Performance Index
Archive
11th Generation Intel® Core™ (TGL-U) and Evo™ Launch 2020
| Gregory Bryant | Claim details |
| World’s best processor for thin and light laptops | As measured by industry benchmarks, Representative Usage Guide testing, and unique features, including in comparison to AMD Ryzen 7 4800U, across 5 key usages: productivity, creation, gaming, collaboration, and entertainment. For details on why the Intel® Core™ i7-1185G7 processor is the world's best processor for productivity, creation, gaming, collaboration and entertainment on a thin and light laptop, see here. |
| Industry-leading AI performance | Up to 4x better AI performance with 11th Gen Intel® Core™ i7-1185G7 (on GPU) vs. AMD Ryzen 7 4800U (on CPU), As measured by MLPerf v0.5 Inference with Offline Scenario using OpenVINO 2020.2 framework Closed ResNet50-v1.5 offline int8 GPU (Batch=32) on 11th Gen Intel® Core™ i7-1185G7 Processor vs highest attainable MLPerf v0.5 Inference with Offline Scenario performance using OpenVINO 2020.2 framework Closed ResNet50-v1.5 offline int8 CPU (Batch=4) on AMD Ryzen 7 4800U CPU. For further details, see here. |
| Best Wi-Fi connectivity | Best in Class Wi-Fi 6: Intel® Wi-Fi 6 (Gig+) products support optional 160 MHz channels, enabling the fastest possible theoretical maximum speeds (2402 Mbps) for typical 2x2 802.11ax PC Wi-Fi products. Premium Intel® Wi-Fi 6 (Gig+) products enable 2-4X faster maximum theoretical speeds compared to standard 2x2 (1201 Mbps) or 1x1 (600 Mbps) 802.11ax PC Wi-Fi products, which only support the mandatory requirement of 80 MHz channels. |
| Creator usages | Upscale photos up to 4.45x faster with 11th Gen Intel® Core™ i7-1185G7 vs. AMD Ryzen 7 4800U, As measured by Topaz Labs Gigapixel AI photo upscale workload |
| Productivity workflows | Up to 1.24x faster office productivity with 11th Gen Intel® Core™ i7-1185G7 vs. AMD Ryzen 7 4800U, As measured by Microsoft Office 365 workflow. |
| Graphics performance | Source: NPD/GFK Retail consumption data for U-series notebooks with discrete graphics for 2019. 19 discrete GPUs make up >90% of volume when paired with U-series and have a lower 3Dmark FireStrike Graphics score than 11th Gen Intel® Core™ i7-1185G7 |
| Boyd Phelps | Claim details |
| CPU performance improvement | Up to 1.24x better overall application performance with 11th Gen Intel® Core™ i7-1185G7 vs. 10th Gen Intel® Core™ i7-1065G7, as measured by SYSmark 25 overall score. |
| Graphics performance with new Xe graphics architecture | Play Gears Tactics with up to 2.01x more FPS with 11th Gen Intel® Core™ i7-1185G7 vs. 10th Gen Core™ i7-1065G7, as measured by Gears Tactics (1080p Medium with variable rate shading enabled). |
| AI performance with new DP4a instructions on the GPU | Up to 5x better AI performance with 11th Gen Intel® Core™ i7-1185G7 (on GPU) vs. 10th Gen Intel® Core™ i7-1065G7 (on GPU), as measured by MLPerf v0.5 Inference with Offline Scenario using OpenVINO 2020.2 framework Closed ResNet50-v1.5 offline int8 GPU (Batch=32) on 11th Gen Intel® Core™ i7-1185G7 Processor vs OpenVINO 2020.2 framework Closed ResNet50-v1.5 offline FP32 GPU (Batch=32) on 10th Gen Intel® Core™ i7-1065G7. |
| Wi-Fi connectivity | Nearly 3X Faster: 802.11ax 2x2 160 MHz enables 2402 Mbps maximum theoretical data rates, ~3X (2.8X) faster than standard 802.11ac 2x2 80 MHz (867 Mbps) as documented in IEEE 802.11 wireless standard specifications, and requires the use of similarly configured 802.11ax wireless network routers |
| Demos | Claim details |
| Colorizing & upscaling photos | Over 3x faster photo editing with 11th Gen Intel® Core™ i7-1185G7 vs. AMD Ryzen 7 4800U, as measured by Photo Editing workflow (tag photo workload portion not shown for brevity). |
| Video Exporting/Rendering | Up to 2.17x faster video export. As measured by Video Editing workflow (only video export portion of workflow shown for brevity). |
| Best processor | As measured by industry benchmarks, Representative Usage Guide testing, and unique features, including in comparison to AMD Ryzen 7 4800U, across 5 key usages: productivity, creation, gaming, collaboration, and entertainment. For details on why the Intel® Core™ i7-1185G7 processor is the world's best processor for productivity, creation, gaming, collaboration and entertainment on a thin and light laptop, see here. |
| Gaming performance on Iris Xe graphics paired with 11th Gen Intel Core | Play GRID with up to 1.82x more FPS with a 11th Gen Intel® Core™ i7-1185G7 vs. AMD Ryzen 7 4800U. As measured by GRID (1080p Medium with variable rate shading enabled). Intel® Core™ i7-1065G7 processor (ICL-U) with Nvidia MX350 shown on demo. Play Gears Tactics with up to 1.76x more FPS with a 11th Gen Intel® Core™ i7-1185G7 vs. AMD Ryzen 7 4800U. As measured by Gears Tactics (1080p Medium with variable rate shading enabled). 30 FPS is commonly understood as minimum threshold for playability. Intel® Core™ i7-1065G7 processor (ICL-U) with Nvidia MX350 shown on demo. |
| Gregory Bryant | Claim details |
| Best creation experience | Best processor in thin & light laptops for creation As measured by:
Results: The 11th Gen Intel® Core™ i7-1185G7 processor performed better on majority of benchmark and RUG testing and has unique features, together delivering the ultimate creation experience. Up to 2.73x faster photo editing with 11th Gen Intel® Core™ i7-1185G7 vs. AMD Ryzen 7 4800U. As measured by Photo Editing workflow. Up to 2x faster video editing with a 11th Gen Intel® Core™ i7-1185G7 vs. AMD Ryzen 7 4800U. As measured by Video Editing workflow |
| Best ultra-portable gaming experience | As measured by:
Results: The 11th Gen Intel® Core™ i7-1185G7 processor performed better on majority of benchmark testing, game testing, and RUG testing and has the most unique features, together delivering the ultimate gaming experience in thin and light laptops. |
| Chris Walker | Claim details (Additional information available at www.intel.com/Evo.) |
| Best-in-class wireless connectivity | Based on integrated Intel® Wi-Fi 6 (Gig+) and Thunderbolt™ 4 technology. Intel® Wi-Fi 6 (Gig+) products enable the fastest possible maximum speed for typical laptop Wi-Fi products. Thunderbolt™ 4 is the fastest port available on a laptop, at 40 Gb/s, as compared to other laptop I/O connection technologies including eSATA, USB, and IEEE 1394 Firewire*. Performance varies by use, configuration and other factors. For additional details, see here: |
| Responsiveness | Measured responsiveness of premium Windows OS-based designs while performing 25 workflows predictive of performance under a typical-use environment comprising multiple cloud-based and local apps and web pages including Google Chrome, Google G-Suite, Microsoft Office 365, YouTube and Zoom. Testing conducted on laptops on DC battery ≥30%, connected to 802.11 wireless, and with shipped hardware configurations including Windows 10 and 250-nit LCD screen brightness. Testing results as of August 2020, and do not guarantee individual laptop performance. Power and performance vary by use, configuration and other factors. |
| At least 9 hours of real-world battery life on designs with full HD display | Time taken to drain from 100% to critical battery level while performing workflows under a typical-use environment, comprising multiple cloud-based and local apps and web pages including Google Chrome, Google G-Suite, Microsoft Office 365, YouTube and Zoom, including limited periods of non-use. Testing conducted on laptops connected to 802.11 wireless, and with shipped hardware configurations including Windows 10 and 250-nit LCDscreen brightness. Testing results as of August 2020, and do not guarantee individual laptop performance. Power and performance vary by use, configuration and other factors. |
| Fast charge on designs with full HD display | Charge attained on systems with full HD displays in 30-minute window while powered off from OEM-default shutdown level. Testing results as of August 2020, and do not guarantee individual laptop performance. Power and performance vary by use, configuration and other factors. |
| Demos | Claim details |
| Faster game and stream | Game and stream up to 2.46x faster with 11th Gen Intel® Core™ i7-1185G7 vs. AMD Ryzen 7 4800U. As measured by Game and Stream workflow. |
| Best gaming experience in thin & light | As measured by:
Results: The 11th Gen Intel® Core™ i7-1185G7 processor performed better on majority of benchmark testing, game testing, and RUG testing and has the most unique features, together delivering the ultimate gaming experience in thin and light laptops. |
| Faster web browsing | Up to 1.23x faster web browsing with 11th Gen Intel® Core™ i7-1185G7 vs. 10th Gen Intel® Core™ i7-1065G7. As measured by WebXPRT 3 overall score. |
| Faster auto-reframe | Up to 1.81x faster auto reframe. As measured by auto-reframe subscore of Video Editing workflow. |
| Karen Walker | Claim details |
| Best laptop experiences | As measured by Intel® Evo™ platform-based laptops powered by 11th Gen Intel Core i7 processors, the best processors for thin & light devices, as measured by systems with 11th Gen Intel® Core™ i7-1185G7 on industry benchmarks, Representative Usage Guide testing, and unique features, including as compared with AMD Ryzen 7 4800U. For details on why the Intel® Core™ i7-1185G7 processor is the world's best processor for productivity, creation, gaming, collaboration and entertainment on a thin and light laptop, see here. Intel's comprehensive laptop innovation program Project Athena ensures all designs with the Intel Evo brand have been tested, measured and verified against a premium specification and key experience indicators. Testing results as of August 2020, and do not guarantee individual laptop performance. Power and performance vary by use, configuration and other factors. |
| Gregory Bryant | Claim details |
| Best CPU for thin & light laptops | As measured by industry benchmarks, Representative Usage Guide testing, and unique features, including in comparison to AMD Ryzen 7 4800U, across 5 key usages: productivity, creation, gaming, collaboration, and entertainment. For details on why the Intel® Core™ i7-1185G7 processor is the world's best processor for productivity, creation, gaming, collaboration and entertainment on a thin and light laptop, see here. |
| Most advanced laptops | As measured by Intel® Evo™ platform-based laptops powered by 11th Gen Intel Core i7 processors, the best processors for thin & light devices, as measured by systems with 11th Gen Intel® Core™ i7-1185G7 on industry benchmarks, Representative Usage Guide testing, and unique features, including as compared with AMD Ryzen 7 4800U. For details on why the Intel® Core™ i7-1185G7 processor is the world's best processor for productivity, creation, gaming, collaboration and entertainment on a thin and light laptop, see here. Intel's comprehensive laptop innovation program Project Athena ensures all designs with the Intel Evo brand have been tested, measured and verified against a premium specification and key experience indicators. Testing results as of August 2020, and do not guarantee individual laptop performance. Power and performance vary by use, configuration and other factors. |
Blueprint Session – Tiger Lake
Section 1
| Slide - Leadership Benchmark Performance | claim details |
| Compute | 28% as measured by SYSmark 25 Overall Score on 11th Gen Intel® Core™ i7-1185G7 Processor compared to AMD Ryzen 7 4800U Processor at the highest available operating ranges. |
| Graphics | 67% as measured by 3DMark Fire Strike Graphics score for 11th Gen Intel® Core™ i7-1185G7 compared to AMD Ryzen Mobile 4800U at the highest available operating ranges. |
| AI | 4x as measured by MLPerf v0.5 Inference with Offline Scenario using OpenVINO 2020.2 framework Closed ResNet50-v1.5 offline int8 GPU (Batch=32) on 11th Gen Intel® Core™ i7-1185G7 Processor vs highest attainable MLPerf v0.5 Inference with Offline Scenario performance using OpenVINO 2020.2 framework Closed ResNet50-v1.5 offline int8 CPU (Batch=4) on AMD Ryzen 7 4800U CPU. |
| Slide - Leadership Real World Performance | claim details |
| chart export | 1.31x as measured by Microsoft Office Excel chart to Word document workload on 11th Gen Intel® Core™ i7-1185G7 Processor vs AMD Ryzen 7 4800U Processor at the highest available operating ranges. |
| convert to pdf | 1.38x as measured by Microsoft Word document to PDF conversion workload on 11th Gen Intel® Core™ i7-1185G7 Processor vs AMD Ryzen 7 4800U Processor at the highest available operating ranges. |
| convert to pdf | 1.34x as measured by export Microsoft PowerPoint to PDF workload on 11th Gen Intel® Core™ i7-1185G7 Processor vs AMD Ryzen 7 4800U Processor at the highest available operating ranges. |
| subject select | 1.4x as measured by Photoshop Subject Select workload on 11th Gen Intel® Core™ i7-1185G7 Processor vs AMD Ryzen 7 4800U Processor at the highest available operating ranges. |
| auto reframe | 2.7x as measured by auto reframe sub-score of video editing workflow on 11th Gen Intel® Core™ i7-1185G7 Processor vs 10th Gen Intel® Core™ i7-1065G7U Processor at the highest available operating ranges. |
| photo upscale | 4.4x as measured by Topaz Labs Gigapixel AI Photo Upscale workload on 11th Gen Intel® Core™ i7-1185G7 Processor vs AMD Ryzen 7 4800U Processor at the highest available operating ranges. |
| gaming | 1.82x as measured by GRID (1080p Medium) on 11th Gen Intel® Core™ i7-1185G7 Processor vs AMD Ryzen 7 4800U. |
| gaming | 1.76x as measured by Gears Tactics (1080p Medium) on 11th Gen Intel® Core™ i7-1185G7 Processor vs AMD Ryzen 7 4800U. |
| gaming | 1.49x As measured by CS:GO on 11th Gen Intel® Core™ i7-1185G7 Processor vs AMD Ryzen 7 4800U. |
| web browsing | 1.15x as measured by WebXPRT Overall Score on 11th Gen Intel® Core™ i7-1185G7 Processor vs AMD Ryzen 7 4800U at the highest available operating ranges. |
| downloading | ~3x - 802.11ax 2x2 160MHz enables 2402Mbps maximum theoretical data rates, 3X faster than standard 802.11ac 2x2 80MHz (867Mbps) and nearly 6x faster than baseline 1x1ac (433Mbps) Wi-Fi as documented in IEEE 802.11 wireless standard specifications, and require the use of similarly configured 802.11ax wireless network routers. |
| file transfer | 4X based on max link speed of Thunderbolt™ 3 and Thunderbolt™ 4 (40Gbps) vs standard-defined link speed of USB 3.2 Gen 2x1 (10 Gbps). |
| Slide - Video Editing Workflow | claim details |
| full workflow | 2X as measured by Video Editing Workflow Representative Usage Guide (RUG) for 11th Gen Intel® Core™ i7-1185G7 compared to AMD Ryzen Mobile 4800U in highest available operating ranges. |
| Slide - Best for Creation | claim details |
| creativity subscore | 1.35x as measured by SYSmark*25 Creativity Sub score on 11th Gen Intel® Core™ i7-1185G7 Processor vs AMD Ryzen 7 4800U Processor at the highest available operating ranges. |
| auto reframe | 2.7x as measured by Adobe Premiere Reframe workload on 11th Gen Intel® Core™ i7-1185G7 Processor vs AMD Ryzen 7 4800U Processor at the highest available operating ranges. |
| video export | 2x as measured by Adobe Premiere Export workload on 11th Gen Intel® Core™ i7-1185G7 Processor vs AMD Ryzen 7 4800U Processor at the highest available operating ranges. |
| subject select | 1.4x as measured by Photoshop Subject Select workload on 11th Gen Intel® Core™ i7-1185G7 Processor vs AMD Ryzen 7 4800U Processor at the highest available operating ranges. |
| content aware fill | 1.1x as measured by Adobe Photoshop content aware sub-score of video editing workflow on 11th Gen Intel® Core™ i7-1185G7 Processor vs AMD Ryzen 7 4800U Processor at the highest available operating ranges. |
| smooth skin | 1.19x as measured by Adobe Smooth Skin workload on 11th Gen Intel® Core™ i7-1185G7 Processor vs AMD Ryzen 7 4800U Processor at the highest available operating ranges. |
| photo merge | 1.08x as measured by Adobe Lightroom Photo Merge workload on 11th Gen Intel® Core™ i7-1185G7 Processor vs AMD Ryzen 7 4800U Processor at the highest available operating ranges. |
| video editing | 2x as measured by Video Editing Workflow Representative Usage Guide (RUG) for 11th Gen Intel® Core™ i7-1185G7 compared to AMD Ryzen Mobile 4800U at the highest available operating ranges. |
| photo editing | 2.73x as measured by Photo Editing Workflow Representative Usage Guide (RUG) for 11th Gen Intel® Core™ i7-1185G7 compared to AMD Ryzen Mobile 4800U at the highest available operating ranges. |
| lifestyle streaming | 1.62x as measured by Lifestyle Streaming Workflow Representative Usage Guide (RUG) for 11th Gen Intel® Core™ i7-1185G7 compared to AMD Ryzen Mobile 4800U at the highest available operating ranges. |
| photo upscaling | 4.45x as measured by Topaz Labs Gigapixel AI Photo Upscale workload on 11th Gen Intel® Core™ i7-1185G7 Processor vs AMD Ryzen 7 4800U Processor at the highest available operating ranges. |
| photo tagging | 1.93x as measured by Nero AI Photo Tagging workload on 11th Gen Intel® Core™ i7-1185G7 Processor vs AMD Ryzen 7 4800U Processor at the highest available operating ranges. |
| wireless downloading | ~3x - 802.11ax 2x2 160MHz enables 2402Mbps maximum theoretical data rates, 3X faster than standard 802.11ac 2x2 80MHz (867Mbps) and nearly 6x faster than baseline 1x1ac (433Mbps) Wi-Fi as documented in IEEE 802.11 wireless standard specifications, and require the use of similarly configured 802.11ax wireless network routers. |
| Best processor in thin & light laptops for creation | As measured by:
Results: The 11th Gen Intel® Core™ i7-1185G7 processor performed better on majority of benchmark and RUG testing and has unique features, together delivering the ultimate creation experience. |
| Slide - World's Best Processor | claim details |
| Best processor | As measured by industry benchmarks, Representative Usage Guide testing, and unique features, including in comparison to AMD Ryzen 7 4800U, across 5 key usages: productivity, creation, gaming, collaboration, and entertainment. For details on why the Intel® Core™ i7-1185G7 processor is the world's best processor for productivity, creation, gaming, collaboration and entertainment on a thin and light laptop, see here. |
| Slide - Intel® Evo™ Platform | claim details |
| Best thin & light laptops for getting things done | Intel Evo platform-based laptops powered by 11th Gen Intel Core i7 processors, the best processors for thin & light devices, as measured by systems with 11th Gen Intel® Core™ i7-1185G7 on industry benchmarks, Representative Usage Guide testing, and unique features, including as compared with AMD Ryzen 7 4800U. For more complete information about 11th Gen performance, visit here. Intel's comprehensive laptop innovation program Project Athena ensures all designs with the Intel Evo brand have been tested, measured and verified against a premium specification and key experience indicators. Testing results as of August 2020, and do not guarantee individual laptop performance. Power and performance vary by use, configuration and other factors. |
Section 2
Section 3
Section 4
| Slide - Another Big YoY Advancement | claim details | |
| Gears Tactics | 2.01x as measured by Gears Tactics fps (1080p Medium) on 11th Gen Intel® Core™ i7-1185G7 Processor vs 10th Gen Intel® Core™ i7-1065G7U Processor with variable rate shading enabled. | |
| Total War Saga | 1.52x as measured by Total War Saga: TROY fps (1080p Medium) on 11th Gen Intel® Core™ i7-1185G7 Processor vs 10th Gen Intel® Core™ i7-1065G7U Processor. | |
| Battlefield V | 1.66x as measured by Battlefield V fps (1080p Medium) on 11th Gen Intel® Core™ i7-1185G7 Processor vs 10th Gen Intel® Core™ i7-1065G7U Processor. | |
| PUBG | 1.70x as measured by PUBG fps (1080p Low) on 11th Gen Intel® Core™ i7-1185G7 Processor vs 10th Gen Intel® Core™ i7-1065G7U Processor. | |
| Slide - Up to 2x Gen over Gen | claim details | |
| Gears 5 | 1.93x as measured by Gears 5 FPS (1080p Medium) on 11th Gen Intel® Core™ i7-1185G7 vs 10th Gen Intel® Core™ i7-1065G7U. | |
| Doom Eternal | 1.91x as measured by Doom Eternal FPS (1080p Medium) 5 on 11th Gen Intel® Core™ i7-1185G7 vs 10th Gen Intel® Core™ i7-1065G7U. | |
| Battlefield V | 1.66x as measured by Battlefield V FPS (1080p Medium) on 11th Gen Intel® Core™ i7-1185G7 vs 10th Gen Intel® Core™ i7-1065G7U. | |
| Apex Legends | 1.73x as measured by Apex Legends FPS (1080p High) on 11th Gen Intel® Core™ i7-1185G7 vs 10th Gen Intel® Core™ i7-1065G7U. | |
| PUBG | 1.70x as measured by PUBG FPS (1080p Low) on 11th Gen Intel® Core™ i7-1185G7 vs 10th Gen Intel® Core™ i7-1065G7U. | |
| Battlefield 1 | 2.01x as measured by Battlefield 1 FPS (1080p Medium) on 11th Gen Intel® Core™ i7-1185G7 vs 10th Gen Intel® Core™ i7-1065G7U. | |
| Fortnite | 1.91x as measured by Fortnite FPS (1080p Low) on 11th Gen Intel® Core™ i7-1185G7 vs 10th Gen Intel® Core™ i7-1065G7U. | |
| Total War Saga: Troy | 1.52x as measured by Total War Saga: TROY FPS (1080p Medium) on 11th Gen Intel® Core™ i7-1185G7 vs 10th Gen Intel® Core™ i7-1065G7U. | |
| Witcher 3 | 1.85x as measured by Witcher 3 FPS (1080p Medium) on 11th Gen Intel® Core™ i7-1185G7 vs 10th Gen Intel® Core™ i7-1065G7U. | |
| Gears Tactics (VRS) | 2.01x as measured by Gears Tactics FPS (1080p Medium with VRS enabled) on 11th Gen Intel® Core™ i7-1185G7 vs 10th Gen Intel® Core™ i7-1065G7U. | |
| Dungeon Defenders Awakened | 1.62x as measured by Dungeon Defenders Awakened FPS (1080p Medium) on 11th Gen Intel® Core™ i7-1185G7 vs 10th Gen Intel® Core™ i7-1065G7U. | |
| Rainbow Six Seige | 1.57x as measured by Rainbow Six Siege FPS (1080p High) on 11th Gen Intel® Core™ i7-1185G7 vs 10th Gen Intel® Core™ i7-1065G7U. | |
| GTAV | 1.59x as measured by GTAV FPS (1080p Medium) on 11th Gen Intel® Core™ i7-1185G7 vs 10th Gen Intel® Core™ i7-1065G7U. | |
| CS:GO | 1.91x as measured by CS:GO FPS (1080p Medium) on 11th Gen Intel® Core™ i7-1185G7 vs 10th Gen Intel® Core™ i7-1065G7U. | |
| Slide - Playable Titles at 1080p! | claim details | |
| Borderlands 3 | 32.10 FPS as measured by Borderlands 3 (1080p Low) on 11th Gen Intel® Core™ i7-1185G7. | |
| Doom Eternal | 32.18 FPS as measured by Doom Eternal (1080p Low) on 11th Gen Intel® Core™ i7-1185G7. | |
| Battlefield 5 | 33.37 FPS as measured by Battlefield 5 (1080p Medium) on 11th Gen Intel® Core™ i7-1185G7. | |
| Shadow of the Tomb Raider | 34.00 FPS as measured by Shadow of the Tomb Raider (1080p Lowest) on 11th Gen Intel® Core™ i7-1185G7. | |
| Far Cry New Dawn | 35.00 FPS as measured by Far Cry New Dawn (1080p Low) on 11th Gen Intel® Core™ i7-1185G7. | |
| For Honor | 37.63 FPS as measured by For Honor (1080p Medium) on 11th Gen Intel® Core™ i7-1185G7. | |
| Apex Legends | 37.66 FPS as measured by Apex Legends (1080p High) on 11th Gen Intel® Core™ i7-1185G7. | |
| PUBG | 39.09 FPS as measured by PUBG (1080p Low) on 11th Gen Intel® Core™ i7-1185G7. | |
| Hitman 2 | 40.17 FPS as measured by Hitman 2 (1080p Low) on 11th Gen Intel® Core™ i7-1185G7. | |
| Metro Exodus | 40.52 FPS as measured by Metro Exodus (1080p Low) on 11th Gen Intel® Core™ i7-1185G7 | |
| The Division 2 | 47.00 FPS as measured by The Division 2 (1080p Low) on 11th Gen Intel® Core™ i7-1185G7. | |
| Battlefield 1 | 47.39 FPS as measured by Battlefield 1 (1080p Medium) on 11th Gen Intel® Core™ i7-1185G7. | |
| Fortnite | 50.01 FPS as measured by Fortnite (1080p Low) on 11th Gen Intel® Core™ i7-1185G7. | |
| Witcher 3 | 51.67 FPS as measured by Witcher 3 (1080p Medium) on 11th Gen Intel® Core™ i7-1185G7. | |
| Gears Tactics (VRS) | 53.74 FPS as measured by Gears Tactics (1080p Medium with VRS enabled) on 11th Gen Intel® Core™ i7-1185G7. | |
| Dungeon Defenders Awakened | 54.82 FPS as measured by Dungeon Defenders Awakened (1080p Medium) on 11th Gen Intel® Core™ i7-1185G7. | |
| Rainbow Six Seige | 58 FPS as measured by Rainbow Six Siege (1080p High) on 11th Gen Intel® Core™ i7-1185G7. | |
| Overwatch | 61.16 FPS as measured by Overwatch (1080p Medium) on 11th Gen Intel® Core™ i7-1185G7. | |
| GRID 2019 (VRS) | 61.93 FPS as measured by GRID 2019 (1080p Medium with VRS enabled) on 11th Gen Intel® Core™ i7-1185G7. | |
| GTAV | 68.94 FPS as measured by GTAV (1080p Medium) on a 11th Gen Intel® Core™ i7-1185G7. | |
| Rocket League | 104.25 FPS as measured by Rocket League (1080p Medium) on 11th Gen Intel® Core™ i7-1185G7. | |
| Dota2 | 106.9 FPS as measured by DOTA 2 (1080p Medium) on 11th Gen Intel® Core™ i7-1185G7. | |
| CS:GO | 110.22 FPS as measured by CS:GO (1080p Medium) on 11th Gen Intel® Core™ i7-1185G7. | |
| Valorant | 148.86 FPS as measured by Valorant (1080p Medium) on 11th Gen Intel® Core™ i7-1185G7. | |
| League of Legends | 174.83 FPS as measured by League of Legends (1080p Medium) on 11th Gen Intel® Core™ i7-1185G7. | |
| Slide - Up Level Gaming vs. Competition | claim details | |
| Gears Tactics | 1.76x as measured by Gears Tactics (1080p Medium) on 11th Gen Intel® Core™ i7-1185G7 Processor vs AMD Ryzen 7 4800U. | |
| Total War Saga | 1.52x as measured by Total War Saga: TROY (1080p Medium) on 11th Gen Intel® Core™ i7-1185G7 Processor vs AMD Ryzen 7 4800U. | |
| CS:GO | 1.49x as measured by CS:GO on 11th Gen Intel® Core™ i7-1185G7 Processor vs AMD Ryzen 7 4800U. | |
| GRID | 1.82x as measured by GRID (1080p Medium) on 11th Gen Intel® Core™ i7-1185G7 Processor vs AMD Ryzen 7 4800U. | |
| Slide - Intel® Iris® Xe Graphics vs. Competition | claim details | |
| Performance Benefit | 1.8x as measured by Witcher 3 (1080p Medium) fps on 11th Gen Intel® Core™ i7-1185G7 Processor vs AMD Ryzen 7 4800U. | |
| Battlefield V | 1.34x as measured by Battlefield V FPS (1080p Medium) on 11th Gen Intel® Core™ i7-1185G7 vs. AMD Ryzen 7 4800U. | |
| Apex Legends | 1.46x as measured by Apex Legends FPS (1080p High) on a 11th Gen Intel® Core™ i7-1185G7 vs. AMD Ryzen 7 4800U. | |
| Fortnite | 1.39x as measured by Fortnite FPS (1080p Low) on a 11th Gen Intel® Core™ i7-1185G7 vs. AMD Ryzen 7 4800U. | |
| Total War Saga: TROY | 1.52x as measured by Total War Saga: TROY FPS (1080p Medium) on 11th Gen Intel® Core™ i7-1185G7 Processor vs AMD Ryzen 7 4800U. | |
| Gears Tactics (VRS) | 1.76x as measured by Gears Tactics FPS (1080p Medium with VRS enabled) on 11th Gen Intel® Core™ i7-1185G7 vs. AMD Ryzen 7 4800U. | |
| Dungeon Defenders Awakened | 1.30x as measured by Dungeon Defenders Awakened FPS (1080p Medium) on 11th Gen Intel® Core™ i7-1185G7 vs. AMD Ryzen 7 4800U. | |
| Overwatch | 1.24x as measured by Overwatch FPS (1080p Medium) on 11th Gen Intel® Core™ i7-1185G7 vs. AMD Ryzen 7 4800U. | |
| GRID 2019 (VRS) | 1.82x as measured by GRID 2019 FPS (1080p Medium with VRS enabled) on 11th Gen Intel® Core™ i7-1185G7 Processor vs AMD Ryzen 7 4800U. | |
| GTAV | 1.29x as measured by GTAV FPS (1080p Medium) on 11th Gen Intel® Core™ i7-1185G7 vs. AMD Ryzen 7 4800U. | |
| Rocket League | 1.32x as measured by Rocket League FPS (1080p Medium) on 11th Gen Intel® Core™ i7-1185G7 vs. AMD Ryzen 7 4800U. | |
| Dota2 | 1.34x as measured by DOTA 2 FPS (1080p Medium) on 11th Gen Intel® Core™ i7-1185G7 vs. AMD Ryzen 7 4800U. | |
| CS:GO | 1.49x as measured by CS:GO FPS (1080p Medium) on 11th Gen Intel® Core™ i7-1185G7 vs. AMD Ryzen 7 4800U. | |
| League of Legends | 1.40x as measured by League of Legends FPS (1080p Medium) on 11th Gen Intel® Core™ i7-1185G7 vs. AMD Ryzen 7 4800U. | |
| Slide - Trading Blows with Discrete Graphics | claim details | |
| Gears 5 | 1.05x as measured by Gears 5 (1080p Medium) fps on 11th Gen Intel® Core™ i7-1185G7 Processor vs Nvidia MX350. | |
| Doom Eternal | 1.46x as measured by Doom Eternal (1080p Medium) 5 fps on 11th Gen Intel® Core™ i7-1185G7 Processor vs Nvidia MX350. | |
| Battlefield 5 | 1.20x as measured by Battlefield 5 (1080p Medium) fps on 11th Gen Intel® Core™ i7-1185G7 Processor vs Nvidia MX350. | |
| Apex Legends | 1.28x as measured by Apex Legends (1080p High) fps on 11th Gen Intel® Core™ i7-1185G7 Processor vs Nvidia MX350. | |
| PUBG | 0.78x as measured by PUBG (1080p Low) fps on 11th Gen Intel® Core™ i7-1185G7 Processor vs Nvidia MX350. | |
| Metro Exodus | 1.53x as measured by Metro Exodus (1080p Low) fps on 11th Gen Intel® Core™ i7-1185G7 Processor vs Nvidia MX350. | |
| Battlefield 1 | 1.22x as measured by Battlefield 1 (1080p Medium) fps on 11th Gen Intel® Core™ i7-1185G7 Processor vs Nvidia MX350 | |
| Fortnite | 0.92x as measured by Fornite (1080p Low) fps on 11th Gen Intel® Core™ i7-1185G7 Processor vs Nvidia MX350. | |
| Witcher 3 | 1.20x as measured by Witcher 3 (1080p Medium) fps on 11th Gen Intel® Core™ i7-1185G7 Processor vs Nvidia MX350. | |
| Dungeon Defenders Awakened | 0.90x as measured by Dungeon Defenders Awakened (1080p Medium) fps on 11th Gen Intel® Core™ i7-1185G7 Processor vs Nvidia MX350. | |
| GTAV | 0.70x as measured by GTAV (1080p Medium) fps on 11th Gen Intel® Core™ i7-1185G7 Processor vs Nvidia MX350. | |
| CS:GO | 1.07x as measured by CS:GO (1080p Medium) fps on 11th Gen Intel® Core™ i7-1185G7 Processor vs Nvidia MX350. | |
| Slide - Encode & Decode | claim details | |
| Encode Performance | 2x as measured by Adobe Premiere Export workload on 11th Gen Intel® Core™ i7-1185G7 Processor vs AMD Ryzen 7 4800U Processor at the highest available operating ranges. | |
| Slide - Game and Stream | claim details | |
| Gaming while streaming workflow | >2x (2.46x) as measured by Gaming + Stream workflow on 11th Gen Intel® Core™ i7-1185G7 Processor vs AMD Ryzen 7 4800U Processor at the highest available operating ranges. | |
| Slide - Best for Gaming | claim details | |
| graphics score | 1.67x as measured by 3DMark Fire Strike Graphics score for 11th Gen Intel® Core™ i7-1185G7 compared to AMD Ryzen Mobile 4800U at highest available operating ranges. | |
| Witcher 3 | 1.82x as measured by Witcher 3 on 11th Gen Intel® Core™ i7-1185G7 Processor vs AMD Ryzen 7 4800U at the highest available operating ranges. | |
| Gears Tactics | 1.76x as measured by Gears Tactics (1080p Medium) on 11th Gen Intel® Core™ i7-1185G7 Processor vs AMD Ryzen 7 4800U at the highest available operating ranges. | |
| Apex Legends | 1.46x as measured by Apex Legends(1080p High) on 11th Gen Intel® Core™ i7-1185G7 Processor vs AMD Ryzen 7 4800U at the highest available operating ranges. | |
| League of Legends | 1.40x as measured by League of Legends (1080p Medium) on 11th Gen Intel® Core™ i7-1185G7 Processor vs AMD Ryzen 7 4800U at the highest available operating ranges. | |
| Gaming while streaming workflow | > 2x as measured by Gaming + Stream workflow on 11th Gen Intel® Core™ i7-1185G7 Processor vs AMD Ryzen 7 4800U Processor at the highest available operating ranges. | |
| VRS | 1.3x as measured by GRID 2019 Nighttime Track FPS on 11th Gen Intel® Core™ i7-1185G7 Processor with variable rate shading enabled vs 11th Gen Intel® Core™ i7-1185G7 Processor with VRS Off. | |
| Best processor in thin & light laptops for gaming | As measured by:
Results: The 11th Gen Intel® Core™ i7-1185G7 processor performed better on majority of benchmark testing, game testing, and RUG testing and has the most unique features, together delivering the ultimate gaming experience in thin and light laptops. | |
| Slide - Best for Entertainment | claim details | |
| Best processor in thin & light laptops for entertainment | As measured by:
Results: The 11th Gen Intel® Core™ i7-1185G7 processor enables more power efficient playback of Dolby Vision content; delivers an optimized video streaming experience with industry leading content providers; and has unique entertainment features, together delivering the ultimate entertainment experience. | |
Section 5
| Slide - Scalability - 10th Gen Intel® Core™ Processor | Claim + Supporting Details |
| Handbrake | 1.4X faster video encoding as measured by Handbrake video encoding with 10th Gen Intel® Core™ i7-1065G7 Processor configured at 15W and 25W thermal design points (TDP). |
| 3DMark | 1.33x as measured by 3DMark Night Raid Graphics Score on 10th Gen Intel® Core™ i7-1165G7 Processor configured at 15W and 25W thermal design points (TDP). |
| Slide - Scalability - 11th Gen Intel® Core™ Processor | Claim + Supporting Details |
| 3DMark Time Spy CPU | 1.37x as measured by 3DMark Time Spy CPU score on 11th Gen Intel® Core™ i7-1185G7 Processor configured at PL1=15W and PL1=28W thermal design points (TDP). |
| GRID 2019 | 1.33x as measured by GRID 2019 1080p High FPS on 11th Gen Intel® Core™ i7-1185G7 Processor configured at PL1=15W and PL1=28W thermal design points (TDP). |
| Slide - Performance on AC and DC | Claim + Supporting Details |
| PCMark10 Applications (Office 365) | ~5% performance delta on AC vs. DC as measured by PCMark 10 Applications (Office 365) score on 11th Gen Intel® Core™ i7-1065G7 internal reference platform configured at 15W without Intel Dynamic Tuning. |
| PCMark10 Applications (Office 365) | ~38% performance delta on AC vs. DC as measured by PCMark 10 Applications (Office 365) score on AMD Ryzen 7 4800U Lenovo XiaoXin Pro-13. |
| Slide - Intelligent Performance on Windows | Claim + Supporting Details |
| SYSmark 25 | 1.24x as measured by SYSmark 25 Overall Score on 11th Gen Intel® Core™ i7-1185G7 Processor vs 10th Gen Intel® Core™ i7-1065G7U Processor at the highest available operating ranges. |
| 3DMark | 1.87x as measured by 3DMark Fire Strike Graphics Score on 11th Gen Intel® Core™ i7-1185G7 Processor vs 10th Gen Intel® Core™ i7-1065G7U Processor using 128b system memory at the highest available operating ranges. |
| MLPerf | 5x as measured by MLperf GPU ResNet 50 Throughput Score on pre-production11th Gen Intel® Core™ i7-1185G7 Processor using INT8 data type vs 10th Gen Intel® Core™ i7-1065G7U Processor using FP32 data type at the highest available operating ranges. |
| SYSmark 25 | 1.28x as measured by SYSmark 25 Overall Score on 11th Gen Intel® Core™ i7-1185G7 Processor compared to AMD Ryzen Mobile 4800U Processor at highest available operating ranges. |
| 3DMark | 1.67x as measured by 3DMark Fire Strike Graphics score for 11th Gen Intel® Core™ i7-1185G7 compared to AMD Ryzen Mobile 4800U at highest available operating ranges. |
| MLPerf | 4x as measured by MLPerf v0.5 Inference with Offline Scenario using OpenVINO 2020.2 framework Closed ResNet50-v1.5 offline int8 GPU (Batch=32) on 11th Gen Intel® Core™ i7-1185G7 Processor vs highest attainable MLPerf v0.5 Inference with Offline Scenario performance using OpenVINO 2020.2 framework Closed ResNet50-v1.5 offline int8 CPU (Batch=4) on AMD Ryzen 7 4800U CPU. |
| Slide - Benchmarks: Productivity Performance | Claim + Supporting Details |
| SYSmark 25 | Up to 1.28x better overall application performance with 11th Gen Intel® Core™ i7-1185G7 vs. AMD Ryzen 7 4800U. As measured by SYSmark 25 overall score. Processor at the highest available operating ranges. |
| SYSmark 25 | Up to 1.22x better office productivity performance with 11th Gen Intel® Core™ i7-1185G7 vs. AMD Ryzen 7 4800U. As measured by SYSmark 25 productivity sub-score. Processor at the highest available operating ranges. |
| SYSmark 25 | Up to 1.35x better media creation performance with 11th Gen Intel® Core™ i7-1185G7 vs. AMD Ryzen 7 4800U. As measured by SYSmark 25 creativity sub-score. Processor at the highest available operating ranges. |
| SYSmark 25 | Up to 1.26x better responsiveness performance with 11th Gen Intel® Core™ i7-1185G7 vs. AMD Ryzen 7 4800U. As measured by SYSmark 25 responsiveness sub-score. Processor at the highest available operating ranges. |
| PCMark 10 | Up to 1.30x better overall application performance with a 11th Gen Intel® Core™ i7-1185G7 vs. AMD Ryzen 7 4800U. As measured by PCMark10 Applications overall score. Processor at the highest available operating ranges. |
| PCMark 10 | Up to 1.40x better document editing performance with a 11th Gen Intel® Core™ i7-1185G7 vs. AMD Ryzen 7 4800U. As measured by PCMark10 Applications Microsoft Word sub-score. Processor at the highest available operating ranges. |
| PCMark 10 | Up to 1.57x better spreadsheet editing performance with a 11th Gen Intel® Core™ i7-1185G7 vs. AMD Ryzen 7 4800U. As measured by PCMark10 Applications Microsoft Excel sub-score. Processor at the highest available operating ranges. |
| PCMark 10 | Up to 1.14x faster PowerPoint editing with a 11th Gen Intel® Core™ i7-1185G7 vs. AMD Ryzen 7 4800U. As measured by PCMark10 Applications Microsoft PowerPoint sub-score. Processor at the highest available operating ranges. |
| PCMark 10 | Up to 1.15x better EDGE browser performance with a 11th Gen Intel® Core™ i7-1185G7 vs. AMD Ryzen 7 4800U. As measured by PCMark10 Applications Microsoft EDGE browser sub-score. Processor at the highest available operating ranges. |
| WebXPRT 3 | Up to 1.15x faster web browsing with 11th Gen Intel® Core™ i7-1185G7 vs. AMD Ryzen 7 4800U. As measured by WebXPRT 3 overall score. Processor at the highest available operating ranges. |
| SYSmark 25 | Up to 1.24x better overall application performance with 11th Gen Intel® Core™ i7-1185G7 vs. 10th Gen Intel® Core™ i7-1065G7. As measured by SYSmark 25 overall score. Processor at the highest available operating ranges. |
| SYSmark 25 | Up to 1.24x better office productivity performance with 11th Gen Intel® Core™ i7-1185G7 vs. 10th Gen Intel® Core™ i7-1065G7. As measured by SYSmark 25 Productivity sub-score. Processor at the highest available operating ranges. |
| SYSmark 25 | Up to 1.23x better media creation performance with 11th Gen Intel® Core™ i7-1185G7 vs. 10th Gen Intel® Core™ i7-1065G7. As measured by SYSmark 25 Creativity sub-score. Processor at the highest available operating ranges. |
| SYSmark 25 | Up to 1.26x better responsiveness performance with 11th Gen Intel® Core™ i7-1185G7 vs. 10th Gen Intel® Core™ i7-1065G7. As measured by SYSmark 25 responsiveness sub-score. Processor at the highest available operating ranges. |
| PCMark 10 | Up to 1.18x better overall application performance with 11th Gen Intel® Core™ i7-1185G7 vs. 10th Gen Intel® Core™ i7-1065G7. As measured by PCMark10 Applications overall score using Microsoft Office 365. Processor at the highest available operating ranges. |
| PCMark 10 | Up to 1.13x faster PowerPoint editing with 11th Gen Intel® Core™ i7-1185G7 vs. 10th Gen Intel® Core™ i7-1065G7. As measured by PCMark10 Applications Microsoft PowerPoint sub-score. Processor at the highest available operating ranges. |
| PCMark 10 | Up to 1.12x better EDGE browser performance with 11th Gen Intel® Core™ i7-1185G7 vs. 10th Gen Intel® Core™ i7-1065G7. As measured by PCMark10 Applications Microsoft EDGE browser sub-score. Processor at the highest available operating ranges. |
| PCMark 10 | Up to 1.25x better document editing performance with 11th Gen Intel® Core™ i7-1185G7 vs. 10th Gen Intel® Core™ i7-1065G7. As measured by PCMark10 Applications Microsoft Word sub-score. Processor at the highest available operating ranges. |
| PCMark 10 | Up to 1.22x better spreadsheet editing performance with 11th Gen Intel® Core™ i7-1185G7 vs. 10th Gen Intel® Core™ i7-1065G7. As measured by PCMark10 Applications Microsoft Excel sub-score. Processor at the highest available operating ranges. |
| WebXPRT 3 | Up to 1.23x faster web browsing with 11th Gen Intel® Core™ i7-1185G7 vs. 10th Gen Intel® Core™ i7-1065G7. As measured by WebXPRT 3 overall score. Processor at the highest available operating ranges. |
| Slide - Benchmarks: AI Performance | Claim + Supporting Details |
| Mlperf ResNet-50 | Up to 1.43x better AI performance with 10th Gen Intel® Core™ i7-1065G7 Processor (on CPU) vs. AMD Ryzen 7 4800U (on CPU). As measured by MLPerf v0.5 Inference with Offline Scenario using OpenVINO 2020.2 framework Closed ResNet50-v1.5 offline int8 CPU (Batch=1). Processor at the highest available operating ranges. Up to 1.78x better AI performance with 11th Gen Intel® Core™ i7-1185G7 (on CPU) vs. AMD Ryzen 7 4800U (on CPU). As measured by MLPerf v0.5 Inference with Offline Scenario using OpenVINO 2020.2 framework Closed ResNet50-v1.5 offline int8 CPU (Batch=1). Processor at the highest available operating ranges. |
| Mlperf ResNet-50 | Up to 1.42x better AI performance with 10th Gen Intel® Core™ i7-1065G7 Processor (on CPU) vs. AMD Ryzen 7 4800U (on CPU). As measured by MLPerf v0.5 Inference with Offline Scenario using OpenVINO 2020.2 framework Closed ResNet50-v1.5 offline int8 CPU (Batch=2). Processor at the highest available operating ranges. Up to 1.77x better AI performance with 11th Gen Intel® Core™ i7-1185G7 (on CPU) vs. AMD Ryzen 7 4800U (on CPU). As measured by MLPerf v0.5 Inference with Offline Scenario using OpenVINO 2020.2 framework Closed ResNet50-v1.5 offline int8 CPU (Batch=2). Processor at the highest available operating ranges. |
| Mlperf ResNet-50 | Up to 1.41x better AI performance with 10th Gen Intel® Core™ i7-1065G7 Processor (on CPU) vs. AMD Ryzen 7 4800U (on CPU). As measured by MLPerf v0.5 Inference with Offline Scenario using OpenVINO 2020.2 framework Closed ResNet50-v1.5 offline int8 CPU (Batch=4). Processor at the highest available operating ranges. Up to 1.77x better AI performance with 11th Gen Intel® Core™ i7-1185G7 (on CPU) vs. AMD Ryzen 7 4800U (on CPU). As measured by MLPerf v0.5 Inference with Offline Scenario using OpenVINO 2020.2 framework Closed ResNet50-v1.5 offline int8 CPU (Batch=4). Processor at the highest available operating ranges. |
| Mlperf ResNet-50 | Up to 1.41x better AI performance with 10th Gen Intel® Core™ i7-1065G7 Processor (on CPU) vs. AMD Ryzen 7 4800U (on CPU). As measured by MLPerf v0.5 Inference with Offline Scenario using OpenVINO 2020.2 framework Closed ResNet50-v1.5 offline int8 CPU (Batch=16). Processor at the highest available operating ranges. Up to 1.77x better AI performance with 11th Gen Intel® Core™ i7-1185G7 (on CPU) vs. AMD Ryzen 7 4800U (on CPU). As measured by MLPerf v0.5 Inference with Offline Scenario using OpenVINO 2020.2 framework Closed ResNet50-v1.5 offline int8 CPU (Batch=16). Processor at the highest available operating ranges. |
| Mlperf ResNet-50 | Up to 1.41x better AI performance with 10th Gen Intel® Core™ i7-1065G7 Processor (on CPU) vs. AMD Ryzen 7 4800U (on CPU). As measured by MLPerf v0.5 Inference with Offline Scenario using OpenVINO 2020.2 framework Closed ResNet50-v1.5 offline int8 CPU (Batch=32). Processor at the highest available operating ranges. Up to 1.77x better AI performance with 11th Gen Intel® Core™ i7-1185G7 (on CPU) vs. AMD Ryzen 7 4800U (on CPU). As measured by MLPerf v0.5 Inference with Offline Scenario using OpenVINO 2020.2 framework Closed ResNet50-v1.5 offline int8 CPU (Batch=32). Processor at the highest available operating ranges. |
| Mlperf ResNet-50 | Up to 1.43x better AI performance with 10th Gen Intel® Core™ i7-1065G7 Processor (on CPU) vs. AMD Ryzen 7 4800U (on CPU). As measured by MLPerf v0.5 Inference with Offline Scenario using OpenVINO 2020.2 framework Closed ResNet50-v1.5 offline int8 CPU (Batch=1). Processor at the highest available operating ranges. Up to 2.73x better AI performance with 11th Gen Intel® Core™ i7-1185G7 (on GPU) vs. AMD Ryzen 7 4800U (on CPU). As measured by MLPerf v0.5 Inference with Offline Scenario using OpenVINO 2020.2 framework Closed ResNet50-v1.5 offline int8 GPU (Batch=1) on 11th Gen Intel® Core™ i7-1185G7 vs highest attainable MLPerf v0.5 Inference with Offline Scenario using OpenVINO 2020.2 framework Closed ResNet50-v1.5 offline int8 CPU (Batch=1) AMD Ryzen 7 4800U CPU. |
| Mlperf ResNet-50 | Up to 1.42x better AI performance with 10th Gen Intel® Core™ i7-1065G7 Processor (on CPU) vs. AMD Ryzen 7 4800U (on CPU). As measured by MLPerf v0.5 Inference with Offline Scenario using OpenVINO 2020.2 framework Closed ResNet50-v1.5 offline int8 CPU (Batch=2). Processor at the highest available operating ranges. Up to 3.33x better AI performance with 11th Gen Intel® Core™ i7-1185G7 (on GPU) vs. AMD Ryzen 7 4800U (on CPU). As measured by MLPerf v0.5 Inference with Offline Scenario using OpenVINO 2020.2 framework Closed ResNet50-v1.5 offline int8 GPU (Batch=2) on 11th Gen Intel® Core™ i7-1185G7 vs highest attainable MLPerf v0.5 Inference with Offline Scenario using OpenVINO 2020.2 framework Closed ResNet50-v1.5 offline int8 CPU (Batch=2) AMD Ryzen 7 4800U CPU. |
| Mlperf ResNet-50 | Up to 1.41x better AI performance with 10th Gen Intel® Core™ i7-1065G7 Processor (on CPU) vs. AMD Ryzen 7 4800U (on CPU). As measured by MLPerf v0.5 Inference with Offline Scenario using OpenVINO 2020.2 framework Closed ResNet50-v1.5 offline int8 CPU (Batch=4). Processor at the highest available operating ranges. Up to 3.64x better AI performance with 11th Gen Intel® Core™ i7-1185G7 (on GPU) vs. AMD Ryzen 7 4800U (on CPU). As measured by MLPerf v0.5 Inference with Offline Scenario using OpenVINO 2020.2 framework Closed ResNet50-v1.5 offline int8 GPU (Batch=4) on 11th Gen Intel® Core™ i7-1185G7 vs highest attainable MLPerf v0.5 Inference with Offline Scenario using OpenVINO 2020.2 framework Closed ResNet50-v1.5 offline int8 CPU (Batch=4) AMD Ryzen 7 4800U CPU. |
| Mlperf ResNet-50 | Up to 1.41x better AI performance with 10th Gen Intel® Core™ i7-1065G7 Processor (on CPU) vs. AMD Ryzen 7 4800U (on CPU). As measured by MLPerf v0.5 Inference with Offline Scenario using OpenVINO 2020.2 framework Closed ResNet50-v1.5 offline int8 CPU (Batch=16). Processor at the highest available operating ranges. Up to 4.08x better AI performance with 11th Gen Intel® Core™ i7-1185G7 (on GPU) vs. AMD Ryzen 7 4800U (on CPU). As measured by MLPerf v0.5 Inference with Offline Scenario using OpenVINO 2020.2 framework Closed ResNet50-v1.5 offline int8 GPU (Batch=16) on 11th Gen Intel® Core™ i7-1185G7 vs highest attainable MLPerf v0.5 Inference with Offline Scenario using OpenVINO 2020.2 framework Closed ResNet50-v1.5 offline int8 CPU (Batch=16) AMD Ryzen 7 4800U CPU. |
| Mlperf ResNet-50 | Up to 1.41x better AI performance with 10th Gen Intel® Core™ i7-1065G7 Processor (on CPU) vs. AMD Ryzen 7 4800U (on CPU). As measured by MLPerf v0.5 Inference with Offline Scenario using OpenVINO 2020.2 framework Closed ResNet50-v1.5 offline int8 CPU (Batch=32). Processor at the highest available operating ranges. Up to 4.16x better AI performance with 11th Gen Intel® Core™ i7-1185G7 (on GPU) vs. AMD Ryzen 7 4800U (on CPU). As measured by MLPerf v0.5 Inference with Offline Scenario using OpenVINO 2020.2 framework Closed ResNet50-v1.5 offline int8 GPU (Batch=32) on 11th Gen Intel® Core™ i7-1185G7 vs highest attainable MLPerf v0.5 Inference with Offline Scenario using OpenVINO 2020.2 framework Closed ResNet50-v1.5 offline int8 CPU (Batch=32) AMD Ryzen 7 4800U CPU. |
| Slide - Benchmarks: AI-enabled Applications | Claim + Supporting Details |
| content aware fill | Render content aware fill preview up to 1.10x faster with 11th Gen Intel® Core™ i7-1185G7 vs. AMD Ryzen 7 4800U. As measured by Adobe Photoshop content aware fill workload. Processor at the highest available operating ranges. |
| content aware fill | Render content aware fill preview up to 1.22x faster with 11th Gen Intel® Core™ i7-1185G7 vs. 10th Gen Intel® Core™ i7-1065G7. As measured by Adobe Photoshop content aware fill workload. Processor at the highest available operating ranges. |
| smooth skin | Process smooth skin feature on images up to 1.19x faster with 11th Gen Intel® Core™ i7-1185G7 vs. AMD Ryzen 7 4800U. As measured by Adobe Smooth Photoshop Elements smooth skin workload. Processor at the highest available operating ranges. |
| smooth skin | Process smooth skin feature on images up to 1.22x faster with 11th Gen Intel® Core™ i7-1185G7 vs. 10th Gen Intel® Core™ i7-1065G7. As measured by Adobe Photoshop Elements smooth skin workload. Processor at the highest available operating ranges. |
| tag photos | Tag photos up to 1.93x faster with 11th Gen Intel® Core™ i7-1185G7 vs. AMD Ryzen 7 4800U. As measured by Nero AI Photo Tagger workload. Processor at the highest available operating ranges. |
| tag photos | Tag photos up to 1.08x faster with 11th Gen Intel® Core™ i7-1185G7 vs. 10th Gen Intel® Core™ i7-1065G7. As measured by Nero AI Photo Tagger workload. Processor at the highest available operating ranges. |
| upscale photos | Upscale photos up to 4.45x faster with 11th Gen Intel® Core™ i7-1185G7 vs. AMD Ryzen 7 4800U. As measured by Topaz Labs Gigapixel AI photo upscale workload. Processor at the highest available operating ranges. |
| upscale photos | Upscale photos up to 2.5x faster with 11th Gen Intel® Core™ i7-1185G7 vs. 10th Gen Intel® Core™ i7-1065G7. As measured by Topaz Labs Gigapixel AI photo upscale workload. Processor at the highest available operating ranges. |
| style transfer | Perform style transfer up to 11.3x faster with 11th Gen Intel® Core™ i7-1185G7 vs. AMD Ryzen 7 4800U. As measured by CyberLink PowerDirector style transfer workload. Processor at the highest available operating ranges. |
| style transfer | Perform style transfer up to 1.60x faster with 11th Gen Intel® Core™ i7-1185G7 vs. 10th Gen Intel® Core™ i7-1065G7. As measured by CyberLink PowerDirector style transfer workload. Processor at the highest available operating ranges. |
| Slide - Intelligence Performance: Lifestyle Streaming | Claim + Supporting Details |
| lightroom preview | 1.79x as measured by Adobe Lightroom Classic photo preview build sub-score of Create + Stream workflow on 11th Gen Intel® Core™ i7-1185G7 Processor vs AMD Ryzen 7 4800U Processor at the highest available operating ranges. |
| panoramic merge | 1.09x as measured by Adobe Lightroom Classic photo merge sub-score of video editing workflow on 11th Gen Intel® Core™ i7-1185G7 Processor vs AMD Ryzen 7 4800U Processor at the highest available operating ranges. |
| content aware fill | 1.42x as measured by Adobe Photoshop content aware sub-score of video editing workflow on 11th Gen Intel® Core™ i7-1185G7 Processor vs AMD Ryzen 7 4800U Processor at the highest available operating ranges. |
| create & stream workflow | 1.62x as measured by Create + Stream workflow on 11th Gen Intel® Core™ i7-1185G7 Processor vs AMD Ryzen 7 4800U Processor at the highest available operating ranges. |
| Slide - Intelligent Performance on Windows | Claim + Supporting Details |
| productivity workflow | 1.32X as measured by office productivity workflow on 11th Gen Intel® Core™ i7-1185G7 Processor vs 10th Gen Intel® Core™ i7-1065G7U Processor at the highest available operating ranges. |
| game/stream workflow | 1.77x as measured by Gaming + Stream workflow on 11th Gen Intel® Core™ i7-1185G7 Processor vs 10th Gen Intel® Core™ i7-1065G7U Processor at the highest available operating ranges. |
| create & stream workflow | 1.48x as measured by Create + Stream workflow on 11th Gen Intel® Core™ i7-1185G7 Processor vs 10th Gen Intel® Core™ i7-1065G7U Processor at the highest available operating ranges. |
| photo edit workflow | 1.59x as measured by photo edit workflow on 11th Gen Intel® Core™ i7-1185G7 Processor vs 10th Gen Intel® Core™ i7-1065G7U Processor at the highest available operating ranges. |
| video edit workflow | 1.49x as measured by video edit workflow on 11th Gen Intel® Core™ i7-1185G7 Processor vs 10th Gen Intel® Core™ i7-1065G7U Processor at the highest available operating ranges. |
| productivity workflow | 1.24x as measured by Productivity Workflow Representative Usage Guide (RUG) for 11th Gen Intel® Core™ i7-1185G7 compared to AMD Ryzen Mobile 4800U at the highest available operating ranges. |
| game/stream workflow | > 2x (2.46x) as measured by Gaming + Stream workflow on 11th Gen Intel® Core™ i7-1185G7 Processor vs AMD Ryzen 7 4800U Processor at the highest available operating ranges. |
| create & stream workflow | 1.62x as measured by Create + Stream workflow on 11th Gen Intel® Core™ i7-1185G7 Processor vs AMD Ryzen 7 4800U Processor at the highest available operating ranges. |
| photo editing workflow | 2.73x as measured by Photo Editing Workflow Representative Usage Guide (RUG) for 11th Gen Intel® Core™ i7-1185G7 compared to AMD Ryzen Mobile 4800U at the highest available operating ranges. |
| video editing workflow | 1.99x as measured by Video Editing Workflow Representative Usage Guide (RUG) for 11th Gen Intel® Core™ i7-1185G7 compared to AMD Ryzen Mobile 4800U at the highest available operating ranges. |
| Slide - Intelligent Performance on Windows | claim details |
| SYSmark 25 | 1.24x as measured by SYSmark 25 Overall Score on 11th Gen Intel® Core™ i7-1185G7 Processor vs 10th Gen Intel® Core™ i7-1065G7U Processor at the highest available operating ranges. |
| 3DMark | 1.87x as measured by 3DMark Fire Strike Graphics Score on 11th Gen Intel® Core™ i7-1185G7 Processor vs 10th Gen Intel® Core™ i7-1065G7U Processor using 128b system memory at the highest available operating ranges. |
| MLperf | 5x as measured by MLperf GPU ResNet 50 Throughput Score on pre-production11th Gen Intel® Core™ i7-1185G7 Processor using INT8 data type vs 10th Gen Intel® Core™ i7-1065G7U Processor using FP32 data type at the highest available operating ranges. |
| SYSmark 25 | 1.28x as measured by SYSmark 25 Overall Score on 11th Gen Intel® Core™ i7-1185G7 Processor compared to AMD Ryzen Mobile 4800U Processor at highest available operating ranges. |
| 3DMark | 1.67x as measured by 3DMark Fire Strike Graphics score for 11th Gen Intel® Core™ i7-1185G7 compared to AMD Ryzen Mobile 4800U at highest available operating ranges. |
| MLperf | 4x as measured by MLPerf v0.5 Inference with Offline Scenario using OpenVINO 2020.2 framework Closed ResNet50-v1.5 offline int8 GPU (Batch=32) on 11th Gen Intel® Core™ i7-1185G7 Processor vs highest attainable MLPerf v0.5 Inference with Offline Scenario performance using OpenVINO 2020.2 framework Closed ResNet50-v1.5 offline int8 CPU (Batch=4) on AMD Ryzen 7 4800U CPU. |
| productivity workflow | 1.32x as measured by office productivity workflow on 11th Gen Intel® Core™ i7-1185G7 Processor vs 10th Gen Intel® Core™ i7-1065G7U Processor at the highest available operating ranges. |
| game/stream workflow | 1.77x as measured by Gaming + Stream workflow on 11th Gen Intel® Core™ i7-1185G7 Processor vs 10th Gen Intel® Core™ i7-1065G7U Processor at the highest available operating ranges. |
| create & stream workflow | 1.48x as measured by Create + Stream workflow on 11th Gen Intel® Core™ i7-1185G7 Processor vs 10th Gen Intel® Core™ i7-1065G7U Processor at the highest available operating ranges. |
| photo edit workflow | 1.59x as measured by photo edit workflow on 11th Gen Intel® Core™ i7-1185G7 Processor vs 10th Gen Intel® Core™ i7-1065G7U Processor at the highest available operating ranges. |
| video edit workflow | 1.49x as measured by video edit workflow on 11th Gen Intel® Core™ i7-1185G7 Processor vs 10th Gen Intel® Core™ i7-1065G7U Processor at the highest available operating ranges. |
| productivity workflow | 1.24x as measured by Productivity Workflow Representative Usage Guide (RUG) for 11th Gen Intel® Core™ i7-1185G7 compared to AMD Ryzen Mobile 4800U at the highest available operating ranges. |
| game/stream workflow | > 2x (2.46x) as measured by Gaming + Stream workflow on 11th Gen Intel® Core™ i7-1185G7 Processor vs AMD Ryzen 7 4800U Processor at the highest available operating ranges. |
| create & stream workflow | 1.62x as measured by Create + Stream workflow on 11th Gen Intel® Core™ i7-1185G7 Processor vs AMD Ryzen 7 4800U Processor at the highest available operating ranges. |
| photo editing workflow | 2.73x as measured by Photo Editing Workflow Representative Usage Guide (RUG) for 11th Gen Intel® Core™ i7-1185G7 compared to AMD Ryzen Mobile 4800U at the highest available operating ranges. |
| video editing workflow | 1.99x as measured by Video Editing Workflow Representative Usage Guide (RUG) for 11th Gen Intel® Core™ i7-1185G7 compared to AMD Ryzen Mobile 4800U at the highest available operating ranges. |
Benchmarks, Workloads and Realistic Usage Guide (RUG) Testing Details – for Keynote and Tiger Lake Blueprint Session
| SYSmark* 25 is a benchmark from the BAPCo* consortium that measures the performance of Windows* platforms. SYSmark tests four usage scenarios: Office Productivity, Media Creation, Data/Financial Analysis and Responsiveness. SYSmark runs real applications from Independent Software Vendors such as Microsoft* and Adobe*. |
| SPEC CPU*2006 is published by the Standard Performance Evaluation Corporation (SPEC), a benchmarking consortium. SPEC CPU tests Compute Intensive Application Performance using integer and floating point subtests based on real programs. SPECint*_base2006 and SPECfp*_base2006 measure how fast a processor completes a single integer or floating point compute task. SPECint*_rate_base2006 and SPECfp*_rate_base2006 measure throughput, or how many integer or floating point compute tasks a processor can accomplish in a given amount of time. For Windows*, SPEC CPU2006 supports Win32 and Win64. SPEC CPU2006 was retired by SPEC on January 9, 2018. |
| 3DMark* 2.7 is published by UL/Futuremark, a for-profit company owned by Underwriters Laboratories (UL). 3DMark tests DirectX* and OpenGL* ES Gaming performance using stand-alone benchmarks: Time Spy (DX 12), Night Raid (DX 12), Fire Strike (DX 11), Sky Diver (DX 11), Cloud Gate (DX 10), Sling Shot (OGL ES 3.0) and Ice Storm (DX 9 / OGL ES 2.0). Each benchmark produces metrics on graphics, physics (CPU), combined and overall performance. For Windows*, 3DMark 2.7 supports both Win32 and Win64 – except for Time Spy, which supports Win64. Night Raid supports UWP-ARM. |
| Windows 10* 1080p 24fps Local Video Playback Component Average Power Disconnect all USB devices, connect to a local WiFi access point and set the screen brightness to 200 nits (disable DPST, set brightness to 200 nits on a white background and enable DPST). Wait for 10 mins for the OS to completely idle. Launch Tears of Steel (1080p H264 10MBps 24fps) video using the Windows Movie & TV App. Measure and calculate average power for the duration of the video. Report 3 run median. |
| Windows 10* 4K 24fps 10bit HEVC Local Video Playback Component Average Power Disconnect all USB devices, connect to a local WiFi access point and set the screen brightness to 200 nits (disable DPST, set brightness to 200 nits on a white background and enable DPST). Wait for 10 mins for the OS to completely idle. Launch Tears of Steel (4K H265 24fps) video using the Windows Movie & TV App. Measure and calculate average power for the duration of the video. Report 3 run median. |
| Windows 10* MobileMark* 2018 Component Average Power Disconnect all USB devices, connect to a local WiFi access point and set the screen brightness to 150 nits on a white background. Launch MobileMark 2018 (OP subtest) in debug mode and measure power for the duration of the workload. Average and report 3 run median. |
| Windows 10* EEMBC Browsing Bench Component Average Power Disconnect all USB devices, connect to a local WiFi access point and set the screen brightness to 200 nits (disable DPST, set brightness to 200 nits on a white background and enable DPST). Wait for 10 mins for the OS to completely idle and then launch EEMBC Browsing Bench using Microsoft® Edge Browser. Set the web [ages to idle for 20s in between page loads. Measure power for the duration of all page loads and report 3 run median. |
| WebXPRT 3 is a benchmark from Principled Technologies that measures JavaScript/HTML5 performance using web applications based on real world usages, like Photo Enhancement, Organize Album Using AI, Stock Option Pricing, Encrypt Notes and OCR Scan, Sales Graphs, and Online Homework. It produces results for each of the test scenarios plus an overall score. |
| PCMark 10 Quick System Drive is a benchmark from PCMark10 using relevant real-world traces from popular applications common tasks to full test the performance of the latest modern drives. |
Microsoft Office Excel chart to Word document (Software: Office 365 MSO (16.0.13029.20308)) workload measures the time it takes to paste a chart from Microsoft* Excel* into a Microsoft* Word* document. • Task#1 – Excel* spreadsheet – Copy a chart in the Excel file. • The Excel* source file is a 68,470 KB file. • Task#2 - Word* Document – Paste the chart into the Word document. • The Word* source file is an 801-page, 6.49 MB document. Only the elapsed time for Task#2 should be recorded. Time is recorded in Seconds.
Microsoft Word document to PDF conversion (Software: Office 365 MSO (16.0.13029.20308)) workload measures the time it takes Microsoft Office to export a Word Document to PDF. o The Word source file is an 801-page, 6.49 MB document. The converted PDF file is approximately 3.7 MB.
Export Microsoft PowerPoint to PDF (Software: Office 365 MSO (16.0.13029.20308)) workload measures the time it takes Microsoft PowerPoint 365 to convert the workload file, a 3.75 MB, 200 slide, .pptx presentation, to a ~4.0 MB PDF file. The export is created with Office’s built-in capability to create PDF files. It does not use any add-ins to create the PDF.
Windows file archive measures the time it takes the Windows Zip Utility to archive 3.89 GB of files into a new zip file. There are 739 files in 5 folders. The files are a mix of documents and media.
Adobe Lightroom Classic enhance (Version: Adobe Lightroom Classic 9.3 ) workload measures the time it takes Adobe Lightroom Classic to Enhance Details on a Raw Camera File and produce a new .DNG file. The workload consists of (1) 30MP .CR3 raw picture shot on a Canon EOS R camera with an original file size of 31.1 MB.
CyberLink PowerDirector style transfer (Version: Cyberlink PowerDirector 365 18.6.3120.0 (64-bit)) workload measures the time it takes to complete a Style Transfer using the AI Style Transfer Plug-in for PowerDirector. Specifically, it uses the “Starry Night” style from the Van Gogh AI Styles Pack. The workload effects the PowerDirector supplied video named “Skateboard.mp4” which is an AVC MP4 video that is 1280X720 @ 29.97 fps with a bit rate of 4.27 Mbps. The workload uses HW Acceleration (if available on the system), and OpenVINO™ is used if available.
Adobe Photoshop content aware fill (Version: Adobe Photoshop 21.2.1) workload measures the time it takes Adobe* Photoshop* CC to render a preview of a Content-Aware-Fill affect. The Photoshop* File is a pre-built panoramic image. The user runs an Action that selects the blank edges of the image, then uses Content-Aware-Fill to fill-in the images of the photo using the existing content in the layer. The workload measures how long it takes to render the affect. The Content-Aware-Fill settings are: 1. Contents = Content-Aware 2. Options = Check Color Adaption Box 3. Blending a. Mode: Normal b. Opacity: 100% 4. Uncheck ‘Preserve Transparency Box’.
Adobe Photoshop smooth skin (Version: Adobe Photoshop Elements 2020 (18.0) ) workload measures the time it takes Adobe Photoshop Elements to process the “Smooth Skin” feature on a 1.7MB jpg image file.
Adobe Lightroom Classic photo merge (Version: Adobe Lightroom Classic 9.3 ) workload measures the time it takes Adobe Lightroom Classic to use the Photo Merge option to create an HDR Panorama image from 12 individual JPEG files. The workload consists of 12 bracketed photos shot on a Canon EOS R camera ranging in size of 6.40 MB – 15.3 MB.
Nero AI Photo Tagger (version: Nero AI Photo Tagger 2.0.3.9 ) workload measures the time it takes to analyze 1000 photos for tagging using Nero AI Photo Tagger. The source files are 1000 jpeg files with a total file size of 178 MB. The files are a mix of dimensions, resolutions and subject matter. Nero analyzes the photos to assign tags. The tags are not actually applied to the photos.
Topaz Labs Gigapixel AI photo upscale (Version: Topaz Labs Gigapixel AI 5.0.4) workload measures the time it takes to process a 4X photo enlargement on 7 images in a batch process. The source files are 7 jpeg files with a total file size of 1.88 MB. The files are a mix of dimensions, resolutions and subject matter.
Adobe Premiere Pro auto reframe (Version: Adobe Premiere Pro 14.3.1) workload measures the time it takes Adobe Premiere Pro to analyze and render a video sequence using the “Auto Reframe Sequence” feature to change the aspect ratio from 16:9 to 1:1 (square) using default settings for the Auto Reframe feature. The video source is 4K (3840X2160), H.265, 60 FPS, 10-bit, MP4 footage, recorded at a bitrate of approximately 75.8 Mbps. Enable hardware accelerated decoding. The Sequence is 45 seconds in length. Credit: The source video file for this workload is from: https://4kmedia.org/sony-camping-in-nature-4k-demo/
Adobe Premiere Pro export (Version: Adobe Premiere Pro 14.3.1) workload measures the time it takes Adobe Premiere Pro to export a 45 second sequence to HEVC video using the ‘Hardware Encoding’ option. Not all systems offer Hardware Encoding options. The video source is 4K (3840X2160), H.265, 60 FPS, 10-bit, MP4 footage, recorded at a bitrate of approximately 75.8 Mbps. The timeline is 45 seconds long. Credit: The source video file for this workload is from: https://4kmedia.org/sony-camping-in-nature-4k-demo/
Adobe Photoshop subject select (Version: Adobe Photoshop 21.2.1) workload measures the time it takes to batch process 10 images using the Select Subject feature in Adobe Photoshop. Each image is opened, the Select Subject operation is performed, and a quick mask is applied. The workload illustrates the creation of a thumbnail for a video project and utilizes the Subject Select Tool to batch process 10 images that were previously exported from a video. In a workflow, the Subject Selected images could be selected to cut, resize and place over a background image in order to create a thumbnail bitmap file. The Photos were exported from the video source as 24-bit BMP files. Credit: The source video file for this workload is from: https://4kmedia.org/sony-camping-in-nature-4k-demo/
Microsoft Office 365 workflow (Software: Office 365 MSO (16.0.13029.20308))measures the time it takes to perform the following operations: • Operation#1: Measures the time it takes to paste a chart from Microsoft Excel into a Microsoft Word document. o The Excel source file is a ~32MB file. o The Word source file is an 801-page, 2.1 MB document. • Operation#2: Measures the time it takes Microsoft Word to export the Word Document from Operation #1 to PDF. • Operation#3: Measures the time it takes Microsoft PowerPoint to export a PPTX file to PDF. o The PowerPoint source file is a 3.8MB, 200 slide, .pptx presentation. • Operation#4: Measures the time it takes the Windows Zip Utility to archive 3.89 GB of files into a new zip file. There are 740 files in 5 folders. The files are a mix of documents and media.
Photo Editing workflow (Software: Adobe Photoshop Elements 2020 (18.0) Topaz Labs Gigapixel AI 5.0.4 Nero AI Photo Tagger 2.0.3.9) measures the time it takes a system to complete the following operations in a workflow scenario: • Operation#1: Time for Adobe Photoshop Elements to process the “Colorize Photo” feature on 7 photos. • Operations#2: Time for Gigapixel AI to process a 4X photo enlargement on the 7 images from Operation#1. • Operations#3: Time for Nero AI Auto Tagger to analyze 1000 photos (including the 7 from Operation#2). The elapsed time for each of the above operations is added together to get a single cumulative “Photo Editing” run time. The source files are 1000 jpeg files with a total file size of 178 MB. The files are a mix of dimensions, resolutions and subject matter.
Video Editing workflow (Software: Adobe Premiere Pro 14.3.1 Adobe Photoshop 21.2.1) illustrates a video editing scenario. Premiere Pro is launched, the clip in the timeline is played back in the program monitor at full resolution. The sequence is auto reframed, then exported as a new HEVC clip. The final part of the Workflow is executed in Adobe Photoshop CC. It illustrates the creation of a thumbnail for the video project and utilizes the Subject Select Tool to batch process 10 images that were previously exported from the video. 4 of the Subject Selected images are selected to cut, resize and place over a background image in order to create one new thumbnail bitmap file. • Operation #1: Premiere Pro, Video Playback. Ability for Video Playback as seen visually on the program monitor. • Operation #2: Premiere Pro, Auto Reframe a Sequence. Time is reported in Seconds. • Operation #3: Premiere Pro, Export a Sequence. Time is reported in Seconds. • Operation #4: Photoshop, Subject Select Tool batch process 10 images. Time is reported in Seconds. The video source is 4K (3840X2160), H.265, 60 FPS, 10-bit, MP4 footage, recorded at a bitrate of approximately 75.8 Mbps. The Photos were exported from the video source as 24-bit BMP files. The timings for the 3 timed operations are reported as a cumulative time for this workflow along with the FPS of the playback operation. Credit: The source video file for this workload is from: https://4kmedia.org/sony-camping-in-nature-4k-demo/
Lifestyle Streaming workflow (Software: OBS 25.0.8 Adobe Lightroom Classic 9.3 Adobe Photoshop 21.2.1 Xsplit Vcam 1.2.2004.2201) measures the time it takes to Build 100 1:1 previews in Adobe Lightroom Classic, perform a Content Aware Fill in Adobe Photoshop, & perform a Photo Merge Option in Adobe Lightroom Classic. These 3 operations are completed while streaming to YouTube via OBS using VCam to perform background removal. Streaming is done using OBS. With the below recommended settings for streaming to YouTube. Resolution: 3840x2160 Bitrate: 30000 kbps Rate Control: CBR Framerate: 60 Encoder: QSV or AMD Advanced Media Framework Keyframe Interval: 2 seconds Preset: speed/max performance Profile: Main. VCam from XSplit is used to remove the background of the user streaming.
Game and Stream workflow (Software: OBS 25.0.8 Counter-Strike: Global Offensive) measures the FPS output of a replay of CS:GO while streaming gameplay to Twitch. The stream health is recorded as reported in OBS. FPS output is measured using PresentMon. Streaming is done using OBS. With the below recommended settings for streaming to Twitch. Resolution: 1920x1080 Bitrate: 6000 kbps Rate Control: CBR Framerate: 60 Encoder: QSV or AMD Advanced Media Framework Keyframe Interval: 2 seconds Preset: speed/max performance Profile: Main.
System Configurations – for Keynote and Tiger Lake Blueprint Session
Testing by Intel as of August 2020.
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Best processor in thin & light laptops for productivity
11th Gen:
Processor: Intel® Core™ i7-1185G7processor (TGL-U) PL1=28W with Intel® Dynamic Tuning Technology (Intel® DTT) enabled, 4C8T, Memory: LPDDR4-4267MHz, 16GB (2x8GB), dual channel and dual rank, Storage: Intel® 660p M.2 PCIe NVMe SSD, Display Resolution: 1920x1080p, OS: Microsoft Windows* 10 20H1-19041.326 Power policy set to AC/Balanced mode for all benchmarks except SYSmark 25 which is measured in AC/BAPCo mode for Performance. Power policy set to DC/Balanced mode for power with UX Slider set to Better Battery. All benchmarks run in Admin mode, Graphics: Intel® Xe Graphics, Graphics driver: 27.20.100.8431, Bios version: TGLSFWI1.R00.3284.A00.2007091654 measured on Intel reference board.Temperature: Tc=60c for all IA performance measurements. Tc=85c for all Graphics performance measurements.
Performance with Intel® DTT will vary based on chassis design choices, chassis temperature thresholds, cooling solutions, form factors (xyz dimensions), air flow, and ambient air temperatures.
10th Gen:
Processor: Intel® Core™ i7-1065G7processor (ICL-U) PL1=25W with Intel® Dynamic Tuning Technology (Intel® DTT) enabled, 4C8T, Memory: LPDDR4-3733, 2x8GB, Dual Rank, Storage: Intel® 660p M.2 PCIe NVMe SSD, Display Resolution: 1920x1080, OS: Microsoft Windows* 10 20H1-19041.308 Power policy set to AC/Balanced mode for all benchmarks except SYSmark 25 which is measured in AC/BAPCo mode for Performance. Power policy set to DC/Balanced mode for power with UX Slider set to Better Battery. All benchmarks run in Admin mode, Graphics: Intel® Iris® Plus Graphics, Graphics driver: 27.20.100.8280, Bios version: ICLSFWR1.R00.4253.A00.2006180044 measured on Intel reference board. Temperature: Tc=60c for all IA performance measurements. Tc=85c for all Graphics performance measurements.
Performance with Intel® DTT will vary based on chassis design choices, chassis temperature thresholds, cooling solutions, form factors (xyz dimensions), air flow, and ambient air temperatures.
AMD system:
Processor: AMD Ryzen 7 4800Uprocessor, 8C16T, Memory: 2x8GB DDR4-3200MHz, Storage: Western Digital Corporation PC SN730 SDBPNTY-512G-1101, Display Resolution: 1920x1080, OS: Microsoft Windows* 10 Pro 10.0.19041.330, Graphics: AMD Radeon(TM) Graphics, Graphics driver: 26.20.14042.3009, Bios version: F0CN15WW measured on Lenovo Xiaoxin Pro 13. Out of box OS was Chinese, testing done on a fresh install of OS that supports English using highest available performance profile ("System Performance Mode" BIOS setting at "Extreme Performance" mode which corresponds to ~37W power as reported by AMD's μProf tool, sustained up to 20 minutes).
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Best processor in thin & light laptops for creation
11th Gen:
Processor: Intel® Core™ i7-1185G7 processor (TGL-U) PL1=28W with Intel® Dynamic Tuning Technology (Intel® DTT) enabled, 4C8T, Memory: LPDDR4-4267MHz, 16GB (2x8GB), dual channel and dual rank, Storage: Intel® 660p M.2 PCIe NVMe SSD, Display Resolution: 1920x1080 except Lifestyle workload (4K), OS: Microsoft Windows* 10 20H1-19041.326 Power policy set to AC/Balanced mode for all benchmarks except SYSmark 25 which is measured in AC/BAPCo mode for Performance. Power policy set to DC/Balanced mode for power with UX Slider set to Better Battery. All benchmarks run in Admin mode, Graphics: Intel® Xe Graphics, Graphics driver: 27.20.100.8431, Bios version: TGLSFWI1.R00.3284.A00.2007091654 measured on Intel reference board.Temperature: Tc=60c for all IA performance measurements. Tc=85c for all Graphics performance measurements. Performance with Intel® DTT will vary based on chassis design choices, chassis temperature thresholds, cooling solutions, form factors (xyz dimensions), air flow, and ambient air temperatures.
10th Gen:
Processor: Intel® Core™ i7-1065G7 processor (ICL-U) PL1=25W with Intel® Dynamic Tuning Technology (Intel® DTT) enabled, 4C8T, Memory: LPDDR4-3733, 2x8GB, Dual Rank, Storage: Intel® 660p M.2 PCIe NVMe SSD, Display Resolution: 1920x1080 except Lifestyle workload (4K), OS: Microsoft Windows* 10 20H1-19041.308 Power policy set to AC/Balanced mode for all benchmarks except SYSmark 25 which is measured in AC/BAPCo mode for Performance. Power policy set to DC/Balanced mode for power with UX Slider set to Better Battery. All benchmarks run in Admin mode, Graphics: Intel® Iris® Plus Graphics, Graphics driver: 27.20.100.8280, Bios version: ICLSFWR1.R00.4253.A00.2006180044 measured on Intel reference board. Temperature: Tc=60c for all IA performance measurements. Tc=85c for all Graphics performance measurements. Performance with Intel® DTT will vary based on chassis design choices, chassis temperature thresholds, cooling solutions, form factors (xyz dimensions), air flow, and ambient air temperatures.
AMD system:
Processor: AMD Ryzen 7 4800U processor, 8C16T, Memory: 2x8GB DDR4-3200MHz, Storage: Western Digital Corporation PC SN730 SDBPNTY-512G-1101, Display Resolution: 1920x1080, OS: Microsoft Windows* 10 Pro 10.0.19041.330, Graphics: AMD Radeon(TM) Graphics, Graphics driver: 26.20.14042.3009, Bios version: F0CN15WW measured on Lenovo Xiaoxin Pro 13. Out of box OS was Chinese, testing done on a fresh install of OS that supports English using highest available performance profile ("System Performance Mode" BIOS setting at "Extreme Performance" mode which corresponds to ~37W power as reported by AMD's μProf tool, sustained up to 20 minutes).
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Best processor in thin & light laptops for collaboration
11th Gen:
Processor: Intel® Core™ i7-1185G7 processor (TGL-U) PL1=28W with Intel® Dynamic Tuning Technology (Intel® DTT) enabled, 4C8T, Memory: LPDDR4-4267MHz, 16GB (2x8GB), dual channel and dual rank, Storage: Intel® 660p M.2 PCIe NVMe SSD, Display Resolution: 1920x1080p, OS: Microsoft Windows* 10 20H1-19041.326 Power policy set to AC/Balanced mode for all benchmarks except SYSmark 25 which is measured in AC/BAPCo mode for Performance. Power policy set to DC/Balanced mode for power with UX Slider set to Better Battery. All benchmarks run in Admin mode, Graphics: Intel® Xe Graphics, Graphics driver: 27.20.100.8431, Bios version: TGLSFWI1.R00.3284.A00.2007091654 measured on Intel reference board.Temperature: Tc=60c for all IA performance measurements. Tc=85c for all Graphics performance measurements. Performance with Intel® DTT will vary based on chassis design choices, chassis temperature thresholds, cooling solutions, form factors (xyz dimensions), air flow, and ambient air temperatures.
10th Gen:
Processor: Intel® Core™ i7-1065G7 processor (ICL-U) PL1=25W with Intel® Dynamic Tuning Technology (Intel® DTT) enabled, 4C8T, Memory: LPDDR4-3733, 2x8GB, Dual Rank, Storage: Intel® 660p M.2 PCIe NVMe SSD, Display Resolution: 1920x1080, OS: Microsoft Windows* 10 20H1-19041.308 Power policy set to AC/Balanced mode for all benchmarks except SYSmark 25 which is measured in AC/BAPCo mode for Performance. Power policy set to DC/Balanced mode for power with UX Slider set to Better Battery. All benchmarks run in Admin mode, Graphics: Intel® Iris® Plus Graphics, Graphics driver: 27.20.100.8280, Bios version: ICLSFWR1.R00.4253.A00.2006180044 measured on Intel reference board. Temperature: Tc=60c for all IA performance measurements. Tc=85c for all Graphics performance measurements. Performance with Intel® DTT will vary based on chassis design choices, chassis temperature thresholds, cooling solutions, form factors (xyz dimensions), air flow, and ambient air temperatures.
AMD system:
Processor: AMD Ryzen 7 4800U processor, 8C16T, Memory: 2x8GB DDR4-3200MHz, Storage: Western Digital Corporation PC SN730 SDBPNTY-512G-1101, Display Resolution: 1920x1080, OS: Microsoft Windows* 10 Pro 10.0.19041.330, Graphics: AMD Radeon(TM) Graphics, Graphics driver: 26.20.14042.3009, Bios version: F0CN15WW measured on Lenovo Xiaoxin Pro 13. Out of box OS was Chinese, testing done on a fresh install of OS that supports English using highest available performance profile ("System Performance Mode" BIOS setting at "Extreme Performance" mode which corresponds to ~37W power as reported by AMD's μProf tool, sustained up to 20 minutes).
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Best processor in thin & light laptops for entertainment
11th Gen:
Processor: Intel® Core™ i7-1185G7processor (TGL-U) PL1=28W with Intel® Dynamic Tuning Technology (Intel® DTT) enabled, 4C8T, Memory: LPDDR4-4267MHz, 16GB (2x8GB), dual channel and dual rank, Storage: Intel® 660p M.2 PCIe NVMe SSD, Display Resolution: 1920x1080, OS: Microsoft Windows* 10 20H1-19041.326 Power policy set to AC/Balanced mode for all benchmarks. Power policy set to DC/Balanced mode for power with UX Slider set to Better Battery. All benchmarks run in Admin mode, Graphics: Intel® Xe Graphics, Graphics driver: 27.20.100.8431, Bios version: TGLSFWI1.R00.3284.A00.2007091654 measured on Intel reference board.Temperature: Tc=60c for all IA performance measurements. Tc=85c for all Graphics performance measurements.
Performance with Intel® DTT will vary based on chassis design choices, chassis temperature thresholds, cooling solutions, form factors (xyz dimensions), air flow, and ambient air temperatures.
10th Gen:
Processor: Intel® Core™ i7-1065G7processor (ICL-U) PL1=25W with Intel® Dynamic Tuning Technology (Intel® DTT) enabled, 4C8T, Memory: LPDDR4-3733, 2x8GB, Dual Rank, Storage: Intel® 660p M.2 PCIe NVMe SSD, Display Resolution: 1920x1080 except Lifestyle workload (4K), OS: Microsoft Windows* 10 20H1-19041.308 Power policy set to AC/Balanced mode for all benchmarks except SYSmark 25 which is measured in AC/BAPCo mode for Performance. Power policy set to DC/Balanced mode for power with UX Slider set to Better Battery. All benchmarks run in Admin mode, Graphics: Intel® Iris® Plus Graphics, Graphics driver: 27.20.100.8280, Bios version: ICLSFWR1.R00.4253.A00.2006180044 measured on Intel reference board. Temperature: Tc=60c for all IA performance measurements. Tc=85c for all Graphics performance measurements.
Performance with Intel® DTT will vary based on chassis design choices, chassis temperature thresholds, cooling solutions, form factors (xyz dimensions), air flow, and ambient air temperatures.
AMD system:
Processor: AMD Ryzen 7 4800Uprocessor, 8C16T, Memory: 2x8GB DDR4-3200MHz, Storage: Western Digital Corporation PC SN730 SDBPNTY-512G-1101, Display Resolution: 1920x1080, OS: Microsoft Windows* 10 Pro 10.0.19041.330, Graphics: AMD Radeon(TM) Graphics, Graphics driver: 26.20.14042.3009, Bios version: F0CN15WW measured on Lenovo Xiaoxin Pro 13. Out of box OS was Chinese, testing done on a fresh install of OS that supports English using highest available performance profile ("System Performance Mode" BIOS setting at "Extreme Performance" mode which corresponds to ~37W power as reported by AMD's μProf tool, sustained up to 20 minutes).
- Gaming claims (including best processor in thin & light laptops for gaming)
Configuration details for the following games: Borderlands 3, CS:GO, DOTA2, Far Cry New Dawn, For Honor, Gears 5, GTAV, Hitman 2, League of Legends, Metro Exodus, PUBG, Rainbow Six Siege, Red Dead Redemption, Rocket League, Shadow of the Tomb Raider, The Division 2:
CPU Intel® Core™ i7-1185G7 Intel® Core™ i7-1065G7 Intel® Core™ i7-1065G7 AMD Ryzen 7 4800U Cores/Threads 4C/8T 4C/8T 4C/8T 8C/16T Power Setting PL1=28W PL1=25W PL1=25W Highest available performance profile ("Extreme Performance" BIOS setting, at ~37W) Storage Brand SAMSUNG Lite-On IT Corporation Western Digital Corporation Western Digital Corporation Storage MZVLB512HBJQ-00000 LITEON CA3-8D256 WDC PC SN730 SDBPNTY-512G-1101 WDC PC SN730 SDBPNTY-512G-1101 Memory Size/ Speed (Mhz) 2x16GB LPDDR4-4267Mhz 2 x 8GB DDR4-3733MHz 2x8GB DDR4-3200MHz 2x8GB DDR4-3200MHz Graphics Intel® Iris® Xe Graphics Intel® Iris® Plus Graphics NVIDIA MX350 AMD Radeon™ Graphics Graphics Driver Version 27.20.100.8431 25.20.100.7060 26.21.14.4137 26.20.14042.3009 BIOS T14C4II6.92A 1.02 DSCN23WW(V1.09) F0CN15WW OS Microsoft Windows 10 Pro Microsoft Windows 10 Home Microsoft Windows 10 Home Microsoft Windows 10 Pro OS Version 10.0.19041.388 10.0.19041.388 10.0.19041.388 10.0.19041.330 Configuration details for the following games: Apex Legends, Battlefield 1, Troy: Total War Saga, Valorant, Witcher 3
CPU Intel® Core™ i7-1185G7 Intel® Core™ i7-1065G7 Intel® Core™ i7-1065G7 AMD Ryzen 7 4800U Cores/Threads 4C/8T 4C/8T 4C/8T 8C/16T Power Setting PL1=28W PL1=25W PL1=25W Highest available performance profile ("Extreme Performance" BIOS setting, at ~37W) Storage Brand SAMSUNG Lite-On IT Corporation SAMSUNG SAMSUNG Storage MZVLB512HBJQ-00000 Liteon CA5-8D256 256GB Samsung SSD 970 EVO Plus 1TB Samsung MZVLB512HBJQ-000L2 Memory Size/ Speed (Mhz) 2x16GB LPDDR4-4267Mhz 2 x 8GB DDR4-3733MHz 2x8GB DDR4-3200MHz 2x8GB DDR4-3200MHz Graphics Intel® Iris® Xe Graphics Intel® Iris® Plus Graphics NVIDIA MX350 AMD Radeon(TM) Graphics Graphics Driver Version 27.20.100.8431 26.20.100.7463 27.21.14.5167 26.20.14042.3009 BIOS T14C4II6.92A 1.02 DSCN21WW(V1.07) F0CN15WW OS Microsoft Windows 10 Pro Microsoft Windows 10 Home Microsoft Windows 10 Home Microsoft Windows 10 Pro OS Version 10.0.19041.388 10.0.19041.450 10.0.19041.388 10.0.19041.388 Configuration details for the following games: Battlefield V, Gears Tactics, GRID 2019, Doom Eternal, Dungeon Defenders Awakened, Fortnite, Minecraft, Overwatch
CPU Intel® Core™ i7-1185G7 Intel® Core™ i7-1065G7 Intel® Core™ i7-1065G7 AMD Ryzen 7 4800U Cores/Threads 4C/8T 4C/8T 4C/8T 8C/16T Power Setting PL1=28W PL1=25W PL1=25W Highest available performance profile ("Extreme Performance" BIOS setting, at ~37W) Storage Brand SAMSUNG Lite-On IT Corporation SAMSUNG SAMSUNG Storage MZVLB512HBJQ-00000 Liteon CA5-8D256 256GB CXPS MZVLB512HBJQ-000L2 512GB MZVLB512HBJQ-000L2 Memory Size/ Speed (Mhz) 2x16GB LPDDR4-4267Mhz 2 x 8GB DDR4-3733MHz 2x8GB DDR4-3200MHz 2x8GB DDR4-3200MHz Graphics Intel® Iris® Xe Graphics Intel® Iris® Plus Graphics NVIDIA MX350 AMD Radeon(TM) Graphics Graphics Driver Version 27.20.100.8431 27.20.100.8476 27.21.14.5167 27.20.2001.9003 BIOS T14C4II6.92A 1.02 DSCN21WW(V1.07) E7CN25WW OS Microsoft Windows 10 Pro Microsoft Windows 10 Home Microsoft Windows 10 Home Microsoft Windows 10 Pro OS Version 10.0.19041.388 10.0.19041.388 10.0.19041.388 10.0.19041.388 - Intel 11th Gen Vs AMD (For all claims except gaming and game and stream workflow claims)
Processor: Intel® Core™ i7-1185G7 processor (TGL-U) PL1=28W with Intel® Dynamic Tuning Technology (Intel® DTT) enabled, 4C8T, Memory: LPDDR4-4267MHz, 16GB (2x8GB), dual channel and dual rank, Storage: Intel® 660p M.2 PCIe NVMe SSD, Display Resolution: 1920x1080p, OS: Microsoft Windows* 10 20H1-19041.326 Power policy set to AC/Balanced mode for all benchmarks except SYSmark 25 which is measured in AC/BAPCo mode for Performance. Power policy set to DC/Balanced mode for power with UX Slider set to Better Battery. All benchmarks run in Admin mode, Graphics: Intel® Xe Graphics, Graphics driver: 27.20.100.8431, Bios version: TGLSFWI1.R00.3284.A00.2007091654 measured on Intel reference board. Temperature: Tc=60c for all IA performance measurements. Tc=85c for all Graphics performance measurements.
Performance with Intel® DTT will vary based on chassis design choices, chassis temperature thresholds, cooling solutions, form factors (xyz dimensions), air flow, and ambient air temperatures.
Processor: AMD Ryzen 7 4800Uprocessor, 8C16T, Memory: 2x8GB DDR4-3200MHz, Storage: Western Digital Corporation PC SN730 SDBPNTY-512G-1101, Display Resolution: 1920x1080, OS: Microsoft Windows* 10 Pro 10.0.19041.330, Graphics: AMD Radeon(TM) Graphics, Graphics driver: 26.20.14042.3009, Bios version: F0CN15WW measured on Lenovo Xiaoxin Pro 13. Out of box OS was Chinese, testing done on a fresh install of OS that supports English using highest available performance profile ("System Performance Mode" BIOS setting at "Extreme Performance" mode which corresponds to ~37W power as reported by AMD's μProf tool, sustained up to 20 minutes).
- Intel 11th Gen Vs AMD (For game and stream workflow claims)
Processor: Intel® Core™ i7-1185G7 processor (TGL-U) PL1=28W, 4C8T, Memory: LPDDR4-4267MHz, 16GB (2x8GB), dual channel and dual rank, Storage: Intel® 660p M.2 PCIe NVMe SSD, Display Resolution: 1920x1080 except Lifestyle workload (4K), OS: Microsoft Windows* 10 20H1-19041.326 Power policy set to AC/Balanced mode for all benchmarks except SYSmark 25 which is measured in AC/BAPCo mode for Performance. Power policy set to DC/Balanced mode for power with UX Slider set to Better Battery. All benchmarks run in Admin mode, Graphics: Intel® Xe Graphics, Graphics driver: 27.20.100.8431, Bios version: TGLSFWI1.R00.3284.A00.2007091654 measured on Intel reference board. Temperature: Tc=60c for all IA performance measurements. Tc=85c for all Graphics performance measurements.
Performance with Intel® DTT will vary based on chassis design choices, chassis temperature thresholds, cooling solutions, form factors (xyz dimensions), air flow, and ambient air temperatures.
Processor: AMD Ryzen 7 4800Uprocessor, 8C16T, Memory: 2x8GB DDR4-3200MHz, Storage: Western Digital Corporation PC SN730 SDBPNTY-512G-1101, Display Resolution: 1920x1080, OS: Microsoft Windows* 10 Pro 10.0.19041.330, Graphics: AMD Radeon(TM) Graphics, Graphics driver: 26.20.14042.3009, Bios version: F0CN15WW measured on Lenovo Xiaoxin Pro 13. Out of box OS was Chinese, testing done on a fresh install of OS that supports English using highest available performance profile ("System Performance Mode" BIOS setting at "Extreme Performance" mode which corresponds to ~37W power as reported by AMD's μProf tool, sustained up to 20 minutes).
- Intel 10th Gen Vs AMD
Processor: Intel® Core™ i7-1065G7processor (ICL-U) PL1=25W with Intel® Dynamic Tuning Technology (Intel® DTT) enabled, 4C8T, Memory: LPDDR4-3733, 2x8GB, Dual Rank, Storage: Intel® 660p M.2 PCIe NVMe SSD, Display Resolution: 1920x1080, OS: Microsoft Windows* 10 20H1-19041.308 Power policy set to AC/Balanced mode for all benchmarks except SYSmark 25 which is measured in AC/BAPCo mode for Performance. Power policy set to DC/Balanced mode for power with UX Slider set to Better Battery. All benchmarks run in Admin mode, Graphics: Intel® Iris® Plus Graphics, Graphics driver: 27.20.100.8280, Bios version: ICLSFWR1.R00.4253.A00.2006180044 measured on Intel reference board. Temperature: Tc=60c for all IA performance measurements. Tc=85c for all Graphics performance measurements.
Performance with Intel® DTT will vary based on chassis design choices, chassis temperature thresholds, cooling solutions, form factors (xyz dimensions), air flow, and ambient air temperatures.
Processor: AMD Ryzen 7 4800Uprocessor, 8C16T, Memory: 2x8GB DDR4-3200MHz, Storage: Western Digital Corporation PC SN730 SDBPNTY-512G-1101, Display Resolution: 1920x1080, OS: Microsoft Windows* 10 Pro 10.0.19041.330, Graphics: AMD Radeon(TM) Graphics, Graphics driver: 26.20.14042.3009, Bios version: F0CN15WW measured on Lenovo Xiaoxin Pro 13. Out of box OS was Chinese, testing done on a fresh install of OS that supports English using highest available performance profile ("System Performance Mode" BIOS setting at "Extreme Performance" mode which corresponds to ~37W power as reported by AMD's μProf tool, sustained up to 20 minutes).
- Intel 11th Gen PL1=28W vs PL1=15W
Processor: Intel® Core™ i7-1185G7processor (TGL-U) PL1=28W with Intel® Dynamic Tuning Technology (Intel® DTT) enabled, 4C8T, Memory: LPDDR4-4267MHz, 16GB (2x8GB), dual channel and dual rank, Storage: Intel® 660p M.2 PCIe NVMe SSD, Display Resolution: 1920x1080p, OS: Microsoft Windows* 10 20H1-19041.326 Power policy set to AC/Balanced mode for all benchmarks except SYSmark 25 which is measured in AC/BAPCo mode for Performance. Power policy set to DC/Balanced mode for power with UX Slider set to Better Battery. All benchmarks run in Admin mode, Graphics: Intel® Xe Graphics, Graphics driver: 27.20.100.8431, Bios version: TGLSFWI1.R00.3284.A00.2007091654 measured on Intel reference board.Temperature: Tc=60c for all IA performance measurements. Tc=85c for all Graphics performance measurements.
Performance with Intel® DTT will vary based on chassis design choices, chassis temperature thresholds, cooling solutions, form factors (xyz dimensions), air flow, and ambient air temperatures.
Processor: Intel® Core™ i7-1185G7 processor (TGL-U) PL1=15W with Intel® Dynamic Tuning Technology (Intel® DTT) enabled, 4C8T, Memory: LPDDR4-4267MHz, 16GB (2x8GB), dual channel and dual rank, Storage: Intel® 660p M.2 PCIe NVMe SSD, Display Resolution: 1920x1080 except Lifestyle workload (4K), OS: Microsoft Windows* 10 20H1-19041.326 Power policy set to AC/Balanced mode for all benchmarks except SYSmark 25 which is measured in AC/BAPCo mode for Performance. Power policy set to DC/Balanced mode for power with UX Slider set to Better Battery. All benchmarks run in Admin mode, Graphics: Intel® Xe Graphics, Graphics driver: 27.20.100.8431, Bios version: TGLSFWI1.R00.3284.A00.2007091654 measured on Intel reference board. Temperature: Tc=60c for all IA performance measurements. Tc=85c for all Graphics performance measurements.
Performance with Intel® DTT will vary based on chassis design choices, chassis temperature thresholds, cooling solutions, form factors (xyz dimensions), air flow, and ambient air temperatures.
- Intel 11th Gen Vs 10th Gen
Processor: Intel® Core™ i7-1185G7processor (TGL-U) PL1=28W with Intel® Dynamic Tuning Technology (Intel® DTT) enabled, 4C8T, Memory: LPDDR4-4267MHz, 16GB (2x8GB), dual channel and dual rank, Storage: Intel® 660p M.2 PCIe NVMe SSD, Display Resolution: 1920x1080p, OS: Microsoft Windows* 10 20H1-19041.326 Power policy set to AC/Balanced mode for all benchmarks except SYSmark 25 which is measured in AC/BAPCo mode for Performance. Power policy set to DC/Balanced mode for power with UX Slider set to Better Battery. All benchmarks run in Admin mode, Graphics: Intel® Xe Graphics, Graphics driver: 27.20.100.8431, Bios version: TGLSFWI1.R00.3284.A00.2007091654 measured on Intel reference board.Temperature: Tc=60c for all IA performance measurements. Tc=85c for all Graphics performance measurements.
Performance with Intel® DTT will vary based on chassis design choices, chassis temperature thresholds, cooling solutions, form factors (xyz dimensions), air flow, and ambient air temperatures.
Processor: Intel® Core™ i7-1065G7processor (ICL-U) PL1=25W with Intel® Dynamic Tuning Technology (Intel® DTT) enabled, 4C8T, Memory: LPDDR4-3733, 2x8GB, Dual Rank, Storage: Intel® 660p M.2 PCIe NVMe SSD, Display Resolution: 1920x1080, OS: Microsoft Windows* 10 20H1-19041.308 Power policy set to AC/Balanced mode for all benchmarks except SYSmark 25 which is measured in AC/BAPCo mode for Performance. Power policy set to DC/Balanced mode for power with UX Slider set to Better Battery. All benchmarks run in Admin mode, Graphics: Intel® Iris® Plus Graphics, Graphics driver: 27.20.100.8280, Bios version: ICLSFWR1.R00.4253.A00.2006180044 measured on Intel reference board. Temperature: Tc=60c for all IA performance measurements. Tc=85c for all Graphics performance measurements.
Performance with Intel® DTT will vary based on chassis design choices, chassis temperature thresholds, cooling solutions, form factors (xyz dimensions), air flow, and ambient air temperatures.
- Performance on AC and DC
Intel TGL-U measured on internal reference board at 15W (without Intel® Dynamic Tuning Technology):
Processor: Intel® Core™ i7 -i7-1185G7 (TGL-U 4+2) PL1= 15W, 4C8T
Memory: LPDDR4-4267, 2x8GB
Storage: Intel® 660p M.2 PCIe NVMe SSD
Display Resolution: 19x10 except Lifestyle workload (4K)
OS: Windows* 10 20H1-19041.326.
Graphics driver: 8431
Bios version: QS+3 BKC
Power Plan: Balanced, with EPP set as "Better Performance"
AMD Ryzen 7 4800U Measured on Lenovo XiaoXin Pro-13:
Processor: AMD Ryzen 7 4800U
Memory: 2x8GB DDR4-3200
Storage: 512GB SSD
Display: 2560x1600
OS: Microsoft Windows 10 Pro V2004 19041.450
Graphics driver: 26.20.14052.0
Bios version: F0CN15WW
Power Plan: Balanced
DC Power Setting: Intelligent Cooling
Blueprint Session – Project Athena
| Slide #9 | Claim details (Additional information available at www.intel.com/Evo.) |
| Responsiveness | Measured responsiveness of premium Windows OS-based designs while performing 25 workflows predictive of performance under a typical-use environment comprising multiple cloud-based and local apps and web pages including Google Chrome, Google G-Suite, Microsoft Office 365, YouTube and Zoom. Testing conducted on laptops on DC battery ≥30%, connected to 802.11 wireless, and with shipped hardware configurations including Windows 10 and 250-nit LCD screen brightness. Testing results as of August 2020, and do not guarantee individual laptop performance. Power and performance vary by use, configuration and other factors. |
| Compared responsiveness | Measured average responsiveness of 6 premium Windows OS-based first wave Intel® Evo™ platform-based designs while performing 25 workflows predictive of performance under a typical-use environment comprising multiple cloud-based and local apps and web pages including Google Chrome, Google G-Suite, Microsoft Office 365, YouTube and Zoom, compared to a 2-year-old design equivalent. Testing conducted on laptops on DC battery ≥30%, connected to 802.11 wireless, and with shipped hardware configurations including Windows 10 and 250-nit LCD screen brightness. Testing results as of August 2020, and do not guarantee individual laptop performance. Power and performance vary by use, configuration and other factors. |
| Long battery life | Based on measured battery life while performing workflows under a typical-use environment, comprising multiple cloud-based and local apps and web pages including Google Chrome, Google G-Suite, Microsoft Office 365, YouTube and Zoom, including limited periods of non-use. Testing conducted on laptops connected to 802.11 wireless, and with shipped hardware configurations including Windows 10 and 250-nit screen brightness. Testing results as of August 2020, and do not guarantee individual laptop performance. Power and performance vary by use, configuration and other factors. |
| At least 9 hours of real-world battery life on designs with full HD display | Time taken to drain from 100% to critical battery level while performing workflows under a typical-use environment comprising multiple cloud-based and local apps and web pages including Google Chrome, Google G-Suite, Microsoft Office 365, YouTube and Zoom, including limited periods of non-use. Testing conducted on laptops connected to 802.11 wireless, and with shipped hardware configurations including Windows 10 and 250-nit LCD screen brightness. Testing results as of August 2020, and do not guarantee individual laptop performance. Power and performance vary by use, configuration and other factors. |
| Fast charge | Charge attained in 30-minute window while powered off from OEM-default shutdown level. Testing results as of August 2020, and do not guarantee individual laptop performance. Power and performance vary by use, configuration and other factors. |
| Wired & wireless connectivity | Based on integrated Intel® Wi-Fi 6 (Gig+) and Thunderbolt™ 4 technology. Intel® Wi-Fi 6 (Gig+) products enable the fastest possible maximum speed for typical laptop Wi-Fi products. Thunderbolt™ 4 is the fastest port available on a laptop, at 40 Gb/s, as compared to other laptop I/O connection technologies including eSATA, USB, and IEEE 1394 Firewire*. Performance varies by use, configuration and other factors. |
| Verification | Verified, measured and tested against a premium specification and Key Experience Indicators as part of Intel's laptop innovation program Project Athena. Testing results as of August 2020, and do not guarantee individual laptop performance. Power and performance vary by use, configuration and other factors. |
| Slide #11 & 61 | Claim details (Additional information available at www.intel.com/Evo.) |
| Best of 11th Gen | As measured by Intel® Evo™ platform-based laptops powered by 11th Gen Intel Core i7 processors, the best processors for thin & light devices, as measured by systems with 11th Gen Intel® Core™ i7-1185G7 on industry benchmarks, Representative Usage Guide testing, and unique features, including as compared with AMD Ryzen 7 4800U. For details on why the Intel® Core™ i7-1185G7 processor is the world's best processor for productivity, creation, gaming, collaboration and entertainment on a thin and light laptop, see here. Intel's comprehensive laptop innovation program Project Athena ensures all designs with the Intel Evo brand have been tested, measured and verified against a premium specification and key experience indicators. Testing results as of August 2020, and do not guarantee individual laptop performance. Power and performance vary by use, configuration and other factors. |
| Verification | Verified, measured and tested against a premium specification and Key Experience Indicators as part of Intel's laptop innovation program Project Athena. Testing results as of August 2020, and do not guarantee individual laptop performance. Power and performance vary by use, configuration and other factors. |
Notices & Disclaimers
Performance varies by use, configuration and other factors.
Intel optimizations, for Intel compilers or other products, may not optimize to the same degree for non-Intel products.
Performance results are based on testing as of dates shown in configurations and may not reflect all publicly available updates.
Results that are based on systems and components as well as results that have been estimated or simulated using an Intel Reference Platform (an internal example new system), internal Intel analysis or architecture simulation or modeling are provided to you for informational purposes only. Results may vary based on future changes to any systems, components, specifications or configurations.
Intel contributes to the development of benchmarks by participating in, sponsoring, and/or contributing technical support to various benchmarking groups, including the BenchmarkXPRT Development Community administered by Principled Technologies.
All product plans and roadmaps are subject to change without notice.
Statements in this document that refer to future plans or expectations are forward-looking statements. These statements are based on current expectations and involve many risks and uncertainties that could cause actual results to differ materially from those expressed or implied in such statements. For more information on the factors that could cause actual results to differ materially, see our most recent earnings release and SEC filings at www.intc.com
No product or component can be absolutely secure.
Intel technologies may require enabled hardware, software or service activation.
Your costs and results may vary.
Intel does not control or audit third-party data. You should consult other sources to evaluate accuracy.
© 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.
Architecture Day 2020
Demos
Intel® Xe-LP Enhanced Gaming on a Thin & Light Platform
- XE-LP system 1: Preproduction TGL-U FFD; Memory: LPDDR4-4267, 32 GB; Driver: Intel UHD Graphics gfx-driver-ci-master-5252; Storage: Samsung 512GB SSD; OS: Win10-RS5 Build 18363.720; Application: Playerunknown’s Battlegrounds, Grid, Mount & Blade II: Bannerlord, Doom Eternal
- XE-LP system 2: TGL-U RVP; platforms set to fixed CPU frequency and max GT Frequency, Memory: LPDDR4-4267, 16GB, 2ch 2r; Driver: Intel UHD Graphics gfx-driver-ci-master-4610; Storage: Intel SSD 660p; OS: Win10-RS5 Build 18363.720; Application: Battlefield V, Battlefield 1, Grid
- Gen 11 Baseline system: ICL-U RVP; platforms set to fixed CPU frequency and max GT Frequency, Memory: LPDDR4-3733, 16GB, 2ch 2r; Driver: Intel UHD Graphics gfx-driver-ci-master-4610; Storage: Intel SSD 660p; OS: Win10-RS5 Build 18363.720; Application: Battlefield 1, Grid
- Xe-LP Tiger Lake 15W Proxy: TGL-U RVP: pre-production platform set to lower fixed CPU & GT frequency to approximate 15W, Memory: LPDDR4-4267, 16GB, 2ch 2r; Driver: Intel UHD Graphics gfx-driver-ci-master-4610; Storage: Intel SSD 660p; OS: Win10-RS5 Build 18363.720; Application: Battlefield 1
- Testing by Intel between 5/13/20 – 7/31/20
Gen over Gen AI Acceleration on Intel GPUs
- System 1: WHL-U RVP; Memory: DDR4-2400, 16GB; Driver: Intel UHD Graphics gfx-driver-ci-master-5252; Storage: Intel SSD 760p; OS: Win10-RS5 Build 18363; Application: Gigapixel AI
- System 2: ICL-U RVP; Memory: DDR4-2133, 16GB; Driver: Intel UHD Graphics gfx-driver-ci-master-5252; Storage: Intel SSD 760p; OS: Win10-RS5 Build 18363; Application: Gigapixel AI
- System 3: TGL-U RVP: Memory: LPDDR4-4267, 16GB; Driver: Intel UHD Graphics gfx-driver-ci-master-5252; Storage: Intel SSD 760p; OS: Win10-RS5 Build 18363; Application: Gigapixel AI
- Testing by Intel as of 6/30/20
Xe-HP
- System: XE-HP 1T/2T/4T; Processor-1S ICX-HCC (connected to Whitley Host); Memory: DDR-3200, 32GB; Driver: 5.4.17 (Ubuntu); Storage: 1000GB SATA HDD; OS: Ubuntu 19.10; Applications: FFmpeg & clpeak
- “Most FP32 peak performance in a single GPU package” based on FP32 peak performance, as measured by the Clpeak benchmark, on the 2T and 4T packages for Xe-HP architecture. These packages perform at over 21TF and over 42TF of peak FP32 performance, respectively, as compared to the A100 architecture (https://www.nvidia.com/en-us/data-center/a100/, last accessed August 7, 2020), and the AMD Radeon Instinct architecture (https://www.amd.com/en/graphics/servers-radeon-instinct-mi, last accessed August 7, 2020).
- Testing by Intel as of 8/4/20
Fast Inferencing using Intel’s DL Boost with Bfloat16
- System: 3rd Gen Intel® Xeon® Scalable Processor: 1-node, 4x 3rd Gen Intel® Xeon® Platinum 8380H processor (pre-production 28C, 250W) on Intel Reference Platform (Cooper City) with 384 GB (24 slots / 16GB / 3200) total memory, ucode 0x700001b, HT on, Turbo on, with Ubuntu 20.04 LTS, Linux 5.4.0-29-generic, Intel SSD 800GB OS Drive, ResNet-50 v1.5 Throughput, https://github.com/Intel-tensorflow/tensorflow -b bf16/base, commit#6ef2116e6a09, Modelzoo: https://github.com/IntelAI/models/ -b v1.6.1, Imagenet dataset, oneDNN 1.4, FP32, BF16, global BS=1024, 4 instances, 28-cores/instance, test by Intel on 06/01/2020.
Intelligent Shading with Intel Xe Graphics
- System: TGL-U RVP; platform set to fixed CPU frequency and max GT Frequency, Memory: LPDDR4-4267, 16GB, 2ch 2r; Driver: Intel UHD Graphics gfx-driver-ci-master-4610; Storage: Intel SSD 660p; OS: Win10-RS5 Build 18363.720; Application: Grid
- Testing by Intel as of 7/14/20
Frequency Uplift with Willow Cove CPU Core
- Baseline system: ICL-U RVP; Memory: LPDDR4-3733, 16GB, 2ch 2r; Storage: Intel SSD 760p; OS: Win10 19H1-18362.30; Application: WebXPRT 3 benchmark
- Tiger Lake system: TGL-U RVP; Memory: LPDDR4-4267, 16GB, 2ch 2r; Storage: Intel SSD 660p; OS: Win10 20H1; Application: WebXPRT 3 benchmark
- Testing by Intel as of 5/19/20
Other
Lakefield claims
- Up to 24% higher power efficiency
- Based on WebXPRT*3 score per watt on Intel® Core™ i5-L16G7 processor (LFK) PL1=7W TDP, 5C5T, Memory: 2X4GB LPDDR4x - 4267MHz, Storage: Intel® 760p m.2 PCIe NVMe SSD, Display Resolution: 1920x1080 for Performance; 25x14 eDP 13.3”, OS: Windows 10 19H2 (18363.535), Graphics driver: 26.20.100.7916 as compared to Intel® Core™ i7-8500Y processor(AML-Y 22), PL1=5.0W TDP, 2C4T, Turbo up to 4.2GHz, Memory: 2x4GB LPDDR3-1866, Storage: Intel® 760p SSD, Display Resolution:1920x1080, Windows 10 Build RS3 17134.112, Graphics driver:whl.1006167-v2.
- Testing by Intel as of April 2020.
- Up to 91% lower standby power
- Based on Intel® Core™ i5-L16G7 processor (LFK) PL1=7W TDP, 5C5T, Memory: 2X4GB LPDDR4x - 4267MHz, Storage: Intel® 760p m.2 PCIe NVMe SSD, Display Resolution: 1920x1080 for Performance; 25x14 eDP 13.3”, OS: Windows 10 19H2 (18363.535), Graphics driver: 26.20.100.7916 as compared to Intel® Core™ i7-8500Y processor(AML-Y 22), PL1=5.0W TDP, 2C4T, Turbo up to 4.2GHz, Memory: 2x4GB LPDDR3-1866, Storage: Intel® 760p SSD, Display Resolution:1920x1080, Windows 10 Build RS3 17134.112, Graphics driver:whl.1006167-v2.
- Testing by Intel as of April 2020.
- Up to 33% higher web performance
- As measured by WebXPRT*3 score on Intel® Core™ i5-L16G7 processor (LFK) PL1=7W TDP, 5C5T, Memory: 2X4GB LPDDR4x - 4267MHz, Storage: Intel® 760p m.2 PCIe NVMe SSD, Display Resolution: 1920x1080 for Performance; 25x14 eDP 13.3”, OS: Windows 10 19H2 (18363.535), Graphics driver: 26.20.100.7916, with Sunny Cove on and off.
- Testing by Intel as of April 2020.
- Up to 17% higher power efficiency
- As measured by WebXPRT*3 score per Watt on Intel® Core™ i5-L16G7 processor (LFK) PL1=7W TDP, 5C5T, Memory: 2X4GB LPDDR4x - 4267MHz, Storage: Intel® 760p m.2 PCIe NVMe SSD, Display Resolution: 1920x1080 for Performance; 25x14 eDP 13.3”, OS: Windows 10 19H2 (18363.535), Graphics driver: 26.20.100.7916, with Sunny Cove on and off.
- Testing by Intel as of April 2020.
Agilex performance and power claims
- Based on internal builds of Intel® Quartus® Prime Pro Design Software on a wide variety of internal benchmarks. The computer systems used for the evaluations were Intel® Xeon® CPU E5-2690 v4 @ 2.60GHz class machines running Red Hat Enterprise Linux Server 6.10 (Santiago) operating system. The performance results represent average improvements across a wide variety of internal benchmarks, and results may vary for each testcase.
- Testing by Intel as of January 2020.
Scale out DLRM training performance claims
- Based on Intel® Xeon® Platinum 8280 CPU; Bios: SE5C620.86B.02.01.0009.092820190230; Memory: 12x 18ASF2G72PDZ-2G6D1; Network: 2x Intel Corporation Omni-Path HFI Silicon 100 Series; OS: Cent OS 7.6; Bootline: BOOT_IMAGE=/vmlinuz-3.10.0-957.el7.x86_64 rhgb quiet intel_pstate=disable nmi_watchdog=0 intel_idle.max_cstate=1 nohz_full=2-111 LANG=en_US.UTF-8; OPA stack: 10.9.2.0-7; Pytorch: 1.4.1. 26 sockets refers to 13 dual-socket nodes and 1 socket refers to 1 node of Intel Xeon 8280. 1 socket optimization was achieved with Intel extension of PyTorch.
- Testing by Intel as of March - April 2020.
Notices & Disclaimers
Performance varies by use, configuration and other factors.
Intel optimizations, for Intel compilers or other products, may not optimize to the same degree for non-Intel products.
Performance results are based on testing as of dates shown in configurations and may not reflect all publicly available updates. See above for configuration details. No product or component can be absolutely secure.
Results that are based on pre-production systems and components as well as results that have been estimated or simulated using an Intel Reference Platform (an internal example new system), internal Intel analysis or architecture simulation or modeling are provided to you for informational purposes only. Results may vary based on future changes to any systems, components, specifications, or configurations. Intel technologies may require enabled hardware, software or service activation.
Intel contributes to the development of benchmarks by participating in, sponsoring, and/or contributing technical support to various benchmarking groups, including the BenchmarkXPRT Development Community administered by Principled Technologies.
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CES 2019
- System #1 (hardware used in wrnch production environment):
- 8th Generation Intel® Core™ i7 processor, NVIDIA* GTX 1080 gpu, 128 GB of DDR4-2666, inference resolution 328x184, Caffe machine learning framework
- System #2 (Intel Reference Platform):
- Intel® Xeon® Scalable processor codenamed Cascade Lake, 128 GB of DDR4-2666, Inference Resolution 328x184, Intel Optimized Caffe, OpenVINO™ toolkit
IFA 2019
Dirt Rally 2.0-v1.7.0 (Workload: Integrated Benchmark)
- 1920x1080 –Fullscreen
- V-Sync: Off
- Multisampling: off
- Anisotropic Filtering: 4X
- TAA: On
- Preset: Low
- “-benchmark” launch option added Measured with: PresentMon, 180seconds
World of Tanks enCorev0.1
- 1920x1080 -Fullscreen
- Antialiasing: none
- “Medium” quality preset
Rainbow Six: Siege –Y4S1 (Workload: 5 minutes of gameplay in “Suburban Extraction” Situation)
- 1920x1080 –Fullscreen
- V-sync: Off
- Medium Quality Preset
- Measured with: PresentMon, 300seconds
Total War: Three Kingdoms–1.2.0 (Workload: “Battle” benchmark scenario)
- 920x1080 –Fullscreen
- V-Sync: off
- Low Quality Preset
- Resolution scaling: 100%
Counter-Strike: Global Offensive-1.37.1.1 (Workload: 5 minutes of gameplay replay)
- 1920x1080 –Fullscreen
- Medium Quality Presets
- Multicore Rendering: Enabled
- FXAA: Disabled
- Texture Filtering Mode: Anisotropic 4X
- Vsync: Off
Halo: The Master Chief Collection: Halo Reach–prerelease build (Workload: 5 minutes of gameplay from “winter contingency” mission )
- 1920x1080 –Fullscreen
- “Performance” preset
Rocket League –v1.62 (Workload: 5 minutes of gameplay against Bots on Mannfield Map)
- 1920x1080 –Fullscreen
- Medium Quality Presets
- Vsync: Off
- Anti-Aliasing: Off
- Render Quality: Quality
- Render Detail: Quality
- Texture Detail: Quality
- World Detail: Quality
- Particle Detail: High Quality
- High Quality Shaders: Enabled
- Dynamic Shadows: Enabled
- Weather Effects: Enabled
- Transparent Goalposts: Enabled
DOTA 2 –Client version 3.749 (Workload: 5 minutes of gameplay replay)
- 1920x1080 –Exclusive Fullscreen
- DX9 renderer
- “Fastest” quality setting
Configuration Disclosure
- OEM Optimization Performance:
- 3DMark CloudGate 1.16x,3DMark Sky Diver1.16x, 3DMark Night Raid1.03x, 3DMark Fire Strike 1.13x, 3DMark Time Spy 1.03x, 3DMark11 1.14x, PCMark 10 Overall 1.05x, PCMark 10 Essentials 1.05x, PCMark 10 Productivity 1.04x, PCMark 10 DCC 1.06x, Photoshop RUG 1025 v1.0.01.15x, Adobe Lightroom RUG 1010 v2.0.41.18x, Adobe Lightroom RUG 1087 v1.0.11.04x, Microsoft Powerpoint RUG 1165 v1.1.01.47x Based on performance comparing Intel PreProduction 10th Gen Corei7 U 15W. Configuration: Processor: 10th Generation Intel® Core™ i7 (ICL-U 4+2) PL1=15W TDP, 4C/8T, Intel Gen 11 Graphics, PreProduction driver, Memory:8GB LPDDR4X-3733, Storage: Intel SSD Pro 7600P 256GB, OS: Microsoft Windows* 10 RS6 Build Version 295 vs. Lenovo Yoga C940 Preproduction system: Processor: 10th Generation Intel® Core™ i7-1065G7, 4C/8T, Intel Gen 11 Graphics, 25.20.100.7011 driver, Memory: 8GB LPDDR4X-3733, Storage: SK Hynix PC401 512 GB, OS: Microsoft Windows* 10 RS6 Build Version 295. Measured by Intel as of August 2019.
- 10th Gen “IceLake” gaming performance data:
- Dirt Rally 2.0 1.37x, Rainbow Six: Siege 1.42x, Total War: Three Kingdoms 1.40x, DOTA 2 1.34x, CS: Go 1.31x, World of Tanks encore 1.35x, Halo Reach 1.33x, 3DMark Night Raid 1.32x, 3DMark Fire Strike 1.28x 3DMark Time Spy 1.26x Based on gaming performance on those titles (settings on the next foil) comparing Razer Blade Stealth 13 at 15W and 25W. Configuration: Processor: Intel® Core™ i7 (ICL-U 4+2) PL1=25W TDP, 4C/8T, Intel Gen 11 Graphics, 25.20.100.7011 driver, Memory: 16GB LPDDR4X-3733, Storage: LiteOn CA3 256GB, OS:Microsoft Windows* 10 RS6 Build Version 295. Measured by Intel as of August 2019
- 10th Gen “IceLake” gaming performance competitive data:
- Dirt Rally 2.01.00x, Rainbow Six: Siege 1.03x, Total War: Three Kingdoms 1.43x, DOTA 2 1.84x, CS:Go 1.19x, World of Tanks encore 1.00x, Halo Reach 1.20x, 3DMark Night Raid 1.22x, 3DMark Fire Strike 1.17x, 3DMark Time Spy 1.20x Based on gaming performance on those titles (settings on the next foil) comparing Razer Blade Stealth 13 at 25W. Configuration: Processor: Intel® Core™ i7 (ICL-U 4+2) PL1=25W TDP, 4C/8T, Intel Gen 11 Graphics, 25.20.100.7011 driver, Memory: 16GB LPDDR4X-3733, Storage: LiteOn CA3 256GB, OS: Microsoft Windows* 10 RS6 Build Version 295 VS. Commercially available OEM system with AMD* Ryzen 7 3700U 2.3GHz Turbo up to 4GHz 4C/8T, 25W, AMD* Radeon* Vega 10 graphics, Gfx driver Adrenalin 2019 19.8.1, Memory 8GB DDR4-2400, Storage SK Hynix BC501 256GB, OS–Microsoft Windows* 10 RS6 Build Version 295 Bios F.07. Measured by Intel as of August 2019
- AIXPRT performance:
- Based on AIXPRT Community Preview 2, OpenVINO 1.19.31, inference runtime v2018.5.445, comparing Razer Blade Stealth 13 at 25W. Configuration: Processor: Intel® Core™ i7 (ICL-U 4+2) PL1=25W TDP, 4C/8T, Intel Ge 11 Graphics, 25.20.100.7011 driver, Memory: 16GB LPDDR4X-3733, Storage: LiteOn CA3 256GB, OS: Microsoft Windows* 10 RS6 Build Version 295 VS. Commercially available OEM system with AMD* Ryzen 7 3700U 2.3GHz Turbo up to 4GHz 4C/8T, 25W, AMD* Radeon* Vega 10 graphics, Gfx driver Adrenalin 2019 19.8.1, Memory 8GB DDR4-2400, Storage SK Hynix BC501 256GB, OS–Microsoft Windows* 10 RS6 Build Version 295 Bios F.07. Measured by Intel as of August 2019
- Windows without compromise data:
- PCMark 10 Applications 1.70x, Geekbench Single 2.13x, Geekbench Multi 1.11x, 3DMark Night Raid 1.13x Graphics 1.26x CPU 0.81x, AppMark 2018 2.15x, WebXPRT3 Edge 1.89x, WebXPRT 3 Chrome 3.56x, Speedometer 2.0 Edge 1.46x, Speedometer 2.0 Chrome 4.17x, GFXBench 3.0 Manhattan Off Screen 2.34x, 7zip 1T 2.24x, 7zip MT 1.26x,DOTA 2 1.60x, World of Tanks enCore 1.71x, Rocket League 1.13x, PCMark 10 Applications Battery 0.90x. Based on performance comparing HP Folio 2-in-1 Configuration: Processor: Intel® Core™ i7-8500Y, 2C/4T, 25.20.100.6617 driver, Memory: 8GB LPDDR3-1866, Storage: 256GB Samsung PM981, OS: Microsoft Windows* 10 RS6 Build Version 295 VS. Commercially available OEM system with Qualcomm* Snapdragon 850 8C/8T, Qualcomm Adreno 630, Gfx driver 28.18.10440.0, Memory 8GB LPDDR4X-3733, Storage 128GB Samsung KLUDG4U1EA-B0C1 UFS 2.1, OS–Microsoft Windows* 10 RS6 Build Version 295 Bios 9ucn22ww. Measured by Intel as of August 2019
- Windows without compromise data part 2:
- PCMark 10 Applications 2.06x, Geekbench Single 2.06x, Geekbench Multi 1.76x, 3DMark Night Raid 1.31x Graphics 1.33x CPU 1.22x, AppMark 2018 2.45x, WebXPRT 3 Edge 2.32x, WebXPRT 3 Chrome 3.50x, Speedometer 2.0Edge 1.57x, Speedometer 2.0 Chrome 4.32x, GFXBench 3.0 Manhattan Off Screen 2.60x. Based on performance comparing Preproduction Intel system: Processor: Intel® Core™ i7-10510Y, 4C/8T, XXXX driver, Memory: XXXX, Storage:XXXX, OS: Microsoft Windows* 10 RS6 Build Version 295 VS. Commercially available OEM system with Qualcomm* Snapdragon 850 8C/8T, Qualcomm Adreno 630, Gfx driver 28.18.10440.0, Memory 8GB LPDDR4X-3733, Storage 128GB Samsung KLUDG4U1EA-B0C1 UFS 2.1, OS–Microsoft Windows* 10 RS6 Build Version 295 Bios 9ucn22ww. Measured by Intel as of August 2019
Demo Configuration disclosure
- Demo Productivity:
- Microsoft Office 365 saving PowerPoint file to PDF. Based on performance comparing Dell XPS 13 Configuration: Processor Intel® Core™ i3-1005G1, 2C/4T, 25.20.100.7102 driver, Memory 8GB 3733MHz, brand N/A, Storage 256GB NVME Toshiba, OS: Microsoft Windows* 10 Build Version 18362.239 Vs ASUS ROG Zephyrus Configuration: AMD Ryzen 73750H, 4C/8T, Memory 8GB DDR4 2400MHz, Storage 500GB Intel SSDPEKNW, OS Windows* 10 Home Build Version 18362.2
- Adobe 4K playback:
- Adobe Premiere Pro, v13.1, Video 4K HDR 10-bit playback. Based on performance comparing Dell XPS 13 2-in-1 Configuration: Processor: Intel® Core™ i7-1065G7, 4C/8T, 25.20.100.7007 Intel Iris Plus Graphics driver, Memory: 16GB LPDDR4-3733, Storage: Toshiba NVMe512G, OS: Microsoft Windows* 10 Build Version 18362 Bios 1.0.9 VS. Commercially available OEM system with AMD Ryzen 7 3700U 4C/8T, 26.20.13001.40003 Radeon Vega 10 Mobile GFX, Memory 16GB LPDDR4-2400, Storage Lite on CA3-8D256 HP 237 GB Drive, OS –Microsoft Windows* 10 Build Version 18362.295, Bios AMI F.12
- Adobe Premiere Pro:
- v13.1, Export of 4K UHD HEVC (H.265) video. Based on performance comparing ASUS ZenBook Configuration: Processor: Intel® Core™ i5-10210U, 4C/8T, 26.20.100.6952 Intel UHD Graphics driver, 26.21.14.3114 Nvidia GeForce GTX 1650, Memory: 8GB LPDDR4-2133, Storage: Intel Optane477GB, OS: Microsoft Windows* 10 Build Version 18362.295 Bios GU502DU.203 VS. Commercially available OEM system with AMD Ryzen 7 3750H 4C/8T, 26.20.110161.1 Radeon Vega 10 Mobile GFX, 26.21.14.3602 Nvidia GeForce GTX 1660 Tiwith Max-Q Design, Memory 16GB LPDDR4-2400, Storage 477GB GB Intel SSDPEKNW512GB, OS –Microsoft Windows* 10 Build Version 18362.295 Bios UX534FTC.201.
- Halo The Master Chief Collection-beta:
- Halo The Master Chief Collection -beta, "Reach" gameplay. Based on performance comparing Razer Blade Stealth 13 Configuration: Processor: Intel® Core™ i7-1065G7, 4C/8T, 25.20.100.6665 Intel Iris Plus Graphics driver, Memory: 16GB LPDDR4-2400MHz, Storage: Samsung MZVLB256HAHQ-00000 256GB, OS: Microsoft Windows* 10 Build Version 1903 18362.295, BIOS: Razer E1.00 VS. Commercially available OEM system with AMD Ryzen 7 3700U 4C/8T, 25.20.14120.2001 Radeon Vega 10 Mobile GFX, Memory 16GB LPDDR4-2400, Storage Lite on CA3-8D256 HP 237 GB Drive, OS –Microsoft Windows* 10 Build Version 18362.295 Bios AMI F.12
- Topaz Labs Gigapixel AI:
- Gigapixel AI v4.4.0; Image upscaling app using AI software; Lenovo Yoga S940, Processor: Intel® Core™ i7-1065G7, 4C/8T; 25.20.100.7102 Intel Iris Plus Graphics driver; Memory: 16GB LPDDR4-3733MHz, Storage: SAMSUNG MZVLB1T0HBLR-000L2; OS: Microsoft Windows 10 RS6 Build Version 18362.329; Bios: LENOVO AKCN99WW VS. Commercially available OEM system with AMD Ryzen 7 3700U 4C/8T, 25.20.14120.2001 Radeon Vega 10 Mobile GFX, Memory 16GB LPDDR4-2400, Storage Lite on CA3-8D256 HP 237 GB Drive, OS –Microsoft Windows* 10 Build Version 18362.295 Bios AMI F.12
Disclaimers
Performance varies by use, configuration and other factors.
Intel optimizations, for Intel compilers or other products, may not optimize to the same degree for non-Intel products.
Performance results are based on testing as of date specified in the Configuration Disclosure and may not reflect all publicly available security updates. See configuration disclosure for details. No product or component can be absolutely secure.
Intel is a sponsor and member of the BenchmarkXPRT Development Community, and was the major developer of the XPRT family of benchmarks. Principled Technologies is the publisher of the XPRT family of benchmarks. You should consult other information and performance tests to assist you in fully evaluating your contemplated purchases. Any differences in your system hardware, software or configuration may affect your actual performance.
Intel technologies’ features and benefits depend on system configuration and may require enabled hardware, software or service activation. Performance varies depending on system configuration. Check with your system manufacturer or retailer or learn more at intel.com.
Intel, the Intel logo, Celeron, Intel Core, Intel Optane, Intel vPro, OpenVINO, Pentium, and Thunderbolt are trademarks of Intel Corporation or its subsidiaries in the U.S. and/or other countries.
*Other names and brands may be claimed as the property of others.
© Intel Corporation.