Podcasts about intel xeon

At Intel Vision 2025, CEO Lip-Bu Tan emphasized a customer-centric strategy, focusing on advancements in AI PCs, Gaudi 3 accelerators, and the 18A process node. He introduced the concept of “Physical AI,” highlighting Intel's commitment to integrating AI into hardware solutions across various sectors. Tan's leadership aims to position Intel at the forefront of AI-driven innovation by enhancing its product portfolio and foundry capabilities. This and more on the Tech Field Day News Rundown. Time Stamps: 0:00 - Cold Open0:45 - Welcome to the Tech Field Day News Rundown2:01 - Trump Shifts Stance on NVIDIA Chip Ban7:29 - Remember Windows 11 Recall? It's Back!11:31 - Solo.io Adds MCP Gateway to API Platform14:43 - Dell Launches PowerEdge Servers with Intel Xeon 6 Chips20:27 - Google Cloud Paving the Way for AI Transformation from Google Cloud Next26:32 - Intel to Sell off 51% of Altera Chip Business to Silver Lake31:08 - Embracing Physical AI at Intel Vision 202540:50 - The Weeks Ahead42:54 - Thanks for WatchingFollow our hosts ⁠⁠⁠Tom Hollingsworth⁠⁠⁠, ⁠⁠⁠Alastair Cooke⁠⁠⁠, and ⁠⁠⁠Stephen Foskett⁠⁠⁠. Follow Tech Field Day ⁠⁠⁠on LinkedIn⁠⁠⁠, on ⁠⁠⁠X/Twitter⁠⁠⁠, on ⁠⁠⁠Bluesky⁠⁠⁠, and on ⁠⁠⁠Mastodon⁠⁠⁠. #TFDRundown, #cybersecurity, #AI, @TechFieldDay, @NetworkingNerd, @SFoskett, @Intel, @IntelBusiness, @Google, @Broadcom, @VMware, @Checkpoint, @TechstrongIT,

Dell Technologies has announced the expansion of its Dell AI for Telecom programme in collaboration with Intel, bringing new AI-driven solutions to communications service providers (CSPs) in Ireland. This initiative aims to support network operations and enterprise edge use cases, enhancing efficiency, reliability, and cost savings. This expansion is particularly relevant for the Irish market, where CSPs can benefit from these advanced solutions. To fully harness AI's potential, CSPs require infrastructure capable of processing a growing amount of real-time data. The Dell AI for Telecom programme offers a comprehensive ecosystem of hardware, software and AI expertise, enabling CSPs to implement AI efficiently and develop revenue-generating services by harnessing the power of data. The new solutions enable CSPs to integrate AI into their networks and build AI solutions at the edge, allowing CSPs to monetise their network investments and enterprise clients. Network Operations Solutions: Intent-Based RAN Assistant with Aira: This tool, powered by AiRA Technologies, helps network engineers by gathering data and creating simple applications based on their needs. It speeds up app development and makes network operations more efficient. Network Traffic Analysis and Optimization with Opanga: This software, placed in the core of the mobile network, gives operators a clearer view of data traffic, significantly boosting network efficiency. AI-Powered Network Automation with EnterpriseWeb: The Netwrx.ai tool offers 5G network automation, allowing users to manage and set up network components through a natural language interface. Enterprise Edge Solutions: AIoT-Powered Site Security with EPIC.IO: Combines AI models with IoT technology to automate security operations and provide centralized management for safer venues. Vision AI for Smart Manufacturing with Chooch: Uses computer vision to predict and detect incidents, improving efficiency and preventing production interruptions in manufacturing. AI-Powered Mission Critical Communication with Ecrio: Facilitates voice commands for controlling IoT devices like cameras, drones, and robots. Real-Time AI-Powered Crowd Analytics with WaitTime: Utilizes video analytics from existing cameras to offer real-time insights, helping optimize operations. AI-Powered Smart Transportation with A.I Tech: Employs AI and deep learning for video analysis, enhancing transportation systems by monitoring vehicles, traffic, parking, and pedestrian movement. Footfall and Crowd Analytics with TensorGo: Uses video analytics to track foot traffic and crowds, supporting safety in smart cities and retail spaces. AI-Powered Worker Safety and Hazard Detection with Aotu: Applies AI for real-time video analysis to ensure worker safety. Intelligent Video Analytics for Retail, Transportation, and Ports with Gorilla: Uses existing CCTV footage to detect suspicious activities and provide useful analytics. AI-Powered Video Analytics for Safety with Axxonsoft: Helps maintain site security across different industries using AI. Inventory Visibility and Management with C5i: Identifies inventory issues and suggests proactive measures. Andrew Vaz, VP, of Product Management for Telecom System Business at Dell Technologies, said: "To fully harness AI's potential, communications service providers (CSPs) require an infrastructure capable of processing real-time data. Our Dell AI for Telecom program offers a comprehensive ecosystem of hardware, software, and AI expertise, empowering CSPs to efficiently implement AI and develop revenue-generating services. The new solutions help CSPs easily bring AI into their network for efficiency, reliability, and cost savings, and build AI solutions at the edge to monetize the investments in their network with the enterprise." As demand for AI solutions grows, Intel and Dell have optimized edge AI applications running on Dell PowerEdge XR8000 servers powered by Intel Xeon processors. These applications...

Miles Adcock CEO & Kim Garrod, CFO gives an overview for investors of Concurrent. 00:18 What it does 01:30 The business model 02:18 The market 03:20 Lifetime value of contracts 03:50 Geographic split & market sectors 04:21 Investment & growth strategy 05:31 The future Concurrent Technologies Plc develops and manufactures high-end embedded plug-in cards and systems for use in a wide range of high-performance, long-life cycle applications within the telecommunications, defence, security, telemetry, scientific and aerospace markets, including applications within extremely harsh environments. The processor products feature Intel® processors, including the latest generation embedded Intel® Core™ processors, Intel® Xeon® and Intel Atom™ processors. The products are designed to be compliant with industry specifications and support many of today's leading embedded operating systems. The products are sold worldwide.

- Intel Xeon 6, Gaudi 3, MRDIMM, AMX - Intel 3 Fab, TSMC, Samsung, Chip subsidies - AMD Turin, AMD UDNA - Quantum update [audio mp3="https://orionx.net/wp-content/uploads/2024/09/HPCNB_20240930.mp3"][/audio] The post HPC News Bytes – 20240930 appeared first on OrionX.net.

WE'RE BACK BABY; Intel Xeon 6 Release; Winamp goes Open Source... kinda...

Intelが「Xeon 6 6900Pプロセッサ」「Gaudi 3」を正式発表　搭載製品は順次出荷開始。　Intelは9月24日（米国太平洋夏時間）、サーバ／データセンター向けCPU「Xeon 6 6900Pプロセッサ」（開発コード名：Granite Rapids）と、AIアクセラレーター「Gaudi 3」も正式発表した。搭載製品は、パートナー企業を通して順次発売される。

Bentornati su Snap!Iniziamo con il racconto della mia avventura politica che mi ha portato "lontano" dal WWDC 2024, ma non vi preoccupate: sfogliamo insieme gli articoli che riguardano le nuove versioni di iPadOS 18, iOS 18, macOS 15 e visionOS 2 guardati con l'occhio dell'architetto.Tornando a noi, parliamo della necessità di un Digital Twin di Torre Garisenda a Bologna, la nuova infornata degli Intel Xeon 6 e dell'avvento della linea Microsoft Copilot+.Buon ascolto!—>

Intelが「Xeon 6プロセッサ」の詳細を発表　コンパクトな「6700シリーズ」と大型の「6900シリーズ」の2本立て。　Intelは6月4日（台湾時間）、データセンター／HPC向けCPU「Xeon 6プロセッサ」を正式発表した。小型パッケージの「Xeon 6 6700シリーズ」と、大型パッケージの「Xeon 6 6900シリーズ」の2本立てで、それぞれに高性能コア（Pコア／開発コード名：Granite Rapids）搭載モデルと高効率コア（Eコア／開発コード名：Sierra Forest）搭載モデルを用意している。小型パッケージのEコアモデル（Xeon 6 6700Eシリーズ）を皮切りに、6月から2025年第1四半期にかけて順次発売される予定だ。

Dell Technologies expands the industry's top-selling server portfolio with performance and efficiency upgrades for wherever Dell PowerEdge is deployed. These servers represent the latest generation of server innovation for Dell's largest and smallest customers. Built with versatility in mind, these new Dell PowerEdge servers offer efficient configurations that will simplify operations for organizations, including CSPs of all sizes, small business owners and those operating at the edge. With performance improvements across the new servers, customers have the compute power to handle a range of workloads. "Our customers are turning to our newest servers to run more compute-intensive workloads while trying to manage power and emissions," said Travis Vigil, senior vice president, Infrastructure Solutions Group Product Management, Dell Technologies. "This builds on our 30 years of experience where Dell PowerEdge has been the backbone of IT infrastructure, helping customers adapt to evolving business needs and supporting workloads across edge, core data centres and the cloud." Enhanced performance and efficiency for cloud service providers New Dell PowerEdge R670 CSP Edition and R770 CSP Edition servers offer cloud service providers optimal performance for high-performance computing, including high-density and scale-out cloud workloads like virtualization and data analytics. Additionally, through the Dell Early Access Program, customers can evaluate these new server designs so CSPs can scale production from day one of availability. Designed with Smart Cooling technology, these servers are energy efficient and intelligently adapt to changing environments. The compact form factor with front I/O for cold aisle serviceability and versatile configurations makes these servers simpler to deploy and service, making them ideal for specialized data centres. Bringing the Intel Xeon 6 Efficient core processor to market first, customers will see up to 2.3x more performance per rack compared to the previous generation. These servers are equipped with Dell Open Server Manager built on OpenBMCTM to simplify management in an open ecosystem for large, heterogeneous environments. These new CSP Edition servers mark the debut of the Data Centre - Modular Hardware System (DC-MHS) architecture in the Dell PowerEdge portfolio. This DC-MHS specification supports easier server integration into existing infrastructure by standardizing servers and improving design and customer choice. Part of the Open Compute Project, DC-MHS is a collaboration between six companies, including Dell Technologies and Intel, focused on redesigning hardware technology to make data centre, edge and enterprise infrastructure more interoperable. "Intel is excited to have Dell Technologies at the forefront of our development on the latest generation of Intel Xeon 6 processor, enabling customers across industries to quickly and seamlessly deliver on the promise of high density, efficient compute for AI data centres of the future," said Ryan Tabrah, Vice President & General Manager of Intel Xeon Efficient-core Products, Intel Corporation. Smaller footprint, double the performance The Dell PowerEdge T160 and R260 servers bring compact computing to small businesses and remote offices looking for powerful, dense configurations. At almost half the physical footprint (42%), the stackable T160 offers a lower carbon footprint via the increased use of sustainable materials, including an unpainted metal chassis. The server is up to 23% more power efficient compared to the previous generation. The R260 also has a reduced physical footprint (24%), increasing its versatility. Both servers feature the Intel Xeon E-2400 Processors, offering double the performance compared to the previous generation. The T160 is ideal for organizations looking to do real-time data processing at near-edge installations. The R260 works well for deploying near-edge virtualisation, minimizing latency by up to 50%. For th...

Sierra Forest／Granite Rapidsは「Xeon 6プロセッサ」に――IntelがXeonプロセッサをリブランド。　Intelは4月9日（米国太平洋時間）、Xeonプロセッサのブランディングについて、次世代製品から改めることを明らかにした。現在、「Sierra Forest」「Granite Rapids」という名称で開発が進められている第6世代CPUは「Xeon 6プロセッサ」という名称となり、これ以降は世代ごとに数字を重ねていくことになる。

Intelが今後の「Xeonプロセッサ」の予定を発表　Eコアのみの「Sierra Forest」に加えてPコアのみの「Granite Rapids-D」も登場。　Intelは2月26日（中央ヨーロッパ時間）、スペインのバルセロナで開催されている「MWC Barcelona 2024」に合わせてXeonプロセッサに関する発表を幾つか行った。

This week Jeff is accompanied by Steve (the Devil's Chicken, himself) and they are discussing everything happening in the world of tech, computers, gaming, craft beer and cocktails.

In this episode of The 5G Factor, our series that focuses on all things 5G, the IoT, and the ecosystem as a whole, I'm joined by my colleague and fellow analyst, Clint Wheelock, for a look at 5G news and what's going on that caught our eye. Our conversation focused on: Qualcomm Calls for 5G to Standalone. In a recent blog, Qualcomm advocates that many of the key innovations in 5G require 5G Standalone (SA) — a network architecture that can allow new, differentiated services which can be monetized for new revenue streams. However, only 22% of the 524 operators investing in 5G networks are investing in 5G SA. We provide our perspective on why more operators need to deploy 5G SA to accelerate the pace of innovation across the 5G ecosystem and what benefits 5G SA brings in contrast to 5G non-standalone (NSA) implementations.  Juniper's New Beyond Labs Aims to Solve Biggest Challenges of Experience-First Networking Era. Juniper Networks Beyond Labs is a fresh initiative focused on shaping the future of the networking and IT industries with emphasis on pioneering research and experimental technology developments. For Juniper customers and partners, such as Eurofiber and Intel, along with the broader academic community like Purdue University, Juniper Beyond Labs will provide an opportunity to influence research directions and pathfinding projects.  We provide our views on Juniper extending its collaboration with Intel and work on the integration of the Intel FlexRAN Reference Architecture, private 5G networks, Juniper RIC and the Juniper Cloud-Native Router on Intel Xeon processors, can enable new capabilities that advance 5G transformation. Samsung Electronics and MediaTek Demonstrate 5G Uplink Capabilities with Three Transmit Antenna. Samsung and MediaTek successfully completed testing of 5G Standalone Uplink (UL) 2CC Carrier Aggregation with C-Band UL MIMO to improve uplink speeds. The Suwon, Korea-based lab demo used three transmit (3Tx) antennas to improve upload experiences. We consider and review what 5G ecosystem benefits 3Tx capabilities can provide across the 5G ecosystem in areas such as cloud gaming, video collaboration platforms, and live streaming.

Training 3.0 benchmark results show performance gains of up to 1.54x compared to six months ago and 33-49x improvement over the first round, driving innovation and energy efficiency in the industry. Intel's Habana Gaudi2 ML training engine competes with Nvidia's offerings, boasting better performance than A100 and lower pricing than H100. Nvidia, on the other hand, unveils their NeMo model with half a trillion parameters and expands the MLPerf Training suite to include GPT-3 and a new Recommendation engine. Their collaboration with CoreWeave showcases the superior performance of the H100, providing a 3.6x speed increase for GPT-3 compared to Intel Xeon and Gaudi2. Nvidia is also developing foundation models for their DGX cloud, collaborating with major players in the industry, and Intel is widely rumored to be developing its own Gaudi2-as-a-Service offering. Then there's the Tiny 1.1 inferencing benchmark, which saw over 150 results and performance improvements up to 1000x. Time Stamps: 0:00 - Welcome to the Rundown 0:48 - What Red Hat is doing with CentOS 3:36 - Moving Windows to the cloud for consumers 6:31 - IBM acquires Apptio 8:51 - Cisco set to acquire SamKnows 12:04 - Databricks Acquires MosaicML 15:37 - Cato Networks introduces AI tracker for malware command and control 18:39 - MLPerf 3 Upsets the AI Apple Cart 32:10 - The Weeks Ahead 33:40 - Thanks for Watching Follow our Hosts on Social Media Tom Hollingsworth: https://www.twitter.com/NetworkingNerd Stephen Foskett: https://www.twitter.com/SFoskett Tim Bertino: https://www.twitter.com/TimBertino Follow Gestalt IT Website: https://www.GestaltIT.com/ Twitter: https://www.twitter.com/GestaltIT LinkedIn: https://www.linkedin.com/company/Gestalt-IT #Rundown, #MLPerf, #CentOS, #RHEL, @RedHat, #Cloud, @Microsoft, @Windows, @IBM, @Apptio, #NetworkMonitoring, @Cisco, @SamKnows, @Databricks, @MosaicML, @CatoNetworks, #AI, @MLCommons, #MLPerf3,

As telecoms strive to lower costs, improve scalability, and increase innovation, the move toward Open Radio Access Networks (RAN) and virtualized RANs (vRAN) is becoming more common. But this path forward is not without its challenges.  In this episode, we discuss the various interoperability, performance, and reliability considerations that telecoms must take into account as they move toward these new technologies. In addition, we'll explore how these concepts relate to one another, the latest advancements in the mobile and connectivity space, and how to stay one step ahead of the curve.  Join us as we explore these ideas with: Randy Cox, VP of Product Management and Industry Verticals, Wind River Brandon Lewis, Editor-in-Chief, Embedded Computing Design Christina Cardoza, Editorial Director, insight.tech Randy and Brandon answer our questions about Trends in the mobile and connectivity space The move to Open RAN and vRAN Wind River's role in telecom transformations Why telecoms should look at the latest Intel® Xeon® processors Wind River Studio's latest single-core support Important partnerships for mobile and connectivity What else there is to know about O-RAN, Open Ran, and vRAN Related Content To learn more about Open RAN and vRAN, read MWC 2023: Where IoT Networking Meets the Intelligent Edge. For the latest innovations from Wind River, follow them on Twitter and LinkedIn; and follow Brandon at @TechieLew.  

Intel has recently released some of the most versatile processors available to IoT hardware engineers, AI software developers, and systems architects today. The 4th Gen Intel® Xeon® Scalable processors, codenamed Sapphire Rapids, offer a secure and powerful foundation for workload consolidation, edge AI, deep learning, and long life needed in demanding environments. In this podcast, we take a closer look at what this release means for the industrial and federal space, and explore advantages of these processors over previous generations, including increased versatility, security, and power. We also discuss how these new processors can help industrial organizations optimize their operations and improve efficiency. Join us as we explore these ideas with: Christine Boles, VP of the Network & Edge Group and GM of Federal & Industrial Solutions, Intel Christina Cardoza, Editorial Director, insight.tech Christine answers our questions about: What the release means to the federal and industrial space How the latest processors compare to previous generations Top use cases to benefit from the 4th Gen Xeon processors The role these processors play in edge adoption Related Content To learn more about the 4th Gen Intel® Xeon® Scalable processors, read Intel Boosts Edge Productivity with Processor Innovations. For the latest innovations from Intel, follow them on Twitter and LinkedIn.

Up to 56 cores and 112 threads on a single chip – that's the all-new Intel® Xeon® W processor, codenamed Sapphire Rapids. Made for workstations that are hungry for data, Xeon W is the high-end computing foundation that today's professionals require for the future of computing. Learn more from Jonathan Patton, Workstation Product Marketing Engineer, in this Talking Tech adapted for the Chip Chat podcast. Notices & Disclaimers Performance varies by use, configuration and other factors. Learn more at www.Intel.com/PerformanceIndex Intel technologies may require enabled hardware, software or service activation. No product or component can be absolutely secure. Your costs and results may vary. © Intel Corporation. Intel, the Intel logo, and other Intel marks are trademarks of Intel Corporation or its subsidiaries. Other names and brands may be claimed as the property of others.

Initiative Establishes New Industry Record For Speed, Power and TCO Efficiency For TLS-Encrypted Traffic, Paving Way For Next-Gen Live Streaming Los . Initiative Establishes New Industry Record For Speed, Power and TCO Efficiency For TLS-Encrypted Traffic, Paving Way For Next-Gen Live Streaming Los Angeles, CA – February 22, 2023 – Varnish Software, a leader in web caching, video streaming and content delivery software solutions, in collaboration with Intel and Supermicro today announced new, record-setting content delivery performance milestones, having achieved greater than 1.3 Tbps throughput on a single Edge server consuming approximately 1,120 watts, resulting in 1.17 Gbps per Watt. The combined solution makes it possible for content delivery services and the live event industry to support massive live streaming events in an economical and sustainable way. “Achieving over 1 Tbps in a single Edge server is a major leap forward for the industry, and critical for delivering the next generation of video and digital experiences,” said Frank Miller CTO, Varnish Software. “The need to deliver more throughput with less energy and at the lowest cost is growing exponentially. With commercially available software and off-the-shelf server hardware from Supermicro – built on 4th Gen Intel Xeon Scalable processors – we have entered a new era of CDN cache performance. Varnish Software's unique architecture, features and capabilities were essential in reaching the new benchmarks, which include asynchronous direct I/O, NUMA awareness and software-based TLS.” The benchmarks were accomplished using Varnish Enterprise 6.0 deployed on a Supermicro 2U CloudDC server powered by 4th Gen Intel Xeon Scalable processors, without requiring the use of specialized, added-cost TLS offload cards. Supermicro's CloudDC server line is an optimized platform targeting private and public clouds offered in 1U and 2U form factors in single or dual processor configurations. These servers are optimized for balance among processor, memory, storage, expansion, and networking to give the best efficiency. For expansion, each of these servers offer a variety of PCI-Express (PCIe) Gen 5 x8 and x16 slots for the latest PCIe cards. CloudDC is a well rounded server that gives the best cost to optimized performance ratio. “We deliver first-to-market innovations and IT Solutions that are environmentally friendly and fit every organization's objectives and budget,” said Michael Mcnerney, vice president, Marketing and Network Security, Supermicro. “The collaboration with Intel and Varnish Software is an example of how we are working closely with best-in-class technology partners to deliver the latest generation of cutting-edge solutions, specifically in the video streaming and CDN space.” Importantly, the throughput and energy efficiencies achieved with this benchmark can be applied to a broad range of servers depending on customer requirements. Varnish looks forward to working with key partners Intel and Supermicro on solutions that support a wide range of video and content delivery workloads leveraging cost-effective system footprints and energy efficiency. Parties interested in learning more can contact Varnish directly or schedule a meeting with Varnish at MWC in Barcelona, February 27 – March 2, 2023. Varnish Software is the leading caching, streaming, and content delivery software stack. Our software helps content providers of any size deliver lightning-fast, reliable, and high-quality web and streaming experiences for huge audiences. With over 10 million deployments, our technology is relied on by millions of websites Worldwide across every industry including Hulu, Emirates, and Tesla. Varnish Software has offices in Los Angeles, New York, London, Tokyo, Singapore, Stockholm, Oslo, Karlstad, Düsseldorf, and Paris.

This episode is sponsored by Intel®. Discover how the 4th Gen Intel Xeon Processor is revolutionizing enterprise security with advanced threat protection, cloud security, and hardware security. Learn how to improve your IT infrastructure and protect your organization from cyber threats with this powerful solution. To learn more about how Intel solves enterprise security challenges, I had a conversation with Brian Richardson, who is the Security Marketing Lead for Intel Data Center & AI (DCAI) Marketing Product Strategy. The key takeaways of the conversation are as follows: • The main challenges that enterprises face in securing their infrastructure are the increasing number of cyberattacks, increasing regulation, and increased security spending. The traditional software approach to cyber security is no longer enough to stop attacks, which are becoming increasingly more sophisticated. • Confidential computing is a newer approach to protect data when it is in use, not just at rest or in transit, which is being focused on by Intel and the industry. • The fourth-generation Intel Scalable Processor addresses enterprise security needs by using technology, such as Intel SGX or Software Guard Extensions, to protect data in use. Contact Brian: Web: https://intel.com/ConfidentialComputing LinkedIn: https://www.linkedin.com/in/richardsonbrian/ Twitter: @Intel_Brian Contact Avrohom: Web: https://asktheceo.biz LinkedIn: https://www.linkedin.com/in/avrohom-gottheil/ Facebook: AvrohomGottheil Twitter: @avrohomg Instagram: @avrohomg INTERVIEW HIGHLIGHTS: [00:30] Intel just launched its 4th generation Xeon scalable processor, which is geared towards its Enterprise customer base. One of the topics on everyone's minds is security. As you know, data breaches are, unfortunately, a very common occurrence, and with that comes the risk of ransomware shutting down businesses and public services, not to mention the damage done to its reputation, which is virtually incalculable. With that on our minds, what are some of the challenges enterprises face when it comes to securing their infrastructure? [03:21] What are some of the ways enterprises go about solving their security challenges? [06:35] How does the 4th generation Intel scalable processor address enterprise security needs? [08:45] Can you share some case studies of the 4th generation Intel Xeon scalable processor in action? [12:57] How can people connect with you to learn more about the 4th generation Xeon scalable processor? [13:45] Do you have any parting words of wisdom to share with the audience? Watch this episode on YouTube: https://youtu.be/i9PrWw4ljeg

We discuss RADEON Navi 33, Lovelace RTX 4060 Laptops, and the Server Engineer joins in as well! [SPON: dieshrink = 3% off Everything, brokensilicon = 25% off Windows: https://biitt.ly/shbSk ] [SPON: Get 10% off Tasty Vite Ramen with code BROKENSILICON: https://bit.ly/3wKx6v1 ] 0:00 Last Minute Guest Change 5:03 RX 7600 XT 8GB Performance - The next RX 480? 18:06 1000w GPU Cooling 24:02 AMD Risk Aversion, Employee Counts, Intel's Low Cost Node 39:43 Re-Introducing the Anonymous Server Engineer 45:28 Intel Xeon vs AMD EPYC Security in 2023 50:43 Can AMD take 50 Market Share by 2026? 1:00:34 Intel Margins, Per-Socket Costs 1:07:53 How long will it take for Intel to comeback? 1:13:22 Can Intel catch up to TSMC? What will the future landscape look like? 1:26:53 ARM, Nvidia Grace, Server Costs 1:37:56 AMD Datacenter Cards, Intel Xe Datacenter Cards 1:46:00 Server Owner PSAs – EPYC is Vendor Locked, Don't Buy SMR Drives for RAID Last Episode with Server Engineer: https://youtu.be/sVN9LrWREBs Latest MLID Server Leak: https://youtu.be/h20inMLeDnE https://d1io3yog0oux5.cloudfront.net/_85c13da17096eb11e6fba92dfe5d3a5f/intel/db/887/8894/earnings_presentation/Q4%272022+Earnings+Deck_Final+PDF.pdf https://www.forbes.com/sites/tiriasresearch/2022/07/25/intel-foundry-services-ifs-and-mediatek-strike-strategic-partnership-agreement/?sh=2ef65e541bac https://www.notebookcheck.net/AMD-Radeon-RX-7600M-XT-GPU-Benchmarks-and-Specs.679270.0.html https://www.notebookcheck.net/AMD-brings-RDNA-3-to-laptops-with-the-Radeon-RX-7600M-XT-Radeon-RX-7600M-Radeon-RX-7600S-and-Radeon-RX-7700S.678998.0.html#news_intro_image https://twitter.com/Zed__Wang/status/1619350027801100289/photo/2 https://youtu.be/wwZr4kp2gnc

Xerolinux https://xerolinux.xyz I installed XeroLinux on an older I mac I had, mostly due to 2 factors, I had the hardware and A review I saw touted the MAC like interface from a modified KDE Plasma base. As a Plasma user, how could I resist. I had previously installed Fedora 36 on the MAC and was receiving random hardware issues at boot time, I wanted to see if the issue persisted on and Arch base, and since I had never used Arch, this was a perfect test case. The install: Power on the MAC and (if you have a MAC keyboard) press and hold the Option key. This presented me with 2 options, boot into fedora, or to the EFI partition on my USB with XeroLinux installer. Select the EFI USB device I was then presented with 4 menu options, XeroLinux installer, REFI boot options, MAC OS and reboot I chose to boot into the Installer In the GUI installer I was first given the options to install several fixes for virtual environments including Qemu and VMWare as well as an install option Next I was greeting (literally with a welcome screen proclaiming “Welcome Fellow Linux Nerds” ) I am at home...lol After selecting language, time zone and Keyboard layouts, The disk partitioning options are presented (and in much less confusing verbage than Fedora) and you are given choice of what swap partition type to use, No Swap, Swap no hibernate swap with hibernate and swap to file also a choice of file system, xfs, btrfs of ext4. I chose xfs the default, and since this is just a toy, not a high availability/high capacity server, there is no need for BTRFS, and if I am happy with the state of the system, I may well use it as a media server or Plex server and in that case I’ll need the larger file capacity of XFS Also available are the file system encryption check box and a manual partition options Under the user account setup, it detected and offered to set the machine name as MAcPro51, which is fine, it’ll help me id the device on my network, VS a unique name I would then have to come up with but would inevitably also contain “MAC” The page also included check boxes to validate password strength (forcing strong passwords, an auto-login option and an option to “reuse user password as root password. Obviously for SUDO purposes, this would not be recommended, but in my situation, I did chose it and the strong passwords validation The next screen verifies all the selections and when next is clicked, A pop-up wants you to confirm again that you want to make the changes selected. (insert jeopardy music while the install happens) During the install, there is a button to observe what is actually going on in the background, partitioning, file copies, compiles, etc First boot and login Well poop,I see a message in the boot screens referring to a hardware issue in CPU0 bank 8, there might be a hardware issue, it IS and older Intel MAC after all… Step one is, as always, update the system Picture 1 Click the thumbnail to see the full-sized image Yes, that is a silhouette of the MST3K guys, I’m using a 720 P TV as my monitor and watch movies when I’m in my home office. 121 packages are ready fro update including Kernel 5.19.12 (more jeopardy Music) next stop: install proprietary driver , open source drivers and non-preinstalled apps All this went very smoothly, as though the distro maintainers had put lots of work and thought into it. To say I’m impressed is an understatement so far. Also there’s a handy dandy “Post install system config button, let’s see what that does… Picture 2 Click the thumbnail to see the full-sized image Man, all kinds of goodies to play with!! With such goodies as Yakuake, Avanti browser and KDE connect preinstaled, the only thing I really needed was a decent office suite, Libre office, of course… The XeroLinux “Hello” app is quite a setup, offering all the tools you need to get up and running. With an app browser very similar to Discover, used by Fedora, finding LibreOffice was easy, tick a check box, a few dependencies needed confirmation, click install and poof, done. I was able to seamlessly browse the internet and watched a full length Jackie Chan movie on Netflix with no issues or buffering, Libre-office Calc opened in about 5 seconds, only marginally slower than my regular I7 desktop PC running Fedora 35. The hardware 2010 MACPRO5.1 with dual Intel Xeon 12 core processors running at 2.5Ghz and 32 GB ram and an ATI Radeon HD 5770 I bought the MAC at a local college surplus auction with no hard drive, and installed a 500GB “spinning rust” hard drive I happened to have laying around. As older hardware, it’s still fairly quiet and crash free, so far. With a modest up time of 5 days. Picture 3 Click the thumbnail to see the full-sized image Picture 4 Click the thumbnail to see the full-sized image

Indigenous tech group asks Apache Foundation to change its name - https://arstechnica.com/gadgets/2023/01/indigenous-tech-group-asks-apache-foundation-to-change-its-name/ Native Americans urge Apache Software Foundation to ditch its name - https://www.theregister.com/2023/01/11/native_american_apache_software_foundation/ Intel Launches 4th Gen Xeon Scalable "Sapphire Rapids", Xeon CPU Max Series - https://www.phoronix.com/review/intel-xeon-sapphire-rapids-max Intel Xeon Platinum 8490H "Sapphire Rapids" Performance Benchmarks - https://www.phoronix.com/review/intel-xeon-platinum-8490h After big delays, Sapphire Rapids arrives, full of accelerators and superlatives - https://www.theregister.com/2023/01/10/after_big_delays_intels_new/ Inside Intel's Delays in Delivering a Crucial New Microprocessor - https://www.nytimes.com/2023/01/10/technology/intel-sapphire-rapids-microprocessor.html The State of JS 2022 - https://2022.stateofjs.com/en-US/ #apache #nativeamericans #intel #xeon #sapphirerapids #stateofjs #stateofjs2022 === RSS - https://anchor.fm/s/b1bf48a0/podcast/rss --- Send in a voice message: https://podcasters.spotify.com/pod/show/edodusi/message

On today's episode of Conversations in the Cloud Alex Liu, Chief Technology Officer of BasicAI stops by to talk about the company's efforts at evolving the training data platform. Xtreme1 is the world's first open-source platform for multisensory training data and can rapidly accelerate the processing and management of training data. AI engineers spend a preponderance of their time preparing the training data. Through advanced AI-powered annotation tools, Xtreme1 improves modeling. Capable of handling various time-sensitive online/offline tasks, distributed data analysis computation, model training, evaluation, and inference, Xtreme1 is fully compatible with CPU-only runtime environments. In particular, the model inference has been optimized for Intel Xeon CPU to provide higher throughput. Inference throughput on Intel Xeon 8380 is vastly improved with the help of Intel extension for PyTorch and OpenVINO toolkit. For more information go to www.basic.ai and www.xtreme1.io

This week: It's part 1 of our best of 2022 picks, with our favorite tech, shows, and movies! This episode supported by Easily create a beautiful website all by yourself, at Squarespace.com/cultcast. Use offer code CultCast at checkout to get 10% off your first purchase of a website or domain. Cult of Mac's watch store is full of beautiful straps that cost way less than Apple's. See the full curated collection at Store.Cultofmac.com CultCloth will keep your Mac Studio, Studio Display, iPhone 14, glasses and lenses sparkling clean, and for a limited time use code CULTCAST at checkout to score a free CarryCloth with any order at CultCloth.co. This week's stories Don't give up on the iMac Pro just yet The first iMac Pro launched in 2017, with a powerful Intel Xeon processor, a 27-inch 5K display and a starting price of $5,000. The first iMac designed for professionals, the pricey computer failed to find a market. Apple nixed it in 2021 without ever releasing follow-up versions. But it's apparently not too late. Apple seemingly cancels ‘M2 Extreme' Mac Pro At WWDC20, Apple promised to complete its transition to Apple silicon inside Macs in two years. It missed that deadline, and the company is yet to reveal a replacement for its 2019 Intel Mac Pro. Apple store rewards procrastinators with free two-hour deliveries It's almost Christmas, while Hanukkah is already in full swing, and the Apple store is helping last-minute shoppers with free two-hour delivery of some items. Why AirTags make the ultimate Apple stocking stuffers

Eduardo Archanco (@eaala) y Julio César Fernandez (@jcfmunoz) analizan el nuevo chip M2 del nuevo MacBook Air 2022 con el que Apple bate al Intel Xeon del Mac Pro de 2019. Es una comparación injusta, porque son dos chips con dos arquitecturas, dos formas de trabajo distintas. En Cupertino han trabajado durante años creando esa ventaja.

Daniel Chang, CEO of ENERZAi, joins host Jake Smith to discuss ENERZAi's vision of delivering the best AI experience on everything for everyone, and how they are doing this by overcoming the constraints that edge devices have through AI models. He highlights how ENERZAi's Automated Model Compression Optimization Toolkit enables AI models to maintain high accuracy, while minimizing latency, size, power consumption for successful Edge deployment, as proven in their recent collaboration with Intel. Daniel further illuminates how their collaboration through the Intel AI Builders program optimized their state-of-the-art 3D hand pose estimation model for Intel Xeon processors achieved incredible performance results. Utilizing the Intel OpenVINO toolkit to improve the latency and inference times while not compromising the model's accuracy. This optimization project also helped pave the way for customers aiming to use ENERZAi's 3D hand pose estimation solution for their driver monitoring systems, AR/VR systems or other systems on Intel processors in an incredibly performant way. Jake and Daniel also chat about a customer use case where ENERZAi was able to help a SAAS customer migrate their solution from expensive GPU instances to more cost efficient Intel CPU instances while preserving the model accuracy. Lastly they both dive into discussing the future of AI and how it can solve the constraints that edge devices face to truly enable AI to be deployed everywhere in the world. For more information, visit: https://enerzai.com/ Follow Jake on Twitter at: https://twitter.com/jakesmithintel

Elke smartphone wordt vandaag de dag aangedreven door een ARM-chip. Ook in auto's, tablets, televisies en Internet of Things-oplossingen zijn ARM-chips te vinden. De Apple A- en M-chips, de Qualcomm Snapdragon, de Samsung Exynos en vele andere zijn gebaseerd op ARM. Opmerkelijk genoeg is ARM nog niet doorgebroken in het datacenter, maar wij denken dat dit snel gaat veranderen, om te beginnen met de cloud. AWS is wat dat betreft een kartrekker, die ontwikkelen inmiddels al enkele jaren ARM-chips voor in hun cloudinfrastructuur. Zo hebben ze inmiddels de derde generatie Graviton processor beschikbaar. Dit is een krachtige ARM-chip die sneller, zuiniger en goedkoper is dan de Intel Xeon-chips. AWS heeft naast de Graviton ook de Inferentia- en de Tranium-chip, welke geschikt zijn voor AI-workloads en machine learning. Bij AWS zijn ze heel duidelijk in de voordelen van hun eigen ARM-chips. Minder stroomverbruik, betekent lagere kosten. Meer prestaties en meer optimalisaties voor bepaalde type workloads, denk aan een webserver of database-server. Dit alles maakt de Graviton aantrekkelijk. Ondertussen zie je dat Microsoft Azure en Oracle zijn begonnen met het aanbieden van een genereke ARM-chip die wordt ontwikkeld door Ampera, de Ampera Altra. Verder is het een slecht bewaard geheim dat Google ook al enige tijd zijn eigen chips ontwerpt, het ligt voor de hand dat we die binnenkort in de Google Cloud gaan zien. Alles bij elkaar zie je dat ARM langzaam maar zeker dominanter wordt in de cloud. Het chiptekort zorgt waarschijnlijk voor enige remming, want chips produceren is op dit moment heel lastig. Zodra het chiptekort verleden tijd is, verwachten wij flinke innovstie in de cloud met dank aan ARM. De vraag is dan ook wanneer Dell, HPE, Lenovo en Futjisu op de ARM-trein springen en een breed assortiment servers beschikbaar gaan stellen die worden aangedreven door ARM. In deze Techzine Talks gaan we dieper op in deze ontwikkelingen. Hoe wij dit zien gebeuren. Wat we nog kunnen verwachten. Ook nemen we de pc-markt nog even mee. Apple heeft besloten alle pc's voortaan te voorzien van eigen ARM-chips en Intel de deur te wijzen. Gaat hetzelfde gebeuren met alle Windows-pc's? Of blijft Microsoft trouw aan Intel? 

Questo episodio è stato pensato e registrato un pò con iPhone (ma non ne ho fatto niente) e nuovamente registrato in studio. Di mezzo ci sono un paio di mesi allucinanti tra lavoro, vita reale e inconvenienti tecnici.In questa puntata vi parlo di quello che mi è successo, anche se non ve ne frega uno sconfinato c#@@0...Nonostante tutto, vi parlero , chiudendo la parte intruduttiva dell'episodio precedente sui 10 CAD migliori per Mac.AMD ha presentato il nuovo Ryzen Threadripper PRO 5000 che si pone ancora una volta il solo antagonista degli Intel XEON.E infine una disamina veloce su SketchUP che sbarca finalmente su iPadOs sdoganando definitivamente l'uso dell'iPad tra i professionisti del CAD, siano essi architetti, ingegneri o più semplicemente tiralinee.Potete trovare i link per i software CAD:[1. Autodesk Autocad](https://www.autodesk.it/products/autocad/overview?term=1-YEAR&tab=subscription) [2. Autodesk Autocad LT](https://www.autodesk.it/products/autocad-lt/overview?term=1-YEAR&tab=subscription) [3. Autodesk Fusion 360](https://www.autodesk.it/products/fusion-360/overview?term=1-YEAR&tab=subscription) [4. CorelCAD 2021](https://www.coreldraw.com/it/product/corel-cad/) [5. HighDesign](http://www.ilexsoft.com/highdesign/index.html) continua la prossima puntata.Qui la puntata precedente per l'intro dei 10 CAD per Mac: https://www.spreaker.com/episode/49143033Qui potete scaricare [SketchUp](https://www.sketchup.com/it)Mi potete trovare qui: [fokewulf.it](https://fokewulf.it)Questo podcast è editato con [PODucer] (https://ulti.media/poducer-podcast-producer/) ([thks Alex Raccuglia](https://ulti.media/about/))––––––––––––––––––––––––––––––Track: Freeride — Vendredi [Audio Library Release] Music provided by Audio Library Plus Watch: [https://youtu.be/p72brg5XSAM](https://youtu.be/p72brg5XSAM) Free Download / Stream: [https://alplus.io/freeride](https://alplus.io/freeride) ––––––––––––––––––––––––––––––Heartfül of Kerøsene - Jeff II [https://youtu.be/ZbyFsGMjfRg](https://youtu.be/ZbyFsGMjfRg) Creative Commons Attribution Free Download / Stream: [https://bit.ly/al-heartful-of-kersene](https://bit.ly/al-heartful-of-kersene) Music promoted by Audio Library [https://youtu.be/y-tbE2FIA1o](https://youtu.be/y-tbE2FIA1o) –––––––––––––––––––––––––––––– Hosted on Acast. See acast.com/privacy for more information.

Kevin Kirkus is a Principal Engineer at Intel. He has been there since 1999, designing, building, and testing Intel processors, both the chip and the code that runs the chips. Kevin is a Post-Silicon Validation Architect Lead for multiple Intel Xeon generations and more recently transitioned to Global Post-Silicon Automation Lead for server, client, and device products at Intel Corporation. He has served in various past areas of validation, such as PCIe, socket-interconnect, Platform Configurations, Boot Flows, Fuse, before transitioning to more technical leadership roles in validation architecture and strategy. As a Technical Leader in silicon validation automation, his roles and responsibilities have extended to global standardization and alignment of tools, flows, and methodologies across Intel global product segments (server, client, device), including mentoring environment domain, leads, aligning global sites and strengthening local product sites to excel in automation investments. His technical and leadership experience for validating advanced complex technology has been integral to the success of Intel product teams and their competitive products. He is passionate about developing people and future leaders, building on their strengths, influence, and impact.   Topics of Discussion: [3:33] What are some high points that lead Kevin to where he is today? [8:06] Kevin talks about focusing on functional validation execution, and what he likes as a Post-Silicon Validation Architect Lead. [9:03] Kevin walks us through the process from where the code is embedded, the silicon is made, and there's a system of trial and error to test if you are on the right track. [15:33] What are the penalties for the turnaround time? [15:48] What is the mix of code types that are a part of this? [17:18] Kevin talks about the concept of fuses and SKUs or stock-keeping units. [21:12] Kevin talks about the format of the test themselves, the language in which he writes the test cases, and the partnership between the host and target system. [31:42] Where are test harness codes and firmware loaders stored? [31:47] Firmware has to be handled a little bit differently; it has to be cross-platform deployment packaging. [35:20] Most of Intel Xeon's solutions are proprietary, and their bug tracking is proprietary. [39:05] How does Kevin coach people to have the technical skills they need in this space?   Mentioned in this Episode: Architect Tips — New video podcast! Azure DevOps Clear Measure (Sponsor) .NET DevOps for Azure: A Developer's Guide to DevOps Architecture the Right Way, by Jeffrey Palermo — Available on Amazon! Jeffrey Palermo's YouTube Jeffrey Palermo's Twitter — Follow to stay informed about future events!   Want to Learn More? Visit AzureDevOps.Show for show notes and additional episodes.   Quotes: “My job starts when they have gotten to the point where it boots up and it's reaching the point of fetching the operating system code to where we can actually see it in the operating system.” — Kevin [20:02] “If we can deliver a healthy environment to our functional validation team, it gives them a chance to focus their energies on writing tests that actually find the most bugs.” — Kevin [39:54]   Kevin Kirkus: LinkedIn   Intel Intel Xeon

IT Best Practices: Intel IT operates 56 data center modules at 16 data center sites. These sites have a total capacity of 103 megawatts, housing more than 360,000 servers that underpin the computing needs of 116,000 employees. Intel IT has four main segments of operation: Design, Office, Manufacturing and Enterprise. This paper focuses on only […]

IT Best Practices: Intel IT operates 56 data center modules at 16 data center sites. These sites have a total capacity of 103 megawatts, housing more than 360,000 servers that underpin the computing needs of 116,000 employees. Intel IT has four main segments of operation: Design, Office, Manufacturing and Enterprise. This paper focuses on only […]

IT Best Practices: Intel IT operates 56 data center modules at 16 data center sites. These sites have a total capacity of 103 megawatts, housing more than 360,000 servers that underpin the computing needs of 116,000 employees. Intel IT has four main segments of operation: Design, Office, Manufacturing and Enterprise. This paper focuses on only […]

IT Best Practices: Intel IT operates 56 data center modules at 16 data center sites. These sites have a total capacity of 103 megawatts, housing more than 360,000 servers that underpin the computing needs of 116,000 employees. Intel IT has four main segments of operation: Design, Office, Manufacturing and Enterprise. This paper focuses on only […]

美國CES即將在週三(5日)開展，技嘉(2376)宣布以線上數位的形式，展出近年極力推廣的「智慧生活圈」中的各種關鍵技術及智慧物聯網應用。 期間，技嘉將透過官網平台「INDUSTRY」介紹各種可帶動產業進行數位轉型的解決方案。

More and more of today's medical imaging devices, such as CT, ultrasound, and MRI scanners, rely on real-time AI inferencing at the edge to make critical medical decisions while patients are being treated. Intel's Deepthi Karkada, a deep-learning software engineer, and Ryan Loney, Product Manager for OpenVINO™ spoke to Hilary Kennedy about recent trends in AI-based medical imaging and how Intel and its partners are helping identify and address the rapidly changing needs of this burgeoning industry.“Real-time medical imaging at the edge is important because it enables healthcare providers to get results from scans, run inferences, and make decisions about medical care at the patient's bedside,” says Looney. “Often these results need to be obtained and processed in two seconds or less.” Computing at the edge is not without its issues, however. Three of the major hurdles Intel and its partners routinely face are: limited memory in low-power devices, binary size, and latency. “Every megabyte counts when you're deploying on low-power medical devices with limited memory,” says Looney. “Analytics need to be run in as close to real-time as possible.“We know that AI and similar techniques are being adopted in the fields of medical imaging,” Karkada said. “These techniques include things like object detection and semantics segmentation. These techniques help radiologists quickly identify issues and result in many benefits. Many of our partners have been leveraging these advancements in these technologies.”“Intel offers a portfolio of hardware solutions targeted for AI inferencing,” Karkada said. “This includes solutions like the Intel Xeon® processors, core processors, and FPGAs, that our partners have been able to leverage. On the software side, our OpenVINO™ Toolkit provides accelerated inferencing solutions. These also take advantage of the hardware features, so they're tightly coupled and integrated.Learn more about AI and edge solutions for medical imaging, and other health and life sciences, by connecting with Deepthi Karkada and Ryan Loney on LinkedIn, or read more about Intel's medical imaging solutions online.Learn how to optimize a CT model using OpenVINO here: https://github.com/openvinotoolkit/openvino_notebooks/tree/main/notebooks/110-ct-segmentation-quantize Hear some of our customer success stories here.Subscribe to the “Health and Life Sciences at the Edge” channel on Apple Podcasts, Spotify or Google Podcasts to hear more from the Intel Internet of Things Group.

On The Cloud Pod this week, the team finds out whose re:Invent 2021 crystal ball was most accurate. Also Graviton3 is announced, and Adam Selipsky gives his first re:Invent keynote.  A big thanks to this week's sponsors: Foghorn Consulting, which provides full-stack cloud solutions with a focus on strategy, planning and execution for enterprises seeking to take advantage of the transformative capabilities of AWS, Google Cloud and Azure. JumpCloud, which offers a complete platform for identity, access, and device management — no matter where your users and devices are located.  This week's highlights

Kirk from Microsoft and Devlin from Intel are joined by two Microsoft Windows Server specialists on the final edition of our special podcast series.

In this edition of the podcast, Kirk and Devlin are joined by Louis Brunetto and Aaron Rothfuss of Lenovo to discuss how Windows Server, Xeon processors and Lenovo servers bring opportunity to partners.

In this edition of the podcast, Kirk and Devlin are joined by Ryan Leyden of Dell Technologies to talk about opportunities for partners around Windows Server on Dell PowerEdge servers.

In this special Executive Edition of Windows Server Explained, Kirk asks key questions to some of the most knowledgeable executives in the industry.

In the first of this guest podcast series by Ingram Micro Canada, experts from Microsoft Canada and Intel Canada discuss the market for on-premise servers, and outline top partner opportunities.

Over the next six weeks, we'll be bringing you a series of guest podcasts from Ingram Micro Canada exploring partner opportunities around the Windows Server platform. Find out what's to come in the series here.

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Today's Heavy Networking, sponsored by Intel, dives into 5G, virtualization, and AI. Intel's 3rd Gen Xeon processors can support a variety of use cases, including running virtualized network functions in the data center, at the edge, and in the cloud. They also have built-in acceleration for AI and cryptography, giving organizations a flexible platform for a variety of workloads, including service providers building out 5G networks. Our guest is Cristina Rodriguez, Vice President Data Center Group General Manager Wireless Access Network Division at Intel.

Today's Heavy Networking, sponsored by Intel, dives into 5G, virtualization, and AI. Intel's 3rd Gen Xeon processors can support a variety of use cases, including running virtualized network functions in the data center, at the edge, and in the cloud. They also have built-in acceleration for AI and cryptography, giving organizations a flexible platform for a variety of workloads, including service providers building out 5G networks. Our guest is Cristina Rodriguez, Vice President Data Center Group General Manager Wireless Access Network Division at Intel.

Today's Heavy Networking, sponsored by Intel, dives into 5G, virtualization, and AI. Intel's 3rd Gen Xeon processors can support a variety of use cases, including running virtualized network functions in the data center, at the edge, and in the cloud. They also have built-in acceleration for AI and cryptography, giving organizations a flexible platform for a variety of workloads, including service providers building out 5G networks. Our guest is Cristina Rodriguez, Vice President Data Center Group General Manager Wireless Access Network Division at Intel.

Today's Heavy Networking, sponsored by Intel, dives into 5G, virtualization, and AI. Intel's 3rd Gen Xeon processors can support a variety of use cases, including running virtualized network functions in the data center, at the edge, and in the cloud. They also have built-in acceleration for AI and cryptography, giving organizations a flexible platform for a variety of workloads, including service providers building out 5G networks. Our guest is Cristina Rodriguez, Vice President Data Center Group General Manager Wireless Access Network Division at Intel. The post Heavy Networking 586: Virtualizing And Accelerating 5G RAN With 3rd Gen Intel® Xeon (Sponsored) appeared first on Packet Pushers.

Today's Heavy Networking, sponsored by Intel, dives into 5G, virtualization, and AI. Intel's 3rd Gen Xeon processors can support a variety of use cases, including running virtualized network functions in the data center, at the edge, and in the cloud. They also have built-in acceleration for AI and cryptography, giving organizations a flexible platform for a variety of workloads, including service providers building out 5G networks. Our guest is Cristina Rodriguez, Vice President Data Center Group General Manager Wireless Access Network Division at Intel. The post Heavy Networking 586: Virtualizing And Accelerating 5G RAN With 3rd Gen Intel® Xeon (Sponsored) appeared first on Packet Pushers.

On this episode of the Futurum Tech Podcast - Interview Series, host Daniel Newman welcomes Jeni Panhorst, Vice President and General Manager of Network and Edge Platforms Division at Intel for a conversation about the future of 5G and edge innovation.   Technology Companies are Essential   Intel, like most companies in the last few months, has had to pivot to figure out how to deliver what other companies and the world needs right now to fight this pandemic. Whether it's just dealing with the changes in the way that we work, being able to support the enterprise capacity, or the communications capacity that's required for people as they pivot their work from offices to homes, Intel has been a backbone for technology solutions in infrastructure worldwide. And that's likely going to continue with the proliferation of 5G networks and edge technology.   The Future of 5G and Edge Innovation   10 years ago, the smartphone revolution created an entirely new ecosystem for innovation of apps and services that now, we couldn't imagine living without. Intel has been involved in that transformation from the beginning, working network operators, telecom equipment manufacturers, hardware manufacturers, software innovators, system integrators, and other partners to build network infrastructure with greater capacity and great flexibility that supported and connected all these devices. This has formed the foundation for the future of 5G and edge innovation.   Today networks have more flexibility and agility to bring computing capacity closer to where data is generated which in turn enables innovation. We have the ability to process data much closer to where it's brought into the overall system which drives down decision latency and drives up a value of insights that are generated.   Jeni shared that Intel has built a huge foundation through virtualization of the network, cloudification of the network, which is going to form the bedrock for the next wave of 5G and edge innovation as well.   Improving the Ability to Innovate   Dan referenced a recent report Futurum conducted in partnership with Intel on hardware to software transformation that determined with software defined virtualization, a lot more can be done in less time — workloads can be scaled, data can move more seamlessly, and we can have real-time applications for things like edge and IoT, in retail, smart cities and government.   But this high degree of virtualization has also given companies the ability to do more and more computing closer to the data. They have the ability to add AI and machine learning enabled services much closer to where those devices exist. More companies are able to innovate new use cases for these technologies.   Jeni and Dan discussed a few different examples of new use cases like factory reconfiguration. There's an aggregation of insights coming from multiple different factory locations, so companies have the ability now to reconfigure the equipment to deal with changing demand or the need to produce different types of goods like we saw with the PPE shortage. And since companies have found success with this, it will likely accelerate more in the future.    The Next Generation of 5G Edge   Jeni shared some of the exciting announcements that Intel has made recently like the Intel Xeon processors and the Intel Atom P5900 product — a system on a chip specifically focused on the radio access network. It is the first Intel architecture processor focused on base stations.    Intel is focused on building next generation 5G base stations based on this product, as well as a set of products across the portfolio, including the FPGA products, the ASIC products and the Intel Ethernet controllers, in order to have a complete solution that delivers on the needs of 5G processing.   Intel's Commitment to Partnerships   There's an opportunity now to partner across the industry to ensure that the needs of the next generation of networks are met. Non-real time is not valuable anymore. The closer the data is to the actual moment is when companies will see the biggest return — and that is what intel is committed to providing.   Jeni shared that Intel is heavily dependent upon those partnerships that exist across the entire value chain, whether it's the equipment manufacturers, the software vendors, the system integrators, and the operators and end users who are deploying and using the technology. But not every network developer will have the right expertise that is needed for the new use cases.   In order to foster innovation Intel created an open source software toolkit called OpenNESS. The purpose is to abstract the complexity out of the network to developers of edge applications while providing a place for those next generation cloud-native edge applications to land.   There are a lot of challenges that still need to be addressed in order to ensure the orchestration and automation of the necessary infrastructure in order to deliver all of the promises of next-generation edge computing. But it's definitely something that Intel is invested in, in order to create that next wave of innovation.   This was a fascinating conversation with a dynamic leader in the 5G and edge computing space that should not be missed. And don't forget to subscribe to the Futurum Tech Podcast so you never miss an episode.

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