Performance Index

ID 615781
Date 03/08/2024
Document Table of Contents

11th Gen Intel® Core™ Processors

Form Factor Series Use Case Claim Processor Systems Measured Measurement Measurement Period
Mobile U-Series Overall Performance Achieve up to 75% better overall performance with a Google Chromebook device powered by an 11th Generation Intel® Core™ i3-1115G4 processor, compared to one powered by an AMD Ryzen 7 3700C processor. Intel Core i3-1115G4 Processor: Intel® Core™ i3-1115G4 processor (4.3 GHz max turbo, 2 cores, 4 threads) measured on ASUS Chromebook C536EA, 8 GB DRAM, 128 GB SSD, 15.6" 1920 x 1080 display; Chrome OS: 90.0.4430.100 (build 13816.64.0); graphics: Mesa Intel(R) UHD Graphics (TGL GT2) graphics driver: 21.0.0 BIOS version: Google_​Delbin.13672.39.0/Linux 5.4.99-13153-g28a2c98317f3. Processor: AMD Ryzen 7 3700C processor (2.4 GHz base, up to 4.2 GHz turbo, 4 cores, 8 threads, 15 W) measured on Lenovo ThinkPad C13, 16 GB DRAM, 256 GB SSD, 13.3" 1920 x 1080 display, Chrome OS: 88.0.4324.153; graphics: Radeon Vega Mobile (AMD Raven) with driver 19.3.5; BIOS version: Google_​Morphius.13434.155.0/Linux 5.4.75-10795-ga946176b2e00. As measured by Speedometer 2.0. 28-May-21
Mobile U-Series Overall Performance;#Productivity​ Achieve up to 32% better overall productivity performance when plugged in with a Google Chromebook device powered by an 11th Generation Intel® Core™ i3-1115G4 processor, compared to one powered by an AMD Ryzen 7 3700C processor. Intel Core i3-1115G4 Processor: Intel® Core™ i3-1115G4 processor (4.3 GHz max turbo, 2 cores, 4 threads) measured on ASUS Chromebook C536EA, 8 GB DRAM, 128 GB SSD, 15.6" 1920 x 1080 display; Chrome OS: 90.0.4430.100 (build 13816.64.0); graphics: Mesa Intel(R) UHD Graphics (TGL GT2) graphics driver: 21.0.0 BIOS version: Google_​Delbin.13672.39.0/Linux 5.4.99-13153-g28a2c98317f3. Processor: AMD Ryzen 7 3700C processor (2.4 GHz base, up to 4.2 GHz turbo, 4 cores, 8 threads, 15 W) measured on Lenovo ThinkPad C13, 16 GB DRAM, 256 GB SSD, 13.3" 1920 x 1080 display, Chrome OS: 88.0.4324.153; graphics: Radeon Vega Mobile (AMD Raven) with driver 19.3.5; BIOS version: Google_​Morphius.13434.155.0/Linux 5.4.75-10795-ga946176b2e00. As measured by CrXPRT 2.0. 28-May-21
Mobile U-Series Overall Performance;#Productivity​ Achieve up to 90% better overall productivity performance when unplugged with a Google Chromebook device powered by an 11th Generation Intel® Core™ i3-1115G4 processor, compared to one powered by an AMD Ryzen 7 3700C processor. Intel Core i3-1115G4 Processor: Intel® Core™ i3-1115G4 processor (4.3 GHz max turbo, 2 cores, 4 threads) measured on ASUS Chromebook C536EA, 8 GB DRAM, 128 GB SSD, 15.6" 1920 x 1080 display; Chrome OS: 90.0.4430.100 (build 13816.64.0); graphics: Mesa Intel(R) UHD Graphics (TGL GT2) graphics driver: 21.0.0 BIOS version: Google_​Delbin.13672.39.0/Linux 5.4.99-13153-g28a2c98317f3. Processor: AMD Ryzen 7 3700C processor (2.4 GHz base, up to 4.2 GHz turbo, 4 cores, 8 threads, 15 W) measured on Lenovo ThinkPad C13, 16 GB DRAM, 256 GB SSD, 13.3" 1920 x 1080 display, Chrome OS: 88.0.4324.153; graphics: Radeon Vega Mobile (AMD Raven) with driver 19.3.5; BIOS version: Google_​Morphius.13434.155.0/Linux 5.4.75-10795-ga946176b2e00. As measured by CrXPRT 2.0. 28-May-21
Mobile U-Series Web​ Achieve up to 111% faster web browsing performance when unplugged with a Google Chromebook device powered by an 11th Generation Intel® Core™ i3-1115G4 processor, compared to an unplugged Chromebook powered by an AMD Ryzen 7 3700C processor. Intel Core i3-1115G4 Processor: Intel® Core™ i3-1115G4 processor (4.3 GHz max turbo, 2 cores, 4 threads) measured on ASUS Chromebook C536EA, 8 GB DRAM, 128 GB SSD, 15.6" 1920 x 1080 display; Chrome OS: 90.0.4430.100 (build 13816.64.0); graphics: Mesa Intel(R) UHD Graphics (TGL GT2) graphics driver: 21.0.0 BIOS version: Google_​Delbin.13672.39.0/Linux 5.4.99-13153-g28a2c98317f3. Processor: AMD Ryzen 7 3700C processor (2.4 GHz base, up to 4.2 GHz turbo, 4 cores, 8 threads, 15 W) measured on Lenovo ThinkPad C13, 16 GB DRAM, 256 GB SSD, 13.3" 1920 x 1080 display, Chrome OS: 88.0.4324.153; graphics: Radeon Vega Mobile (AMD Raven) with driver 19.3.5; BIOS version: Google_​Morphius.13434.155.0/Linux 5.4.75-10795-ga946176b2e00. As measured by WebXPRT 3. 28-May-21
Mobile U-Series Web​ Achieve up to 40% faster web browsing performance when plugged in with a Google Chromebook device powered by an 11th Generation Intel® Core™ i3-1115G4 processor, compared to a plugged-in Chromebook powered by an AMD Ryzen 7 3700C processor. Intel Core i3-1115G4 Processor: Intel® Core™ i3-1115G4 processor (4.3 GHz max turbo, 2 cores, 4 threads) measured on ASUS Chromebook C536EA, 8 GB DRAM, 128 GB SSD, 15.6" 1920 x 1080 display; Chrome OS: 90.0.4430.100 (build 13816.64.0); graphics: Mesa Intel(R) UHD Graphics (TGL GT2) graphics driver: 21.0.0 BIOS version: Google_​Delbin.13672.39.0/Linux 5.4.99-13153-g28a2c98317f3. Processor: AMD Ryzen 7 3700C processor (2.4 GHz base, up to 4.2 GHz turbo, 4 cores, 8 threads, 15 W) measured on Lenovo ThinkPad C13, 16 GB DRAM, 256 GB SSD, 13.3" 1920 x 1080 display, Chrome OS: 88.0.4324.153; graphics: Radeon Vega Mobile (AMD Raven) with driver 19.3.5; BIOS version: Google_​Morphius.13434.155.0/Linux 5.4.75-10795-ga946176b2e00. As measured by WebXPRT 3. 28-May-21
Mobile U-Series Productivity​ Achieve up to 61% better performance when unzipping a video file in Google Drive by using a Google Chromebook device powered by an 11th Generation Intel® Core™ i3-1115G4 processor, compared to a Chromebook powered by an AMD Ryzen 7 3700C processor. Intel Core i3-1115G4 Processor: Intel® Core™ i3-1115G4 processor (4.3 GHz max turbo, 2 cores, 4 threads) measured on ASUS Chromebook C536EA, 8 GB DRAM, 128 GB SSD, 15.6" 1920 x 1080 display; Chrome OS: 90.0.4430.100 (build 13816.64.0); graphics: Mesa Intel(R) UHD Graphics (TGL GT2) graphics driver: 21.0.0 BIOS version: Google_​Delbin.13672.39.0/Linux 5.4.99-13153-g28a2c98317f3. Processor: AMD Ryzen 7 3700C processor (2.4 GHz base, up to 4.2 GHz turbo, 4 cores, 8 threads, 15 W) measured on Lenovo ThinkPad C13, 16 GB DRAM, 256 GB SSD, 13.3" 1920 x 1080 display, Chrome OS: 88.0.4324.153; graphics: Radeon Vega Mobile (AMD Raven) with driver 19.3.5; BIOS version: Google_​Morphius.13434.155.0/Linux 5.4.75-10795-ga946176b2e00. As measured by a Google Drive workflow that entails unzipping a video file. 28-May-21
Mobile U-Series Web​ Achieve up to 12% better multi-tab browsing performance by using a Google Chromebook device powered by an 11th Generation Intel® Core™ i3-1115G4 processor, compared to a Chromebook powered by an AMD Ryzen 7 3700C processor. Intel Core i3-1115G4 Processor: Intel® Core™ i3-1115G4 processor (4.3 GHz max turbo, 2 cores, 4 threads) measured on ASUS Chromebook C536EA, 8 GB DRAM, 128 GB SSD, 15.6" 1920 x 1080 display; Chrome OS: 90.0.4430.100 (build 13816.64.0); graphics: Mesa Intel(R) UHD Graphics (TGL GT2) graphics driver: 21.0.0 BIOS version: Google_​Delbin.13672.39.0/Linux 5.4.99-13153-g28a2c98317f3. Processor: AMD Ryzen 7 3700C processor (2.4 GHz base, up to 4.2 GHz turbo, 4 cores, 8 threads, 15 W) measured on Lenovo ThinkPad C13, 16 GB DRAM, 256 GB SSD, 13.3" 1920 x 1080 display, Chrome OS: 88.0.4324.153; graphics: Radeon Vega Mobile (AMD Raven) with driver 19.3.5; BIOS version: Google_​Morphius.13434.155.0/Linux 5.4.75-10795-ga946176b2e00. As measured by a Google Chrome multi-tab browsing workflow. 28-May-21
Mobile U-Series Productivity​ Achieve up to 66% better performance when creating a chart in a Jupyter notebook by using a Google Chromebook device powered by an 11th Generation Intel® Core™ i3-1115G4 processor, compared to a Chromebook powered by an AMD Ryzen 7 3700C processor. Intel Core i3-1115G4 Processor: Intel® Core™ i3-1115G4 processor (4.3 GHz max turbo, 2 cores, 4 threads) measured on ASUS Chromebook C536EA, 8 GB DRAM, 128 GB SSD, 15.6" 1920 x 1080 display; Chrome OS: 90.0.4430.100 (build 13816.64.0); graphics: Mesa Intel(R) UHD Graphics (TGL GT2) graphics driver: 21.0.0 BIOS version: Google_​Delbin.13672.39.0/Linux 5.4.99-13153-g28a2c98317f3. Processor: AMD Ryzen 7 3700C processor (2.4 GHz base, up to 4.2 GHz turbo, 4 cores, 8 threads, 15 W) measured on Lenovo ThinkPad C13, 16 GB DRAM, 256 GB SSD, 13.3" 1920 x 1080 display, Chrome OS: 88.0.4324.153; graphics: Radeon Vega Mobile (AMD Raven) with driver 19.3.5; BIOS version: Google_​Morphius.13434.155.0/Linux 5.4.75-10795-ga946176b2e00. As measured by workflow that entails creating a chart in a Jupyter notebook. 28-May-21
Mobile U-Series Productivity​ Achieve up to 14% better performance when opening a PDF in Google Chrome by using a Google Chromebook device powered by an 11th Generation Intel® Core™ i3-1115G4 processor, compared to a Chromebook powered by an AMD Ryzen 7 3700C processor. Intel Core i3-1115G4 Processor: Intel® Core™ i3-1115G4 processor (4.3 GHz max turbo, 2 cores, 4 threads) measured on ASUS Chromebook C536EA, 8 GB DRAM, 128 GB SSD, 15.6" 1920 x 1080 display; Chrome OS: 90.0.4430.100 (build 13816.64.0); graphics: Mesa Intel(R) UHD Graphics (TGL GT2) graphics driver: 21.0.0 BIOS version: Google_​Delbin.13672.39.0/Linux 5.4.99-13153-g28a2c98317f3. Processor: AMD Ryzen 7 3700C processor (2.4 GHz base, up to 4.2 GHz turbo, 4 cores, 8 threads, 15 W) measured on Lenovo ThinkPad C13, 16 GB DRAM, 256 GB SSD, 13.3" 1920 x 1080 display, Chrome OS: 88.0.4324.153; graphics: Radeon Vega Mobile (AMD Raven) with driver 19.3.5; BIOS version: Google_​Morphius.13434.155.0/Linux 5.4.75-10795-ga946176b2e00. As measured by Google Reader workflow. 28-May-21
Mobile U-Series Overall Performance Achieve up to 11% better graphics performance by using a Google Chromebook device powered by an 11th Generation Intel® Core™ i3-1115G4 processor, compared to one powered by an AMD Ryzen 3 3700C processor. Intel Core i3-1115G4 Processor: Intel® Core™ i3-1115G4 processor (4.3 GHz max turbo, 2 cores, 4 threads) measured on ASUS Chromebook C536EA, 8 GB DRAM, 128 GB SSD, 15.6" 1920 x 1080 display; Chrome OS: 90.0.4430.100 (build 13816.64.0); graphics: Mesa Intel(R) UHD Graphics (TGL GT2) graphics driver: 21.0.0 BIOS version: Google_​Delbin.13672.39.0/Linux 5.4.99-13153-g28a2c98317f3. Processor: AMD Ryzen 7 3700C processor (2.4 GHz base, up to 4.2 GHz turbo, 4 cores, 8 threads, 15 W) measured on Lenovo ThinkPad C13, 16 GB DRAM, 256 GB SSD, 13.3" 1920 x 1080 display, Chrome OS: 88.0.4324.153; graphics: Radeon Vega Mobile (AMD Raven) with driver 19.3.5; BIOS version: Google_​Morphius.13434.155.0/Linux 5.4.75-10795-ga946176b2e00. As measured by 3DMark Sling Shot. 28-May-21
Mobile U & H-Series Security Intel® Hardware Shield, available exclusively on the Intel vPro® platform, provides the world's most comprehensive security deep in hardware. 11th Gen Intel vPro® platform (U & H Series) 11th Gen Intel® Core™ vPro® mobile-based systems vs. AMD Ryzen Pro 4750U and AMD Ryzen Pro 5000-based systems In Windows-based PCs, as measured by unique features of Intel vPro(r) and IOActive testing (commissioned by Intel; as of April 2021), which compared the 11th Gen Intel Core vPro mobile Intel® Hardware Shield hardware-based security capabilities within these categories: Below-the-OS Security, App & Data Protections, and Advanced Threat Protections, with all available corresponding technologies of the AMD Ryzen Pro 4750U and AMD Ryzen Pro 5000-based systems. IOActive also analyzed respective security assurance processes and performed some feature testing. See the full report here- https://act-on.ioactive.com/acton/attachment/34793/f-4bfc17b4-7b5d-4f37-a6f1-d1cb863f08c1/1/-/-/-/-/Intel-AMD-Cross-Platform-comp.pdf. No product or component can be absolutely secure. Results may vary. May 2021
Mobile U & H-Series Security The world's most comprehensive hardware-based security for business. 11th Gen Intel vPro® platform (U & H Series) 11th Gen Intel® Core™ vPro® mobile-based systems vs. AMD Ryzen Pro 4750U and AMD Ryzen Pro 5000-based systems In Windows-based PCs, as measured by unique features of Intel vPro(r) and IOActive testing (commissioned by Intel; as of April 2021), which compared the 11th Gen Intel Core vPro mobile Intel® Hardware Shield hardware-based security capabilities within these categories: Below-the-OS Security, App & Data Protections, and Advanced Threat Protections, with all available corresponding technologies of the AMD Ryzen Pro 4750U and AMD Ryzen Pro 5000-based systems. IOActive also analyzed respective security assurance processes and performed some feature testing. See the full report here- https://act-on.ioactive.com/acton/attachment/34793/f-4bfc17b4-7b5d-4f37-a6f1-d1cb863f08c1/1/-/-/-/-/Intel-AMD-Cross-Platform-comp.pdf. No product or component can be absolutely secure. Results may vary. May 2021
Mobile U & H-Series Security Our Intel engineers invented ground-breaking technology to help shut down an entire class of attacks that long evaded software only solutions. 11th Gen Intel vPro® platform (U & H Series) 11th Gen Intel® Core™ vPro® mobile-based systems Intel CET is designed to protect against the misuse of legitimate code through control-flow hijacking attacks - widely used techniques in large classes of malware. Intel CET offers software developers two key capabilities to help defend against control-flow hijacking malware: indirect branch tracking and shadow stack. Indirect branch tracking delivers indirect branch protection to defend against jump/call-oriented programming (JOP/COP) attack methods. Shadow stack delivers return address protection to help defend against returnoriented programming (ROP) attack methods. These types of attack methods are part of a class of malware referred to as memory safety issues, and include tactics such as the corruption of stack buffer overflow and use-after-free. According to Trend Micro Zero Day Initiative- https://www.zerodayinitiative.com/advisories/published. 63.2% of the 1,097 vulnerabilities disclosed by ZDI were memory-safety related. To learn more about how CET works, see here- https://software.intel.com/content/www/us/en/develop/articles/technical-look-control-flow-enforcement-technology.html. No product or component can be absolutely secure. May 2021
Mobile U & H-Series Security Intel delivers the industry's first and only silicon-enabled AI threat detection to help stop ransomware and cryptomining attacks for Windows-based systems. 11th Gen Intel vPro® platform (U & H Series) 11th Gen Intel® Core™ vPro® mobile-based systems vs. AMD Ryzen Pro 4750U and AMD Ryzen Pro 5000-based systems In Windows-based PCs, as measured by unique features of Intel vPro(r) and IOActive evaluation (commissioned by Intel; as of April 2021) of the ability to detect top malware strains by the 11th gen Intel Core vPro platform with Intel TDT versus AMD Ryzen Pro 4000-based and AMD Ryzen Pro 5000-based systems. Only Intel's CPU behavior monitoring, which leverages hardware performance counter events and AI-ML based malware detection and classification methods, detected the attacks. See the full report here- https://act-on.ioactive.com/acton/attachment/34793/f-4bfc17b4-7b5d-4f37-a6f1-d1cb863f08c1/1/-/-/-/-/Intel-AMD-Cross-Platform-comp.pdf. No product or component can be absolutely secure. Results may vary. May 2021
Mobile U & H-Series Security Intel's leading Bug Bounty program invites the security research community to partner, discover, and eliminate issues. 11th Gen Intel vPro® platform (U & H Series) 11th Gen Intel® Core™ vPro® mobile-based systems Multiple industry analysts and cybersecurity experts rank Intel's Bug Bounty program as industry leading. These outlets base their decision on the quantity of payouts to the ethical hacking community, as well as speed and comprehensiveness in closing issues. Intel strives to improve collaboration among researchers and industry partners for comprehensive mitigations, and is committed to transparency with the ecosystem for coordinated vulnerability disclosure. Learn more at: https://www.intel.com/content/www/us/en/corporateresponsibility/product-security.html. No product or component can be absolutely secure. May 2021
Mobile U & H-Series Security Intel builds products with security integrated at every step, backed by dedicated teams evaluating security resilience 11th Gen Intel vPro® platform (U & H Series) 11th Gen Intel® Core™ vPro® mobile-based systems Intel applies the security development lifecycle across software, firmware and hardware to develop and maintain more secure products. These security processes and privacy tenets are backed up with dedicated teams of security experts testing products with hackathons and red teaming. No product or component can be absolutely secure. May 2021
Mobile U & H-Series Security Intel has unrivaled product security incident response with coordinated processes to help keep your business safe. 11th Gen Intel vPro® platform (U & H Series) 11th Gen Intel® Core™ vPro® mobile-based systems The Intel Product Update (IPU) is a mechanism to help ensure Intel products remain up to date in the field. The IPU is designed to be predictable and transparent to allow our OEM and IT customers to validate updates and make them available to end customers as part of the coordinated vulnerability disclosure (CVD) process. No product or component can be absolutely secure. May 2021
Mobile U & H-Series Manageability Intel® Active Management Technology is the only solution with remote remediation to return your PCs to a known good state, no matter where your employees are working - even when the OS is down. 11th Gen Intel vPro® platform (U & H Series) 11th Gen Intel® Core™ vPro® mobile-based sysems vs. AMD Ryzen Pro 4000 series-based systems As measured by December 2020 IOActive study (commissioned by Intel) comparing in-band software-based, remote management functions; out-of-band hardware-based remote management functions; and cloud-based support for these management functions and batch management devices on Windows-based PCs, including against an AMD Ryzen Pro 4000 series processor system. See full report here- https://www.intel.com/content/dam/www/public/us/en/documents/articles/cross-platform-manageability-comparison-research.pdf. Intel Active Management Technology requires a wired or wireless network connection to provide remote management. Wireless support requires Intel AMT to be pre-configured with WiFi profiles or to be configured to duplicate WiFi profiles from the operating system when it connects to a new WiFi network. Intel AMT cannot join new WiFi networks without the operating system first connecting to them. Results may vary by use, configuration and other factors. Dec 2020
Mobile U & H-Series Manageability Intel® Active Management Technology is the only wireless solution for remote manageability for business. 11th Gen Intel vPro® platform (U & H Series) 11th Gen Intel® Core™ vPro® mobile-based sysems vs. AMD Ryzen Pro 4000 series-based systems As measured by December 2020 IOActive study (commissioned by Intel) comparing in-band software-based, remote management functions; out-of-band hardware-based remote management functions; and cloud-based support for these management functions, and batch management devices on Windows-based PCs, including against an AMD Ryzen Pro 4000 series processor system. See full report here- https://www.intel.com/content/dam/www/public/us/en/documents/articles/cross-platform-manageability-comparison-research.pdf. Intel Active Management Technology requires a wired or wireless network connection to provide remote management. Wireless support requires Intel AMT to be pre-configured with WiFi profiles or to be configured to duplicate WiFi profiles from the operating system when it connects to a new WiFi network. Intel AMT cannot join new WiFi networks without the operating system first connecting to them. Results may vary by use, configuration and other factors. Dec 2020
Desktop S-Series Security Intel delivers the industry's first and only silicon-enabled AI threat detection to help stop ransomware and cryptomining attacks for Windows-based systems 11th Gen Intel vPro® desktop platform 11th Gen Intel® Core™ vPro®-based systems vs. AMD Ryzen Pro 4750U and AMD Ryzen Pro 5000 series-based systems In Windows-based PCs, as measured by unique features of Intel vPro(r) and IOActive evaluation (commissioned by Intel; as of April 2021) of the ability to detect top malware strains by the 11th gen Intel Core vPro platform with Intel TDT versus AMD Ryzen Pro 4000 series-based and AMD Ryzen Pro 5000 series-based systems. Only Intel's CPU behavior monitoring, which leverages hardware performance counter events and AI-ML based malware detection and classification methods, detected the attacks. See the full report here- https://act-on.ioactive.com/acton/attachment/34793/f-4bfc17b4-7b5d-4f37-a6f1-d1cb863f08c1/1/-/-/-/-/Intel-AMD-Cross-Platform-comp.pdf. No product or component can be absolutely secure. Results may vary. May 2021
Desktop S-Series Security Intel's leading Bug Bounty program invites the security research community to partner, discover, and eliminate issues. 11th Gen Intel vPro® desktop platform 11th Gen Intel® Core™ vPro® desktop-based systems Multiple industry analysts and cybersecurity experts rank Intel's Bug Bounty program as industry leading. These outlets base their decision on the quantity of payouts to the ethical hacking community, as well as speed and comprehensiveness in closing issues. Intel strives to improve collaboration among researchers and industry partners for comprehensive mitigations, and is committed to transparency with the ecosystem for coordinated vulnerability disclosure. Learn more at: https://www.intel.com/content/www/us/en/corporateresponsibility/product-security.html. No product or component can be absolutely secure. May 2021
Desktop S-Series Security Intel builds products with security integrated at every step, backed by dedicated teams evaluating security resilience 11th Gen Intel vPro® desktop platform 11th Gen Intel® Core™ vPro® desktop-based systems Intel applies the security development lifecycle across software, firmware and hardware to develop and maintain more secure products. These security processes and privacy tenets are backed up with dedicated teams of security experts testing products with hackathons and red teaming. No product or component can be absolutely secure. May 2021
Desktop S-Series Security Intel has unrivaled product security incident response with coordinated processes to help keep your business safe. 11th Gen Intel vPro® desktop platform 11th Gen Intel® Core™ vPro® desktop processors The Intel Product Update (IPU) is a mechanism to help ensure Intel products remain up to date in the field. The IPU is designed to be predictable and transparent to allow our OEM and IT customers to validate updates and make them available to end customers as part of the coordinated vulnerability disclosure (CVD) process. No product or component can be absolutely secure. May 2021
Desktop S-Series Manageability Intel® Active Management Technology is the only solution with remote remediation to return your PCs to a known good state, no matter where your employees are working - even when the OS is down. 11th Gen Intel vPro® desktop platform 11th Gen Intel® Core™ vPro® desktop-based systems vs. AMD Ryzen Pro 4000 series-based systems As measured by December 2020 IOActive study (commissioned by Intel) comparing in-band software-based, remote management functions; out-of-band hardware-based remote management functions; and cloud-based support for these management functions, and batch management devices on Windows-based PCs, including against an AMD Ryzen Pro 4000 series processor system. See full report here- https://www.intel.com/content/dam/www/public/us/en/documents/articles/cross-platform-manageability-comparison-research.pdf. Intel Active Management Technology requires a wired or wireless network connection to provide remote management. Wireless support requires Intel AMT to be pre-configured with WiFi profiles or to be configured to duplicate WiFi profiles from the operating system when it connects to a new WiFi network. Intel AMT cannot join new WiFi networks without the operating system first connecting to them. Results may vary by use, configuration and other factors. Dec 2020
Desktop S-Series Manageability Intel® Active Management Technology is the only wireless solution for remote manageability for business. 11th Gen Intel vPro® desktop platform 11th Gen Intel® Core™ vPro® desktop-based systems vs. AMD Ryzen Pro 4000 series-based systems As measured by December 2020 IOActive study (commissioned by Intel) comparing in-band software-based, remote management functions; out-of-band hardware-based remote management functions; and cloud-based support for these management functions, and batch management devices on Windows-based PCs, including against an AMD Ryzen Pro 4000 series-based system. See full report here- https://www.intel.com/content/dam/www/public/us/en/documents/articles/cross-platform-manageability-comparison-research.pdf. Intel Active Management Technology requires a wired or wireless network connection to provide remote management. Wireless support requires Intel AMT to be pre-configured with WiFi profiles or to be configured to duplicate WiFi profiles from the operating system when it connects to a new WiFi network. Intel AMT cannot join new WiFi networks without the operating system first connecting to them. Results may vary by use, configuration and other factors. Dec 2020