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Video Coding Engine

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This is the current revision of this page, as edited by ZormeisterG (talk | contribs) at 04:13, 2 November 2024 (Edit VCE 3.0 section, removing Iceland as it has no VCE engine, and correcting the VCE revisions for each GPU featuring VCE 3.x). The present address (URL) is a permanent link to this version.

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Video Code Engine (VCE, was earlier referred to as Video Coding Engine,[1] Video Compression Engine[2] or Video Codec Engine[3] in official AMD documentation) is AMD's video encoding application-specific integrated circuit implementing the video codec H.264/MPEG-4 AVC. Since 2012 it was integrated into all of their GPUs and APUs except Oland.

VCE was introduced with the Radeon HD 7000 series on 22 December 2011.[4][5][6] VCE occupies a considerable amount of the die surface at the time of its introduction[7] and is not to be confused with AMD's Unified Video Decoder (UVD).

As of AMD Raven Ridge (released January 2018), UVD and VCE were succeeded by Video Core Next (VCN).

Overview

[edit]
In "full-fixed mode" the entire computation is done by the fixed-function VCE unit. Full-fixed mode can be accessed through the OpenMAX IL API.
The entropy encoding block of the VCE ASIC is also separately accessible, enabling "hybrid mode". In "hybrid mode" most of the computation is done by the 3D engine of the GPU. Using AMD's Accelerated Parallel Programming SDK and OpenCL developers can create hybrid encoders that pair custom motion estimation, inverse discrete cosine transform and motion compensation with the hardware entropy encoding to achieve faster than real-time encoding.

The handling of video data involves computation of data compression algorithms and possibly of video processing algorithms. As the template compression methods shows, lossy video compression algorithms involve the steps: motion estimation (ME), discrete cosine transform (DCT), and entropy encoding (EC).

AMD Video Code Engine (VCE) is a full hardware implementation of the video codec H.264/MPEG-4 AVC. It is capable of delivering 1080p at 60 frames/sec. Because its entropy encoding block is also a separately accessible Video Codec Engine, it can be operated in two modes: full-fixed mode and hybrid mode.[8][9]

By employing AMD APP SDK, available for Linux and Microsoft Windows, developers can create hybrid encoders that pair custom motion estimation, inverse discrete cosine transform and motion compensation with the hardware entropy encoding to achieve faster than real-time encoding. In hybrid mode, only the entropy encoding block of the VCE unit is used, while the remaining computation is offloaded to the 3D engine of the GPU, so the computing scales with the number of available compute units (CUs).

VCE 1.0

[edit]

VCE[1] Version 1.0 supports H.264 YUV420 (I & P frames), H.264 SVC Temporal Encode VCE, and Display Encode Mode (DEM).

It can be found on:

  • Piledriver-based
    • Trinity APUs (Ax-5xxx, e.g. A10-5800K)
    • Richland APUs (Ax-6xxx, e.g. A10-6800K)
  • GPUs of the Southern Islands generation (GCN1: CAYMAN, ARUBA (Trinity/Richland), CAPE VERDE, PITCAIRN, TAHITI). These are
    • Radeon HD 7700 series (except HD 7790 with VCE 2.0)
    • Radeon HD 7800 series
    • Radeon HD 7900 series
    • Radeon HD 8570 to 8990 (except HD 8770 with VCE 2.0)
    • Radeon R7 250E, 250X, 265 / R9 270, 270X, 280, 280X
    • Radeon R7 360, 370, 455 / R9 370, 370X
    • Mobile Radeon HD 77x0M to HD 7970M
    • Mobile Radeon HD 8000-Series
    • Mobile Radeon Rx M2xx Series (except R9 M280X with VCE 2.0 and R9 M295X with VCE 3.0)
    • Mobile Radeon R5 M330 to R9 M390
    • FirePro cards with 1st Generation GCN (GCN1) (Except W2100, which is Oland XT)

VCE 2.0

[edit]

Compared to the first version, VCE 2.0 adds H.264 YUV444 (I-Frames), B-frames for H.264 YUV420, and improvements to the DEM (Display Encode Mode), which results in a better encoding quality.

It can be found on:

  • Steamroller-based
    • Kaveri APUs (Ax-7xxx, e.g. A10-7850K)
    • Godavari APUs (Ax-7xxx, e.g. A10-7890K)
  • Jaguar-based
    • Kabini APUs (e.g. Athlon 5350, Sempron 2650)
    • Temash APUs (e.g. A6-1450, A4-1200)
  • Puma-based
    • Beema and Mullins
  • GPUs of the Sea Islands generation as well Bonaire or Hawaii GPUs (2nd Generation Graphics Core Next), such as
    • Radeon HD 7790, 8770
    • Radeon R7 260, 260X / R9 290, 290X, 295X2
    • Radeon R7 360 / R9 390, 390X
    • Mobile Radeon R9 M280X
    • Mobile Radeon R9 M385, M385X
    • Mobile Radeon R9 M470, M470X
    • FirePro cards with 2nd Generation GCN (GCN2)

VCE 3.0

[edit]

Video Code Engine 3.0 (VCE 3.0) technology features a new high-quality video scaling and - since version 3.4 - High Efficiency Video Coding (HEVC/H.265).[10][11]

It, together with UVD 6.0, can be found on 3rd generation of Graphics Core Next (GCN3) with "Tonga" and "Fiji" (VCE 3.0) based graphics controller hardware, which is now used AMD Radeon Rx 300 series (Pirate Islands GPU family) and VCE 3.4 by actual AMD Radeon Rx 400 series and AMD Radeon 500 series (both Polaris GPU family).

  • Tonga: Radeon R9 285, 380, 380X; Mobile Radeon R9 M390X, M395, M395X, M485X
  • Tonga XT: FirePro W7100, S7100X, S7150, S7150 X2
  • Fiji: Radeon R9 Fury, Fury X, Nano; Radeon Pro Duo (2016); FirePro S9300, W7170M; Instinct MI8
  • Polaris: RX 460, 470, 480; RX 550, 560, 570, 580; Radeon Pro Duo (2017)

AMD's Carrizo platform features VCE 3.1, retaining the same capabilities as the VCE found in "Fiji" and "Tonga".[12]

Stoney Ridge features a cut down version of VCE 3.4 without HEVC/H.265 encoding and is accompanied by a UVD 6.2 engine.[13]

VCE 3.0 removes support for H.264 B-frames.[14]

VCE 4.0

[edit]

The Video Code Engine 4.0 encoder and UVD 7.0 decoder are included in the Vega-based GPUs.[15][16]

VCE 4.1

[edit]

AMD's Vega20 GPU, present in the Instinct Mi50, Instinct Mi60 and Radeon VII cards, include VCE 4.1 and two UVD 7.2 instances.[17][18]

Feature overview

[edit]

APUs

[edit]

The following table shows features of AMD's processors with 3D graphics, including APUs (see also: List of AMD processors with 3D graphics).

Platform High, standard and low power Low and ultra-low power
Codename Server Basic Toronto
Micro Kyoto
Desktop Performance Raphael Phoenix
Mainstream Llano Trinity Richland Kaveri Kaveri Refresh (Godavari) Carrizo Bristol Ridge Raven Ridge Picasso Renoir Cezanne
Entry
Basic Kabini Dalí
Mobile Performance Renoir Cezanne Rembrandt Dragon Range
Mainstream Llano Trinity Richland Kaveri Carrizo Bristol Ridge Raven Ridge Picasso Renoir
Lucienne
Cezanne
Barceló
Phoenix
Entry Dalí Mendocino
Basic Desna, Ontario, Zacate Kabini, Temash Beema, Mullins Carrizo-L Stoney Ridge Pollock
Embedded Trinity Bald Eagle Merlin Falcon,
Brown Falcon
Great Horned Owl Grey Hawk Ontario, Zacate Kabini Steppe Eagle, Crowned Eagle,
LX-Family
Prairie Falcon Banded Kestrel River Hawk
Released Aug 2011 Oct 2012 Jun 2013 Jan 2014 2015 Jun 2015 Jun 2016 Oct 2017 Jan 2019 Mar 2020 Jan 2021 Jan 2022 Sep 2022 Jan 2023 Jan 2011 May 2013 Apr 2014 May 2015 Feb 2016 Apr 2019 Jul 2020 Jun 2022 Nov 2022
CPU microarchitecture K10 Piledriver Steamroller Excavator "Excavator+"[19] Zen Zen+ Zen 2 Zen 3 Zen 3+ Zen 4 Bobcat Jaguar Puma Puma+[20] "Excavator+" Zen Zen+ "Zen 2+"
ISA x86-64 v1 x86-64 v2 x86-64 v3 x86-64 v4 x86-64 v1 x86-64 v2 x86-64 v3
Socket Desktop Performance AM5
Mainstream AM4
Entry FM1 FM2 FM2+ FM2+[a], AM4 AM4
Basic AM1 FP5
Other FS1 FS1+, FP2 FP3 FP4 FP5 FP6 FP7 FL1 FP7
FP7r2
FP8
? FT1 FT3 FT3b FP4 FP5 FT5 FP5 FT6
PCI Express version 2.0 3.0 4.0 5.0 4.0 2.0 3.0
CXL
Fab. (nm) GF 32SHP
(HKMG SOI)
GF 28SHP
(HKMG bulk)
GF 14LPP
(FinFET bulk)
GF 12LP
(FinFET bulk)
TSMC N7
(FinFET bulk)
TSMC N6
(FinFET bulk)
CCD: TSMC N5
(FinFET bulk)

cIOD: TSMC N6
(FinFET bulk)
TSMC 4nm
(FinFET bulk)
TSMC N40
(bulk)
TSMC N28
(HKMG bulk)
GF 28SHP
(HKMG bulk)
GF 14LPP
(FinFET bulk)
GF 12LP
(FinFET bulk)
TSMC N6
(FinFET bulk)
Die area (mm2) 228 246 245 245 250 210[21] 156 180 210 CCD: (2x) 70
cIOD: 122
178 75 (+ 28 FCH) 107 ? 125 149 ~100
Min TDP (W) 35 17 12 10 15 65 35 4.5 4 3.95 10 6 12 8
Max APU TDP (W) 100 95 65 45 170 54 18 25 6 54 15
Max stock APU base clock (GHz) 3 3.8 4.1 4.1 3.7 3.8 3.6 3.7 3.8 4.0 3.3 4.7 4.3 1.75 2.2 2 2.2 3.2 2.6 1.2 3.35 2.8
Max APUs per node[b] 1 1
Max core dies per CPU 1 2 1 1
Max CCX per core die 1 2 1 1
Max cores per CCX 4 8 2 4 2 4
Max CPU[c] cores per APU 4 8 16 8 2 4 2 4
Max threads per CPU core 1 2 1 2
Integer pipeline structure 3+3 2+2 4+2 4+2+1 1+3+3+1+2 1+1+1+1 2+2 4+2 4+2+1
i386, i486, i586, CMOV, NOPL, i686, PAE, NX bit, CMPXCHG16B, AMD-V, RVI, ABM, and 64-bit LAHF/SAHF Yes Yes
IOMMU[d] v2 v1 v2
BMI1, AES-NI, CLMUL, and F16C Yes Yes
MOVBE Yes
AVIC, BMI2, RDRAND, and MWAITX/MONITORX Yes
SME[e], TSME[e], ADX, SHA, RDSEED, SMAP, SMEP, XSAVEC, XSAVES, XRSTORS, CLFLUSHOPT, CLZERO, and PTE Coalescing Yes Yes
GMET, WBNOINVD, CLWB, QOS, PQE-BW, RDPID, RDPRU, and MCOMMIT Yes Yes
MPK, VAES Yes
SGX
FPUs per core 1 0.5 1 1 0.5 1
Pipes per FPU 2 2
FPU pipe width 128-bit 256-bit 80-bit 128-bit 256-bit
CPU instruction set SIMD level SSE4a[f] AVX AVX2 AVX-512 SSSE3 AVX AVX2
3DNow! 3DNow!+
PREFETCH/PREFETCHW Yes Yes
GFNI Yes
AMX
FMA4, LWP, TBM, and XOP Yes Yes
FMA3 Yes Yes
AMD XDNA Yes
L1 data cache per core (KiB) 64 16 32 32
L1 data cache associativity (ways) 2 4 8 8
L1 instruction caches per core 1 0.5 1 1 0.5 1
Max APU total L1 instruction cache (KiB) 256 128 192 256 512 256 64 128 96 128
L1 instruction cache associativity (ways) 2 3 4 8 2 3 4 8
L2 caches per core 1 0.5 1 1 0.5 1
Max APU total L2 cache (MiB) 4 2 4 16 1 2 1 2
L2 cache associativity (ways) 16 8 16 8
Max on--die L3 cache per CCX (MiB) 4 16 32 4
Max 3D V-Cache per CCD (MiB) 64
Max total in-CCD L3 cache per APU (MiB) 4 8 16 64 4
Max. total 3D V-Cache per APU (MiB) 64
Max. board L3 cache per APU (MiB)
Max total L3 cache per APU (MiB) 4 8 16 128 4
APU L3 cache associativity (ways) 16 16
L3 cache scheme Victim Victim
Max. L4 cache
Max stock DRAM support DDR3-1866 DDR3-2133 DDR3-2133, DDR4-2400 DDR4-2400 DDR4-2933 DDR4-3200, LPDDR4-4266 DDR5-4800, LPDDR5-6400 DDR5-5200 DDR5-5600, LPDDR5x-7500 DDR3L-1333 DDR3L-1600 DDR3L-1866 DDR3-1866, DDR4-2400 DDR4-2400 DDR4-1600 DDR4-3200 LPDDR5-5500
Max DRAM channels per APU 2 1 2 1 2
Max stock DRAM bandwidth (GB/s) per APU 29.866 34.132 38.400 46.932 68.256 102.400 83.200 120.000 10.666 12.800 14.933 19.200 38.400 12.800 51.200 88.000
GPU microarchitecture TeraScale 2 (VLIW5) TeraScale 3 (VLIW4) GCN 2nd gen GCN 3rd gen GCN 5th gen[22] RDNA 2 RDNA 3 TeraScale 2 (VLIW5) GCN 2nd gen GCN 3rd gen[22] GCN 5th gen RDNA 2
GPU instruction set TeraScale instruction set GCN instruction set RDNA instruction set TeraScale instruction set GCN instruction set RDNA instruction set
Max stock GPU base clock (MHz) 600 800 844 866 1108 1250 1400 2100 2400 400 538 600 ? 847 900 1200 600 1300 1900
Max stock GPU base GFLOPS[g] 480 614.4 648.1 886.7 1134.5 1760 1971.2 2150.4 3686.4 102.4 86 ? ? ? 345.6 460.8 230.4 1331.2 486.4
3D engine[h] Up to 400:20:8 Up to 384:24:6 Up to 512:32:8 Up to 704:44:16[23] Up to 512:32:8 768:48:8 128:8:4 80:8:4 128:8:4 Up to 192:12:8 Up to 192:12:4 192:12:4 Up to 512:?:? 128:?:?
IOMMUv1 IOMMUv2 IOMMUv1 ? IOMMUv2
Video decoder UVD 3.0 UVD 4.2 UVD 6.0 VCN 1.0[24] VCN 2.1[25] VCN 2.2[25] VCN 3.1 ? UVD 3.0 UVD 4.0 UVD 4.2 UVD 6.2 VCN 1.0 VCN 3.1
Video encoder VCE 1.0 VCE 2.0 VCE 3.1 VCE 2.0 VCE 3.4
AMD Fluid Motion No Yes No No Yes No
GPU power saving PowerPlay PowerTune PowerPlay PowerTune[26]
TrueAudio Yes[27] ? Yes
FreeSync 1
2
1
2
HDCP[i] ? 1.4 2.2 2.3 ? 1.4 2.2 2.3
PlayReady[i] 3.0 not yet 3.0 not yet
Supported displays[j] 2–3 2–4 3 3 (desktop)
4 (mobile, embedded)
4 2 3 4 4
/drm/radeon[k][29][30] Yes Yes
/drm/amdgpu[k][31] Yes[32] Yes[32]
  1. ^ For FM2+ Excavator models: A8-7680, A6-7480 & Athlon X4 845.
  2. ^ A PC would be one node.
  3. ^ An APU combines a CPU and a GPU. Both have cores.
  4. ^ Requires firmware support.
  5. ^ a b Requires firmware support.
  6. ^ No SSE4. No SSSE3.
  7. ^ Single-precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
  8. ^ Unified shaders : texture mapping units : render output units
  9. ^ a b To play protected video content, it also requires card, operating system, driver, and application support. A compatible HDCP display is also needed for this. HDCP is mandatory for the output of certain audio formats, placing additional constraints on the multimedia setup.
  10. ^ To feed more than two displays, the additional panels must have native DisplayPort support.[28] Alternatively active DisplayPort-to-DVI/HDMI/VGA adapters can be employed.
  11. ^ a b DRM (Direct Rendering Manager) is a component of the Linux kernel. Support in this table refers to the most current version.

GPUs

[edit]

The following table shows features of AMD/ATI's GPUs (see also: List of AMD graphics processing units).

Name of GPU series Wonder Mach 3D Rage Rage Pro Rage 128 R100 R200 R300 R400 R500 R600 RV670 R700 Evergreen Northern
Islands
Southern
Islands
Sea
Islands
Volcanic
Islands
Arctic
Islands
/Polaris
Vega Navi 1x Navi 2x Navi 3x
Released 1986 1991 Apr
1996
Mar
1997
Aug
1998
Apr
2000
Aug
2001
Sep
2002
May
2004
Oct
2005
May
2007
Nov
2007
Jun
2008
Sep
2009
Oct
2010
Dec
2010
Jan
2012
Sep
2013
Jun
2015
Jun 2016, Apr 2017, Aug 2019 Jun 2017, Feb 2019 Jul
2019
Nov
2020
Dec
2022
Marketing Name Wonder Mach 3D
Rage
Rage
Pro
Rage
128
Radeon
7000
Radeon
8000
Radeon
9000
Radeon
X700/X800
Radeon
X1000
Radeon
HD 2000
Radeon
HD 3000
Radeon
HD 4000
Radeon
HD 5000
Radeon
HD 6000
Radeon
HD 7000
Radeon
200
Radeon
300
Radeon
400/500/600
Radeon
RX Vega, Radeon VII
Radeon
RX 5000
Radeon
RX 6000
Radeon
RX 7000
AMD support Ended Current
Kind 2D 3D
Instruction set architecture Not publicly known TeraScale instruction set GCN instruction set RDNA instruction set
Microarchitecture TeraScale 1
(VLIW)
TeraScale 2
(VLIW5)
TeraScale 2
(VLIW5)

up to 68xx
TeraScale 3
(VLIW4)

in 69xx [33][34]
GCN 1st
gen
GCN 2nd
gen
GCN 3rd
gen
GCN 4th
gen
GCN 5th
gen
RDNA RDNA 2 RDNA 3
Type Fixed pipeline[a] Programmable pixel & vertex pipelines Unified shader model
Direct3D 5.0 6.0 7.0 8.1 9.0
11 (9_2)
9.0b
11 (9_2)
9.0c
11 (9_3)
10.0
11 (10_0)
10.1
11 (10_1)
11 (11_0) 11 (11_1)
12 (11_1)
11 (12_0)
12 (12_0)
11 (12_1)
12 (12_1)
11 (12_1)
12 (12_2)
Shader model 1.4 2.0+ 2.0b 3.0 4.0 4.1 5.0 5.1 5.1
6.5
6.7
OpenGL 1.1 1.2 1.3 2.1[b][35] 3.3 4.5[36][37][38][c] 4.6
Vulkan 1.1 1.3
OpenCL Close to Metal 1.1 (not supported by Mesa) 1.2+ (on Linux: 1.1+ (no Image support on clover, with by rustiCL) with Mesa, 1.2+ on GCN 1.Gen) 2.0+ (Adrenalin driver on Win7+)
(on Linux ROCM, Mesa 1.2+ (no Image support in clover, but in rustiCL with Mesa, 2.0+ and 3.0 with AMD drivers or AMD ROCm), 5th gen: 2.2 win 10+ and Linux RocM 5.0+
2.2+ and 3.0 windows 8.1+ and Linux ROCM 5.0+ (Mesa rustiCL 1.2+ and 3.0 (2.1+ and 2.2+ wip))[39][40][41]
HSA / ROCm Yes ?
Video decoding ASIC Avivo/UVD UVD+ UVD 2 UVD 2.2 UVD 3 UVD 4 UVD 4.2 UVD 5.0 or 6.0 UVD 6.3 UVD 7 [15][d] VCN 2.0 [15][d] VCN 3.0 [42] VCN 4.0
Video encoding ASIC VCE 1.0 VCE 2.0 VCE 3.0 or 3.1 VCE 3.4 VCE 4.0 [15][d]
Fluid Motion [e] No Yes No ?
Power saving ? PowerPlay PowerTune PowerTune & ZeroCore Power ?
TrueAudio Via dedicated DSP Via shaders
FreeSync 1
2
HDCP[f] ? 1.4 2.2 2.3 [43]
PlayReady[f] 3.0 No 3.0
Supported displays[g] 1–2 2 2–6 ?
Max. resolution ? 2–6 ×
2560×1600
2–6 ×
4096×2160 @ 30 Hz
2–6 ×
5120×2880 @ 60 Hz
3 ×
7680×4320 @ 60 Hz [44]

7680×4320 @ 60 Hz PowerColor
7680x4320

@165 HZ

/drm/radeon[h] Yes
/drm/amdgpu[h] Optional [45] Yes
  1. ^ The Radeon 100 Series has programmable pixel shaders, but do not fully comply with DirectX 8 or Pixel Shader 1.0. See article on R100's pixel shaders.
  2. ^ R300, R400 and R500 based cards do not fully comply with OpenGL 2+ as the hardware does not support all types of non-power of two (NPOT) textures.
  3. ^ OpenGL 4+ compliance requires supporting FP64 shaders and these are emulated on some TeraScale chips using 32-bit hardware.
  4. ^ a b c The UVD and VCE were replaced by the Video Core Next (VCN) ASIC in the Raven Ridge APU implementation of Vega.
  5. ^ Video processing for video frame rate interpolation technique. In Windows it works as a DirectShow filter in your player. In Linux, there is no support on the part of drivers and / or community.
  6. ^ a b To play protected video content, it also requires card, operating system, driver, and application support. A compatible HDCP display is also needed for this. HDCP is mandatory for the output of certain audio formats, placing additional constraints on the multimedia setup.
  7. ^ More displays may be supported with native DisplayPort connections, or splitting the maximum resolution between multiple monitors with active converters.
  8. ^ a b DRM (Direct Rendering Manager) is a component of the Linux kernel. AMDgpu is the Linux kernel module. Support in this table refers to the most current version.

Operating system support

[edit]

The VCE SIP core needs to be supported by the device driver. The device driver provides one or multiple interfaces, e. g. OpenMAX IL. One of these interfaces is then used by end-user software, like GStreamer or HandBrake (HandBrake rejected VCE support in December 2016,[46] but added it in December 2018[47]), to access the VCE hardware and make use of it.

AMD's proprietary device driver AMD Catalyst is available for multiple operating systems and support for VCE was added to it[citation needed]. Additionally, a free device driver is available. This driver also supports the VCE hardware.

Linux

[edit]
Support for the VCE ASIC is contained in the Linux kernel device driver amdgpu.

Windows

[edit]

The software "MediaShow Espresso Video Transcoding" seems to utilize VCE and UVD to the fullest extent possible.[52]

XSplit Broadcaster supports VCE from version 1.3.[53]

Open Broadcaster Software (OBS Studio) supports VCE for recording and streaming. The original Open Broadcaster Software (OBS) requires a fork build in order to enable VCE.[54]

AMD Radeon Software supports VCE with built in game capture ("Radeon ReLive") and use AMD AMF/VCE on APU or Radeon Graphics card to reduce FPS drop when capturing game or video content.[55]

HandBrake added Video Coding Engine support in version 1.2.0 in December 2018.[47]

Successor

[edit]

The VCE was succeeded by AMD Video Core Next in the Raven Ridge series of APUs released in October 2017. The VCN combines both encode (VCE) and decode (UVD).[56]

See also

[edit]

Video hardware technologies

[edit]

AMD

[edit]

Others

[edit]

References

[edit]
  1. ^ a b "Introducing the Video Coding Engine (VCE) - AMD". developer.amd.com. Archived from the original on 4 June 2016. Retrieved 15 January 2022.
  2. ^ "Product brief". amd.com.
  3. ^ "Updates" (PDF). amd.com.
  4. ^ "White Paper AMD UnifiedVideoDecoder (UVD)" (PDF). 2012-06-15. Retrieved 2017-05-20.
  5. ^ "AnandTech Portal | AMD Radeon HD 7970 Review: 28nm And Graphics Core Next, Together As One". Anandtech.com. Retrieved 2014-03-27.
  6. ^ "AMD's Radeon HD 7970 graphics processor - The Tech Report - Page 5". The Tech Report. 3 January 2012. Retrieved 2014-03-27.
  7. ^ "AMD A-Series APU block diagram". 2011-06-30. Retrieved 2015-01-22.
  8. ^ "Video & Movies: The Video Codec Engine, UVD3, & Steady Video 2.0". AnandTech. December 22, 2011. Retrieved 2017-05-20.
  9. ^ "Radeon HD 8900 Specs". AMD. Retrieved 2016-07-18.
  10. ^ "Mailing Lists". lists.freedesktop.org. 4 June 2015. Retrieved 25 September 2023.
  11. ^ "VCEEnc". June 10, 2023 – via GitHub.
  12. ^ "AMDGPU (vi.c)". GitHub.
  13. ^ "AMDGPU (vi.c)". GitHub.
  14. ^ "Video Encode API: BFrames not supported on RX 4xx? · Issue #8 · GPUOpen-LibrariesAndSDKs/AMF". GitHub.
  15. ^ a b c d Killian, Zak (March 22, 2017). "AMD publishes patches for Vega support on Linux". Tech Report. Retrieved March 23, 2017.
  16. ^ Larabel, Michael (20 March 2017). "AMD Sends Out 100 Patches, Enabling Vega Support In AMDGPU DRM". Phoronix. Retrieved 25 August 2017.
  17. ^ Deucher, Alex (15 May 2018). "[PATCH 50/57] drm/amdgpu/vg20:Enable the 2nd instance IRQ for uvd 7.2". Retrieved 2019-01-13.
  18. ^ Deucher, Alex (15 May 2018). "[PATCH 42/57] drm/amd/include/vg20: adjust VCE_BASE to reuse vce 4.0 header files". Retrieved 2019-01-13.
  19. ^ "AMD Announces the 7th Generation APU: Excavator mk2 in Bristol Ridge and Stoney Ridge for Notebooks". 31 May 2016. Retrieved 3 January 2020.
  20. ^ "AMD Mobile "Carrizo" Family of APUs Designed to Deliver Significant Leap in Performance, Energy Efficiency in 2015" (Press release). 20 November 2014. Retrieved 16 February 2015.
  21. ^ "The Mobile CPU Comparison Guide Rev. 13.0 Page 5 : AMD Mobile CPU Full List". TechARP.com. Retrieved 13 December 2017.
  22. ^ a b "AMD VEGA10 and VEGA11 GPUs spotted in OpenCL driver". VideoCardz.com. Retrieved 6 June 2017.
  23. ^ Cutress, Ian (1 February 2018). "Zen Cores and Vega: Ryzen APUs for AM4 – AMD Tech Day at CES: 2018 Roadmap Revealed, with Ryzen APUs, Zen+ on 12nm, Vega on 7nm". Anandtech. Retrieved 7 February 2018.
  24. ^ Larabel, Michael (17 November 2017). "Radeon VCN Encode Support Lands in Mesa 17.4 Git". Phoronix. Retrieved 20 November 2017.
  25. ^ a b "AMD Ryzen 5000G 'Cezanne' APU Gets First High-Res Die Shots, 10.7 Billion Transistors In A 180mm2 Package". wccftech. Aug 12, 2021. Retrieved August 25, 2021.
  26. ^ Tony Chen; Jason Greaves, "AMD's Graphics Core Next (GCN) Architecture" (PDF), AMD, retrieved 13 August 2016
  27. ^ "A technical look at AMD's Kaveri architecture". Semi Accurate. Retrieved 6 July 2014.
  28. ^ "How do I connect three or More Monitors to an AMD Radeon™ HD 5000, HD 6000, and HD 7000 Series Graphics Card?". AMD. Retrieved 8 December 2014.
  29. ^ Airlie, David (26 November 2009). "DisplayPort supported by KMS driver mainlined into Linux kernel 2.6.33". Retrieved 16 January 2016.
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