List of AMD graphics processing units. This page contains general information about GPUs and video cards by Advanced Micro Devices AMD, including those by ATI Technologies before 2. Field explanationseditThe headers in the table listed below describe the following Model The marketing name for the GPU assigned by AMDATI. Note that ATI trademarks have been replaced by AMD trademarks starting with the Radeon HD 6. Fire. Pro series for professional graphics. Codename The internal engineering codename for the GPU. Launch Date of release for the GPU. Indepth review of the MSI WS63VR 7700HQ, P4000 MaxQ, 4K notebook with numerous measurements, benchmarks, and evaluations. Dell Precision 690 Linux Drivers' title='Dell Precision 690 Linux Drivers' />Architecture The microarchitecture used by the GPU. Fab Fabrication process. Average feature size of components of the GPU. KB/DELL_ORGANIZATIONAL_GROUPS/DELL_GLOBAL/Content%20Team/disksapp(1).jpg' alt='Dell Precision 690 Linux Drivers' title='Dell Precision 690 Linux Drivers' />Transistors Number of transistors on the die. Die Size Physical surface area of the die. WEB/5737c72a-ef76-f9e1-15e5-10288c1eafa7/1/OriginalPng?id=Dell/Product_Images/Dell_Client_Products/Workstations/Fixed_Workstations/Precision/Precision_t3600/relativesized/desktop-precision-3600-right-relativesized-500-v4.png' alt='Dell Precision 690 Linux Drivers' title='Dell Precision 690 Linux Drivers' />Hot spots Hot spots Hot spots Hot spots. Welcome to AMDs official site Revolutionize your gaming experience with latest technologies, graphics, and server processors. Explore more at AMD. View and Download Dell Precision 490 Desktop user manual online. Users Guide. Precision 490 Desktop Desktop pdf manual download. Format Description The GnuPG signature for Red Hat Linux Update Package can be used to authenticate Dells identity in the correlated Red Hat Linux Update Package. This page contains general information about GPUs and video cards by Advanced Micro Devices AMD, including those by ATI Technologies before 2006, based on official. International Journal of Engineering Research and Applications IJERA is an open access online peer reviewed international journal that publishes research. Notebooks/Dell/XPS_15_7700HQ_UHD/xps159560uhd.png' alt='Dell Precision 690 Linux Drivers' title='Dell Precision 690 Linux Drivers' />Core config The layout of the graphics pipeline, in terms of functional units. Core clock The reference base and boost if available core clock frequency. Fillrate. Pixel The rate at which pixels can be rendered by the raster operators to a display. Measured in Pixelss. Texture The rate at which textures can be mapped by the texture mapping units onto a polygon mesh. Measured in Texelss. Performance. Shader operations How many operations the pixel shaders or unified shaders in Direct. D 1. 0 and newer GPUs can perform. Measured in Operationss. Vertex operations The amount of geometry operations that can be processed on the vertex shaders in one second only applies to Direct. D 9. 0c and older GPUs. YPqpWjA/VZc3qmASxsI/AAAAAAAAD7w/dRqYW8ZfBlg/s540-Ut/IMG_20150703_210658.jpg' alt='Dell Precision 690 Linux Drivers' title='Dell Precision 690 Linux Drivers' />Measured in Verticess. Memory. Bus type Type of memory bus utilized. Bus width Maximum bit width of the memory bus utilized. Size Size of the graphics memory. Clock The reference memory clock frequency. Bandwidth Maximum theoretical memory bandwidth based on bus type and width. TDP Thermal design power Maximum amount of heat generated by the GPU chip, measured in Watt. TBP Typical board power Typical power drawn by the total board, including power for the GPU chip and peripheral equipment, such as VRM, memory, fans, etc., measured in Watt. Bus interface Bus by which the graphics processor is attached to the system typically an expansion slot, such as PCI, AGP, or PCIe. API support Rendering and computing APIs supported by the GPU and driver. Video codec accelerationeditR1. Video Immersion. R2. Video Immersion IIR3. Video Immersion II Video Shader. R4. 10 Video Shader HDR4. Video Shader HD DXVAR5. Avivo Video. R6. 00 Avivo HD Video UVD 1. R7. 00 UVD 2, UVD 2. Evergreen UVD 2. Northern Islands UVD 3 HD 6. UVD 2. 2Southern Islands UVD 3. Hotspot Shield Elite For Windows 8 With Crack. VCE 1. 0. Sea Islands UVD 4. VCE 2. 0. Volcanic Islands UVD 5. VCE 3. 0. Arctic Islands UVD 6. VCE 3. 4. Vega UVD 7. VCE 4. 0. Features OvervieweditMore displays may be supported with native Display. Port connections, or splitting the maximum resolution between multiple monitors with active converters. DRM Direct Rendering Manager is a component of the Linux kernel. Support in this table refers to the most current version. API OvervieweditChip series. Micro architecture. Fab. Supported APIs. Introduced with. Rendering. Computing. Vulkan. Open. GL4Direct. DHSAOpen. CLR1. 00fixed pipeline. No. 1. 3. 7. 0. No. No. Original ATI Radeon, as well as Radeon DDR, 7. VE, and LE models. R2. 00programmable pixel vertex pipelines. R3. 00. 15. 0 nm. FL 929. 50. 09. X3. X6. 00, X1. R4. 20. FL 92X7. 00X8. R5. FL 93X1. 30. 0X1. R6. 00. Tera. Scale 1. FL 1. 00ATI Stream. HD 2. 00. 0 series, HD 3. RV6. 70. 55 nm. 10. FL 1. 01ATI Stream APP5HD 3. Mobility HD 2. 00. RV7. 70. 55 nm. 40 nm. HD 4. 00. 0 series. Evergreen. Tera. Scale 2. FL 1. 101. 2. HD 5. Northern Islands. Tera. Scale 3. HD 6. IGP 7. 00. 0 series. Southern Islands. GCN 1st gen. 28 nm. FL 1. 111. 2 FL1. Yes. 1. 2, new driver 2. HD 7. 00. 0 series. Sea Islands. GCN 2nd gen. FL 1. 201. 2 FL 1. Beta and 2. 2 with driver updateRadeon 2. Volcanic Islands. GCN 3rd gen. Radeon 3. Arctic Islands. GCN 4th gen. Radeon 4. 00 series. Vega. Vega. 12 FL 1. Radeon Vega series678Desktop GPUseditWonder SerieseditModel. Launch. Fab mBusinterface. Memory. Size Ki. BBus type. Bus width bitWonder MDACGA1. PCXT6. 4DRAM8. Wonder EGA1. PCXT2. 56. DRAM8. Wonder VGA1. 98. 71, 0. PCXT, ISA2. 56, 5. DRAM8, 1. 6Mach SerieseditModel. Launch. Fab mBus interface. Memory. Size Ki. BBus type. Bus width bitMach 8. ISA, MCA5. 12. 10. DRAMVRAM3. 2Mach 3. ISA, EISA, VLBPCI, MCA1. DRAMVRAM6. 4Mach 6. ISA, VLB, PCI1. 02. DRAM, VRAM, SGRAM6. Rage SerieseditModel. Launch. Fab nmBus interface. Core clock MHzMemory clock MHzCore config. Fillrate. Memory. API compliance. MOperationss. MPixelss. MTexelss. MVerticess. Size Mi. Oregon Texas Bowl Game Time. BBandwidth GBsBus type. Bus width bitDirect. DOpen. GL3. D Rage. April 1. 99. 695. PCI4. 04. 01 1. 40. EDO6. 45. 0. None. D Rage IISeptember 1. AGP 1x Rage IIc only, PCI6. MHz with EDO1 1. EDO, SGRAM, SDR6. None. 2Rage Pro. March 1. AGP 1x, AGP 2x, PCI7. EDO, SGRAM, SDR6. Rage XL1. 01. 11. August 1. 99. 83. AGP 2x, PCI1. 25. SDR6. 46. 0. 1. 2. Rage 1. 28 VRAugust 1. AGP 2x, PCI8. 01. SDR6. 46. 0. 1. 2. Rage 1. 28 GLAugust 1. AGP 2x, PCI1. 03. SGRAM, SDR1. 28. 6. Rage 1. 28 Pro. August 1. AGP 4x, PCI1. 25. SGRAM, SDR1. 28. 6. Rage 1. 28 Ultra. August 1. 99. 92. AGP 4x, PCI1. 30. SDR1. 28. 6. 0. 1. Rage Fury MAXXOctober 1. AGP 4x, PCI1. 25. SDR1. 28 x. 26. 0. Open. GL 1. 0 Generic 2. D is provided through software implementations. Radeon 7. 00. 0 SerieseditAll models include Direct. D 7. 0 and Open. GL 1. The R1. 00 cards were originally launched without any numbering the numbering was later added in rebrands. Model. Launch. Code name. Fab nmBus interface. Core clock MHzMemory clock MHzCore config. Fillrate. Memory. MOperationss. MPixelss. MTexelss. MVerticess. Size Mi. BBandwidth GBsBus type. Bus width bitRadeon VE7. Feb 1. 9, 2. 00. 1RV1. AGP 4x, PCI1. 83. DDR6. 4Radeon LE7. OEMMay 1, 2. 00. Rage 6 R1. AGP 4x. 15. 03. 00. DDR1. 28. Radeon SDR7. June 2. 00. 0Rage 6 R1. AGP 4x. 16. 61. 66. SDR1. 28. Radeon DDR7. April 2. 00. 0Rage 6 R1. AGP 4x. 16. 61. 83. A3. 333. 66. A6 2. A3. 333. 66. A9. A4. A3. 2, 6. 45. 3. 125. ADDR1. 28. Radeon DDR7. VIVO2. 00. 1Rage 6 R1. AGP 4x, PCI1. 661. B3. 333. 66. B6 2. B3. 333. 66. B9. B4. B6. 45. 3. 125. 8. BDDR1. 28. Radeon DDR7. VIVO SE2. 00. 1Rage 6 R1. AGP 4x, PCI2. 00. DDR1. 28. Radeon 7. LENARV2. 00 morpheus1. AGP 4x, PCI2. 50. DDR1. 28. Radeon 7. Aug 1. 4, 2. 00. 1RV2. AGP 4x, PCI2. 90. DDR1. 28. Model. Launch. Code name. Fab nmBus interface. Core clock MHzMemory clock MHzCore config. MOperationss. MPixelss. MTexelss. MVerticess. Size Mi. BBandwidth GBsBus type. Bus width bitFillrate. Memory. A First number indicates cards with 3. MB of memory. Second number indicates cards with 6. MB of memory. B First number indicates OEM cards. Second number indicates Retail cards. IGP 3xx SerieseditAll models are manufactured with a 1. All models include Direct. D 7. 0 and Open. GL 1. Based on the Radeon VEModel. Launch. Code name. Bus interface. Core clock MHzMemory clock MHzCore config. Fillrate. Memory. MOperationss. MPixelss. MTexelss. MVerticess. Size Mi. BBandwidth GBsBus type. Bus width bitRadeon 3. May 2. 00. 2A3. FSB1. Unknown. 1. 6, 2. DDR6. 4Radeon 3. 30. RS2. 00. L wilmaFSB1. Unknown. 1. 6, 2. DDR6. 4Radeon 3. 40. RS2. 00 wilmaFSB1. Unknown. 1. 6, 2. DDR6. 4Radeon 8. 00. SerieseditAll models are manufactured with a 1. All models include Direct. D 8. 1 and Open. GL 1. Model. Launch. Code name. MSI WS6. 3VR i. 7 7. HQ, 4. K, Quadro P4. Max Q Laptop Review. Nvidias Quadro line is their professional grade GPU brand, intended for workstations and users that demand consistent high power, no matter the cost. As of today, the P4. Nvidias second most powerful mobile Quadro card, sitting just below the P5. P3. 00. 0. Based on Nvidias Pascal architecture, the P4. GPU designed for professional work, such as CAD, architecture, medical, and visual projects. Our review unit is one of the first iterations of Nvidias new Max Q design philosophy. Max Q is aimed at the burgeoning thin and light gaming and workstation market and offers noticeably reduced power requirements at the cost of slightly reduced clock speeds. The P4. 00. 0 Max Q is equipped with 1. GB of GDDR5 VRAM, and is typically clocked between 1. MHz, resulting in a 2. P4. 00. 0. 8. 0 W vs. W. The closest consumer counterpart to the P4. Max Q is likely the Nvidia Ge. Force GTX 1. 06. 0. However, it is difficult to draw a comparison between the two while both cards are based on Nvidias Pascal architecture, driver support and silicon binning processes are very different. The drivers for Quadro cards have a much more stringent development cycle and typically have much higher support behind them, owed mainly to their target market of graphics and engineering professionals. The same pertains to quality control the components used to manufacture a Quadro card are under more meticulous scrutiny than those of their Ge. Force counterparts. The end result is a more stable card that offers better overall support, albeit at a higher cost. Using 3. DMark to test the capabilities of the P4. Max Q, we see some impressive results. Even with the Max Q design, which is aimed to essentially undervolt the GPU in the name of improved thermal and power management, the P4. P4. 00. 0 in the Fujitsu Celsius H9. GTX 1. 06. 0 in the Acer Aspire 7. Not surprisingly, the P4. Max Q falls short of its Ge. Force GTX 1. 07. 0 based cousins, the Asus Zephyrus GX5. VS and Aorus X7 v. What is surprising is the wide margin between our P4. Max Q and the Quadro M5. M, which was the top mobile workstation GPU of the last generation. Despite bearing a 2. P4. 00. 0 Max Q bests the M5. M by 3. 6 in Fire Strike. Using SPECviewperf 1. Lux. Mark 2. 0 to test its professional applications, we are again blown away by the stellar performance of the P4. Max Q. Out of the devices we chose for comparison, the P4. Max Q sits at the top with a healthy 2. Lux. Mark. Interestingly, this puts the P4. Max Q above the standard P4. Fujitsu Celsius H9. Keep in mind that we did note problems with cooling and consistent system performance in our review of the Celsius H9. However, what should be taken away is the 2. P4. 00. 0 Max Q holds over the P3. Lenovo Think. Pad P7. SPECviewperf offers an interesting look into the benefits of the Max Q design. Our MSI WS6. 3VR with a P4. Max Q sits right next to our P4. The difference here is close to the margin of error and offers evidence to Nvidias marketing it looks as though Max Q offers reduced power consumption and heat output with only a slight if any sacrifice in performance. Either way, the P4. Max Q is an impressive professional grade graphics card and should be adequate for all but the most demanding users. For those that need more out of their GPU, it may be worth upgrading all the way to the P5. P4. 00. 0 will likely offer similar performance with the drawbacks of increased heat output and higher voltage requirements. We ran The Witcher 3 for an hour to test the long term consistency of the P4. Max Q. Frame rates bounce between 4. As such, we can rule that the GPU should offer steady performance over lengthy and demanding tasks without any major hiccups. To see how temperatures fared during a similar long term test, please see the Stress Test section below. For more information on the Nvidia Quadro P4. Max Q, please see our dedicated GPU page here.