• 615781
  • 12/06/2021

Computex 2021

Real World Performance Workshop

Today's Competitive Landscape As Measured By
Despite changes to computing landscape, Intel still provides the best real-world performance Based on the performance and features of the 11th Gen Intel® Core™ mobile family. Visit 11th Gen Mobile to learn more. For example, the 11th Gen Intel® Core™ i7-1195G7 processor is the world's best for thin and light laptops. In thin & light Windows-based devices, based on unique features and performance testing (as of May 21, 2021) on industry benchmarks and Representative Usage Guides across 5 key usages: productivity, creation, collaboration, gaming and entertainment of Intel® Core™ i7-1195G7, including in comparison to AMD Ryzen 7 5800U. And, the 11th Generation Intel® Core™ i9-11980HK is the world's best gaming laptop processor. As measured by frames per second on similarly configured systems with 11th Gen Intel® Core™ i9-11980HK, Intel® Core™ i9-10980HK, or Ryzen 9 5900HX processors. Product prices may vary. Results: 11th Gen Intel® Core™ i9-11980HK scored higher on the majority of the 29 game titles tested. Visit 11th Gen Mobile for workload and configuration details.
11th Gen Intel™ Core® H-series: Desktop Performance Made Mobile As Measured By
19% gen-on-gen multi-threaded performance improvement As measured by SPECint_​rate_​base2017 v1.1 IC19U4(n-copy) on 11th Gen Intel® Core™ i9-11980HK vs. 10th Gen Intel® Core™ i9- 10980HK Testing as of 4/15/2021 on Intel internal reference platforms running: Processor: Intel® Core™i9-11980HK processor, PL1=45W, 8C16T, Turbo up to 5.0Ghz, Memory: Micron 2x16GB DDR4-3200 2Rx8, Storage: Samsun 970 Evo Plus, Display Resolution: 1920x1080, OS: Windows* 10 20H2 19402.844. Power policy set to AC/Balanced mode Power policy set to DC/Balanced mode. Power Slider/Energy Efficient Turbo (EET): Better Performance with Dynamic EET. Graphics driver: 27.20.100.9365 Vs. Processor: Intel® Core™i9-10980HK processor, PL1=45W, 8C16T, Turbo up to 5.3GHz, Memory: Hynix 2x16GB DDR4-2933 2Rx8, Storage: Samsung 970 Evo Plus, Display Resolution: 1920x1080, OS: Windows* 10 20H2 19042.746 Power policy set to AC/Balanced mode. Power policy set to DC/Balanced mode. Power Slider/Energy Efficient Turbo (EET): Better Performance with EET disabled. Graphics driver: 26.20.100.7642
World's Fastest Single Threaded Mobile Processor Estimated based on Intel internal measurements of SPECint_​​rate_​​base2017 (1-copy) of an Intel® Core™ i9-11980HK-based internal reference platform versus estimated measurements on AMD Ryzen™ 9 5900HX, Intel® Core™ i9-10980HK and Intel® Core™ i7-11375H processors. For details visit 11th Gen Mobile . Results may vary.
Gaming Leadership As Measured By
Up to 15% more FPS on PlayerUnknown's Battlegrounds with an 11th Gen Intel® Core™ i9-11980HK processor As measured by PlayerUnknown's Battlegrounds on 11th Gen Intel® Core™ i9-11980HK vs. AMD Ryzen™ 9 5900HX
Up to 15% more FPS on Hitman 3 with an 11th Gen Intel® Core™ i9-11980HK processor As measured by Hitman 3 on 11th Gen Intel® Core™ i9-11980HK vs. AMD Ryzen™ 9 5900HX
Up to 15% more FPS on F1 2020 with an 11th Gen Intel® Core™ i9-11980HK processor As measured by F1 2020 on 11th Gen Intel® Core™ i9-11980HK vs. AMD Ryzen™ 9 5900HX
Up to 17% more FPS on Far Cry New Dawn with an 11th Gen Intel® Core™ i9-11980HK processor As measured by on Far Cry New Dawn on 11th Gen Intel® Core™ i9-11980HK vs. AMD Ryzen™ 9 5900HX
Up to 17% more FPS on Gears 5 with an 11th Gen Intel® Core™ i9-11980HK processor As measured by Gears 5 on 11th Gen Intel® Core™ i9-11980HK vs. AMD Ryzen™ 9 5900HX
Up to 19% more FPS on Watch Dogs: Legion with an 11th Gen Intel® Core™ i9-11980HK processor As measured by Watch Dogs: Legion on 11th Gen Intel® Core™ i9-11980HK vs. AMD Ryzen™ 9 5900HX
Up to 20% more FPS on Counter-Strike: Global Offensive with an 11th Gen Intel® Core™ i9-11980HK processor As measured by Counter-Strike: Global Offensive on 11th Gen Intel® Core™ i9-11980HK vs. AMD Ryzen™ 9 5900HX
Up to 20% more FPS on World of Tanks: Encore RT with an 11th Gen Intel® Core™ i9-11980HK processor As measured by World of Tanks: Encore RT on 11th Gen Intel® Core™ i9-11980HK vs. AMD Ryzen™ 9 5900HX
Up to 21% more FPS on Tom Clancy's Rainbow Six Siege with an 11th Gen Intel® Core™ i9-11980HK processor As measured by on Tom Clancy's Rainbow Six Siege on 11th Gen Intel® Core™ i9-11980HK vs. AMD Ryzen™ 9 5900HX
Up to 22% more FPS on War Thunder​ with an 11th Gen Intel® Core™ i9-11980HK processor As measured by on War Thunder on 11th Gen Intel® Core™ i9-11980HK vs. AMD Ryzen™ 9 5900HX
Up to 24% more FPS on A Total War Saga: Toy (Siege)​ with an 11th Gen Intel® Core™ i9-11980HK processor As measured by Troy: A Total War Saga: Siege on 11th Gen Intel® Core™ i9-11980HK vs. AMD Ryzen™ 9 5900HX
Up to 26% more FPS on Grid 2019 with an 11th Gen Intel® Core™ i9-11980HK processor As measured by Grid 2019 on 11th Gen Intel® Core™ i9-11980HK vs. AMD Ryzen™ 9 5900HX
Up to 28% more FPS on Crysis Remastered with an 11th Gen Intel® Core™ i9-11980HK processor As measured by Crysis Remastered on 11th Gen Intel® Core™ i9-11980HK vs. AMD Ryzen™ 9 5900HX
Up to 29% more FPS on World of Warcraft: Shadowlands with an 11th Gen Intel® Core™ i9-11980HK processor As measured by World of Warcraft: Shadowlands on 11th Gen Intel® Core™ i9-11980HK vs. AMD Ryzen™ 9 5900HX
Up to 22% more FPS on Dota 2 with an 11th Gen Intel® Core™ i9-11980HK processor As measured by DOTA 2 on 11th Gen Intel® Core™ i9-11980HK vs. AMD Ryzen™ 9 5900HX
Up to 81% more FPS on League of Legends with an 11th Gen Intel® Core™ i9-11980HK processor As measured by League of Legends on 11th Gen Intel® Core™ i9-11980HK vs. AMD Ryzen™ 9 5900HX

Gaming Leadership- Detailed Configurations:

Processor: 11th Gen Intel® Core™ i9-11980HK processor, 8C16T; tested on a pre- production OEM design, memory: 2X 16 GB DDR4- 3200MHz; Storage: Samsung 970 Evo Plus 1TB ; Display Resolution: 1920x1080; OS: Microsoft Windows 10 Pro 20H2 19042.867; Graphics card: NVIDIA RTX 3080 with 16 GB GDDR6 RAM, Graphics driver: 27.21.14.6221; Max GFX Power = 155W; BIOS version 30D. Power Plan = Balanced, AC power slider setting = Better performance; Game testing settings: OEM performance optimization SW : Used highest performance setting(Performance Level = High), Fan Speed = Cooler Boost, GPU Switch = Discrete Graphics Mode

Processor: AMD Ryzen 9 5900HX processor, 8C16T; tested in Lenovo Legion R9000K laptop, memory: 2X 16 GB DDR4- 3200MHz; Storage: Western Digital WDC PC SN730 SDBPNTY-1T00-1101 1TB; Display Resolution: 1920x1080; OS: Microsoft Windows 10 Home 20H2 19042.746; Graphics card: NVIDIA RTX 3080 with 16 GB GDDR6 RAM, Graphics driver: 27.21.14.6156;Max GFX power = 165W, BIOS version GKCN34WW. Power Plan = Balanced, AC power slider setting = Better performance; Game testing settings: Lenovo PC Management :Used highest performance setting (Performance Mode) GPU Switch = Discrete Graphics Mode

Testing as of May 3, 2021

Enthusiast Level Creation As Measured By
Perform Content Aware Fill up to 1.14x faster with a 11th Gen Intel® Core™ i9-11980HK and NVIDIA RTX 3080 vs. an AMD Ryzen 9 5900HX and NVIDIA RTX 3080 As measured by: Adobe After Effects Workload
Colorize a batch of 7 photos up to 1.24x faster with a 11th Gen Intel® Core™ i9-11980HK and NVIDIA RTX 3080 vs. an AMD Ryzen 9 5900HX and NVIDIA RTX 3080 As measured by: Adobe Photoshop Elements Workload
Export a 4:2:2 10-bit 4K video to 4:2:0 1080p 10-bit video up to 1.52x faster with a 11th Gen Intel® Core™ i9-11980HK and NVIDIA RTX 3080 vs. an AMD Ryzen 9 5900HX and NVIDIA RTX 3080 As measured by: DaVinci Resolve Workload
Run Nero Score Photo Tagger Benchmark up to 1.69x faster with a 11th Gen Intel® Core™ i9-11980HK and NVIDIA RTX 3080 vs. an AMD Ryzen 9 5900HX and NVIDIA RTX 30801.69x As measured by: Nero Score Workload
Perform a style transfer of a 4KH264 video up to 1.88x faster with a 11th Gen Intel® Core™ i9-11980HK and NVIDIA RTX 3080 vs. an AMD Ryzen 9 5900HX and NVIDIA RTX 3080 As measured by: Magix Vegas Pro Workload
Export a 10-bit video up to 2.75x faster with a 11th Gen Intel® Core™ i9-11980HK and NVIDIA RTX 3080 vs. an AMD Ryzen 9 5900HX and NVIDIA RTX 3080 As measured by: Handbrake Workload

Enthusiast Level Creation- Detailed Configurations:

Processor: 11th Gen Intel® Core™ i9-11980HK processor, 8C16T; tested on MSI GP76, memory: 2X 16 GB DDR4- 3200MHz; Storage: Samsung 970 Evo Plus 1TB ; Display Resolution: 1920x1080; OS: Microsoft Windows 10 Pro 20H2 19042.867; Graphics card: NVIDIA RTX 3080 with 16 GB GDDR6 RAM, Graphics driver: 27.21.14.6221; Max GFX power = 155W, BIOS version 30D. Power Plan = Balanced, AC power slider setting = Better performance

Processor: AMD Ryzen 9 5900HX with Radeon Graphics, 8C16T; tested in ASUS ROG Strix Scar 15, memory 2X 16 GB DDR4- 3200MHz; Storage: SK Hynix 1TB Display Resolution: 1920x1080; OS: Microsoft Windows 10 Pro 20H2; Graphics card: NVIDIA RTX 3080 with 16 GB GDDR6 RAM, Graphics driver: 27.21.14.6140; Max GFX power = 130W, BIOS version 308. Power Plan = Balanced, AC power slider setting = Better performance

Testing as of April 30th 2021

Thin Enthusiast Leadership As Measured By
Play Rise of the Tomb Raider with up to 1.11x more FPS with a 11th Gen Intel® Core™ i9-11980HK and NVIDIA RTX 3060 vs. an AMD Ryzen 9 5900HS and NVIDIA RTX 3060 As measured by: Rise of the Tomb Raider
Play Hitman 2 with up to 1.11x more FPS with a 11th Gen Intel® Core™ i9-11980HK and NVIDIA RTX 3060 vs. an AMD Ryzen 9 5900HS and NVIDIA RTX 3060 As measured by: Hitman 2
Play Far Cry New Dawn with up to 1.11x more FPS with a 11th Gen Intel® Core™ i9-11980HK and NVIDIA RTX 3060 vs. an AMD Ryzen 9 5900HS and NVIDIA RTX 3060 As measured by: Far Cry New Dawn
Play GRID (2019) with up to 1.12x more FPS with a 11th Gen Intel® Core™ i9-11980HK and NVIDIA RTX 3060 vs. na AMD Ryzen 9 5900HS and NVIDIA RTX 3060 As measured by: Grid 2019 (Day Benchmark)
Play Watch Dogs: Legion with up to 1.12x more FPS with a 11th Gen Intel® Core™ i9-11980HK and NVIDIA RTX 3060 vs. an AMD Ryzen 9 5900HS and NVIDIA RTX 3060 As measured by: Watch Dogs: Legion
Play Hitman 3 with up to 1.13x more FPS with a 11th Gen Intel® Core™ i9-11980HK and NVIDIA RTX 3060 vs. an AMD Ryzen 9 5900HS and NVIDIA RTX 3060 As measured by: Hitman 3 (Dartmoore Benchmark)
Play Ashes of the Singularity: Escalation with up to 1.15x more FPS with a 11th Gen Intel® Core™ i9-11980HK and NVIDIA RTX 3060 vs. a AMD Ryzen 9 5900HS and NVIDIA RTX 3060 As measured by: Ashes of the Singularity: Escalation (CPU Benchmark)
Play Assassin's Creed: Odyssey with up to 1.15x more FPS with a 11th Gen Intel® Core™ i9-11980HK and NVIDIA RTX 3060 vs. an AMD Ryzen 9 5900HS and NVIDIA RTX 3060 As measured by: Assassin's Creed: Odyssey
Play Grand Theft Auto V with up to 1.16x more FPS with a 11th Gen Intel® Core™ i9-11980HK and NVIDIA RTX 3060 vs. an AMD Ryzen 9 5900HS and NVIDIA RTX 3060 As measured by: Grand Theft Auto V
Play A Total War Saga: Troy with up to 1.17x more FPS with a 11th Gen Intel® Core™ i9-11980HK and NVIDIA RTX 3060 vs. a AMD Ryzen 9 5900HS and NVIDIA RTX 3060 As measured by: A Total War Saga: Troy (Siege Benchmark)
Play Tom Clancy's Rainbow Six: Siege with up to 1.18x more FPS with a 11th Gen Intel® Core™ i9-11980HK and NVIDIA RTX 3060 vs. an AMD Ryzen 9 5900HS and NVIDIA RTX 3060 As measured by: Tom Clancy's Rainbow Six: Siege
Play Assassin's Creed: Valhalla with up to 1.30x more FPS with a 11th Gen Intel® Core™ i9-11980HK and NVIDIA RTX 3060 vs. an AMD Ryzen 9 5900HS and NVIDIA RTX 3060 As measured by: Assassin's Creed: Valhalla
Play War Thunder with up to 1.37x more FPS with a 11th Gen Intel® Core™ i9-11980HK and NVIDIA RTX 3060 vs. a AMD Ryzen 9 5900HS and NVIDIA RTX 3060 As measured by: War Thunder (Tank Battle CPU Benchmark)
Play Total War: Three Kingdoms with up to 1.37x more FPS with a 11th Gen Intel® Core™ i9-11980HK and NVIDIA RTX 3060 vs. an AMD Ryzen 9 5900HS and NVIDIA RTX 3060 As measured by: Total War: Three Kingdoms (Dynasty Benchmark)
Play Total War: Warhammer 2 with up to 1.37x more FPS with a 11th Gen Intel® Core™ i9-11980HK and NVIDIA RTX 3060 vs. an AMD Ryzen 9 5900HS and NVIDIA RTX 3060 As measured by: Total War: Warhammer 2 (Laboratory Benchmark)

Thin Enthusiast Leadership- Detailed Configurations:

Processor: 11th Gen Intel® Core™ i9-11980HK processor, 8C16T; tested on a pre- production OEM design, memory: 2X 16 GB DDR4- 3200MHz; Storage: Samsung 970 Evo Plus 1TB ; Display Resolution: 1920x1080; OS: Microsoft Windows 10 Pro 20H2 19042.867; Graphics card: NVIDIA RTX 3080 with 16 GB GDDR6 RAM, Graphics driver: 27.21.14.6221; Max GFX power = 155W, BIOS version 30D. Power Plan = Balanced, AC power slider setting = Better performance

Processor: AMD Ryzen 9 5900HS processor, 8C16T; tested in ASUS Zephyrus G14 laptop, memory 1TB Hynix SSD, 16 GB DDR4- 3200MHz; Display Resolution: 1920x1080; OS: Microsoft Windows 10 Home 20H2; Graphics card: NVIDIA RTX 3060 with 16 GB GDDR6 RAM, Graphics driver: 27.21.14.6611;Max GFX power = 165W, BIOS version GKCN34WW. Power Plan = Balanced, AC power slider setting = Better performance

Testing as of May 21, 2021

Built on the Best - Alienware X-Series As Measured By
The 11th Generation Intel® Core™ i9-11980HK is the world's best gaming laptop processor. As measured by frames per second on similarly configured systems with 11th Gen Intel® Core™ i9-11980HK, Intel® Core™ i9-10980HK, or Ryzen 9 5900HX processors. Product prices may vary. Results: 11th Gen Intel® Core™ i9-11980HK scored higher on the majority of the 29 game titles tested. Visit 11th Gen Mobile for workload and configuration details.
11th Gen Intel™ Core® U-series processor: World's Best CPU for Thin and Light Laptops… Just Got Better As Measured By
The 11th Generation Intel® Core™ with Iris® Xe graphics delivers the world's best processor for thin and light laptops In thin & light Windows-based devices, based on unique features and performance testing (as of May 21, 2021) on industry benchmarks and Representative Usage Guides across 5 key usages: productivity, creation, collaboration, gaming and entertainment of Intel® Core™ i7-1195G7, including in comparison to AMD Ryzen 7 5800U. Visit 11th Gen Mobile for details. Results may vary.
11th Gen Intel® Core™​ U-Series Mobile Processors As Measured By
25% overall application performance advantage vs. competition As measured by SYSmark 25 overall score Processor: Intel® Core™ i7-1195G7 processor at PL1= 28W, 4C8T, Memory: LPDDR4-4267MHz, 2x8GB, dual channel and dual rank, Storage: Samsung PM9A1 SSD, Display Resolution: 1920x1080p, OS: Microsoft Windows 10 20H2-19042.844. Power policy set to AC/Balanced mode for all benchmarks except SYSmark 25 which is measured in AC/BAPCo mode for Performance. All benchmarks run in Admin mode. Graphics: Intel® Xe Graphics, Graphics driver: prod-hi-releases_​2021-01-26-ci-master- 7075-revenue-pr-1009268-TGL, Bios version: ucode 16 measured on Intel reference board. Processor: AMD Ryzen 7 5800U processor, 8C16T, Memory: 2x8GB DDR4-3200MHz, Storage: Samsung 512GB MZVLQ512HALU-000H1, Display Resolution: 1920x1080p, OS: Microsoft Windows* 10 20H2-19042.844. Power policy set to AC/Balanced mode for all benchmarks except SYSmark 25 which is measured in AC/BAPCo mode for Performance. All benchmarks run in Admin mode. Graphics: AMD Radeon(TM) Graphics, Graphics driver: 27.20.21002.112, Bios version: 01.02 measured on HP Probook 455 G8 laptop. Testing done using the system's out-of-box performance profile, with Windows EPP slider set to "better performance". Observed 15W sustained power level with bursts at ~25W from AMD's μProf tool Testing as of May 21, 2021
Continuing to drive industry leadership with our support for Intel® Wi-Fi 6/6E (Gig+) Intel was first to launch Wi-Fi 6E in PCs. Approximately 40 IA notebook, desktop, and motherboard designs in market now with more than 20 additional notebook models expected in time for holiday
8x faster transcoding vs. the competition As measured by HandBrake Workload Processor: Intel® Core™ i7-1195G7 processor at PL1= 28W, 4C8T, Memory: LPDDR4-4267MHz, 2x8GB, dual channel and dual rank, Storage: Samsung PM9A1 SSD, Display Resolution: 1920x1080p, OS: Microsoft Windows 10 20H2-19042.844. Power policy set to AC/Balanced mode for all benchmarks except SYSmark 25 which is measured in AC/BAPCo mode for Performance. All benchmarks run in Admin mode. Graphics: Intel® Xe Graphics, Graphics driver: prod-hi-releases_​2021-01-26-ci-master- 7075-revenue-pr-1009268-TGL, Bios version: ucode 16 measured on Intel reference board. Processor: AMD Ryzen 7 5800U processor, 8C16T, Memory: 2x8GB DDR4-3200MHz, Storage: Samsung 512GB MZVLQ512HALU-000H1, Display Resolution: 1920x1080p, OS: Microsoft Windows* 10 20H2-19042.844. Power policy set to AC/Balanced mode for all benchmarks except SYSmark 25 which is measured in AC/BAPCo mode for Performance. All benchmarks run in Admin mode. Graphics: AMD Radeon(TM) Graphics, Graphics driver: 27.20.21002.112, Bios version: 01.02 measured on HP Probook 455 G8 laptop. Testing done using the system's out-of-box performance profile, with Windows EPP slider set to "better performance". Observed 15W sustained power level with bursts at ~25W from AMD's μProf tool Testing as of May 21, 2021
2x faster video editing speed vs. the competition As measured by Adobe Premiere Pro Scene Edit Detect Workload on: Processor: Intel® Core™ i7-1195G7 processor PL1=28W with Intel® Dynamic Tuning Technology (Intel® DTT) enabled at 35W, 4C8T, Memory: LPDDR4-4267MHz, 16GB (2x8GB), dual channel and dual rank, Storage: Samsung MZVL21T0HCLR-00B00, Display Resolution: 1920x1080p, OS: Microsoft Windows 10 20H2-19042.928 Power policy set to AC/Balanced mode for all benchmarks except SYSmark 25 which is measured in AC/BAPCo mode for Performance. All benchmarks run in Admin mode. Graphics: Intel® Xe Graphics, Graphics driver: 27.20.100.9219, Bios version: 309 measured on MSI Prestige 14 pre-production laptop. 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 5800U processor, 8C16T, Memory: 2x8GB DDR4-3200MHz, Storage: Samsung 512GB MZVLQ512HALU-000H1, Display Resolution: 1920x1080p, OS: Microsoft Windows* 10 20H2-19042.844. Power policy set to AC/Balanced mode for all benchmarks except SYSmark 25 which is measured in AC/BAPCo mode for Performance. All benchmarks run in Admin mode. Graphics: AMD Radeon(TM) Graphics, Graphics driver: 27.20.14022.3003, Bios version: 01.01.02 measured on HP Probook 455 G8. Testing done using the system's out-of-box performance profile, with Windows EPP slider set to "better performance". Observed 15W sustained power level with bursts at ~25W from AMD's μProf tool. Testing as of May 21, 2021
Thin and Light Gaming Leadership As Measured By
Thin and light gaming leadership: 11 th Gen U-series offers casual gaming experiences that eclipse the competition Based on performance on Grand Theft Auto V (1.47x), Apex Legends (1.64x), Mount & Blade II: Bannerlord (1.87x), GRID 2019 (1.99x) measured on: Processor: Intel® Core™ i7-1195G7 processor PL1=28W with Intel® Dynamic Tuning Technology (Intel® DTT) enabled at 35W, 4C8T, Memory: LPDDR4-4267MHz, 16GB (2x8GB), dual channel and dual rank, Storage: Samsung MZVL21T0HCLR-00B00, Display Resolution: 1920x1080p, OS: Microsoft Windows 10 20H2-19042.928 Power policy set to AC/Balanced mode for all benchmarks except SYSmark 25 which is measured in AC/BAPCo mode for Performance. All benchmarks run in Admin mode. Graphics: Intel® Xe Graphics, Graphics driver: 27.20.100.9219, Bios version: 309 measured on MSI Prestige 14 pre-production laptop. 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. Vs. Processor: AMD Ryzen 7 5800U processor, 8C16T, Memory: 2x8GB DDR4-3200MHz, Storage: Samsung MZVLQ512HALU-000H1, Display Resolution: 1920x1080p, OS: Microsoft Windows 10 20H2-19042.844. Power policy set to AC/Balanced mode for all benchmarks except SYSmark 25 which is measured in AC/BAPCo mode for Performance. All benchmarks run in Admin mode. Graphics: AMD Radeon(TM) Graphics, Graphics driver: 27.20.21002.112, Bios version: 01.02 measured on HP Probook 455 G8. Testing done using the system's out-of-box performance profile, with Windows EPP slider set to "better performance". Observed 15W sustained power level with bursts at ~25W from AMD's μProf tool Based on performance on Fortnite (1.46x), Death Stranding (1.81x), Genshin (1.93x), Rust (2.06x), Amnesia Rebirth (2.13x), Valheim (2.78x) on: Processor: Intel® Core™ i7-1195G7 processor PL1=28W, 4C8T, Memory: LPDDR4-4267MHz, 16GB (2x8GB), dual channel and dual rank, Storage: Samsung PM9A1 SSD, Display Resolution: 1920x1080p, OS: Microsoft Windows 10 20H2-19042.844 Power policy set to AC/Balanced mode for all benchmarks except SYSmark 25 which is measured in AC/BAPCo mode for Performance. All benchmarks run in Admin mode. Graphics: Intel® Xe Graphics, Graphics driver: prod-hi-releases_​2021-01-26-ci-master-7075-revenue-pr-1009268-TGL, Bios version: ucode 16 measured on Intel reference board. Vs. Processor: AMD Ryzen 7 5800U processor, 8C16T, Memory: 2x8GB DDR4-3200MHz, Storage: Samsung MZVLQ512HALU-000H1, Display Resolution: 1920x1080p, OS: Microsoft Windows 10 20H2-19042.844. Power policy set to AC/Balanced mode for all benchmarks except SYSmark 25 which is measured in AC/BAPCo mode for Performance. All benchmarks run in Admin mode. Graphics: AMD Radeon(TM) Graphics, Graphics driver: 27.20.21002.112, Bios version: 01.02 measured on HP Probook 455 G8. Testing done using the system's out-of-box performance profile, with Windows EPP slider set to "better performance". Observed 15W sustained power level with bursts at ~25W from AMD's μProf tool Testing as of May 21, 2021
3DMark Sampler Feedback Feature Test As Measured by
1.23x performance increase comparing Intel Core i7-1195G7-based system with Sampler Feedback Feature enabled vs. disabled 2.34x performance increase comparing Intel Core i7-1195G7-based system with sampler Feedback Feature enabled vs. AMD Ryzen 7 5800U-based system As measured by 3DMark Sampler Feedback Feature Test release candidate on: Processor: Intel® Core™ i7-1195G7 processor PL1=28W with Intel® Dynamic Tuning Technology (Intel® DTT) enabled at 35W, 4C8T, Memory: LPDDR4-4267MHz, 16GB (2x8GB), dual channel and dual rank, Storage: Samsung MZVL21T0HCLR-00B00, Display Resolution: 1920x1080p, OS: Microsoft Windows 10 20H2-19042.928 Power policy set to AC/Balanced mode for all benchmarks except SYSmark 25 which is measured in AC/BAPCo mode for Performance. All benchmarks run in Admin mode. Graphics: Intel® Xe Graphics, Graphics driver: 27.20.100.9219, Bios version: 309 measured on MSI Prestige 14 pre-production laptop. 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. Vs. Processor: AMD Ryzen 7 5800U processor, 8C16T, Memory: 2x8GB DDR4-3200MHz, Storage: Samsung MZVLQ512HALU-000H1, Display Resolution: 1920x1080p, OS: Microsoft Windows 10 20H2-19042.844. Power policy set to AC/Balanced mode for all benchmarks except SYSmark 25 which is measured in AC/BAPCo mode for Performance. All benchmarks run in Admin mode. Graphics: AMD Radeon(TM) Graphics, Graphics driver: 27.20.21002.112, Bios version: 01.02 measured on HP Probook 455 G8. Testing done using the system's out-of-box performance profile, with Windows EPP slider set to "better performance". Observed 15W sustained power level with bursts at ~25W from AMD's μProf tool. Testing as of May 21, 2021
Leadership in Light Content Creation Performance As Measured By
The future of light content creation: 11 th Gen U- series provides the right compute for the right workload for modern content creation As measured by Handbrake 4K AVC to 1080P HEVC 10bit (8x) on: Processor: Intel® Core™ i7-1195G7 processor PL1=28W, 4C8T, Memory: LPDDR4-4267MHz, 16GB (2x8GB), dual channel and dual rank, Storage: Samsung PM9A1 SSD, Display Resolution: 1920x1080p, OS: Microsoft Windows 10 20H2-19042.844 Power policy set to AC/Balanced mode for all benchmarks except SYSmark 25 which is measured in AC/BAPCo mode for Performance. All benchmarks run in Admin mode. Graphics: Intel® Xe Graphics, Graphics driver: prod-hi-releases_​2021-01-26-ci-master-7075-revenue-pr-1009268-TGL, Bios version: ucode 16 measured on Intel reference board. Vs. Processor: AMD Ryzen 7 5800U processor, 8C16T, Memory: 2x8GB DDR4-3200MHz, Storage: Samsung MZVLQ512HALU-000H1, Display Resolution: 1920x1080p, OS: Microsoft Windows 10 20H2-19042.844. Power policy set to AC/Balanced mode for all benchmarks except SYSmark 25 which is measured in AC/BAPCo mode for Performance. All benchmarks run in Admin mode. Graphics: AMD Radeon(TM) Graphics, Graphics driver: 27.20.21002.112, Bios version: 01.02 measured on HP Probook 455 G8. Testing done using the system's out-of-box performance profile, with Windows EPP slider set to "better performance". Observed 15W sustained power level with bursts at ~25W from AMD's μProf tool. As measured by Video Editing Workflow (1.93x), DaVinci Resolve (1.82x), Cyberlink Power Director (2.56x), Adobe Lightroom Photo Merge(2.36x), Adobe Premiere Pro Scene Detect (1.98x), Topaz Labs Gigapixel Al Photo Enlarge (1.56x), Nero Score (1.46x), MAGIX Vegas Pro (1.60x) on: Processor: Intel® Core™ i7-1195G7 processor PL1=28W with Intel® Dynamic Tuning Technology (Intel® DTT) enabled at 35W, 4C8T, Memory: LPDDR4-4267MHz, 16GB (2x8GB), dual channel and dual rank, Storage: Samsung MZVL21T0HCLR-00B00, Display Resolution: 1920x1080p, OS: Microsoft Windows 10 20H2-19042.928 Power policy set to AC/Balanced mode for all benchmarks except SYSmark 25 which is measured in AC/BAPCo mode for Performance. All benchmarks run in Admin mode. Graphics: Intel® Xe Graphics, Graphics driver: 27.20.100.9219, Bios version: 309 measured on MSI Prestige 14 pre-production laptop. 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. Vs. Processor: AMD Ryzen 7 5800U processor, 8C16T, Memory: 2x8GB DDR4-3200MHz, Storage: Samsung MZVLQ512HALU-000H1, Display Resolution: 1920x1080p, OS: Microsoft Windows 10 20H2-19042.844. Power policy set to AC/Balanced mode for all benchmarks except SYSmark 25 which is measured in AC/BAPCo mode for Performance. All benchmarks run in Admin mode. Graphics: AMD Radeon(TM) Graphics, Graphics driver: 27.20.21002.112, Bios version: 01.02 measured on HP Probook 455 G8. Testing done using the system's out-of-box performance profile, with Windows EPP slider set to "better performance". Observed 15W sustained power level with bursts at ~25W from AMD's μProf tool. Testing as of May 21, 2021
The Future of Light Content Creation As Measured By
8x lead in 10-bit video encoding due to Intel Quick Sync Video acceleration vs competition (45.9 seconds vs. 369.9 seconds) As measured by HandBrake Workload Processor: Intel® Core™ i7-1195G7 processor at PL1= 28W, 4C8T, Memory: LPDDR4-4267MHz, 2x8GB, dual channel and dual rank, Storage: Samsung PM9A1 SSD, Display Resolution: 1920x1080p, OS: Microsoft Windows 10 20H2-19042.844. Power policy set to AC/Balanced mode for all benchmarks except SYSmark 25 which is measured in AC/BAPCo mode for Performance. All benchmarks run in Admin mode. Graphics: Intel® Xe Graphics, Graphics driver: prod-hi-releases_​2021-01-26-ci-master- 7075-revenue-pr-1009268-TGL, Bios version: ucode 16 measured on Intel reference board. Vs. Processor: AMD Ryzen 7 5800U processor, 8C16T, Memory: 2x8GB DDR4-3200MHz, Storage: Samsung 512GB MZVLQ512HALU-000H1, Display Resolution: 1920x1080p, OS: Microsoft Windows* 10 20H2-19042.844. Power policy set to AC/Balanced mode for all benchmarks except SYSmark 25 which is measured in AC/BAPCo mode for Performance. All benchmarks run in Admin mode. Graphics: AMD Radeon(TM) Graphics, Graphics driver: 27.20.21002.112, Bios version: 01.02 measured on HP Probook 455 G8 laptop. Testing done using the system's out-of-box performance profile, with Windows EPP slider set to "better performance". Observed 15W sustained power level with bursts at ~25W from AMD's μProf tool Testing as of May 21, 2021
Collaboration, Productivity and Leadership As measured by
And of course, collaboration and productivity leadership: 11 th Gen U-series provides the best productivity experiences compared to competitor solutions As measured by SYSmark 25 (1.25x Overall; 1.19x Productivity; 1.36x Creativity; 1.14x Responsiveness) on: Processor: Intel® Core™ i7-1195G7 processor PL1=28W, 4C8T, Memory: LPDDR4-4267MHz, 16GB (2x8GB), dual channel and dual rank, Storage: Samsung PM9A1 SSD, Display Resolution: 1920x1080p, OS: Microsoft Windows 10 20H2-19042.844 Power policy set to AC/Balanced mode for all benchmarks except SYSmark 25 which is measured in AC/BAPCo mode for Performance. All benchmarks run in Admin mode. Graphics: Intel® Xe Graphics, Graphics driver: prod-hi-releases_​2021-01-26-ci-master-7075-revenue-pr-1009268-TGL, Bios version: ucode 16 measured on Intel reference board. Vs. Processor: AMD Ryzen 7 5800U processor, 8C16T, Memory: 2x8GB DDR4-3200MHz, Storage: Samsung MZVLQ512HALU-000H1, Display Resolution: 1920x1080p, OS: Microsoft Windows 10 20H2-19042.844. Power policy set to AC/Balanced mode for all benchmarks except SYSmark 25 which is measured in AC/BAPCo mode for Performance. All benchmarks run in Admin mode. Graphics: AMD Radeon(TM) Graphics, Graphics driver: 27.20.21002.112, Bios version: 01.02 measured on HP Probook 455 G8. As measured by Productivity Workflow (1.15x); Collaboration and Productivity Workflow (1.41x); and Crossmark Overall (1.41x) on: Processor: Intel® Core™ i7-1195G7 processor PL1=28W with Intel® Dynamic Tuning Technology (Intel® DTT) enabled at 35W, 4C8T, Memory: LPDDR4-4267MHz, 16GB (2x8GB), dual channel and dual rank, Storage: Samsung MZVL21T0HCLR-00B00; Display Resolution: 1920x1080p, OS: Microsoft Windows 10 20H2-19042.928 Power policy set to AC/Balanced mode for all benchmarks except SYSmark 25 which is measured in AC/BAPCo mode for Performance. All benchmarks run in Admin mode. Graphics: Intel® Xe Graphics, Graphics driver: 27.20.100.9219, Bios version: 309 measured on MSI Prestige 14 pre-production laptop. 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. Vs. Processor: AMD Ryzen 7 5800U processor, 8C16T, Memory: 2x8GB DDR4-3200MHz, Storage: Samsung MZVLQ512HALU-000H1, Display Resolution: 1920x1080p, OS: Microsoft Windows 10 20H2-19042.844. Power policy set to AC/Balanced mode for all benchmarks except SYSmark 25 which is measured in AC/BAPCo mode for Performance. All benchmarks run in Admin mode. Graphics: AMD Radeon(TM) Graphics, Graphics driver: 27.20.21002.112, Bios version: 01.02 measured on HP Probook 455 G8. Testing done using the system's out-of-box performance profile, with Windows EPP slider set to "better performance". Observed 15W sustained power level with bursts at ~25W from AMD's μProf tool. More broadly, the 11th Generation Intel® Core™ with Iris® Xe graphics delivers the world's best processor for collaborating and productivity on a thin and light laptop. In thin & light Windows-based devices, based on unique features and performance testing (as of May 21, 2021) on industry benchmarks and Representative Usage Guides of Intel® Core™ i7-1195G7, including in comparison to AMD Ryzen 7 5800U. Visit 11th Gen Mobile for details. Testing as of May 21, 2021
Intel Leading in 4G/5G for Connected PCs As Measured By
Intel is the leader in modern connected PC today with 5M unit volume; 3 out of every 4 of our MCPC customers use Intel WWAN Based on Intel internal estimates.
Windows without Compromise - Productivity and content creation As Measured By
Up to 1.70x better overall Microsoft Office 365 application performance with 11th Gen Intel® Core™ i5-1135G7 vs. Microsoft SQ2 As measured by: PCMark 10 Applications Overall Score
Up to 1.57x better overall Microsoft Word application performance with 11th Gen Intel® Core™ i5-1135G7 vs. Microsoft SQ2 As measured by: PCMark 10 Applications Word Score
Up to 1.75x better overall Microsoft Excel application performance with 11th Gen Intel® Core™ i5-1135G7 vs. Microsoft SQ2 As measured by: PCMark 10 Applications Excel Score
Up to 1.55x better overall Microsoft PowerPoint application performance with 11th Gen Intel® Core™ i5-1135G7 vs. Microsoft SQ2 As measured by: PCMark 10 Applications PowerPoint Score
Up to 1.93x better overall Microsoft Edge performance with 11th Gen Intel® Core™ i5-1135G7 vs. Microsoft SQ2 As measured by: PCMark 10 Applications Microsoft Edge Score
Process photos with AI inference up to 35.30x better with 11th Gen Intel® Core™ i5-1135G7 vs. Microsoft SQ2 As measured by: Nero Benchmark Score
Convert Microsoft Word document to PDF up to 2.56x faster with 11th Gen Intel® Core™ i5-1135G7 vs. Microsoft SQ2 As measured by: Microsoft Word document to PDF conversion workload
Convert Microsoft PowerPoint to PDF up to 2.16x faster with 11th Gen Intel® Core™ i5-1135G7 vs. Microsoft SQ2 As measured by: Microsoft PowerPoint to PDF conversion workload
Perform a Content-Aware Fill operation up to 4.34x faster with 11th Gen Intel® Core™ i5-1135G7 vs. Microsoft SQ2 As measured by: Adobe Photoshop Content-Aware Fill workload
Render a blur effect to an image up to 2.39x faster with 11th Gen Intel® Core™ i5-1135G7 vs. Microsoft SQ2 As measured by: Adobe Photoshop radial blur filter workload
Transcode 1080p to 720p video to 1080p up to 4.14x with 11th Gen Intel® Core™ i5-1135G7 vs. Microsoft SQ2 As measured by: Handbrake 1.3.3 Transcoding workload

Windows without Compromise - Productivity and content creation - Detailed Configurations:

Processor: 11th Gen Intel® Core™ i5-1135G7 processor, 4C 8T; tested on a Surface Pro 7+ with LTE Model 1961 i5, memory: 8 GB LPDDR4- 4267MHz; Storage: Samsung MZ9LQ256HBJQ-00000 ; Display Resolution: 2736x1824 ; OS: Microsoft Windows 10 Pro Insider Preview version: 21370.1; Graphics card: Intel® Iris ® Xe Graphics, Graphics driver: 27.20.100.9030; PL1/PL2 = 15/60W, BIOS version 12.41.141. Power Plan = Balanced

Processor: SQ2 processor, 8C (4+4); tested on a Microsoft Surface Pro X H Model 1875, memory 16 GB LPDDR4x; Display Resolution: 2880x1920; OS: Microsoft Windows 10 Home Insider Preview version: 21370.1; Graphics card: Microsoft SQ2 Adreno 690, Graphics driver: 27.20.1460.0; Power Plan = Balanced

Testing as of May 21, 2021

Game Without Limits As Measured By
Over half of today's most popular games aren't supported on MacOS 10 out of 20 top Steam games not supported on MacOS as of 5/26/21. See https://store/steampowered.com/stats/ . 12 out of the top 20 Newzoo games are not supported on MacOS as of 5/26/21. See https://newzoo.com/insights/rankings/top-20-pc-games/
The Best Mac laptop for Gaming Can't Keep Up As Measured By
Score 3DMark Time Spy (Overall Score) up to 1.18x higher with a Intel® Core™ i5-11400H and NVIDIA RTX 3060 vs. a MacBook Pro with a 9th Gen Intel® Core™ i9-9980HK and AMD Radeon Pro 5600M As measured by: 3DMark version 2.18.7184 (Time Spy Benchmark)
Play GRID 2019 with up to 1.20x more FPS with a 11th Gen Intel® Core™ i5-11400H and NVIDIA RTX 3060 vs. a MacBook Pro with a 9th Gen Intel® Core™ i9-9980HK and AMD Radeon Pro 5600M As measured by: GRID 2019 (Night Benchmark)
Play A Total War Saga: Troy with up to 1.21x more FPS with a 11th Gen Intel® Core™ i5-11400H and NVIDIA RTX 3060 vs. a MacBook Pro with a 9th Gen Intel® Core™ i9-9980HK and AMD Radeon Pro 5600M As measured by: A Total War Saga: Troy (Siege Benchmark)
Play Hitman 3 with up to 1.23x more FPS with a 11th Gen Intel® Core™ i5-11400H and NVIDIA RTX 3060 vs. a MacBook Pro with a 9th Gen Intel® Core™ i9-9980HK and AMD Radeon Pro 5600M As measured by: Hitman 3 (Dartmoore Benchmark)
Play War Thunder with up to 1.24x more FPS with a 11th Gen Intel® Core™ i5-11400H and NVIDIA RTX 3060 vs. a MacBook Pro with a 9th Gen Intel® Core™ i9-9980HK and AMD Radeon Pro 5600M As measured by: War Thunder (Tank Battle CPU Benchmark)
Play Far Cry New Dawn with up to 1.28x more FPS with a 11th Gen Intel® Core™ i5-11400H and NVIDIA RTX 3060 vs. a MacBook Pro with a 9th Gen Intel® Core™ i9-9980HK and AMD Radeon Pro 5600M As measured by: Far Cry New Dawn
Play Total War: Three Kingdoms with up to 1.21x more FPS with a 11th Gen Intel® Core™ i5-11400H and NVIDIA RTX 3060 vs. a MacBook Pro with a 9th Gen Intel® Core™ i9-9980HK and AMD Radeon Pro 5600M As measured by: Total War: Three Kingdoms (Dynasty Benchmark) on Windows 10
Play Tom Clancy's Rainbow Six: Siege with up to 1.21x more FPS with a 11th Gen Intel® Core™ i5-11400H and NVIDIA RTX 3060 vs. a MacBook Pro with a 9th Gen Intel® Core™ i9-9980HK and AMD Radeon Pro 5600M As measured by: Tom Clancy's Rainbow Six: Siege
Play Civilization VI: Gathering Storm with up to 1.66x faster turn times with a 11th Gen Intel® Core™ i5-11400H and NVIDIA RTX 3060 vs. a MacBook Pro with a 9th Gen Intel® Core™ i9-9980HK and AMD Radeon Pro 5600M As measured by: Civilization VI: Gathering Storm (CPU Benchmark) on Windows 10
Play Civilization VI: Gathering Storm with up to 3.54x faster turn times with a 11th Gen Intel® Core™ i5-11400H and NVIDIA RTX 3060 vs. a MacBook Pro with a 9th Gen Intel® Core™ i9-9980HK and AMD Radeon Pro 5600M As measured by: Civilization VI: Gathering Storm (CPU Benchmark) on Mac OS
Play Total War: Three Kingdoms with up to 1.90x more FPS with a 11th Gen Intel® Core™ i5-11400H and NVIDIA RTX 3060 vs. a MacBook Pro with a 9th Gen Intel® Core™ i9-9980HK and AMD Radeon Pro 5600M As measured by: Total War: Three Kingdoms (Dynasty Benchmark) on Mac OS

Best Mac Laptop for Gaming Can't Keep Up- Detailed Configurations:

Processor: 11th Gen Intel(R) Core(TM) i5-11400H processor, 6C12T; tested in Intel internal sample system with memory: 2X 8 GB DDR4- 3200MHz; Storage: Phison 512GB SM280512GKBB4S-E162; Display Resolution: 1920x1080; OS: Microsoft Windows 10 Pro 10.0.19042.867; Graphics card: RTX 3060, Graphics driver: 27.21.14.6221; Max GFX power = 65W; BIOS version 0.001. Power Plan = Balanced, AC power slider Setting = Better Performance; Game testing settings: performance optimization SW setting: Scenario = Balanced

Processor: i9-9980HK processor,8C/16T; tested on a MacBook Pro 16, memory: 32GB DDR4 2667MHz; Storage: Apple SSD AP2048N 2TB; Display Resolution: 3072x1920 (native) / 1920x1080 (forced); OS: macOS Big Sur 11.3.1/ Windows 10 Pro version 19042.985; Graphics card: AMD Radeon pro 5600M 8GB; Graphics driver: Adrenalin 21.4.1; BIOS version 1554.100.64.0.0; Power Plan = Balanced

Testing as of May 21, 2021

Better Gaming Experience As Measured By
Better gaming experience than 100% of Mac Laptops Based on game compatibility and performance of Intel 11th Gen H-series systems and Mac Laptops. Game compatibility: 10 out of 20 top Steam games not supported on MacOS as of 5/26/21. See https://store/steampowered.com/stats/ . 12 out of the top 20 Newzoo games are not supported on MacOS as of 5/26/21. See https://newzoo.com/insights/rankings/top-20-pc-games/ Performance: See above testing results comparing gaming performance on system with 11th Gen Intel® Core™ i5-11400H and NVIDIA RTX 3060 vs. MacBook Pro with a 9th Gen Intel® Core™ i9-9980HK and AMD Radeon Pro 5600M.
Everyone is a gamer As Measured By
Twitch : 7M+ Unique creators streaming each month; 2.5M+ Average viewership at any given moment Steam: 19+ Online now; 4.5M+ Playing now Discord: 150M+ Monthly active users 300M+Creators; 1.4B+ PC Gamers See http://www.twitch.com.tv/p/press-center/ (as of 5/13/21) See http://www.store.steampowered.com/about/ (as of 5/13/21) See https://www.npr.org/2021/03/31/983157378/group-chatting-platform-discord-might-change-social-meida-with-their-business-mo (as of 5/27/21) Worldwide - Based on Intel Internal Research | Q1, 2021

Performance Workshop Demos

Gaming Performance Demo Crysis Remastered Benchmark

Workload Description: Crysis Remastered Island integrated benchmark mode running at 1080p High Settings

Detailed Configurations:

Processor: i9 Intel® Core ™ i9-11980HK Processor; tested on a MSI GP76 Leopard 11UH; memory: 2x8GB DDR4 3200 MHz; Storage: Samsung MZVL21THCLR-00B00 (2x1TB); Display Resolution: 1920x1080; OS: Microsoft Windows 10 Professional version: 20H2 19042.928; Graphics card: RTX 3080; Graphics driver: 462.21; GPU Switch: Hybrid Graphics; Crysis Remastered (Island Benchmark) Version: 2.1.2; Game Resolution/Setting: 1920x1080/High

Processor: AMD Ryzen 9 5900HX Processor; tested on an Asus ROG Strix (G533QS); memory: 32GB 2x16 3200 MHz; Storage: HFM001TD3JX013N (976,762 MBytes (1024 GB)); Display Resolution: 2560 x 1440; OS: Microsoft Windows 10 Professional version: 20H2 19042.928; Graphics card: RTX 3080; Graphics driver: 466.11; GPU Switch: Hybrid Graphics; Crysis Remastered (Island Benchmark) Version: 2.1.2; Game Resolution/Setting: 1920x1080/High

Content Creation Performance Demo DaVinci Resolve

Workload Description: Transcoding of 4:2:2 10-bit 4K content to 1080p 10-bit 4:2:0 using DaVinci Resolve

Detailed Configurations:

Processor: i9 Intel® Core ™ i9-11980HK Processor; tested on a MSI GP76 Leopard 11UH; memory: 2x8GB DDR4 3200 MHz; Storage: Samsung MZVL21THCLR-00B00 (2x1TB); Display Resolution: 1920x1080; OS: Microsoft Windows 10 Professional version: 20H2 19042.928; Graphics card: RTX 3080; Graphics driver: 462.21; GPU Switch: Hybrid Graphics; DaVinci Resolve Version: 17.2; Game Resolution/Setting: 1920x1080/High

Processor: AMD Ryzen 9 5900HX Processor; tested on an Asus ROG Strix (G533QS); memory: 32GB 2x16 3200 MHz; Storage: HFM001TD3JX013N (976,762 MBytes (1024 GB)); Display Resolution: 2560 x 1440; OS: Microsoft Windows 10 Professional version: 20H2 19042.928; Graphics card: RTX 3080; Graphics driver: 466.11; GPU Switch: Hybrid Graphics; DaVinci Resolve Version: 17.2; Game Resolution/Setting: 1920x1080/High

Gaming Performance Demo Valheim

Workload Description: Manual gameplay of Valheim running at 1080p Medium settings on two systems utilizing the same world seed

Detailed Configurations: Processor: i7 Intel® Core ™ i7-1195G7 Processor; tested on an Intel Reference Platform; memory: 16GB (2x8GB) LPDDR4X-4266; Storage: Samsung SSD 980 PRO 1TB; OS: Microsoft Windows 10 Professional version: 20H2 19042.928; Graphics card: Intel(R) Iris(R) Xe Graphics; Graphics driver: 10.0.19042.928

Processor: AMD Ryzen 7 5800U; tested on a HP ProBook; memory: 16GB (2x8GB) DDR4-3200; Storage: Samsung MZVLQ512HALU-000H1 512GB; OS: Microsoft Windows 10 Home version: 10.0.19042.844; Graphics card: AMD Radeon Graphics; Graphics driver: 27.20.14022.3003;

3DMark Sampler Feedback Feature Test

Workload Description: Release Candidate version of 3DMark’s Sampler Feedback Feature test running with Sampler Feedback enabled on supported platforms, and disabled on all platforms

Detailed Configurations:

Processor: i7 Intel® Core ™ i7-1195G7 Processor; tested on an Intel Reference Platform; memory: 16GB (2x8GB) LPDDR4X-4266; Storage: Samsung SSD 980 PRO 1TB; OS: Microsoft Windows 10 Professional version: 20H2 19042.928; Graphics card: Intel(R) Iris(R) Xe Graphics; Graphics driver: 10.0.19042.928; 3DMark Sampler Feedback Feature test RC build

Processor: AMD Ryzen 7 5800U; tested on a HP ProBook; memory: 16GB (2x8GB) DDR4-3200; Storage: Samsung MZVLQ512HALU-000H1 512GB; OS: Microsoft Windows 10 Home version: 10.0.19042.844; Graphics card: AMD Radeon Graphics; Graphics driver: 27.20.14022.3003; 3DMark Sampler Feedback Feature test RC build

AI Performance Nero Score Benchmark

Workload Description: Running Nero Score benchmark application which analysis the contents of 50 photos using AI Inference

Detailed Configurations:

Processor: i5 Intel® Core ™ i5-1135G7 Processor; tested on a Microsoft Surface Pro 7+ with LTE Model 1961; memory: 8 GB LPDDR4X-4267; Storage: Samsung MZ9LQ256HBJQ-00000 256GB; Display Resolution: 2736x1824; OS: Microsoft Windows 10 Pro Insider Preview version: 21370.1; Graphics card: Intel® Iris® Xe Graphics; Graphics driver: 27.20.100.9030

Processor: SQ2 processor; tested on a Microsoft Surface Pro X H Model 1876, memory: 16 GB LPDDR4x-4267; Display Resolution: 2880x1920; OS: Microsoft Windows 10 Home Insider Preview version: 21370.1; Graphics card: Microsoft SQ2 Adreno 690, Graphics driver: 27.20.1460.0

Game Compatibility Valheim

Workload Description: Windows-native game Valheim running under virtualization via the Parallels application on MacOS.

Workload Description: Windows-native game Valheim running under virtualization via the Parallels application on MacOS.

Detailed Configurations:

Processor: Apple M1 Processor; tested on an Apple MacBook Pro 13 (Late 2020); memory: 16GB LPDDR4X-4266; Storage: Apple SSD AP0512Q; OS: Big Sur 11.2.3; Graphics card: Integrated; Display Resolution: 2560x1600

Gaming and Content Creation Valorant / Adobe After Effects

Workload Description: Transitioning from game play in Valorant to content creation in Adobe After Effects on a single 11th Generation H-series based system

Detailed Configurations:

Processor: i7 Intel® Core ™ i7-11800H Processor; tested on a MSI GP76 Leopard 11UH; memory: 2x8GB DDR4 3200 MHz; Storage: 1TB Samsung Evo 980 Pro; Display Resolution: 1920x1080; OS: Microsoft Windows 10 Professional version: 20H2 19042.928; Graphics card: RTX 3080; Graphics driver: 462.21; GPU Switch: Hybrid Graphics;

Press Deck - Advancing PC Mobility

Claim As Measured By

11th Generation Intel® Core™ with Iris® Xe graphics delivers the world's best processor for gaming on a thin and light laptop

In thin & light Windows-based devices, based on unique features and performance testing (as of May 21, 2021) on industry benchmarks and Representative Usage Guides of Intel® Core™ i7-1195G7, including in comparison to AMD Ryzen 7 5800U. Visit 11th Gen Mobile

for details. Results may vary.

Thin and light gaming leadership: 11th Gen U-series offers casual gaming experiences that eclipse the competition.

Based on performance on Grand Theft Auto V (1.47x), Apex Legends (1.64x), Mount & Blade II: Bannerlord (1.87x), GRID 2019 (1.99x) measured on:

Processor: Intel® Core™ i7-1195G7 processor PL1=28W with Intel® Dynamic Tuning Technology (Intel® DTT) enabled at 35W, 4C8T, Memory: LPDDR4-4267MHz, 16GB (2x8GB), dual channel and dual rank, Storage: Samsung MZVL21T0HCLR-00B00, Display Resolution: 1920x1080p, OS: Microsoft Windows 10 20H2-19042.928 Power policy set to AC/Balanced mode for all benchmarks except SYSmark 25 which is measured in AC/BAPCo mode for Performance. All benchmarks run in Admin mode. Graphics: Intel® Xe Graphics, Graphics driver: 27.20.100.9219, Bios version: 309 measured on MSI Prestige 14 pre-production laptop.

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.

Vs.

Processor: AMD Ryzen 7 5800U processor, 8C16T, Memory: 2x8GB DDR4-3200MHz, Storage: Samsung MZVLQ512HALU-000H1, Display Resolution: 1920x1080p, OS: Microsoft Windows 10 20H2-19042.844. Power policy set to AC/Balanced mode for all benchmarks except SYSmark 25 which is measured in AC/BAPCo mode for Performance. All benchmarks run in Admin mode. Graphics: AMD Radeon(TM) Graphics, Graphics driver: 27.20.21002.112, Bios version: 01.02 measured on HP Probook 455 G8.

Testing done using the system's out-of-box performance profile, with Windows EPP slider set to "better performance". Observed 15W sustained power level with bursts at ~25W from AMD's μProf tool

Based on performance on Fortnite (1.46x), Death Stranding (1.81x), Genshin (1.93x), Rust (2.06x), Amnesia Rebirth (2.13x), Valheim (2.78x) on:

Processor: Intel® Core™ i7-1195G7 processor PL1=28W, 4C8T, Memory: LPDDR4-4267MHz, 16GB (2x8GB), dual channel and dual rank, Storage: Samsung PM9A1 SSD, Display Resolution: 1920x1080p, OS: Microsoft Windows 10 20H2-19042.844 Power policy set to AC/Balanced mode for all benchmarks except SYSmark 25 which is measured in AC/BAPCo mode for Performance. All benchmarks run in Admin mode. Graphics: Intel® Xe Graphics, Graphics driver: prod-hi-releases_​2021-01-26-ci-master-7075-revenue-pr-1009268-TGL, Bios version: ucode 16 measured on Intel reference board.

Vs.

Processor: AMD Ryzen 7 5800U processor, 8C16T, Memory: 2x8GB DDR4-3200MHz, Storage: Samsung MZVLQ512HALU-000H1, Display Resolution: 1920x1080p, OS: Microsoft Windows 10 20H2-19042.844. Power policy set to AC/Balanced mode for all benchmarks except SYSmark 25 which is measured in AC/BAPCo mode for Performance. All benchmarks run in Admin mode. Graphics: AMD Radeon(TM) Graphics, Graphics driver: 27.20.21002.112, Bios version: 01.02 measured on HP Probook 455 G8.

Testing done using the system's out-of-box performance profile, with Windows EPP slider set to "better performance". Observed 15W sustained power level with bursts at ~25W from AMD's μProf tool

Testing as of May 21, 2021

The future of light content creation: 11th Gen U-series provides the right compute for the right workload for modern content creation.

As measured by Handbrake 4K AVC to 1080P HEVC 10bit (8x) on:

Processor: Intel® Core™ i7-1195G7 processor PL1=28W, 4C8T, Memory: LPDDR4-4267MHz, 16GB (2x8GB), dual channel and dual rank, Storage: Samsung PM9A1 SSD, Display Resolution: 1920x1080p, OS: Microsoft Windows 10 20H2-19042.844 Power policy set to AC/Balanced mode for all benchmarks except SYSmark 25 which is measured in AC/BAPCo mode for Performance. All benchmarks run in Admin mode. Graphics: Intel® Xe Graphics, Graphics driver: prod-hi-releases_​2021-01-26-ci-master-7075-revenue-pr-1009268-TGL, Bios version: ucode 16 measured on Intel reference board.

Vs.

Processor: AMD Ryzen 7 5800U processor, 8C16T, Memory: 2x8GB DDR4-3200MHz, Storage: Samsung MZVLQ512HALU-000H1, Display Resolution: 1920x1080p, OS: Microsoft Windows 10 20H2-19042.844. Power policy set to AC/Balanced mode for all benchmarks except SYSmark 25 which is measured in AC/BAPCo mode for Performance. All benchmarks run in Admin mode. Graphics: AMD Radeon(TM) Graphics, Graphics driver: 27.20.21002.112, Bios version: 01.02 measured on HP Probook 455 G8.

Testing done using the system's out-of-box performance profile, with Windows EPP slider set to "better performance". Observed 15W sustained power level with bursts at ~25W from AMD's μProf tool. As measured by Video Editing Workflow (1.93x), DaVinci Resolve (1.82x), Cyberlink Power Director (2.56x), Adobe Lightroom Photo Merge(2.36x), Adobe Premiere Pro Scene Detect (1.98x), Topaz Labs Gigapixel Al Photo Enlarge (1.56x), Nero Score (1.46x), MAGIX Vegas Pro (1.60x) on:

Processor: Intel® Core™ i7-1195G7 processor PL1=28W with Intel® Dynamic Tuning Technology (Intel® DTT) enabled at 35W, 4C8T, Memory: LPDDR4-4267MHz, 16GB (2x8GB), dual channel and dual rank, Storage: Samsung MZVL21T0HCLR-00B00, Display Resolution: 1920x1080p, OS: Microsoft Windows 10 20H2-19042.928 Power policy set to AC/Balanced mode for all benchmarks except SYSmark 25 which is measured in AC/BAPCo mode for Performance. All benchmarks run in Admin mode. Graphics: Intel® Xe Graphics, Graphics driver: 27.20.100.9219, Bios version: 309 measured on MSI Prestige 14 pre-production laptop.

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.

Vs.

Processor: AMD Ryzen 7 5800U processor, 8C16T, Memory: 2x8GB DDR4-3200MHz, Storage: Samsung MZVLQ512HALU-000H1, Display Resolution: 1920x1080p, OS: Microsoft Windows 10 20H2-19042.844. Power policy set to AC/Balanced mode for all benchmarks except SYSmark 25 which is measured in AC/BAPCo mode for Performance. All benchmarks run in Admin mode. Graphics: AMD Radeon(TM) Graphics, Graphics driver: 27.20.21002.112, Bios version: 01.02 measured on HP Probook 455 G8.

Testing done using the system's out-of-box performance profile, with Windows EPP slider set to "better performance". Observed 15W sustained power level with bursts at ~25W from AMD's μProf tool.

Testing as of May 21, 2021

6GHz Wi-fi 6E: Consumer Wi-Fi's biggest advancement in 20 years

Nearly 3X faster (Gig+) Wi-Fi speeds

Based on IEEE 802.11ax specification. 160 MHz channels and Wi-Fi 6/6E technology advantages enable significantly higher maximum theoretical PC client speeds vs. standard Wi-Fi 5 products.

Wi-Fi 6 Wi-Fi 6E are based on IEEE 802.11ax and Wi-Fi 5 is based on the IEEE 802.11ac. Wi-Fi 6 and Wi-Fi 5 utilize legacy 5 GHz vs. only Wi-Fi 6E can utilize the new, larger 6GHz Wi-Fi spectrum. Wi-Fi 6E products operate in Wi-Fi 6 mode when used in legacy 5 GHz spectrum.

Intel® Wi-Fi 6/6E (Gig+) products support optional 160 MHz channels which enable the fastest possible maximum speed for typical 2-stream PC client Wi-Fi products. Intel® Wi-Fi 6/6E (Gig+) (802.11ax 2x2 160 MHz) products enable a 2402 Mbps maximum theoretical data rate, ~3X (2.8X) faster than the standard Wi-Fi 5 (802.11ac 2x2 80 MHz) products capable of a theoretical max data rate of 867 Mbps, as documented in IEEE 802.11 wireless standard specifications, and require the use of similarly configured 802.11ax wireless network routers.

April 2019 (Intel® Wi-Fi 6 (Gig+)) December 2020 (Intel® Wi-Fi 6E (Gig+))

Intel Newsroom - World's Best Processor for Thin-and-Light Windows Laptops Just Got Better

Claim As Measured By

World's Best Processor for Thin-and-Light Windows Laptops Just Got Better

In thin & light Windows-based devices, based on unique features and performance testing (as of May 21, 2021) on industry benchmarks and Representative Usage Guides across 5 key usages: productivity, creation, collaboration, gaming and entertainment of Intel® Core™ i7-1195G7, including in comparison to AMD Ryzen 7 5800U. Visit 11th Gen Mobile

for details. Results may vary.

Offer up to 25% overall application performance advantage vs. competition

As measured by SYSmark 25 overall score on

Processor: Intel® Core™ i7-1195G7 processor at PL1= 28W, 4C8T, Memory: LPDDR4-4267MHz, 2x8GB, dual channel and dual rank, Storage: Samsung PM9A1 SSD, Display Resolution: 1920x1080p, OS: Microsoft Windows 10 20H2-19042.844. Power policy set to AC/Balanced mode for all benchmarks except SYSmark 25 which is measured in AC/BAPCo mode for Performance. All benchmarks run in Admin mode. Graphics: Intel® Xe Graphics, Graphics driver: prod-hi-releases_​2021-01-26-ci-master- 7075-revenue-pr-1009268-TGL, Bios version: ucode 16 measured on Intel reference board.

Processor: AMD Ryzen 7 5800U processor, 8C16T, Memory: 2x8GB DDR4-3200MHz, Storage: Samsung 512GB MZVLQ512HALU-000H1, Display Resolution: 1920x1080p, OS: Microsoft Windows* 10 20H2-19042.844. Power policy set to AC/Balanced mode for all benchmarks except SYSmark 25 which is measured in AC/BAPCo mode for Performance. All benchmarks run in Admin mode. Graphics: AMD Radeon(TM) Graphics, Graphics driver: 27.20.21002.112, Bios version: 01.02 measured on HP Probook 455 G8 laptop.

Testing done using the system's out-of-box performance profile, with Windows EPP slider set to "better performance". Observed 15W sustained power level with bursts at ~25W from AMD's μProf tool

Testing as of May 21, 2021

Accelerate the number of designs with Intel® Wi-Fi 6/6E (Gig+)

Approximately 40 IA notebook, desktop, and motherboard designs in market now with more than 20 additional notebook models expected in time for holiday

Enable ISV optimizations to deliver up to 8x faster transcoding and up to double the video editing speed with AI acceleration over the competition

Up to 8x faster transcoding, as measured by HandBrake Workload on

Processor: Intel® Core™ i7-1195G7 processor at PL1= 28W, 4C8T, Memory: LPDDR4-4267MHz, 2x8GB, dual channel and dual rank, Storage: Samsung PM9A1 SSD, Display Resolution: 1920x1080p, OS: Microsoft Windows 10 20H2-19042.844. Power policy set to AC/Balanced mode for all benchmarks except SYSmark 25 which is measured in AC/BAPCo mode for Performance. All benchmarks run in Admin mode. Graphics: Intel® Xe Graphics, Graphics driver: prod-hi-releases_​2021-01-26-ci-master- 7075-revenue-pr-1009268-TGL, Bios version: ucode 16 measured on Intel reference board.

Processor: AMD Ryzen 7 5800U processor, 8C16T, Memory: 2x8GB DDR4-3200MHz, Storage: Samsung 512GB MZVLQ512HALU-000H1, Display Resolution: 1920x1080p, OS: Microsoft Windows* 10 20H2-19042.844. Power policy set to AC/Balanced mode for all benchmarks except SYSmark 25 which is measured in AC/BAPCo mode for Performance. All benchmarks run in Admin mode. Graphics: AMD Radeon(TM) Graphics, Graphics driver: 27.20.21002.112, Bios version: 01.02 measured on HP Probook 455 G8 laptop.

Testing done using the system's out-of-box performance profile, with Windows EPP slider set to "better performance". Observed 15W sustained power level with bursts at ~25W from AMD's μProf tool

Testing as of May 21, 2021

Up to 2x video editing speed, as measured by Adobe Premiere Pro Scene Edit Detect Workload on:

Processor: Intel® Core™ i7-1195G7 processor PL1=28W with Intel® Dynamic Tuning Technology (Intel® DTT) enabled at 35W, 4C8T, Memory: LPDDR4-4267MHz, 16GB (2x8GB), dual channel and dual rank, Storage: Samsung MZVL21T0HCLR-00B00, Display Resolution: 1920x1080p, OS: Microsoft Windows 10 20H2-19042.928 Power policy set to AC/Balanced mode for all benchmarks except SYSmark 25 which is measured in AC/BAPCo mode for Performance. All benchmarks run in Admin mode. Graphics: Intel® Xe Graphics, Graphics driver: 27.20.100.9219, Bios version: 309 measured on MSI Prestige 14 pre-production laptop.

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 5800U processor, 8C16T, Memory: 2x8GB DDR4-3200MHz, Storage: Samsung 512GB MZVLQ512HALU-000H1, Display Resolution: 1920x1080p, OS: Microsoft Windows* 10 20H2-19042.844. Power policy set to AC/Balanced mode for all benchmarks except SYSmark 25 which is measured in AC/BAPCo mode for Performance. All benchmarks run in Admin mode. Graphics: AMD Radeon(TM) Graphics, Graphics driver: 27.20.21002.112, Bios version: 01.02 measured on HP Probook 455 G8 laptop.

Testing done using the system's out-of-box performance profile, with Windows EPP slider set to "better performance". Observed 15W sustained power level with bursts at ~25W from AMD's μProf tool

Testing as of May 21, 2021

Show impressive 1080p gameplay on new and popular titles such as Valheim with up to 2.7x higher frame rate than the competition

As measured by Valheim on

Processor: Intel® Core™ i7-1195G7 processor PL1=, 4C8T, Memory: LPDDR4-4267MHz, 16GB (2x8GB), dual channel and dual rank, Storage: Samsung PM9A1 SSD, Display Resolution: 1920x1080p, OS: Microsoft Windows* 10 20H2-19042.844 Power policy set to AC/Balanced mode for all benchmarks except SYSmark 25 which is measured in AC/BAPCo mode for Performance. All benchmarks run in Admin mode. Graphics: Intel® Xe Graphics, Graphics driver: prod-hi-releases_​2021-01-26-ci-master- 7075-revenue-pr-1009268-TGL, Bios version: ucode 16 measured on Intel reference board.

Processor: AMD Ryzen 7 5800U processor, 8C16T, Memory: 2x8GB DDR4-3200MHz, Storage: Samsung 512GB MZVLQ512HALU-000H1, Display Resolution: 1920x1080p, OS: Microsoft Windows* 10 20H2-19042.844. Power policy set to AC/Balanced mode for all benchmarks. All benchmarks run in Admin mode. Graphics: AMD Radeon(TM) Graphics, Graphics driver: 27.20.14022.3003, Bios version: 01.01.02 measured on HP Probook 455 G8.

Testing done using the system's out-of-box performance profile, with Windows EPP slider set to "better performance". Observed 15W sustained power level with bursts at ~25W from AMD's μProf tool.

Testing as of May 21, 2021

Select new 11th Gen Intel Core designs will continue to accelerate this industry leadership with best-in-class Intel Wi-Fi 6E (Gig+) products which enable gigabit+ speeds, lower latencies, and enhanced reliability via unencumbered Wi-Fi performance in new 6 GHz bands (where available).

"Best-in-class Wi-Fi 6E" Based on IEEE 802.11ax specification. Wi-Fi 6/6E technology advantages related to network managed traffic enable lower latencies, more efficient operation, and higher reliability vs. random contention-based traffic of standard Wi-Fi 5 networks. Intel® Wi-Fi 6/6E (Gig+) support for optional 160 MHz channels enable faster speeds vs. standard Wi-Fi 6/6E products which only support required 80 MHz channels.

New 6 GHz wireless spectrum available to Intel® Wi-Fi 6E (Gig+) products will include many more 160 MHz channels which enable Gigabit Wi-Fi speeds

New, much larger, 6 GHz wireless spectrum is exclusively available to new Wi-Fi 6E devices. This provides protection from neighboring legacy 2.4/5 GHz Wi-Fi networks and more channel options if needed to avoid new neighboring 6 GHz networks.

6 GHz PC Wi-Fi 6E operation requires use of Intel® Wi-Fi 6E (Gig+) products in conjunction with operating systems and routers/APs/Gateways that support Wi-Fi 6E, together with regional spectrum allocation together with the required regulatory certifications.

SSDs with Intel® Optane™ memory are the fastest, enabling you to launch applications such as Adobe Photoshop up to 49% faster.

SSDs with Intel® Optane™ memory are the fastest:

As measured by Intel® Optane™ memory H20 with solid state storage prevails in the majority of tests against each NAND SSD tested. See 11th Gen Mobile for details.

* Testing by Intel as of 5/12/2021, in the following common laptop use cases on shipping configurations from major OEMs as compared to NAND SSDs:

(1) a collection of benchmarks and real-world workloads with drives at 50% prefill including PCMark 10 storage tests, CrystalDiskMark 7, email launch, PDF editor launch, video editor launch, and selected games.

(2) a series of Iometer tests at QD1 and QD2 with drives at 50% prefill. Tests were composed of various combinations of sequential and random read and write scenarios, designed to approximate real-world client PC usage based on Intel research, in both single and mixed modes with span size 8GB. System configuration: Intel® Core™ i7-1165G7 processor (4C8T, Turbo up to 4.70 GHz) on Intel reference platform. Graphics: Intel Iris Xe. Memory: 16GB (2x8GB) DDR4-3200. Storage: 32GB+500GB Intel® Optane™ memory H20 with solid state storage (with Intel® Rapid Storage Technology driver 18.1.3.1036) vs. Samsung PM9A1, Toshiba XG6, and Western Digital SN720 (all 500GB NAND with Microsoft Windows 10 in-box PCIe driver). OS: Microsoft Windows 10 (version 19042.789).

Result: Intel® Optane™ memory H20 with solid state storage prevails in the majority of tests against each NAND SSD.

Launch Adobe Photoshop up to 49% faster while multitasking on an 11th Gen Intel® Core™ processor with 512GB Intel® Optane™ memory H20 with solid state storage vs. a PCIe 3.0 TLC NAND SSD alone

As measured by Adobe Photoshop launch with local file copy workload on 11th Gen Intel® Core™ i7-1185G7 processor with 512GB Intel® Optane™ memory H20 with solid state storage vs. 512GB Western Digital SN750 (PCIe 3.0 TLC NAND SSD)

Processor: Intel® Core™ i7-1185G7 processor 28W PL1 with Intel® Dynamic Tuning Technology (Intel® DTT) enabled, 4C8T, Memory: LPDDR4-4267MHz, 16GB (2x8GB), Display Resolution: 1920x1080, OS: Microsoft Windows* 10 20H2-19042.572, Graphics: Intel® Xe Graphics, Graphics driver: 27.20.100.8431, BIOS version: TGLSFWI1.R00.3465.A01.2011140118 measured on Intel reference board.

Testing as of January 20, 2021

Intel® 5G Solution 5000 for PCs enables nearly 5X faster speeds vs. Intel 1Gbps LTE cellular based solutions.

Intel® (1Gbps) CAT 16 LTE cellular modem for PCs is based on the 3GPP Release 13 specification and supports 60-100 MHz wide aggregate bandwidth utilizing 3-5CA respectively, and utilizes 4X4/2x2 MIMO configurations to enable up to 1Gbps maximum theoretical download data rates.

The Intel® 5G NR modem for PCs is based on the Release 15 of the 3GPP standard, and supports 2x100 MHz channels, along with 4x4 MIMO, coupled with 256 QAM Modulation and can enable up to 4.7 Gbps theoretical download data rates which are nearly 5X faster (4.7X) than what is theoretically posible with Intel CAT 16 LTE products, as documented in 3GPP Rel 13 & Rel 15 standard specifications and requires the use of similarly configured 3GPP cellular networks.

The Intel® 5G Solution 5000 product for PCs can enable up to 4.7 Gbps theoretical download data rates which are nearly 5X faster (4.7X) than what is theoretically possible with the current Intel 1.0 Gbps LTE product, as documented in 3GPP Rel 13 & Rel 15 standard specifications and requires the use of similarly configured 3GPP cellular networks.

5G performance may vary and requires a carrier contract for 5G service, which is subject to regional availability and may not be available in all markets.

Test Date: 5/20/2021

Michelle Johnston Holthaus - Virtual Keynote

Speaker/Claim As Measured By
Lisa Spelman 3rd Gen Xeon Scalable processors

3rd Gen Xeon Scalable processors deliver nearly 50 percent performance improvement, expanded memory bandwidth, faster I/O with more channels of PCI Express and advanced security capabilities with Intel Software Guard Extensions.

Visit 3rd Gen Xeon Scalable Processors

(Claim 125) for details. Results may vary.

Steve Long 11th Gen Intel Core H-series

3 weeks ago we launched our 11th Gen H-Series mobile processors - the world's best gaming laptop processors - offering desktop caliber game play from anywhere.

As measured by in-game benchmark mode performance (score or frames per second) where available, or frames per second where benchmark mode is unavailable, on the following 29 games: Ashes of the Singularity: Escalation,Assassin's Creed: Odyssey,Borderlands 3,Counter-Strike: Global Offensive, Crysis Remastered,DOTA 2,F1 2020,Far Cry New Dawn,Grand Theft Auto V,Gears 5,Grid 2019,Hitman 3,League of Legends,Metro Exodus,Player Unknown's Battlegrounds(PUBG),Red Dead Redemption 2,Serious Sam 4,Shadow of the Tomb Raider,Sid Meier's Civilization 6: Gathering Storm, Strange Brigade,Tom Clancy's Rainbow Six Siege,Tom Clancy's The Division 2,Total War: Three Kingdoms: Dynasty Mode, Troy: A Total War Saga: Siege,War Thunder,Watch Dogs: Legion,World of Tanks Encore RT, World of Warcraft: Shadowlands,World War Z. Results: The 11th Gen Intel® Core™ i9-11980HK-based system scored higher on the majority of the 29 game titles tested.

Processor: 11th Gen Intel® Core™ i9-11980HK processor, 8C16T; tested on a pre- production OEM design, memory: 2X 16 GB DDR4- 3200MHz; Storage: Samsung 970 Evo Plus 1TB ; Display Resolution: 1920x1080; OS: Microsoft Windows 10 Pro 20H2 19042.867; Graphics card: NVIDIA RTX 3080 with 16 GB GDDR6 RAM, Graphics driver: 27.21.14.6221; Max GFX power = 155W, BIOS version 30D. Power Plan = Balanced, AC power slider setting = Better performance; Game testing settings: performance optimization SW: Used highest performance setting (Performance Level = High), Fan Speed = Cooler Boost, GPU Switch = Discrete Graphics

Processor: 10th Gen Intel® Core™ i9-10980HK processor, 8C16T; tested on MSI GE76 laptop, memory: 2X 16 GB DDR4- 3200MHz; Storage: Samsung 970 Evo Plus 1TB ; Display Resolution: 1920x1080; OS: Microsoft Windows 10 Home 20H2 19042.867; Graphics card: NVIDIA RTX 3080 with 16 GB GDDR6 RAM, Graphics driver: 27.21.14.6172; Max GFX power = 155W ,BIOS version 109. Power Plan = Balanced, AC power slider setting = Better performance; Game testing settings: MSI Dragon Center: Used highest performance setting (Scenario = Extreme Performance) Gaming Mode = On, GPU Switch = Discrete Graphics Mode

Processor: AMD Ryzen 9 5900HX processor, 8C16T; tested in Lenovo Legion R9000K laptop, memory: 2X 16 GB DDR4- 3200MHz; Storage: Western Digital WDC PC SN730 SDBPNTY-1T00-1101 1TB ; Display Resolution: 1920x1080; OS: Microsoft Windows 10 Home 20H2 19042.746; Graphics card: NVIDIA RTX 3080 with 16 GB GDDR6 RAM, Graphics driver: 27.21.14.6156;Max GFX power = 165W, BIOS version GKCN34WW. Power Plan = Balanced, AC power slider setting = Better performance; Game testing settings: Lenovo PC Management: Used highest performance setting (Performance Mode) GPU Switch = Discrete Graphics Mode

Testing as of May 3, 2021

Chuck Duvall: Gaming Demo powered by 11th Gen Intel Core H-series

Head-to-Head Gaming demo featuring Intel's first H-series product on 10nm process technology and H-series first new microarchitecture since Skylake. The new H-Series delivers an amazing leap forward for Enthusiast, Mobile Workstation and Commercial laptops.

More than 20% win vs competition

Crysis Remastered | Gameplay Settings - 1080p High

Tested as of 05/24/2021

Platform: MSI GP76 Leopard 11UH

Processor: Intel® Core™ i9-11980HK Processor (8C/16T, 45W TDP)

Memory: 2x8GB DDR4 3200 MHz SDRAM

Storage: Samsung MZVL21THCLR-00B00 (2x1TB)

Display Resolution: 1920 x 1080 display

OS: Microsoft Windows 10 Pro, Build: 19042.985

Graphics: RTX 3080

Platform: Asus ROG Strix (G533QS)

Processor: Ryzen 9 5900HX (8C/16T, 45W TDP)

Memory: 2x16GB DDR4 3200 MHz SDRAM

Storage: HFM001TD3JX013N (1024 GB)

Display Resolution: 2560 x 1440 display

OS: Microsoft Windows 10 Pro, Build 19042.928

Graphics card: RTX 3080

Steve Long 11th Gen Intel Core U-series - New Skus

Maintaining a 25% overall application performance advantage vs. comp.

As measured by SYSmark 25 overall score on

Processor: Intel® Core™ i7-1195G7 processor at PL1= 28W, 4C8T, Memory: LPDDR4-4267MHz, 2x8GB, dual channel and dual rank, Storage: Samsung PM9A1 SSD, Display Resolution: 1920x1080p, OS: Microsoft Windows 10 20H2-19042.844. Power policy set to AC/Balanced mode for all benchmarks except SYSmark 25 which is measured in AC/BAPCo mode for Performance. All benchmarks run in Admin mode. Graphics: Intel® Xe Graphics, Graphics driver: prod-hi-releases_​2021-01-26-ci-master- 7075-revenue-pr-1009268-TGL, Bios version: ucode 16 measured on Intel reference board.

Processor: AMD Ryzen 7 5800U processor, 8C16T, Memory: 2x8GB DDR4-3200MHz, Storage: Samsung 512GB MZVLQ512HALU-000H1, Display Resolution: 1920x1080p, OS: Microsoft Windows* 10 20H2-19042.844. Power policy set to AC/Balanced mode for all benchmarks except SYSmark 25 which is measured in AC/BAPCo mode for Performance. All benchmarks run in Admin mode. Graphics: AMD Radeon(TM) Graphics, Graphics driver: 27.20.21002.112, Bios version: 01.02 measured on HP Probook 455 G8 laptop.

Testing done using the system's out-of-box performance profile, with Windows EPP slider set to "better performance". Observed 15W sustained power level with bursts at ~25W from AMD's μProf tool

Testing as of May 21, 2021

We are unleashing ISV optimizations to deliver up to 8x faster transcoding (than comp)

As measured by HandBrake Workload on

Processor: Intel® Core™ i7-1195G7 processor at PL1= 28W, 4C8T, Memory: LPDDR4-4267MHz, 2x8GB, dual channel and dual rank, Storage: Samsung PM9A1 SSD, Display Resolution: 1920x1080p, OS: Microsoft Windows 10 20H2-19042.844. Power policy set to AC/Balanced mode for all benchmarks except SYSmark 25 which is measured in AC/BAPCo mode for Performance. All benchmarks run in Admin mode. Graphics: Intel® Xe Graphics, Graphics driver: prod-hi-releases_​2021-01-26-ci-master- 7075-revenue-pr-1009268-TGL, Bios version: ucode 16 measured on Intel reference board.

Processor: AMD Ryzen 7 5800U processor, 8C16T, Memory: 2x8GB DDR4-3200MHz, Storage: Samsung 512GB MZVLQ512HALU-000H1, Display Resolution: 1920x1080p, OS: Microsoft Windows* 10 20H2-19042.844. Power policy set to AC/Balanced mode for all benchmarks except SYSmark 25 which is measured in AC/BAPCo mode for Performance. All benchmarks run in Admin mode. Graphics: AMD Radeon(TM) Graphics, Graphics driver: 27.20.21002.112, Bios version: 01.02 measured on HP Probook 455 G8 laptop.

Testing done using the system's out-of-box performance profile, with Windows EPP slider set to "better performance". Observed 15W sustained power level with bursts at ~25W from AMD's μProf tool

Testing as of May 21, 2021

Up to double the video editing speed with our AI acceleration over the competition.

As measured by Adobe Premiere Pro Scene Edit Detect Workload

Processor: Intel® Core™ i7-1195G7 processor PL1=28W with Intel® Dynamic Tuning Technology (Intel® DTT) enabled at 35W, 4C8T, Memory: LPDDR4-4267MHz, 16GB (2x8GB), dual channel and dual rank, Storage: Samsung MZVL21T0HCLR-00B00, Display Resolution: 1920x1080p, OS: Microsoft Windows 10 20H2-19042.928 Power policy set to AC/Balanced mode for all benchmarks except SYSmark 25 which is measured in AC/BAPCo mode for Performance. All benchmarks run in Admin mode. Graphics: Intel® Xe Graphics, Graphics driver: 27.20.100.9219, Bios version: 309 measured on MSI Prestige 14 pre-production laptop.

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 5800U processor, 8C16T, Memory: 2x8GB DDR4-3200MHz, Storage: Samsung 512GB MZVLQ512HALU-000H1, Display Resolution: 1920x1080p, OS: Microsoft Windows* 10 20H2-19042.844. Power policy set to AC/Balanced mode for all benchmarks except SYSmark 25 which is measured in AC/BAPCo mode for Performance. All benchmarks run in Admin mode. Graphics: AMD Radeon(TM) Graphics, Graphics driver: 27.20.14022.3003, Bios version: 01.01.02 measured on HP Probook 455 G8.

Testing done using the system's out-of-box performance profile, with Windows EPP slider set to "better performance". Observed 15W sustained power level with bursts at ~25W from AMD's μProf tool.

Testing as of May 21, 2021

Intel has the world's best CPUs.

In thin & light Windows-based devices, based on unique features and performance testing (as of May 21, 2021) on industry benchmarks and Representative Usage Guides across 5 key usages: productivity, creation, collaboration, gaming and entertainment of Intel® Core™ i7-1195G7, including in comparison to AMD Ryzen 7 5800U. Visit https://www.intel.com

for details. Results may vary.

Chuck Duvall: Evo Content Creation Demo powered by 11th Gen Intel Core U-series

Adobe Premiere Pro: Multi-Camera Playback - 6 4K30 videos

AMD: Dropped Frames = 99%

Intel: Dropped Frames = 0.1%

Adobe Premier Pro | Version 15.20 (Build 35)

RUG1336-1.03 - Adobe Premier Pro Multicam Playback Using 6-4K

Tested as of 05/13/2021

Platform: MSI Prestige (Pre-Production)

Processor: Intel® Core™ i7-1195G7 Processor (4C/8T), PL1=28W with Intel® Dynamic Tuning Technology enabled at 35W

Memory: 16GB LPDDR4-4267 Mhz SDRAM

Storage: SAMSUNG MZVL21T0HCLR-00B00

Display Resolution: 1920 x 1080 display

OS: Microsoft Windows 10 Pro 10.0.19042.928

Graphics: Intel® Iris® Xe Graphics

Platform: HP ProBook 455 G8

Processor: AMD Ryzen 7 5800U with Radeon Graphics (8C/16T), Observed 15W sustained power level with bursts at ~25W from AMD's μProf tool

Memory: 32GB DDR4-3200 DDR4 SDRAM

Storage: MZVL21T0HCLR-00B00

Display Resolution: 1920 x 1080 display

OS: Microsoft Windows 10 Home 10.0.19042.844

Graphics card: AMD Radeon™ Graphics

Benchmark & Workload Descriptions

Benchmarks:

  • CrossMark is a benchmark from the BAPCo consortium that measures the performance across Windows, iOS or macOS platforms. CrossMark uses a combination of open source and proprietary workloads to assess system performance scores in the areas of Productivity, Creativity and Responsiveness. is a benchmark from the BAPCo consortium that measures the performance across Windows, iOS or macOS platforms. CrossMark uses a combination of open source and proprietary workloads to assess system performance scores in the areas of Productivity, Creativity and Responsiveness.
  • PCMark 10 Applications is published by UL/Futuremark, a for-profit company owned by Underwriters Laboratories (UL). The PCMark 10 Applications test runs pre-installed Microsoft Office and supports UWP-ARM.
  • SYSmark 25 is a benchmark from the BAPCo consortium that measures the performance of Windows platforms. SYSmark 25 tests three usage scenarios: Productivity, Creativity and Responsiveness. SYSmark contains real applications from Independent Software Vendors such as Microsoft and Adobe

Workloads:

  • · 3DMark Sampler Feedback Feature Test is a test from UL Benchmarks that measures gaming performance for PCs with DirectX 12 feature - sampler feedback.
  • Adobe After Effects workload measures the time in seconds it takes Adobe After Effects to perform a “Content Aware Fill” on a source video.
  • Adobe Photoshop Elements workload measures the time it takes Adobe Photoshop Elements to process the “Colorize Photo” feature on 7 photos.
  • Adobe Photoshop Content-Aware Fill workload measures the time it takes Adobe Photoshop to render a preview of a Content-Aware-Fill effect.
  • Adobe Photoshop Radial Blur Filter workload

    measures the time it takes Adobe Photoshop to render a blur effect on one layer of a 2-layer photoshop file.

  • Adobe Premiere Pro Multi-cam playback (Version: Adobe Premiere Pro - Version 15.2.0 (Build 15)) measures the number of frames dropped per second in Premiere Pro when a timeline is played back using the Multi-Cam feature. The video source has a multi camera source sequence that consists of six 30-second 4K clips. 5 clips are from a GoPro Hero8 Black camera: 4K29.97fps AVC @60Mbps; 1 clip is from a Mavic Air 2 drone: 4K29.97fps AVC @ 103Mbps.
  • Adobe Premiere Pro Scene Edit Detect (Version: Adobe Premiere Pro - Version 15.2.0 (Build 15)) measures the time it takes to perform multiple operations of a video editing scenario featuring 2 operations using Adobe Premiere Pro, Scene Edit Detect and HEVC export using hardware decoding. The video source is 4K, H.265, 24FPS, 10-bit, MP4 footage, recorded at a bitrate of approximately 98.7 Mbps.
  • DaVinci Resolve workload (Version: DaVinci Resolve Studio 17.2 Build 11) measures the time it takes to transcode a 4K, 10-bit, 4:2:2 video to 1080p, 10-bit, 4:2:0 format. The source file is a 30 seconds 4K@60fps, 10-bit HEVC video taken by Canon EOS R5.
  • Export Microsoft PowerPoint to PDF (Software: Office 365 MSO (Version 2014 - Build 13929.20372)) 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.
  • HandBrake Workload (Version: 20210403145615-e58b78c6f-master) measures the average FPS encoding speed for HandBrake Nightly to transcode a 4K HEVC 10bit video to 1080p HEVC 10bit. The source file is a 4K 3840 x 2160 HEVC 10bit MP4 video file. The output file is a 10bit 1080p HEVC MKV video file. This workload uses hardware encoding for the encoding process if available.
  • Handbrake 1.3.3 Transcoding Workload measures the time it takes HandBrake to transcode a 30 seconds video clip from 1080p [H.264, 26Mbps, 30FPS] to 720p [H.264, 5Mbps, 30FPS]. This workload can be used to test devices enabled with QSV, VCE, NVENC, or CPU only testing. Hardware encoding is used in this testing.
  • MAGIX Vegas Pro (Version 18.0 Build 527) measures the time it takes MAGIX Vegas Pro to render a 4K H.264 clip with a "Style Transfer" effect applied. The render is made using hardware encoding if available. The video is a H.264 4K MP4 file recorded at a bit rate of 72.2 Mb/s, and ~60seconds in length.
  • Microsoft Word document to PDF conversion (Software: Office 365 MSO (Version 2014 - Build 13929.20372)) 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.
  • Nero Score is a CPU AI benchmark that measures CPU-based AI inference time (i.e. how many pictures are processed per second, based on a pre-trained model). The benchmark measures a processor's multi-core power, while pushing the graphics card to its maximum limit, with real world multimedia use cases.
  • Topaz Labs Gigapixel AI Photo Upscale (Version: Topaz Labs Gigapixel AI 5.5.2) 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.

Nash Palaniswamy- Computex Forum - AIoT Evolution

Claim Processor Family System Configuration Measurement Measurement Period
50% Improvement on average (geomean) vs AMD EPYC™ 7763 on 20 key customer AI Workloads 3rd Generation Intel® Xeon® Platinum processor

1.5x higher AI performance with 3rd Gen Intel® Xeon® Scalable processor supporting Intel® DL Boost vs. FP32 AMD EPYC 7763 (64C Milan): (geomean of 20 workloads including logistic regression inference, logistic regression fit, ridge regression inference, ridge regression fit, linear regression inference, linear regression fit, elastic net inference, XGBoost Fit, XGBoost predict, SSD-ResNet34 inference, Resnet50-v1.5 inference, Resnet50-v1.5 training, BERT Large SQuaD inference, kmeans inference, kmeans fit, brute_​​knn inference, SVC inference, SVC fit, dbscan fit, traintestsplit) 3rd Gen Intel Xeon: 8380: 1-node, 2x Intel Xeon Platinum 8380 (40C/2.3GHz, 270W TDP) processor on Intel Software Development Platform with 512 GB (16 slots/ 32GB/ 3200) total DDR4 memory, ucode X55260, HT on, Turbo on, Ubuntu 20.04 LTS, 5.4.0-65-generic/5.4.0-64-generic, 1x Intel_​​SSDSC2KG96, Intel SSDPE2KX010T8, tested by Intel, and results as of March 2021.

AMD: 7763: 1-node, 2-socket AMD EPYC 7763 (64C/2.45GHz, 280W cTDP) on GIGABYTE R282-Z92 server with 512 GB (16 slots/ 32GB/ 3200) total DDR4 memory, ucode 0xa001114, SMT on, Boost on, Power deterministic mode, Ubuntu 20.04 LTS, 5.4.0-65-generic, 1x Samsung_​​MZ7LH3T8/INTEL SSDSC2KG019T8, tested by Intel, and results as of March 2021.

ResNet50-v1.5 Intel : gcc-9.3.0, oneDNN 1.6.4, BS=128, INT8, TensorFlow 2.4.1 with Intel optimizations for 3rd Gen Intel Xeon Scalable processor, upstreamed to TensorFlow- 2.5 (container- intel/intel-optimized-tensorflow:tf-r2.5-icx-b631821f), Model zoo: https://github.com/IntelAI/models/tree/icx-launch-public/quickstart, ResNet50-v1.5 AMD : gcc-9.3.0, oneDNN 1.6.4, BS=128, FP32, TensorFlow- 2.4.1, Model zoo: https://github.com/IntelAI/models/tree/icx-launch-public/benchmarks/image_recognition/tensorflow/resnet50v1_5

ResNet50-v1.5 Training Intel : gcc-9.3.0, oneDNN 1.6.4, BS=256, FP32, TensorFlow 2.4.1 with Intel optimizations for 3rd Gen Intel Xeon Scalable processor, upstreamed to TensorFlow- 2.5 (container- intel/intel-optimized-tensorflow:tf-r2.5-icx-b631821f), Model zoo: https://github.com/IntelAI/models/tree/icx-launch-public/quickstart, ResNet50-v1.5 Training AMD : gcc-9.3.0, oneDNN 1.6.4, BS=256, FP32, TensorFlow- 2.4.1, Model zoo: https://github.com/IntelAI/models/tree/icx-launch-public/benchmarks/image_recognition/tensorflow/resnet50v1_5 SSD-ResNet34 Intel : gcc-9.3.0, oneDNN 1.6.4, BS=1, INT8,

TensorFlow 2.4.1 with Intel optimizations for 3rd Gen Intel Xeon Scalable processor, upstreamed to TensorFlow- 2.5 (container- intel/intel-optimized-tensorflow:tf-r2.5-icx-b631821f), Model zoo: https://github.com/IntelAI/models/tree/icx-launch-public/quickstart/, AMD : SSD-ResNet34, gcc-9.3.0, oneDNN 1.6.4, BS=1, FP32, TensorFlow- 2.4, Model zoo: https://github.com/IntelAI/models/tree/icx-launch-public/benchmarks/object_detection/tensorflow/ssd-resnet34 BERT-Large SQuAD Intel : gcc-9.3.0, oneDNN 1.6.4, BS=1, INT8,

TensorFlow 2.4.1 with Intel optimizations for 3rd Gen Intel Xeon Scalable processor, upstreamed to TensorFlow- 2.5 (container- intel/intel-optimized-tensorflow:tf-r2.5-icx-b631821f), Model zoo: https://github.com/IntelAI/models/tree/icx-launch-public/quickstart/, AMD : BERT-Large SQuAD, gcc-9.3.0, oneDNN 1.6.4, BS=1, FP32, TensorFlow- 2.4.1, Model zoo: https://github.com/IntelAI/models/tree/icx-launch-public/benchmarks/language_modeling/tensorflow/bert_large Python : Python 3.7.9, SciKit-Learn : Sklearn 0.24.1, oneDAL : Daal4py 2021.2, XGBoost : XGBoost 1.3.3 : Benchmarks: https://github.com/IntelPython/scikit-learn_bench

geomean of 20 workloads including logistic regression inference, logistic regression fit, ridge regression inference, ridge regression fit, linear regression inference, linear regression fit, elastic net inference, XGBoost Fit, XGBoost predict, Mobilenet-v1 inference, Resnet50-v1.5 inference, Resnet50-v1.5 training, BERT Large SQuaD inference, kmeans inference, kmeans fit, brute_​​knn inference, SVC inference, SVC fit, dbscan fit, traintestsplit New: March 2021 Baseline: March 2021
30% Improvement on average (geomean) vs NVIDIA A100 GPU on 20 key customer AI workloads 3rd Generation Intel® Xeon® Platinum processor

.3x higher AI performance with 3rd Gen Intel® Xeon® Scalable processor supporting Intel® DL Boost vs. NVIDIA A100 GPU: (geomean of 20 workloads including logistic regression inference, logistic regression fit, ridge regression inference, ridge regression fit, linear regression inference, linear regression fit, elastic net inference, XGBoost Fit, XGBoost predict, SSD-ResNet34 inference, Resnet50-v1.5 inference, Resnet50-v1.5 training, BERT Large SQuaD inference, kmeans inference, kmeans fit, brute_​​knn inference, SVC inference, SVC fit, dbscan fit, traintestsplit) 3rd Gen Intel Xeon: 8380: 1-node, 2x Intel Xeon Platinum 8380 (40C/2.3GHz, 270W TDP) processor on Intel Software Development Platform with 512 GB (16 slots/ 32GB/ 3200) total DDR4 memory, ucode X55260, HT on, Turbo on, Ubuntu 20.04 LTS, 5.4.0-65-generic, 1x Intel_​​SSDSC2KG96, Intel SSDPE2KX010T8, tested by Intel, and results as of March 2021.

DL Measurements on A100: 1-node, 2-socket AMD EPYC 7742 (64C) with 256GB (8 slots/ 32GB/ 3200) total DDR4 memory, ucode 0x8301038, HT on, Turbo on, Ubuntu 20.04 LTS, 5.4.0-42-generic, INTEL SSDSC2KB01, NVIDIA A100-PCIe-40GB, HBM2-40GB, Accelerator per node =1, tested by Intel, and results as of March 2021.

ML Measurements on A100 : 1-node, 2-socket AMD EPYC 7742 (64C) with 512 GB (16 slots/ 32GB/ 3200) total DDR4 memory, ucode 0x8301034, HT on, Turbo on, Ubuntu 18.04.5 LTS, 5.4.0-42-generic,NVIDIA A100 (DGX-1), 1.92TB M.2 NVMe, 1.92TB M.2 NVMe RAID tested by Intel, and results as of March 2021.

ResNet50-v1.5 Intel : gcc-9.3.0, oneDNN 1.6.4, BS=1, INT8, TensorFlow 2.4.1 with Intel optimizations for 3rd Gen Intel Xeon Scalable processor, upstreamed to TensorFlow- 2.5 (container- intel/intel-optimized-tensorflow:tf-r2.5-icx-b631821f), Model zoo: https://github.com/IntelAI/models/tree/icx-launch-public/quickstart ResNet50-v1.5 NVIDIA :A100 (7 instance/GPU), BS=1,TensorFlow - 1.5.5 (NGC: tensorflow:21.02-tf1-py3), https://github.com/NVIDIA/DeepLearningExamples/tree/master/TensorFlow/Classification/ConvNets/resnet50v1.5, TF AMP (FP16+TF32);

ResNet50-v1.5 Training Intel : gcc-9.3.0, oneDNN 1.6.4, BS=256, FP32, TensorFlow 2.4.1 with Intel optimizations for 3rd Gen Intel Xeon Scalable processor, upstreamed to TensorFlow- 2.5 (container- intel/intel-optimized-tensorflow:tf-r2.5-icx-b631821f), Model zoo: https://github.com/IntelAI/models/tree/icx-launch-public/quickstart.

ResNet50-v1.5 Training NVIDIA :A100, BS=256,TensorFlow - 1.5.5 (NGC: tensorflow:21.02-tf1-py3),https://github.com/NVIDIA/DeepLearningExamples/tree/master/TensorFlow/Classification/ConvNets/resnet50v1.5, TF32; BERT-Large SQuAD Intel : gcc-9.3.0, oneDNN 1.6.4, BS=1, INT8,

TensorFlow 2.4.1 with Intel optimizations for 3rd Gen Intel Xeon Scalable processor, upstreamed to TensorFlow- 2.5 (container- intel/intel-optimized-tensorflow:tf-r2.5-icx-b631821f), Model zoo: https://github.com/IntelAI/models/tree/icx-launch-public/quickstart/ A100 : BERT-Large SQuAD, BS=1, A100 (7 instance/GPU), TensorFlow - 1.5.5 (NGC: tensorflow:20.11-tf1-py3), https://github.com/NVIDIA/DeepLearningExamples/tree/master/TensorFlow/LanguageModeling/BERT,TF AMP (FP16+TF32) ; SSD-ResNet34 Intel : gcc-9.3.0, oneDNN 1.6.4, BS=1, INT8,

TensorFlow 2.4.1 with Intel optimizations for 3rd Gen Intel Xeon Scalable processor, upstreamed to TensorFlow- 2.5 (container- intel/intel-optimized-tensorflow:tf-r2.5-icx-b631821f), Model zoo: https://github.com/IntelAI/models/tree/icx-launch-public/quickstart/, SSD-ResNet34 NVIDIA :A100 (7 instance/GPU), BS=1,Pytorch - 1.8.0a0 (NGC Container, latest supported): A100 : SSD-ResNet34 (NGC: pytorch:20.11-py3), https://github.com/NVIDIA/DeepLearningExamples/tree/master/PyTorch/Detection/SSD, AMP (FP16 +TF32) ; Python : Intel: Python 3.7.9, Scikit-Learn : Sklearn 0.24.1, OneDAL : Daal4py 2021.2, XGBoost: XGBoost 1.3.3 Python : NVIDIA A100 : Python 3.7.9, Scikit-Learn : Sklearn 0.24.1, CuML 0.17, XGBoost 1.3.0dev.rapidsai0.17, Nvidia RAPIDS : RAPIDS 0.17, CUDA Toolkit : CUDA 11.0.221 Benchmarks: https://github.com/IntelPython/scikit-learn_bench

geomean of 20 workloads including logistic regression inference, logistic regression fit, ridge regression inference, ridge regression fit, linear regression inference, linear regression fit, elastic net inference, XGBoost Fit, XGBoost predict, SSD-ResNet34 inference, Resnet50-v1.5 inference, Resnet50-v1.5 training, BERT Large SQuaD inference, kmeans inference, kmeans fit, brute_​​knn inference, SVC inference, SVC fit, dbscan fit, traintestsplit New: March 2021 Baseline: March 2021
Monte Carlo- 50% Improvement Intel® Xeon 8380 vs AMD EPYC™ "Milan" 7763 3rd Generation Intel® Xeon® Platinum processor

1.50x higher performance on Monte Carlo FSI Kernel 3rd Gen Intel Xeon:8380: 1-node, 2x 3rd Gen Intel Xeon Platinum 8380 (40C/2.3GHz, 270W TDP) processor on Intel Software Development Platform with 256 GB (16 slots/ 16GB/ 3200) total DDR4 memory, ucode 0x261, HT on, Turbo on, CentOS Linux 8.3.2011, 4.18.0-240.1.1.el8_​​3.crt1.x86_​​64, 1x Intel_​​SSDSC2KG96, App Version: v1.1; Build notes: Tools: Intel MKL 2020u4, Intel C Compiler 2020u4, Intel Threading Building Blocks 2020u4; threads/core: 1; Turbo: used; Build knobs: -O3 -xCORE-AVX512 -qopt-zmm-usage=high -fimf-precision=low -fimf-domain-exclusion=31 -no-prec-div -no-prec-sqrt

AMD: 7763: 1-node, 2-socket AMD EPYC 7763 (64C/2.45GHz, 280W cTDP) on GIGABYTE R282-Z92 server with 512 GB (16 slots/ 32GB/3200) total DDR4 memory, ucode 0xa001114, SMT on, Boost on, Power deterministic mode, NPS=4, CentOS Linux 8.3.2011, 4.18.0-240.1.1.el8_​​3.crt1.x86_​​64, 1x Samsung_​​MZ7LH3T8, App Version: v1.1; Build notes: Tools: Intel MKL 2020u4, Intel C Compiler 2020u4, Intel Threading Building Blocks 2020u4; threads/core: 2; Turbo: used; Build knobs: -O3 -march=core-avx2 -fimf-precision=low -fimf-domain-exclusion=31 -no-prec-div -no-prec-sqrt Tested by Intel and results as of March 2021

Monte Carlo FSI Kernel New: March 2021 Baseline: March 2021
Relion- 32% Improvement Intel® Xeon 8380 vs. AMD EPYC™ "Milan" 7763 3rd Generation Intel® Xeon® Platinum processor

1.32x higher performance on RELION Plasmodium Ribosome 3rd Gen Intel Xeon: 8380: 1-node, 2x 3rd Gen Intel Xeon Platinum 8380 (40C/2.3GHz, 270W TDP) processor on Intel Software Development Platform with 256 GB (16 slots/ 16GB/ 3200) total DDR4 memory, ucode 0x261, HT on, Turbo on, CentOS Linux 8.3.2011, 4.18.0-240.1.1.el8_​​3.crt1.x86_​​64, 1x Intel_​​SSDSC2KG96, App Version: 3_​​1_​​1; Build notes: Tools: Intel C Compiler 2020u4, Intel MPI 2019u9; threads/core: 2; Turbo: used; Build knobs: -O3 -ip -g -debug inline-debug-info -xCOMMON-AVX512 -qopt-report=5 -restrict

AMD: 7763: 1-node, 2-socket AMD EPYC 7763 (64C/2.45GHz, 280W cTDP) on GIGABYTE R282-Z92 server with 512 GB (16 slots/ 32GB/3200) total DDR4 memory, ucode 0xa001114, SMT on, Boost on, Power deterministic mode, NPS=4, CentOS Linux 8.3.2011, 4.18.0-240.1.1.el8_​​3.crt1.x86_​​64, 1x Samsung_​​MZ7LH3T8, App Version: 3_​​1_​​1; Build notes: Tools: Intel C Compiler 2020u4, Intel MPI 2019u9; threads/core: 2; Turbo: used; Build knobs: -O3 -ip -g -debug inline-debug-info -march=core-avx2 -qopt-report=5 -restrict Tested by Intel and results as of March 2021

RELION Plasmodium Ribosome New: March 2021 Baseline: March 2021
NAMD- 27% Better performance Intel® Xeon 8380 vs. AMD EPYC™ "Milan" 7763 3rd Generation Intel® Xeon® Platinum processor

1.27x higher performance on NAMD STMV 1.27x higher performance on NAMD (geomean of Apoa1, STMV) 3rd Gen Intel Xeon: 8380: 1-node, 2x 3rd Gen Intel Xeon Platinum 8380 (40C/2.3GHz, 270W TDP) processor on Intel Software Development Platform with 256 GB (16 slots/ 16GB/ 3200) total DDR4 memory, ucode 0x261, HT on, Turbo on, CentOS Linux 8.3.2011, 4.18.0-240.1.1.el8_​​3.crt1.x86_​​64, 1x Intel_​​SSDSC2KG96, App Version: 2.15-Alpha1 (includes AVX tiles algorithm); Build notes: Tools: Intel MKL, Intel C Compiler 2020u4, Intel MPI 2019u8, Intel Threading Building Blocks 2020u4; threads/core: 2; Turbo: used; Build knobs: -ip -fp-model fast=2 -no-prec-div -qoverride-limits -qopenmp-simd -O3 -xCORE-AVX512 -qopt-zmm-usage=high AMD: 7763: 1-node, 2x AMD EPYC 7763 (64C/2.45GHz, 280W cTDP) on GIGABYTE R282-Z92 server with 512 GB (16 slots/ 32GB/3200) total DDR4 memory, ucode 0xa001114, SMT on, Boost on, Power deterministic mode, NPS=4, CentOS Linux 8.3.2011, 4.18.0-240.1.1.el8_​​3.crt1.x86_​​64, 1x Samsung_​​MZ7LH3T8, App Version: 2.15-Alpha1 (includes AVX tiles algorithm); Build notes: Tools: Intel MKL, AOCC 2.2.0, gcc 9.3.0, Intel MPI 2019u8; threads/core: 2; Turbo: used; Build knobs: -O3 -fomit-frame-pointer -march=znver1 -ffast-math Tested by Intel and results as of March 2021

NAMD New: March 2021 Baseline: March 2021
Scikit-Learn- Up to 100x​ faster with Intel®-optimized over default Scikit-Learn 3rd Generation Intel® Xeon® Platinum processor Up to 100x gains due to software improvement on SciKit learn workloads : linear regression fit, SVC inference, kdtree_​​knn inference and elastic-net fit on Ice Lake with Daal4py optimizations compared with stock Scikit-learn New: 8380: 1-node, 2x Intel Xeon Platinum 8380 (40C/2.3GHz, 270W TDP) processor on Intel Software Development Platform with 512 GB (16 slots/ 32GB/ 3200) total DDR4 memory, ucode X55260, HT on, Turbo on, Ubuntu 20.04 LTS, 5.4.0-64-generic, 2x Intel_​​SSDSC2KG96, Unoptimized : Python : Python 3.7.9, SciKit-Learn : Sklearn 0.24.1, Optimized : oneDAL : Daal4py 2021.2, Benchmarks: https://github.com/IntelPython/scikit-learn_bench, tested by Intel, and results as of March 2021 Scikit-learn Software optimizations New: March 12, 2021
TensorFlor- Up to 10x​ faster with Intel®-optimized over default TensorFlow 3rd Generation Intel® Xeon® Platinum processor 11X higher batch AI inference performance with Intel-optimized Tensor Flow vs. stock Cascade Lake FP32 configuration New: 8380: 1-node, 2x Intel Xeon Platinum 8380 processor on Coyote Pass with 512 GB (16 slots/ 32GB/ 3200) total DDR4 memory, ucode X261, HT on, Turbo on, Ubuntu 20.04 LTS, 5.4.0-65-generic, 1x Intel_​​SSDSC2KG96, Intel SSDPE2KX010T8, ResNet-50 v1.5, gcc-9.3.0, oneDNN 1.6.4, BS=128 FP32,INT8, TensorFlow 2.4.1 with Intel optimizations for 3rd Gen Intel Xeon Scalable processor, upstreamed to TensorFlow- 2.5 (container- intel/intel-optimized-tensorflow:tf-r2.5-icx-b631821f), Model zoo: https://github.com/IntelAI/models/tree/icx-launch-public/quickstart/, Unoptimized model : TensorFlow- 2.4.1, Modelzoo:https://github.com/IntelAI/models -b master, test by Intel on 3/12/2021. Baseline: 8280: 1-node, 2x Intel Xeon Platinum 8280 processor on Wolf Pass with 384 GB (12 slots/ 32GB/ 2933) total DDR4 memory, ucode 0x5003003, HT on, Turbo on, Ubuntu 20.04 LTS, 5.4.0-48-generic, 1x Samsung_​​SSD_​​860, Intel SSDPE2KX040T8, ResNet-50 v1.5, gcc-9.3.0, oneDNN 1.6.4, BS=128 FP32,INT8, Optimized model : TensorFlow 2.4.1 with Intel optimizations for 3rd Gen Intel Xeon Scalable processor, upstreamed to TensorFlow- 2.5 (container- intel/intel-optimized-tensorflow:tf-r2.5-icx-b631821f), Model zoo: https://github.com/IntelAI/models/tree/icx-launch-public/quickstart/, Unoptimized model : TensorFlow- 2.4.1, Modelzoo:https://github.com/IntelAI/models -b master, test by Intel on 2/17/2021. Ice Lake customers who utilize Intel-optimization for Tensor Flow and Intel DL Boost (VNNI ) will gain over 11X higher batch AI inference performance on ResNet50 compared with stock Cascade Lake FP32 configuration February 17, 2021
OpenVINO- Up to 10x​ faster deep learning inference with 99.7% accuracy Intel Atom® processor E3950 and Intel® MovidiusTM MyriadTM VPUs Source: https://www.intel.com/content/dam/www/public/us/en/ai/documents/advantech-faceview-cyberlink-solution-brief-v3.pdf Internal Advantech performance data. Primary configuration is built with an Intel Atom® processor E3950, vs. a system built with an Intel Atom processor E3950 and an Advantech VEGA-320 module with an Intel® MovidiusTM MyriadTM X VPU. Visual recognition by Advantech (partner) March 2020
NAMD- Up to 2.43x​ faster with Intel®-optimized vs default on previous gen​ 3rd Generation Intel® Xeon® Platinum processor

New: 8380: 1-node, 2x Intel Xeon Platinum 8380 (40C/2.3GHz, 270W TDP) processor on Intel Software Development Platform with 256 GB (16 slots/ 16GB/ 3200) total DDR4 memory, ucode 0x261, HT on, Turbo on, CentOS Linux 8.3.2011, 4.18.0-240.1.1.el8_​​3.crt1.x86_​​64, 1x Intel_​​SSDSC2KG96, Tested by Intel between March 12, 2021 and March 29, 2021.

Baseline: 8280: 1-node, 2x Intel Xeon Platinum 8280 (28C/2.7GHz, 205W TDP) processor on Intel Software Development Platform with 192GB (12 slots/ 16GB/ 2933) total DDR4 memory, ucode 0x4002f01, HT on, Turbo on, CentOS Linux 8.3.2011, 4.18.0-240.1.1.el8_​​3.crt1.x86_​​64, 1x Intel_​​SSDSC2KG48 .Tested by Intel between February 1, 2021 to February 20, 2021

1.54x higher performance on NAMD STMV from using the AVX Tiles Algorithm vs. without AVX Tiles

2.43x higher performance on NAMD STMV with AVX Tiles Algorithm vs. prior gen without AVX Tile

1.57x higher performance on NAMD STMV without AVX Tiles Algorithm vs. prior gen

NAMD with Tiles: App Version: 2.15-Alpha1 (includes AVX tiles algorithm); Build notes: Tools: Intel MKL, Intel C Compiler 2020u4, Intel MPI 2019u8, Intel Threading Building Blocks 2020u4; threads/core: 2; Turbo: used; Build knobs: -ip -fp-model fast=2 -no-prec-div -qoverride-limits -qopenmp-simd -O3 -xCORE-AVX512 -qopt-zmm-usage=high

NAMD without Tiles: App Version: 2.15-Alpha1 (built without AVX tiles algorithm); Build notes: Tools: Intel MKL, Intel C Compiler 2020u4, Intel MPI 2019u8, Intel Threading Building Blocks 2020u4; threads/core: 2; Turbo: used; Build knobs: -ip -fp-model fast=2 -no-prec-div -qoverride-limits -qopenmp-simd -O3 -xCORE-AVX512 -qopt-zmm-usage=high -DNAMD_​​KNL tested by Intel and results as of March 2021

  1. 43x higher NAMD STMV performance using the AVX Tiles Alogrithm on Platinum 8380 vs. prior gen without AVX Tiles
March 2021
Ansys- Up to9.9x​ speedup for LS-Dyna with Intel®/Ansys optimized software (crash simulation)​ 2nd Generation Intel® Xeon® Platinum processor Source: https://www.intel.com/content/www/us/en/high-performance-computing/accelerate-ls-dyna-software-brief.html https://www.intel.com/content/dam/www/public/us/en/ai/documents/advantech-faceview-cyberlink-solution-brief-v3.pdf LS-DYNA R9.3_​DP Implicit performance impact using Intel MKL and Intel AVX-512 on a 2nd Generation Intel Xeon Platinum 8260 processor using the CYL1E6 model1 March 22, 2019
Matlogica- Up to 35x​ faster with Intel®-optimized over default (XVA pricing)​ 2nd Generation Intel® Xeon® Platinum processor Source: https://www.intel.com/content/dam/www/public/us/en/documents/white-papers/xva-pricing-application-financial-services-white-papers.pdf System Configuration: Two Intel Xeon Platinum 8280 processors (28 cores/processor) with a total of 56 cores (112 threads), 192GB memory, Matlogica AADC library (5/15 release) and Intel® C++ Compiler 19.1.1; xVA refers to X-Value Adjustment-an inclusive term for numerous different valuation adjustments used to assess pricing and risk associated with financial derivative instruments. As shown in Figure 1, with Intel AVX-512 plus memory optimizations due to caching, results in gains up to 35X performance gain (compared to baseline) even on the single core. 2020

Notices and Disclaimers:

Performance varies by use, configuration and other factors. Learn more at https://www.intel.com/performanceindex .

Performance results are based on testing as of dates shown in configurations and may not reflect all publicly available updates. See configuration details above. No product or component can be absolutely secure.

Some results may have been estimated or simulated.

Intel does not control or audit third-party data. You should consult other sources to evaluate accuracy.

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.

Your costs and results may vary. Intel technologies may require enabled hardware, software or service activation.

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