligent driving experiences in half a million vehicles across Australia, Europe, the Middle East, New Zealand, and South America with the help of AWS’s global infrastructure and portfolio of technologies, including high performance compute (HPC), storage, and Internet of Things (IoT).

SAIC i-SMART, which runs on AWS, lets drivers use their smartphone to monitor, control, and update in-car systems anywhere in the globe. SAIC MOTOR stores vast volumes of vehicle data on Amazon Simple Storage solution (Amazon S3), an object storage solution with industry-leading durability, availability, security, and scalability. SAIC MOTOR can extract more value from car data to improve the driving experience thanks to Amazon Relational Database Service (Amazon RDS).

For instance, this information is utilized to enable remote functions like door lock and unlock as well as preheating or chilling the cabin prior to drivers getting back into their cars. In addition, these customized services can execute a remote diagnostic check to verify a car is operating at peak efficiency and doesn’t require maintenance, or they can evaluate driving habits and vehicle systems to recommend nearby fueling or charging stations depending on the projected driving distance.

In addition, SAIC MOTOR leverages serverless services like AWS Lambda and Amazon Elastic Kubernetes Service (Amazon EKS) to create an elastic and agile architecture for connected vehicles that can grow internationally. Customers may enjoy seamless, low-latency access thanks to this architecture, especially during peak driving hours like the morning and evening commutes. Furthermore, SAIC MOTOR developed serverless IoT apps based on AWS IoT Core for data collection, processing, and analysis related to vehicles.

The carmaker can safely link cars and gadgets to the cloud using Amazon IoT Core. It can also process massive amounts of data for in-the-moment analysis and remotely update the entire fleet to improve driving. In order to customize the in-car experience with virtual assistants that can offer customized recommendations, like routing and virtual tours, and to automatically diagnose vehicle issues using the owner’s manual, SAIC MOTOR plans to utilize AWS generative artificial intelligence (generative AI) services in the future. One such service is Amazon Bedrock, which makes multiple foundation models available via an API.

Additionally, SAIC MOTOR included Amazon Music, an audio entertainment platform that links listeners, musicians, and artists via music and culture, to improve the in-car experience for its clients. Available on the MG ZS EV, MG5 EV, and MG4 EV models, the i-SMART connected car platform with Amazon Music provides drivers and passengers with premium streaming media services as part of its in-vehicle listening experience.

Jie Xu, the CTO of SAIC MOTOR Overseas Intelligent Mobility Technology Co., Ltd., stated, “AWS has years of expertise in developing connected vehicles and data analysis platforms. AWS has deep experience driving innovation in the automotive industry.” “SAIC MOTOR launched the i-SMART connected car system in countries across the world with the support of AWS’s vast cloud capabilities, worldwide infrastructure, and industry-leading safety and compliance processes. In order to develop novel driver experiences, grow our company, and provide connected vehicles to more customers, SAIC MOTOR is excited to keep collaborating with AWS.

Vice president and general manager of Amazon’s Automotive and Manufacturing, Wendy Bauer, stated that the company is “excited to support SAIC MOTOR and its work to build and offer an industry-leading connected vehicle platform, bringing a customized and intelligent connected-car experience to overseas consumers.” “In the future, AWS will keep assisting the automotive sector in developing new features and services that boost safety regulations, promote sustainable mobility, and produce intelligent and networked automobiles for the worldwide market.”

Regarding Amazon Web Services

Amazon Web Services has been the largest and most popular cloud platform since 2006. AWS has steadily grown its service portfolio to support almost any workload with over 240 fully featured services for compute, storage, databases, networking, analytics, machine learning and AI, IoT, mobile, security, hybrid, VR and AR, media, and application development, deployment, and management from 102 Availability Zones in 32 geographic regions. There are plans to add 15 more Availability Zones and five more AWS Regions in Canada, Germany, Malaysia, New Zealand, and Thailand. AWS is trusted by millions of clients, including the biggest corporations, fastest-growing startups, and top government agencies, to power their infrastructure, reduce costs, and increase agility.

Regarding SAIC MOTOR Foreign Intelligence Mobility

In 2018, SAIC Motor International Co., Ltd. and Shanghai Automobile Group Investment Management Co., Ltd. jointly invested in and founded SAIC MOTOR Overseas Intelligent Mobility Technology Co., Ltd. SAIC MOTOR Overseas has spent many years developing a versatile and effective business model for its overseas operations by being extensively involved in a number of industries, including global data security network security, worldwide in-vehicle intelligent service ecology, overseas intelligent cockpits, and overseas cloud services. By introducing digital technology, it helps original equipment manufacturers (OEMs) establish linked vehicle product systems in foreign markets, strengthens the brand’s unique competitiveness, and develops intelligent connected travel services appropriate for different nations and regions.

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Hewlett Packard Enterprise - One of two HPE Cray EX supercomputers to exceed an exaflop, Aurora is the second-fastest supercomputer in the world:

https://www.hpe.com/us/en/newsroom/press-release/2024/05/hewlett-packard-enterprise-delivers-second-exascale-supercomputer-aurora-to-us-department-of-energys-argonne-national-laboratory.html

HewlettPackard #HPE #Cray #Supercomputer #Aurora #Exascale #Quintillion #Argonne #HighPerformanceComputing #HPC #GenerativeAI #ArtificialIntelligence #AI #ComputerScience #Engineering

As Europe positions itself in the global arena of artificial intelligence, the establishment of AI factories marks a significant milestone in harnessing the full potential of this transformative technology. These factories are designed to integrate advanced European High-Performance Computing (HPC) capabilities with a focus on safety, reliability, and ethical development. By nurturing a collaborative environment for startups, industries, and researchers across the continent, Europe aims to differentiate its approach to AI from that of other competing regions. The backbone of these AI factories will be the EU’s high-performance supercomputers, which will provide the essential computing power necessary for training large generative models. This ambitious initiative aligns with Europe’s broader strategy to ensure that AI is developed in a trustworthy and responsible manner, as evidenced by the recent introduction of the EU AI Act. This legislation emphasizes the need for ethical standards in AI, reinforcing Europe’s aim to lead in this rapidly advancing field. These AI factories will not function in isolation. They will form an interconnected network that creates an ecosystem conducive to collaboration and innovation. By linking AI factories to existing national AI initiatives and resources such as Testing and Experimentation Facilities and Digital Innovation Hubs, Europe is primed to establish a robust collaborative framework. This interconnected setup aims to address future challenges in various vital sectors, including healthcare, energy, transport, defence, and manufacturing. Consider healthcare, where AI-driven diagnostic tools could revolutionize patient care by enabling more accurate and timely treatments. Similarly, in the energy sector, AI could optimize not only resource allocation but also sustainability efforts. The transport industry stands to gain significantly from AI’s ability to enhance efficiency and safety. Furthermore, the integration of AI in robotics and manufacturing could lead to unprecedented levels of automation and operational effectiveness. Each of these areas not only represents technological advancement but also has substantial implications for economic growth and societal well-being. The timeline for establishing these AI factories is ambitious, with a rolling call for applications open until December 31, 2025. The initial deadline for proposals is set for November 4, 2024, indicating a clear pathway toward operationalizing this vision. With nearly €1 billion in funding from the Digital Europe Programme and Horizon Europe, matched by contributions from Member States, this initiative underscores the EU’s commitment to bolstering AI innovation. This substantial investment is a testament to the EU’s vision of not merely keeping pace with global advancements but leading the way in safe and ethical AI development. Ursula von der Leyen, President of the European Commission, has articulated the EU's commitment to fostering innovation within the AI sector. She noted, “Europe is already leading the way with the EU AI Act, ensuring AI is safer and more trustworthy. Earlier this year, we fulfilled our promise by opening our high-performance computers to European AI startups. Now, Europe must also become a global leader in AI innovation.” This statement encapsulates the essence of Europe’s mission: to advance AI technology while holding steadfast to ethical guidelines that prioritize safety and trustworthiness. The significance of AI factories extends beyond mere technological advancement; they represent a strategic leap for Europe in the face of global competition. As countries around the world race to harness the power of AI, Europe’s focus on ethical considerations sets it apart. The aim is clear: to ensure that AI serves as a force for good, driving responsible innovation that aligns with European values and societal needs. The need for such a framework has never been more pressing. With the rapid advancement

of AI technologies, there are increasing concerns regarding issues such as data privacy, algorithmic bias, and the societal implications of automation. Europe’s proactive stance in establishing AI factories is poised to address these challenges head-on, fostering a culture of ethical AI development that builds public trust and ensures long-term sustainability. Moreover, the integration of AI into various sectors can serve as a catalyst for job creation and economic development. By investing in AI capabilities and infrastructure, Europe not only enhances its technological prowess but also secures its position in the global market. This strategic initiative is expected to create new job opportunities, requiring a skilled workforce adept in AI technologies. The successful implementation of AI factories will depend on effective collaboration among various stakeholders, including governments, the private sector, and academia. Such partnerships will be vital in driving innovation and ensuring technology aligns with societal goals. In conclusion, the establishment of AI factories in Europe represents a pivotal moment in the continent’s journey towards becoming a global leader in AI innovation. By focusing on ethical and responsible development while fostering collaboration across various sectors, Europe aims to secure its position at the forefront of this transformative technology. As the call for proposals opens, the potential for groundbreaking advancements in AI is immense, promising a future where technology not only enhances industries but also enriches the lives of individuals across Europe.

🌟 HBM3e: Redefining the Future of High-Performance Memory 🌟

As we step into 2025, High Bandwidth Memory (HBM) is shaping the future of AI and High-Performance Computing (HPC). Among the latest innovations, HBM3e emerges as a game-changer, offering unprecedented speed, capacity, and efficiency.

💡 What Makes HBM3e Unique?

📊 16-Hi Stacks: Expanding capacity from 36 GB to 48 GB per stack.

🚀 Unmatched Speed: Achieving 1.2 TB/s bandwidth per stack.

🔥 Advanced Technology: MR-MUF and TSV ensure durability, heat management, and efficient data transfer.

🎯 NVIDIA’s Integration NVIDIA is setting benchmarks by incorporating HBM3e into its next-gen GPUs, enabling faster AI training, improved inference, and unparalleled performance for data centers and AI servers.

🌍 The Big Picture With the demand for AI and machine learning solutions soaring, HBM3e is driving a pivotal shift in memory technology. The market for high-performance memory is expected to double by 2025, and the development of HBM4 promises even greater advancements in the years ahead.

🔗 Ready to explore more? Discover how HBM3e is transforming the industry and shaping the future of computing!

Discover the Art of Personal Computing with a Tailored System Built to Your Exact Specifications

PC users from various fields, including gamers, content creators, and streamers, are on the lookout for machines that not only perform but also resonate with their personal style and needs. Enter the world of custom PCs, where craftsmanship meets performance in an entirely new dimension.

Leading the charge in this space is PowerGPU, a renowned name in the realm of custom PC building, offering a unique blend of innovation and personalization that promises to transform your computing experience.

Custom PC

Craftsmanship in building custom PCs is akin to an artist weaving a masterpiece. It involves not just assembling components but harmonizing them to create a symphony of power and elegance.

Unlike pre-built options that cater to the masses, custom-built PCs offer a distinct advantage—they are designed to meet specific requirements, delivering unparalleled performance tailored to the user's demands.

A custom-built PC provides the freedom to select every component, from the processor that fuels the performance to the cooling system that ensures stability during intensive tasks. This personalized approach not only enhances performance but also extends the lifespan of the machine, making it a wise investment for those seeking long-term reliability.

Custom PCs for Content Creators

Content creation has evolved into a thriving industry, and custom PCs have become an essential tool for creators. With demanding software and applications that require high-end computing power, traditional off-the-shelf options often fall short in meeting the needs of content creators.

This is where PowerGPU steps in with their tailored custom builds. These machines are specifically designed to handle graphic-intensive tasks with ease, ensuring smooth and efficient workflow for content creators. Plus, with financing options available, these powerful machines are accessible to a wider audience.

For gamers and streamers, performance is everything. Whether it's achieving ultra-high frame rates or streaming at top-quality resolutions, every detail.

Gaming PC Builder Platform

The Gaming PC Builder Platform is an innovative tool designed to make the process of building a custom PC seamless and enjoyable. It guides users through each step, allowing them to select individual components based on their performance requirements and aesthetic preferences. Whether you're a seasoned tech enthusiast or a novice exploring the world of custom PCs for the first time, this platform simplifies the process, providing recommendations and insights along the way.

From selecting the right CPU and GPU to choosing the perfect case design, the Gaming PC Builder Platform empowers users to create a system that truly reflects their unique style and functional needs.

The Power of Customization

Customization lies at the heart of the Gaming PC Builder Platform. Users have the flexibility to choose from a wide range of options, ensuring that every aspect of their PC aligns with their preferences. From selecting the latest processors that drive high-speed gaming to choosing cooling systems that keep the machine running smoothly during extended sessions, customization allows users to build a system that meets their exact specifications.

Custom PC Request Feature

For those seeking an even more personalized experience, the Custom PC Request feature is available from this platform. This option allows users to submit a request with their specific requirements, and the team will work to build a custom PC that meets those exact needs. Whether it's a specific color scheme or specialized components for a particular use case, this feature ensures that no detail is overlooked in creating your perfect setup.

All In All

Choosing a custom PC is not just about acquiring a high-performance machine; it's about investing in a personalized experience that meets your unique needs. With the Gaming PC Builder Platform, users have the opportunity to explore the art of personal computing, crafting a system that blends craftsmanship with cutting-edge technology.

Whether you're a gamer seeking the ultimate competitive edge, a content creator looking for a reliable workhorse, or a streamer aiming for seamless integration, the world of custom PCs awaits. Begin your journey today and discover the limitless possibilities that customization brings to the table.

NVIDIA's Grace Hopper Superchip is revolutionizing AI workloads in data centers, designed specifically to handle massive AI and machine learning tasks. It combines a 144-core ARM CPU with a powerful GPU, delivering up to 10x faster performance for AI training and inference compared to traditional systems. The chip is optimized for H100 Tensor Core GPUs, pushing the boundaries of data processing speeds and reducing latency, making it ideal for next-gen AI applications like self-driving cars, language models, and real-time analytics. This breakthrough is expected to accelerate the AI industry's evolution and drive more efficient data center architectures. https://t.ly/2jokn

Data Center Liquid Cooling Market worth $21.3 billion by 2030

The report "Data Center Liquid Cooling Market by Component (Solution and Services), End User (Cloud Providers, Colocation Providers, Enterprises, and Hyperscale Data Centers), Data Center Type, Type of Cooling, Enterprise, and Region - Global Forecast to 2030", is projected to grow from USD 4.9 billion in 2024 to USD 21.3 billion by 2030, at a CAGR of 27.6% during the forecast period. The data center liquid cooling market has been increasing as a result of greater data center densities, as well as the need for energy efficiency and cost savings, improvements in cooling technology, and strict regulatory standards. Furthermore, a need for high-performance computer systems and state subsidies for energy-saving technologies also facilitate the adoption process.

Download pdf- https://www.marketsandmarkets.com/pdfdownloadNew.asp?id=84374345

By component, the services segment is estimated to be the fastest-growing data center liquid cooling segment from 2024 to 2030.

From 2024 to 2030, it is anticipated that the services part of the data center liquid cooling market will be the quickest expanding sector. Service providers for data center liquid cooling offer system integration services that incorporate liquid cooling technology into the IT infrastructure of the data center. By helping data center operators to install and maintain effective liquid cooling solutions, service segments guarantee the dependability, efficacy, and efficiency of the cooling structure within the data center setting.

By data center type, the small and mid-sized data center segment is estimated to be the fastest-growing segment of the data center liquid cooling market from 2024 to 2030.

By size segment of the data center liquid cooling market, small and mid-sized data center is projected to be the fastest-growing segment from 2024 to 2030. Small and midsize data centers deploy more complex IT hardware such as high-performance servers, storage systems, and networking devices; they also increase power density. Larger heat loads produced by these systems may make it hard for conventional air-cooling techniques to cope up with. An efficient way of managing increasing needs for heat dissipation may be done using liquid cooling that ensures high performance and reliability of equipment.

By end user, the hyperscale data center segment is estimated to be the fastest-growing segment of the data center liquid cooling market from 2024 to 2030.

By end-user segment, leading user influenced data center liquid cooling systems market specifically hyperscale data centers are expected to be the fastest growing segment from 2024 up to 2030. A lot of servers and IT devices occupy a relatively small space in a hyperscale data center. It falls within this compact architecture that great amounts of heat are generated and need to be dissipated properly. Compared with traditional air-cooling methods, liquid cooling offers better heat dissipation capabilities. Liquid cooling systems work more effectively by coming into direct contact with heated elements thereby absorbing their energy in order to maintain optimal operational temperatures as well as preventing thermal bottlenecks.

By enterprise, the BFSI segment is estimated to be the fastest-growing data center liquid cooling segment from 2024 to 2030.

The BFSI segment of the data center liquid cooling market is anticipated to see the highest growth from 2024 to 2030. BFSI sector employs intricate financial algorithms and data-driven applications that require great processing capabilities. Therefore, highly scalable servers, storage devices, as well as networking gear are employed generating immense heat. Liquid cooling is gaining ground in order for these operations that consume a lot of computing power to effectively manage their heat removal needs and ensure maximum performance while avoiding temperature-related issues.

By type of cooling, the immersion liquid cooling segment is estimated to be the fastest-growing data center liquid cooling segment from 2024 to 2030.

Immersion Liquid Cooling is expected to be the fastest-growing segment in the data center liquid cooling market according to the types of cooling. Immersion liquid cooling is comparatively more energy efficient than air cooling methods. A dielectric liquid can be used to instantly submerge IT equipment thus expediting heat transfer away from them and evading air conditioning systems and fans which consume a lot of energy. Consequently, this results in greater savings on electricity costs for the data center, less power usage as well as lower operating expenditures.

Asia Pacific is estimated to be the fastest-growing region in the data center liquid cooling market during the forecast period.

The data center liquid cooling market is expected to grow fastest in Asia Pacific during the forecast period. In the region, there is an increasing trend of data center investments as a result of several factors including rapid uptake of cloud computing, increasing amount of data-sensitive businesses and speedy digital transformation. The raising importance laced with data centers has made effective cooling techniques such as liquid cooling technologies become necessary. The data center liquid cooling market in Asia Pacific will experience growth driven by efficient cooling solutions aimed at improving Power Usage Effectiveness (PUE).

Rittal GmbH & Co. KG (Germany), Vertiv Group Corp. (US), Green Revolution Cooling Inc. (GRC) (US), Submer (Spain), Schneider Electric (France), Liquid Stack Holding B.V(US), Iceotope Precision Liquid Cooling (UK), COOLIT SYSTEMS (Canada), DUG Technology (Australia), DCX Liquid Cooling Systems (Poland), Delta Power Solutions (Taiwan), Wiwynn (Taiwan), LiquidCool Solutions, Inc. (US), Midas Immersion Cooling (US), BOYD (US), Kaori Heat Treatment Co,. Ltd (Taiwan), Chilldyne, Inc. (US), Asperitas (Netherlands), and STULZ GMBH (Germany) are the key players in data center liquid cooling market.

NVIDIA A100 Enterprise PCIe 40GB

Exciting news! The powerful NVIDIA A100 40GB is in stock and now available at a special discounted price. Boost your AI and HPC performance with this top-tier solution. Don’t miss out—get yours today!

GET NOW: https://www.viperatech.com/product/nvidia-a100/

Unlock Superior Performance with Cutting-Edge GPU Technology

A Graphics Processing Unit (GPU) is a specialized electronic circuit designed to accelerate the processing of images, videos, and complex computations. It's essential for gaming, professional graphics work, and increasingly, for parallel processing tasks in fields like machine learning and scientific research.

MediaTek Kompanio 838 Top 8 tech features for Chromebooks

MediaTek Kompanio 838: Boosts Productivity and Provides Longer Battery Life in Chromebooks That Lead the Class

High performance computing is offered by the MediaTek Kompanio 838, which boosts productivity and improves multimedia, online surfing, and gaming. With the great battery life offered by this highly efficient 6nm processor, Chromebook designs that are thin and light will enable users, educators, and students to be genuinely mobile throughout the day.

Boost innovative thinking, learning, and productive work

The MediaTek Kompanio 838 is a major improvement over the lower-end Kompanio 500 series, offering exceptional performance and greater multitasking.

Due to a doubling of memory bandwidth over previous generations, the improved octa-core CPU with faster Arm “big core” processors and a highly capable tri-core graphics engine can handle significantly more data at a faster rate.

With compatibility for both DDR4 and LPDDR4X, OEMs can now design products with greater flexibility to satisfy market performance needs and BOM targets. Additionally, the highly integrated architecture offers the highest power efficiency available on the market for long-lasting batteries.

Up to 76% quicker visual performance

Increased performance in CPU-based benchmarks by up to 66%

Performance in web-based benchmarks was up to 60% better than that of the MediaTek Kompanio 500 series.

Superior Image Processing Unit for Cameras

The MediaTek Kompanio 838 equips Chromebooks with state-of-the-art dual camera technology and high quality imaging features. Photos and videos produced with the new MediaTek Imagiq 7 series ISP have more vibrant colours, especially in difficult lighting situations, thanks to improvements in HDR and low-light capture quality over the previous generation.

Improved AI on-Device

With unmatched power efficiency, the MediaTek Kompanio 838 with MediaTek NPU 650 offers entertainment that is more engaging and of higher quality. The MediaTek NPU can quickly complete complicated computations and is optimized for processing picture data efficiently.

Dual 4K Displays

For demos, presentations, movie nights, or just increased productivity with more visual real estate, premium Chromebooks with the highest quality screens may also output at the same resolution to a connected 4K smart TV or monitor thanks to support for 4K dual displays.

Perfect for 4K Media Streaming

With hardware-accelerated AV1 video decoding built right into the CPU, the MediaTek Kompanio 838 is now the perfect device for effortlessly streaming high-quality 4K video content without using up too much battery life.

Lightning-fast, safe WiFi

Support with MediaTek Filogic Wi-Fi 6 and Wi-Fi 6E chipsets by the MediaTek Kompanio 838 allows for dual- and tri-band connectivity choices. This enables more dependable connections with 2×2 antennas, quicker speeds of up to 1.9Gbps, and improved security with WPA3.

Extended Battery Life

With the class-leading power efficiency of the highly integrated 6nm processor, Chromebook designers can now construct fanless, silent devices with true all-day battery life.

The MediaTek Kompanio 838 is an excellent tool for the classroom that increases productivity and offers fluid 4K multimedia and web surfing experiences. With the great battery life offered by this highly efficient processor, Chromebook designs that are small and light enable teachers and students to be genuinely mobile throughout the day. These are the top 8 internal tech elements that support more creative thinking, learning, and productive working.

Top 8 Kompanio 838 tech features

1) Improved Efficiency

The MediaTek Kompanio 838 boasts an octa-core CPU with Arm Cortex-A78 ‘large core’ processors, a powerful tri-core graphics engine, twice the memory bandwidth of previous generation platforms, and exceptional speed and enhanced multitasking.

2) HDR cameras that capture excellent low light images

With the improved HDR and low-light capture quality of its latest generation MediaTek Imagiq 7 series ISP, images and videos have more vibrant colours even in difficult lighting situations. For more options and product distinctiveness, product designers can even incorporate dual camera designs with various lenses or sensors.

3) High Definition Webcams

Manufacturers of devices can design 4K webcams to provide superb streaming quality, which enhances your credibility when participating in video conferences and working remotely. In remote learning scenarios, this capability enables students to view the entire classroom and additional information on slides.

4) Improvement of On-Device AI

With unmatched power efficiency, the MediaTek NPU 650, which is integrated into the processor, offers effective picture data processing for more interactive and superior multimedia.

5) Upgrade the workstation with two 4K monitors.

Chromebook manufacturers can now incorporate the greatest detail screens into their newest models and add an external display connection that can output at the same resolution thanks to support for not just one, but two 4K monitors. For demos, presentations, movie evenings, or just to enjoy a healthy dose of increased productivity due to the extra visual real estate, connect to a 4KTV, monitor, or projector.

6) Perfect for Media Streaming in 4K

Now that the MediaTek Kompanio 838 has hardware-accelerated AV1 video decoding built into the CPU, it’s perfect for effortlessly viewing high-quality 4K video streams with the least amount of battery waste.

7) Extended Battery Life

With its class-leading power efficiency and true all-day battery life, this processor—which is based on an advanced 6nm chip production process—allows Chromebook designers to create designs that are light, thin, and even fanless. It also gives users the confidence to leave their charger at home.

8) Lightning-fast, safe WiFi

Although not a component of the Kompanio 838 processor itself, the platform gives device manufacturers the choice to use MediaTek Filogic Wi-Fi 6 or Wi-Fi 6E chipsets, based on what the market demands. This makes it possible to have dual-band or tri-band connectivity options. Both provide dependable connections through 2×2 antenna, improved WPA 3 security, and throughput speeds of up to 1.9Gbps (when using Wi-Fi 6E).

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Lenovo Powers AI Avatars To Explore The Role Of Technology In Mental Health

Lenovo recently unveiled its newest initiative under the Work For Humankind project, named "Discover Your Digital Self," focusing on the impact of AI and advanced technology in addressing the global youth mental health crisis. This project aims to bridge the gap between the online and offline worlds of Gen Z, a generation greatly affected by feelings of isolation and stress. The project acknowledges that a majority of Gen Z individuals feel disconnected between their real-life and online identities, with a significant portion finding it easier to express themselves online but desiring better in-person communication with family and friends.

The initiative includes an innovative social experiment utilizing AI to generate realistic avatars of two Gen Z participants. These avatars, constructed using data from the participants' online activities, engaged in spontaneous, authentic conversations with their family members, leading to profound and meaningful dialogues that may not have happened otherwise. This experiment showcased how AI can aid family members in comprehending and connecting with their Gen Z loved ones by uncovering their online personas and viewpoints.

Sarah Kendrick, Clinical Director at Mental Health Innovations, emphasized the importance of this project, highlighting the prevalent global mental health crisis, especially among Gen Z, where a significant portion is affected. She underscored the potential of AI advancements like Lenovo’s project in promoting understanding between generations with differing perspectives on online identities.

The technology powering the avatars was supported by Lenovo's wide array of devices and solutions, encompassing mobile phones, PCs, infrastructure, software, services, and cloud technologies. The avatars were trained on data from the participants' social media, blogs, and online forums, ensuring security and consent. This marks the first instance where Lenovo has integrated its diverse technologies to create such avatars.

Read More - https://www.techdogs.com/tech-news/business-wire/lenovo-powers-ai-avatars-to-explore-the-role-of-technology-in-mental-health

Discover CINECA, a non-profit #consortium of #Italian 🇮🇹 #universities 🎓 and #research 🔬 institutions. Proudly operating the world's 4th most powerful #supercomputer 🖥️💥 #Leonardo, #CINECA is at the forefront of advancing #research 👨‍🔬 and #innovation 🛰️. #CINECA's contributions play a crucial role in advancing #scientific #research and #innovation in #Italy and beyond. The consortium continues to evolve its services and #infrastructure 🏗️ to meet the growing demands of the scientific #community. -_- #HighPerformanceComputing (#HPC): It operates and manages supercomputing systems that are among the most powerful in Europe. These systems are used for a wide range of scientific simulations, modeling, and data-intensive research projects. -_- #Supercomputers: These supercomputers are designed to handle complex computations and simulations, enabling researchers to tackle scientific challenges in areas such as physics, chemistry, biology, and engineering. -_- #ResearchandInnovation: It collaborates with academic and industrial partners to advance scientific knowledge and technological capabilities. The consortium supports projects that leverage advanced computing resources to address complex problems. -_- #InternationalCollaboration: CINECA collaborates with other European and international research organizations and consortia. -_- #DataManagement and #Services: Apart from HPC, CINECA is involved in providing services related to data management, storage, and analysis. This includes supporting researchers in handling and processing large datasets generated by their experiments and simulations.