Performance Index
Intel® Arc™ Graphics
| Claim | GPU(s) | System Configuration | Measurement | Period |
|---|---|---|---|---|
| Intel® Arc™ A380 graphics delivers above 60 FPS performance at 1080p across popular games | Intel® Arc™ A380 | Graphics: Intel® Arc™ A380 Graphics, Graphics Driver: 31.0.101.3428, Processor: Intel® Core™ i5-12600K, MSI PRO Z690-A WIFI DDR4, BIOS: 1.3, Memory: 32GB (2x16GB) DDR4 @ 3200MHz, Storage: MP600 PRO XT 4TB, OS: Windows 11 Version 10.0.22000.978 | All FPS (frames per second) scores are either measured with PresentMon or in-game benchmark. All gameplay has a documented workload running the same replay or game scenario across all configurations and test runs. Game workloads that support this claim are, Fortnite, PUBG: Battlegrounds, Forza Horizon 5, Borderlands 3, and Hitman 3, all run with medium settings at 1080p resolution. | September 16 |
| Intel® Arc™ A770 graphics delivers above 60 FPS performance at 1440p across popular games | Intel® Arc™ A770 | Graphics: Intel® Arc™ A750 and A770 Limited Edition, Graphics Driver: Pre-release Engineering Version, Processor: Intel® Core™ i9-12900K, ASUS ROG MAXIMUS Z690 APEX, BIOS: 1601, Memory: 32GB (2x16GB) DDR5 @ 5600MHz, Storage: MP600 PRO XT 4TB, OS: Windows 11 Version 10.0.22000.795 | All FPS (frames per second) scores are either measured with PresentMon or in-game benchmark. All gameplay has a documented workload running the same replay or game scenario across all configurations and test runs. Game workloads that support this claim are, Resident Evil Village, Sniper Elite 5, Control, Red Dead Redemption 2, and Cyberpunk 2077, all run with high settings at 1440p resolution. | August 5 |
| A laptop equipped with Intel® Arc™ A-Series mobile graphics achieve 49fps to 160 fps depending on SKU, when tested on Hitman 3 in intel platforms ranging from Intel® Core™ i7-1260P + Intel® Arc™ A350M to Intel® Core™ i9-12900HK + Intel® Arc™ A770M | Intel® Arc™ A350M Intel® Arc™ A370M Intel® Arc™ A550M Intel® Arc™ A730M Intel® Arc™ A770M | A770M configuration: CPU: i9-12900HK GPU: Intel Arc A770M Memory: 2x16GB @ 4800Mhz Drivers: 30.0.101.1735 O/S: Windows 11 Pro A730M configuration: CPU: i7-12700H GPU: Intel Arc A730M Memory: 2x16GB @ 4800Mhz Drivers: 30.0.101.1735 O/S: Windows 11 Pro A550M configuration: CPU: i7-12700H GPU: Intel Arc A550M Memory: 2x16GB @ 4800Mhz Drivers: 30.0.101.1735 O/S: Windows 11 Pro A370M configuration: CPU: i7-12700H GPU: Intel Arc A370M Memory: 8x4G @ 4800MHz Drivers: 30.0.101.1735 O/S: Windows 11 Pro A350M configuration: CPU: Core i7-1260P GPU: Intel Arc A350M Memory: 32 GB @ 5200MHz Drivers: 30.0.101.1735 O/S: Windows 11 Pro | All FPS (frames per second) scores are either measured with PresentMon or in-game benchmark. All gameplay has a documented workload running the same replay or game scenario across all configurations and test runs. Hitman 3 run at 1080p Medium, DX12 in the Dubai benchmark | July 22, 2022 |
| Intel® Arc™ A770 Limited Edition with XeSS delivers increased gameplay performance as measured by FPS compared to gameplay without XeSS | Intel® Arc™ A770 Limited Edition | Graphics: Intel® Arc™ A770 Limited Edition Graphics, Graphics Driver: Engineering Driver 3262, Processor: Intel® Core™ i9-12900K, Asus ROG MAXIMUS Z690 Hero, BIOS: 1601, Memory: 32GB (2x16GB) DDR5 @ 4800MHz, Storage: Corsair MP600 Pro XT 4TB NVMe , OS: Windows 11 Version 22000.795 | All games tested at 1440p with XeSS, measuring average FPS, on the Intel® Arc™ A770. All games set to at highest possible settings by choosing highest preset , then manually increased individual settings to maximum.
| August 5-8, 2022 |
| Intel® Arc™ A380 with XeSS delivers increased gaming performance, measured in FPS, compared to gaming without XeSS. 1.28x performance or +28% performance is achieved with XeSS Performance Mode on the Intel Arc A380 graphics. | Intel® Arc™ A380 | Graphics: Intel® Arc™ A380 Graphics, Graphics Driver: 30.0.101.1740, Processor: Intel® Core™ i5-12600K, MSI PRO Z690-A WIFI DDR4, BIOS: 1.3, Memory: 32GB (2x16GB) DDR4 @ 3200MHz, Storage: MP600 PRO XT 4TB, OS: Windows 11 Version 22000.708 | Death Stranding DC tested at medium settings, 1080p resolution, and XeSS set to Performance. | June 6-10, 2022 |
| Intel® Arc™ A380 delivers 2.0x faster transcoding in Handbrake compared to Nvidia GTX 1650/1630, and even more compared to the Radeon RX 6400 | Intel® Arc™ A380 Nvidia GTX 1650 Nvidia GTX 1630 AMD Radeon RX 6400 | Intel® Arc™ A380 configuration: Graphics Driver: 30.0.101.1735, Processor: Intel® Core™ i5-12600K, MSI PRO Z690-A WIFI DDR4, BIOS: 1.3, Memory: 32GB (2x16GB) DDR4 @ 3200MHz, Storage: MP600 PRO XT 4TB, OS: Windows 11 Version 10.0.22000.675 AMD Radeon RX 6400 configuration: Graphics Driver: 30.0.15021.11005, Processor: Intel® Core™ i5-12600K, MSI PRO Z690-A WIFI DDR4, BIOS: 1.3, Memory: 32GB (2x16GB) DDR4 @ 3200MHz, Storage: MP600 PRO XT 4TB, OS: Windows 11 Version 10.0.22000.675 Nvidia GeForce GTX 1650 / 1630 configuration: Graphics Driver: 30.0.15.1296, Processor: Intel® Core™ i5-12600K, MSI PRO Z690-A WIFI DDR4, BIOS: 1.3, Memory: 32GB (2x16GB) DDR4 @ 3200MHz, Storage: MP600 PRO XT 4TB, OS: Windows 11 Version 10.0.22000.675 | Handbrake nightly was used to measure the encoding speed of a 4K/30fps AVC -to a 4K/30fps HEVC. The comparison for the claim is using a system with an Intel Arc A380 GPU installed vs the same desktop configuration with a GTX 1630 , 1650, or RX 6400 installed. Intel Arc A380 completed in 28 seconds GeForce GTX 1650 completed in 55 seconds GeForce GTX 1630 completed in 55 seconds Radeon RX 6400 completed in 100 seconds | May 23 - May 27 2022 |
| The Intel® Arc™ A380 GPU, with a recommended customer price of 1,030 yuan, delivers up to 25% better performance per yuan than available competitive offerings as measured by performance on a selection of popular games. | Intel® Arc™ A380 6GB reference card AMD Radeon RX 6400 4GB | Intel® Arc™ A380 configuration: Graphics Driver: 30.0.101.1735, Processor: Intel® Core™ i5-12600K, MSI PRO Z690-A WIFI DDR4, BIOS: 1.3, Memory: 32GB (2x16GB) DDR4 @ 3200MHz, Storage: MP600 PRO XT 4TB, OS: Windows 11 Version 10.0.22000.675 AMD Radeon RX 6400 configuration: Graphics Driver: 30.0.15021.11005, Processor: Intel® Core™ i5-12600K, MSI PRO Z690-A WIFI DDR4, BIOS: 1.3, Memory: 32GB (2x16GB) DDR4 @ 3200MHz, Storage: MP600 PRO XT 4TB, OS: Windows 11 Version 10.0.22000.675 | All FPS (frames per second) scores are either measured with PresentMon or in-game benchmark. All gameplay has a documented workload running the same replay or game scenario across all configurations and test runs. Game workloads that support this claim are Naraka Bladepoint (27)%, JX Remake (27%), F1 2021 (26%), Rust (24%), Total Saga: Troy (22%), The Witcher 3 (22%), Arcadegeddon (21%), Metro Exodus (18%), NiZhan (16%), Wolfenstein: Youngblood (15%), Destiny 2 (14%). All games tested at 1080p resolution and medium settings presets. | Pricing and testing as of June 12, 2022. Radeon RX 6400 pricing of 1199 yuan on JD.com. |
| Intel® Arc™ A380 graphics delivers above 60 FPS performance at 1080p across popular games | Intel® Arc™ A380 | Graphics: Intel® Arc™ A380 Graphics, Graphics Driver: 30.0.101.1735, Processor: Intel® Core™ i5-12600K, MSI PRO Z690-A WIFI DDR4, BIOS: 1.3, Memory: 32GB (2x16GB) DDR4 @ 3200MHz, Storage: MP600 PRO XT 4TB, OS: Windows 11 Version 10.0.22000.675 | All FPS (frames per second) scores are either measured with PresentMon or in-game benchmark. All gameplay has a documented workload running the same replay or game scenario across all configurations and test runs. Game workloads that support this claim are Naraka Bladepoint, PUBG, World of Warcraft: Shadowlands, Apex Legends, Fortnite, Overwatch, Counter-Strike: Global Offensive, League of Legends, NiZhan, Dota 2, all run with medium settings at 1080p resolution. | May 23 - May 27 |
| Intel® Arc™ A380 with XeSS delivers increased gameplay performance as measured by FPS compared to gameplay without XeSS | Intel® Arc™ A380 | Graphics: Intel® Arc™ A380 Graphics, Graphics Driver: 30.0.101.1735, Processor: Intel® Core™ i5-12600K, MSI PRO Z690-A WIFI DDR4, BIOS: 1.3, Memory: 32GB (2x16GB) DDR4 @ 3200MHz, Storage: MP600 PRO XT 4TB, OS: Windows 11 Version 10.0.22000.675 | Moonlight Blade tested with high settings at 1080p resolution, Ray Tracing Medium, and XeSS set to balanced. | May 23 - May 27 |
| Intel® Arc™ A380 delivers 4.4x faster encoding with AV1 hardware acceleration compared to Intel® Core™ i5-12600K using software encode | Intel® Arc™ A380 | Graphics: Intel® Arc™ A380 Graphics, Graphics Driver: engineering driver 11332, Processor: Intel® Core™ i5-12600K, MSI PRO Z690-A WIFI DDR4, BIOS: 1.3, Memory: 32GB (2x16GB) DDR4 @ 3200MHz, Storage: MP600 PRO XT 4TB, OS: Windows 11 Version 10.0.22000.675 | AV1 software encoding vs. hardware accelerated AV1 encoding measures the time in Wondershare Filmora Beta to export the "My Time at SandRock" gameplay project (source file is 4K AVC 40Mbps) to a 4K AV1 20Mbps video. The comparison for the claim is using a system without Intel® Arc™ A380 vs. a system with Intel® Arc™ A380 performing hardware accelerated encoding. | May 23 - May 27 |
| Intel® Arc™ A380 + Intel® UHD Graphics 770 graphics delivers faster content creation performance compared to Intel® Arc™ A380 graphics alone: Cyberlink Power Director 1.73x, Davinci Resolve 1.88x, Handbrake 1.65x for media encode | Intel® Arc™ A380 Intel® UHD Graphics 770 | Discrete Graphics: Intel® Arc™ A380 Graphics, Discrete Graphics Driver: 30.0.101.1735, Integrated Graphics: Intel® UHD Graphics 770, Integrated Graphics Driver: 30.0.101.1735, Processor: Intel® Core™ i5-12600K, MSI PRO Z690-A WIFI DDR4, BIOS: 1.3, Memory: 32GB (2x16GB) DDR4 @ 3200MHz, Storage: MP600 PRO XT 4TB, OS: Windows 11 Version 10.0.22000.675 | Intel® Deep Link Hyper Encode workload measures the time it takes to transcode a 4K/30fps AVC @ 57.9Mbps clip to 4K/30fps HEVC @ 30Mbps High Quality format with 3 applications: Handbrake, DaVinci Resolve, and Cyberlink PowerDirector. The comparison for the claim is using both Intel® UHD Graphics 770 and Intel® Arc™ A380 to encode in an Intel® Deep Link Hyper Encode configuration versus the Intel® Arc™ A380 alone. Applications: Handbrake: Nightly: 20220516-5cb5d89ee-x86_64-Win_GUI Davinci Resolve Studio: 18.0b Build 14 Cyberlink PowerDirector: 365 Business - 20.3.2714.0 | May 23 - May 27 |
| Intel® Arc™ 3 Graphics delivers up to 2x performance of Iris® X eLP graphics, showing a 2x generational leap. | Intel® Arc™ A370M Graphics and Intel® Iris® Xe Graphics | Integrated Graphics configuration: 14" clamshell laptop (MSI 14F1) with Intel® Core i7-1280P, 32GB LPDDR5 @4800MHz, Gfx Driver 30.0.101.1109, Windows 11 Pro (20H2 Build 22000.556), System BIOS E14F1II6.D75, Display Resolution set to 1920x1080 ACM Configuration: 16" Clamshell laptop (MSI 1593) with Intel® Core™ i7-12700H, 32GB LPDDR5 @4800MHz, Display Resolution: 1920x1080; OS: Microsoft Windows 11 Pro 22000.556, Discrete Graphics: Intel® Arc™ A370M; Graphics driver: 30.0.101.1320(Engr) Motherboard BIOS: E1593II6.10C | All FPS (frames per second) scores are either measured with PresentMon or in-game benchmark. All gameplay has a documented workload running the same replay or game scenario across all configurations and test runs. Game workloads that support this claim are Resident Evil Village, Doom Eternal, and Fortnite, all run with Medium settings at 1080p resolution. | March 14-16, 2022 |
| Gaming Performance Intel® Arc™ A370M Graphics delivers above 60 fps performance at 1080p across popular games, showing a performance uplift vs Intel® Iris® Xe Graphics. | Intel® Arc™ A370M Graphics and Intel® Iris® Xe Graphics | Integrated Graphics configuration: 14" clamshell laptop (MSI 14F1) with Intel® Core i7-1280P, 32GB LPDDR5 @4800MHz, Gfx Driver 30.0.101.1109, Windows 11 Pro (20H2 Build 22000.556), System BIOS E14F1II6.D75, Display Resolution set to 1920x1080 ACM Configuration: 16" Clamshell laptop (MSI 1593 [LD1] [BB2] [LD3]) with Intel® Core™ i7-12700H, 32GB LPDDR5 @4800MHz, Display Resolution: 1920x1080; OS: Microsoft Windows 11 Pro 22000.556, Discrete Graphics: Intel ® Arc™ A370M; Graphics driver: 30.0.101.1320(Engr) Motherboard BIOS: E1593II6.10C | All FPS (frames per second) scores are either measured with PresentMon or in-game benchmark. All gameplay has a documented workload running the same replay or game scenario across all configurations and test runs. All games run at 1080p resolution. Game workloads that support this claim are Doom Eternal, Hitman 3, Total War Saga: Troy, F1 2021, Genshin Impact, Grid Legends, Apex Legends, The Witcher 3, Age of Empires IV, Destiny 2, Final Fantasy XIV, Rainbow Six Siege, and Wolfenstein Youngblood all at medium settings. Counter Strike, The Riftbreaker, Warframe, Strange Brigade and Overwatch at high settings | March 14-16, 2022 |
| Gaming Performance Intel® Arc™ A370M Graphics delivers above 90 fps performance at 1080p across popular games, showing a performance uplift vs Intel® Iris® Xe Graphics. | Intel® Arc™ A370M Graphics and Intel® Iris® Xe Graphics | Integrated Graphics configuration: 14" clamshell laptop (MSI 14F1) with Intel® Core i7-1280P, 32GB LPDDR5 @4800MHz, Gfx Driver 30.0.101.1109, Windows 11 Pro (20H2 Build 22000.556), System BIOS E14F1II6.D75, Display Resolution set to 1920x1080 ACM Configuration: 16" Clamshell laptop (MSI 1593) with Intel® Core™ i7-12700H, 32GB LPDDR5 @4800Mhz, Display Resolution: 1920x1080; OS: Microsoft Windows 11 Pro 22000.556, Discrete Graphics: Intel® Arc™ A370M; Graphics driver: 30.0.101.1320(Engr) Motherboard BIOS: E1593II6.10C | All FPS (frames per second) scores are either measured with PresentMon or in-game benchmark. All gameplay has a documented workload running the same replay or game scenario across all configurations and test runs. All games run at 1080p resolution. Game workloads that support this claim are Fortnite, GTA V and DOTA2 at medium settings. Rocket League, Valorant, and League of Legends at high settings | March 14-16, 2022 |
| XMX/Hyper Compute Intel® Arc™ A370M Graphics delivers 2.35X performance with XMX acceleration vs. I ntel® Iris® Xe Graphics. Intel® Arc™ A370M Graphics delivers 2.91X performance with Hyper Compute enabled vs. I ntel® Iris® Xe Graphics. Intel® Arc™ A370M Graphics with Hyper Compute enabled delivers 24% more performance vs. Intel® Arc™ A370M Graphics alone. | Intel® Arc™ A370M Graphics and Intel® Iris® Xe Graphics | Processor: 12th Gen Intel® Core™ i7-12700H processor, 14C/20T (6P + 8E); System: MSI Starlight 1593; Memory: 32GB - 8x4GB LPDDR5 @4800Mhz; Storage: Samsung PM9A1 1TB; Display Resolution: 1920x1080; OS: Microsoft Windows 11 Pro 22000.556; Integrated Graphics: Intel® Iris® Xe Graphics; Discrete Graphics: Intel ® Arc™ A370M; Graphics driver: ci-master 10451 DCH; Motherboard BIOS: E1593II6.10B | The XMX and Hyper Compute workload measures the times it takes to upscale and enhance a 1080p video to 4K using Topaz Labs Video Enhance AI with the built-in Proteus Fine Tune upscaling model. Comparison data points:
Application: Topaz Labs Video Enhance AI: 2.6.4.0i with new openvino_intel_gpu_plugin.dll | Mar 16-17, 2022 |
| Dynamic power share A laptop equipped with Intel® Arc™ A-Series mobile graphics and an Intel® Core™ processor delivers 30% more performance on creation and compute intensive applications with Dynamic Power Share enabled. | Not graphics specific. | 16" Clamshell laptop (MSI 1593) with Intel® Core™ i7-12700H, 32GB LPDDR5 @4800MHz, Display Resolution: 1920x1080; OS: Microsoft Windows 11 Pro 22000.556, Discrete Graphics: Intel® Arc™ A370M; Graphics driver: 30.0.101.1314(Engr) Motherboard BIOS: E1593II6.107 | Average of improvements seen on the following two applications. Blender 2.9 - "Benchmark" is a specific Blender scene used for rendering time performance measurements. To simulate a system with Dynamic Power Share disabled, the CPU power budget was set to 28000 mW, and the GPU power budget was set to 28000 mW, which are each 50% of the overall power TDP for this system. The same system with Dynamic Power Share fully enabled increased rendering performance by 30%. HandBrake Nightly 4K to 4K (H.264) - One large 4K video file was rendered using H.264 software. To simulate a system with Dynamic Power Share disabled, the CPU power budget was set to 28000 mW, and the GPU power budget was set to 28000 mW, which are each 50% of the overall power TDP for this system. The same system with Dynamic Power Share fully enabled increased rendering performance by 32%. | Mar 6-12, 2022 |
| Hyper Encode vs iGPU Intel® Arc™ A370M delivers 1.6x performance in Cyberlink PowerDirector, 1.57x performance in DaVinci Resolve Studio, and 1.31x performance in HandBrake with using Hyper Encode enabled, compared to using Intel® Iris® Xe Graphics alone. | Intel® Arc™ A370M Graphics and Intel® Iris® Xe Graphics | Processor: Intel® Core™ i7-12800H, Pre Production ADL-H w/Alchemist SoC, BIOS: ADLPFWI1.R00.3091.A00.2202211056, Integrated Graphics: Intel® Iris® Xe Graphics, Integrated Graphics Driver: 30.0.101.1320, Discrete Graphics: Intel® Arc™ A370M Graphics, Discrete Graphics Driver: 30.0.101.1320, Memory: 16GB (2x8GB) DDR5 @ 4800MHz, Storage: INTEL SSDPEKKF512G7 512GB, OS: Windows 11 Version 10.0.22000.556 | The Hyper Encode workload measures the time it takes to transcode a 4K/30fps AVC @ 57.9Mbps clip to 4K/30fps HEVC @ 30Mbps High Quality format with 3 applications: HandBrake, DaVinci Resolve, Cyberlink PowerDirector. The comparison for the claim is using both Alder Lake integrated graphics and Alchemist to encode in a I+I configuration versus the integrated graphics adapter alone. Applications Used: HandBrake: Nightly20220314213624 - ae8c70396- master (2022031401) Davinci Resolve Studio:Internal Binary - Version 17.4.5.0004 Cyberlink PowerDirector:Internal Binary - 20.3.2610.1 (64-bit), VDE220119-11 | Mar 16-17, 2022 |
| AV1 on Arc Intel® Arc™ A370M delivers 50x faster encoding with AV1 hardware acceleration compared to Intel® Core™ i7-12800H with Intel® Iris® Xe Graphics using software encode. | Intel® Arc™ A370M Graphics and Intel® Iris® Xe Graphics | Processor: Intel® Core™ i7-12800H, Pre Production ALD-H w/Alchemist SoC, BIOS: ADLPFWI1.R00.3091.A00.2202211056, Integrated Graphics: Intel® Iris® Xe Graphics, Integrated Graphics Driver: 30.0.101.1320, Discrete Graphics: Intel® Arc™ A370M Graphics, Discrete Graphics Driver: 30.0.101.1320, Memory: 16GB (2x8GB) DDR5 @ 4800MHz, Storage: INTEL SSDPEKKF512G7 512GB, OS: Windows 11 Version 10.0.22000.556 | The AV1 workload measures the time it takes to transcode a 4K/30fps AVC @ 57.9Mbps clip to 4K/30fps AV1 @ 30Mbps High Speed format. The comparison for the 50x claim is using the Alder Lake CPU (software) to transcode the clip on a public FFMPEG build versus Alchemist (hardware) on a proof-of-concept Intel build. Adobe Premiere Pro, HandBrake, and DaVinci Resolve Studio are (if shown) are shown only for AV1 capability purposes and are not included in the 50x claim. | Mar 15-16, 2022 |
| C ontent creation performance Intel® Arc™ A370M + Intel® Iris® Xe Graphics delivers faster content creation compared to Intel Iris Xe Graphics alone: 1.3x faster in HandBrake, 1.6x faster in Davinci Resolve, 1.8x faster in Adobe Premiere Pro Auto Reframe, and 2.4x faster in Adobe Premiere Pro Scene Edit Detect. [SK4] | Intel® Arc™ A370M Graphics and Intel® Iris® Xe Graphics | System: Reference Validation Platform with ACM Mobile Reference Board. Processor: Intel® Core™ i7-12800H, BIOS: ADL_PR03_LRA1-XXXADPP_CPSF_SES0_00550488_2022WW9.1.0, Integrated Graphics: Intel® Iris® Xe Graphics, Integrated Graphics Driver: 30.0.101.1320Engr, Discrete Graphics: Intel® Arc™ A370M Graphics, Discrete Graphics Driver: 30.0.101.1320Engr, Memory: 16GB (2x8GB) DDR5 @ 4800MHz, Storage: INTEL SSDPEKKF512G7 512GB, OS: Windows 11 Version 10.0.22000.556 | The Hyper Encode workload measures the time it takes to transcode a 4K/30fps AVC @ 57.9Mbps clip to 4K/30fps HEVC @ 30Mbps High Quality format with 3 applications: HandBrake, DaVinci Resolve. The comparison for the claim is using both Alder Lake integrated graphics and Alchemist to encode in a I+I configuration versus the integrated graphics adapter alone. Applications Used: HandBrake: Nightly20220314213624 - ae8c70396- master (2022031401) Davinci Resolve Studio:Internal Binary - Version 17.4.5.0004 Adobe Premiere Pro: 22.3.0 Beta Build 25 The scene edit detect and auto-reframe workloads are AI compute workloads run on a single GPU or both GPUs together to detect changes in scene and to keep the main subject centered within a reframed and cropped video (respectively). The HandBrake and DaVinci Resolve workloads both measure the time it takes to transcode an AVC video to HEVC. | Mar 15-18, 2022 |