Radeon RX Vega series
Release date | 14 August 2017 |
---|---|
Codename |
|
Architecture | GCN 5th gen |
Transistors |
|
Fabrication process | Samsung/GloFo 14 nm (FinFET) TSMC 7 nm (FinFET) |
Cards | |
Entry-level | Vega 3 Vega 6 Vega 8 Vega 9 RX Vega 10 (Vega 10) RX Vega 11 (Vega 11) |
High-end | RX Vega 56 RX Vega 64 RX Vega 64 Limited Edition RX Vega 64 Liquid Cooled |
Enthusiast | Radeon VII |
API support | |
Direct3D | |
OpenCL | OpenCL 2.0[1] |
OpenGL | OpenGL 4.6[1][2][3] |
Vulkan | Vulkan 1.3[4] SPIR-V |
History | |
Predecessor | Radeon RX 500 series |
Successor | Radeon RX 5000 series |
The Radeon RX Vega series is a series of graphics processors developed by AMD. These GPUs use the Graphics Core Next (GCN) 5th generation architecture, codenamed Vega, and are manufactured on 14 nm FinFET technology, developed by Samsung Electronics and licensed to GlobalFoundries.[5] The series consists of desktop graphics cards and APUs aimed at desktops, mobile devices, and embedded applications.
The lineup was released on 14 August 2017. It included the RX Vega 56 and the RX Vega 64, priced at $399 and $499 respectively.[6] These were followed by two mobile APUs, the Ryzen 2500U and Ryzen 2700U, in October 2017.[7] February 2018 saw the release of two desktop APUs, the Ryzen 3 2200G and the Ryzen 5 2400G, and the Ryzen Embedded V1000 line of APUs.[8][9] In September 2018 AMD announced several Vega APUs in their Athlon line of products.[10] Later in January 2019, the Radeon VII was announced based on the 7nm FinFET node manufactured by TSMC.[11][12]
History
The Vega microarchitecture was AMD's high-end graphics cards line,[13] and is the successor to the R9 300 series enthusiast Fury products. Partial specifications of the architecture and Vega 10 GPU were announced with the Radeon Instinct MI25 in December 2016.[14] AMD later released the details of the Vega architecture.
Announcement
Vega was originally announced at AMD's CES 2017 presentation on 5 January 2017,[15] alongside the Zen line of CPUs.[16]
New features
Vega targets increased instructions per clock, higher clock speeds, and support for HBM2.[17][18][19]
AMD's Vega has new memory hierarchy with high-bandwidth cache and its controller.[citation needed]
Support for HBM2 featuring double the bandwidth-per-pin over previous generation HBM. HBM2 allows for higher capacities with less than half the footprint of GDDR5 memory. Vega architecture is optimized for streaming very large datasets and can work with a variety of memory types with up to 512TB of virtual address space.[citation needed]
Primitive shader for improved geometry processing. Replaces vertex and geometry shaders in geometry processing pipelines with a more programmable single stage. The primitive shader stage is more efficient, introduces intelligent load balancing technologies and higher throughput.[20]
NCU: Next Compute Unit a Next-generation compute engine. The Vega GPU introduces the Next-Gen Compute Unit. Versatile architecture featuring flexible compute units that can natively process 8-bit, 16-bit, 32-bit or 64-bit operations in each clock cycle. And run at higher frequencies. Vega brings support for Rapid Packed Math, processing two half-precision (16-bit) in the same time as a single 32-bit floating-point operation. Up to 128 32-bit, 256 16-bit or 512 8-bit ops per clock are possible with the Vega architecture.[20]
Draw Stream Binning Rasterizer designed for higher performance and power efficiency. It allows for "fetch once, shade once" of pixels through the use of a smart on-chip bin cache and early culling of pixels invisible in a final scene.[citation needed]
Vega cards can consume comparatively less power along with same or even better performance when the card is undervolted. An offset off 0.25V is proving really cool and efficient.[citation needed]
Vega bumps Direct3D feature level support from 12_0 to 12_1.[citation needed]
Vega's rasteriser brings hardware-acceleration support for Rasterizer Ordered Views and Conservative Rasterisation Tier 3.[21]
Products
RX Vega branded discrete graphics
Model (codename) |
Release Date & Price |
Architecture & Fab |
Transistors & Die Size |
Core | Fillrate[a][b][c] | Processing power[a][d] (GFLOPS) |
Memory | TBP | Bus interface | |||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Config[e] | Clock[a] (MHz) | Texture (GT/s) |
Pixel (GP/s) |
Half | Single | Double | Bus type & width |
Size (GB) |
Clock (MT/s) |
Bandwidth (GB/s) | ||||||
Radeon RX Vega 56 (Vega 10 XL)[22][23][24] |
August 28, 2017 $399 USD |
GCN 5th gen Samsung/GloFo 14LPP[f][25][26] |
12.5×109 486 mm2 |
3584:224:64 56 CU |
1156 1471 |
258.9 329.5 |
74.0 94.1 |
16,572 21,088 |
8,286 10,544 |
518 659 |
HBM2 2048-bit |
8 | 1600 | 409.6 | 210 W | PCIe 3.0 ×16 |
Radeon RX Vega 64 (Vega 10 XT)[27][23][24] |
August 14, 2017 $499 USD |
4096:256:64 64 CU |
1247 1546 |
319.2 395.8 |
79.8 98.9 |
20,431 25,330 |
10,215 12,665 |
638 792 |
1890 | 483.8 | 295 W | |||||
Radeon RX Vega 64 Liquid (Vega 10 XTX)[27][23][24] |
August 14, 2017 $699 USD |
1406 1677 |
359.9 429.3 |
90.0 107.3 |
23,036 27,476 |
11,518 13,738 |
720 859 |
345 W |
- ^ a b c Boost values (if available) are stated below the base value in italic.
- ^ Texture fillrate is calculated as the number of Texture Mapping Units multiplied by the base (or boost) core clock speed.
- ^ Pixel fillrate is calculated as the number of Render Output Units multiplied by the base (or boost) core clock speed.
- ^ Precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
- ^ Unified Shaders : Texture Mapping Units : Render Output Units and Compute Units (CU)
- ^ GlobalFoundries' 14 nm 14LPP FinFET process is second-sourced from Samsung Electronics.
Radeon VII branded discrete graphics
Model (codename) |
Release Date & Price |
Architecture & Fab |
Transistors & Die Size |
Core | Fillrate[a][b][c] | Processing power[a][d] (GFLOPS) |
Memory | TBP | Bus interface | |||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Config[e] | Clock[a] (MHz) | Texture (GT/s) |
Pixel (GP/s) |
Half | Single | Double | Bus type & width |
Size (GB) |
Clock (MT/s) |
Bandwidth (GB/s) | ||||||
Radeon VII (Vega 20 XT) [28][29][30][31][32][33] |
February 7, 2019 $699 USD |
GCN 5th gen TSMC 7FF |
13.23×109 331 mm2 |
3840:240:64 60 CU |
1400 1750–1800 |
336.0 420.0 |
89.60 112.0 |
21,504 27,648 |
10,752 13,824 |
2,688 3,459 |
HBM2 4096-bit |
16 | 2000 | 1024 | 300 W | PCIe 3.0 ×16 |
- ^ a b c Boost values (if available) are stated below the base value in italic.
- ^ Texture fillrate is calculated as the number of Texture Mapping Units multiplied by the base (or boost) core clock speed.
- ^ Pixel fillrate is calculated as the number of Render Output Units multiplied by the base (or boost) core clock speed.
- ^ Precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
- ^ Unified Shaders : Texture Mapping Units : Render Output Units and Compute Units (CU)
Workstation GPUs
Model (Codename) |
Release Date & Price |
Architecture & Fab |
Transistors & Die Size |
Core | Fillrate[a][b][c] | Processing power[a][d] (GFLOPS) |
Memory | TBP | Bus interface |
Graphic Output Ports | |||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Config[e] | Clock[a] (MHz) | Texture (GT/s) |
Pixel (GP/s) |
Half | Single | Double | Bus type & width |
Size (GB) |
Clock (MT/s) |
Bandwidth (GB/s) | |||||||
Radeon Vega Frontier Edition (Air Cooled)[34][35][36] (Vega 10 XTX AIR) |
June 27, 2017 $999 USD |
GCN 5th gen GloFo 14 nm |
12.5×109 494 mm2 |
4096:256:64 64 CU |
1382 1600 |
353.8 409.6 |
88.4 102.4 |
22,643 26,214 |
11,321 13,107 |
707.6 819.2 |
HBM2 2048-bit |
16 | 1890 | 484 | 300 W | PCIe 3.0 ×16 |
3× DP 1.4a 1× HDMI 2.0b |
Radeon Vega Frontier Edition (Liquid Cooled)[34][37][38] (Vega 10 XTX LCS) |
June 27, 2017 $1,499 USD |
375 W |
- ^ a b c Boost values (if available) are stated below the base value in italic.
- ^ Texture fillrate is calculated as the number of Texture Mapping Units multiplied by the base (or boost) core clock speed.
- ^ Pixel fillrate is calculated as the number of Render Output Units multiplied by the base (or boost) core clock speed.
- ^ Precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
- ^ Unified Shaders : Texture Mapping Units : Render Output Units and Compute Units (CU)
Model (Codename) |
Release Date & Price |
Architecture & Fab |
Transistors & Die Size |
Core | Fillrate[a][b][c] | Processing power[a][d] (GFLOPS) |
Memory | TBP | Bus interface |
Graphic Output Ports | |||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Config[e] | Clock[a] (MHz) | Texture (GT/s) |
Pixel (GP/s) |
Half | Single | Double | Bus type & width |
Size (GB) |
Clock (MT/s) |
Bandwidth (GB/s) | |||||||
Radeon Pro Vega II[39][40][41] (Vega 20 XT) |
2019 $2,800 USD |
GCN 5th gen TSMC 7 nm |
13.23×109 331 mm2 |
4096:256:64 64 CU |
1720 | 440.3 | 110.1 | 28,180 | 14,090 | 880 | HBM2 4096-bit |
32 | 2000 | 1024 | 475 W | PCIe 3.0 ×16 |
4× Thunderbolt 3 (USB Type-C) 1× HDMI 2.0b |
Radeon Pro Vega II Duo[39][42][43] (Vega 20 XT) |
2019 $5,600 USD |
|
1720 | 2× 440.3 | 2× 110.1 | 2× 28,180 | 2× 14,090 | 2× 880 | HBM2 2× 4096-bit |
2× 32 | 2000 | 2× 1024 |
- ^ a b c Boost values (if available) are stated below the base value in italic.
- ^ Texture fillrate is calculated as the number of Texture Mapping Units multiplied by the base (or boost) core clock speed.
- ^ Pixel fillrate is calculated as the number of Render Output Units multiplied by the base (or boost) core clock speed.
- ^ Precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
- ^ Unified Shaders : Texture Mapping Units : Render Output Units and Compute Units (CU)
Mobile Workstation GPUs
Model (Codename) |
Release Date | Architecture & Fab |
Transistors & Die Size |
Core | Fillrate[a][b][c] | Processing power[a][d] (GFLOPS) |
Memory | TDP | Bus interface | |||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Config[e] | Clock[a] (MHz) | Texture (GT/s) |
Pixel (GP/s) |
Half | Single | Double | Bus type & width |
Size (GB) |
Clock (MT/s) |
Bandwidth (GB/s) | ||||||
Radeon Pro Vega 16[44][45][46] (Vega 12 XLA) |
November 14, 2018 | GCN 5th gen GloFo 14 nm |
Unknown | 1024:64:32 16 CU |
815 1190 |
76.16 |
38.08 |
4,874 |
2,437 |
152.3 |
HBM2 1024-bit |
4 | 2400 | 307.2 | 50 W | PCIe 3.0 ×16 |
Radeon Pro Vega 20[44][45][47] (Vega 12 XTA) |
Unknown | 1280:80:32 20 CU |
815 1283 |
102.6 |
41.06 |
6,569 |
3,284 |
205.3 |
1480 | 189.4 | 50 W | |||||
Radeon Pro Vega 48[48][49] (Vega 10 PRO) |
March 19, 2019 | 12.5×109 495 mm2 |
3072:192:64 48 CU |
1200 |
230.4 |
76.80 |
14,746 |
7,373 |
460.8 |
HBM2 2048-bit |
8 | 1572 | 402.4 | Unknown | ||
Radeon Pro Vega 56[50][51][52] (Vega 10 XL) |
August 17, 2017 | 3584:224:64 56 CU |
1138 1250 |
280.0 |
80.00 |
17,920 |
8,960 |
560.0 |
120 W | |||||||
Radeon Pro Vega 64[50][51][53] (Vega 10 XT) |
June 17, 2017 | 4096:256:64 64 CU |
1250 1350 |
345.6 |
86.40 |
22,118 |
11,059 |
691.2 |
16 | ? | ||||||
Radeon Pro Vega 64X[50][54] (Vega 10 XT) |
March 19, 2019 | 4096:256:64 64 CU |
1250 1468 |
375.8 |
93.95 |
24,051 |
12,026 |
751.6 |
2000 | 512.0 | ? |
- ^ a b c Boost values (if available) are stated below the base value in italic.
- ^ Texture fillrate is calculated as the number of Texture Mapping Units multiplied by the base (or boost) core clock speed.
- ^ Pixel fillrate is calculated as the number of Render Output Units multiplied by the base (or boost) core clock speed.
- ^ Precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
- ^ Unified Shaders : Texture Mapping Units : Render Output Units : Compute Units
Desktop APUs
Raven Ridge (2018)
Model | Release Date & Price |
Process | CPU | GPU | Socket | PCIe lanes | Memory support |
TDP | Stock cooler (box)[a] | Box Number | Part Number | ||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Cores (threads) |
Clock rate (GHz) | Cache[i] | Model | Config[ii] | Clock | Processing power (GFLOPS)[iii] | |||||||||||||
Base | Boost | L1 | L2 | L3 | |||||||||||||||
Athlon 200GE[56] | September 6, 2018 US $55 |
GloFo 14LP |
2 (4) | 3.2 | — | 64 KB inst. 32 KB data per core |
512 KB per core |
4 MB | Vega 3 | 192:12:4 3 CU |
1000 MHz | 384 | AM4 | 16 (8+4+4) | DDR4-2666 dual-channel |
35 W | Basic Stock Cooler | YD200GC6FBBOX | YD200GC6M2OFB
YD20GGC6M2OFB |
Athlon Pro 200GE[57] | September 6, 2018 OEM |
N/A | N/A | YD200BC6M2OFB | |||||||||||||||
Athlon 220GE[58] | December 21, 2018 US $65 |
3.4 | Basic Stock Cooler | YD220GC6FBBOX | YD220GC6M2OFB | ||||||||||||||
Athlon 240GE[59] | December 21, 2018 US $75 |
3.5 | YD240GC6FBBOX | YD240GC6M2OFB | |||||||||||||||
Athlon 3000G[60] | November 19, 2019
US $49 |
1100 MHz | 424.4 | YD3000C6FHBOX | YD3000C6M2OFH | ||||||||||||||
Athlon 300GE[61] | July 7, 2019
OEM |
3.4 | N/A | N/A | YD30GEC6M2OFH | ||||||||||||||
Athlon Silver 3050GE[62] | July 21, 2020
OEM |
YD305GC6M2OFH | |||||||||||||||||
Ryzen 3 2200GE[63] | April 19, 2018 OEM |
4 (4) | 3.2 | 3.6 | Vega 8 | 512:32:16 8 CU |
1126 | DDR4-2933 dual-channel |
YD2200C6M4MFB | ||||||||||
Ryzen 3 Pro 2200GE[64] | May 10, 2018 OEM |
YD220BC6M4MFB | |||||||||||||||||
Ryzen 3 2200G | February 12, 2018 US $99 |
3.5 | 3.7 | 45–65 W | Wraith Stealth | YD2200C5FBBOX | YD2200C5M4MFB | ||||||||||||
Ryzen 3 Pro 2200G[65] | May 10, 2018 OEM |
N/A | N/A | YD220BC5M4MFB | |||||||||||||||
Ryzen 5 2400GE[66] | April 19, 2018 OEM |
4 (8) | 3.2 | 3.8 | RX Vega 11 | 704:44:16 | 1250 MHz | 1760 | 35 W | YD2400C6M4MFB | |||||||||
Ryzen 5 Pro 2400GE[67] | May 10, 2018 OEM |
YD240BC6M4MFB | |||||||||||||||||
Ryzen 5 2400G[68] | February 12, 2018[69][70] US $169 |
3.6 | 3.9 | 45–65 W | Wraith Stealth | YD2400C5FBBOX | YD2400C5M4MFB | ||||||||||||
Ryzen 5 Pro 2400G[71] | May 10, 2018 OEM |
N/A | N/A | YD240BC5M4MFB |
- ^ AMD defines 1 kilobyte (KB) as 1024 bytes, and 1 megabyte (MB) as 1024 kilobytes.[55]
- ^ Unified Shaders : Texture Mapping Units : Render Output Units and Compute Units (CU)
- ^ Single-precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
Picasso (2019)
Model | Release date & price |
Fab | CPU | GPU | Socket | PCIe lanes | Memory support |
TDP | ||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Cores (threads) |
Clock rate (GHz) | Cache | Architecture | Config[i] | Clock | Processing power (GFLOPS)[ii] | ||||||||||
Base | Boost | L1 | L2 | L3 | ||||||||||||
Athlon Pro 300GE[72] | September 30, 2019 OEM |
12 nm | 2 (4) | 3.4 | — | 64 KB inst. 32 KB data per core |
512 KB per core |
4 MB | GCN 5th gen | 192:12:4 3 CU |
1100 MHz | 424.4 | AM4 | 16 (8+4+4) | DDR4-2667 dual-channel |
35 W |
Athlon Silver Pro 3125GE[73] | July 21, 2020 OEM | |||||||||||||||
Athlon Gold 3150GE[74] | 4 (4) | 3.3 | 3.8 | DDR4-2933 dual-channel | ||||||||||||
Athlon Gold Pro 3150GE[75] | ||||||||||||||||
Athlon Gold 3150G[76] | 3.5 | 3.9 | 45-65 W | |||||||||||||
Athlon Gold Pro 3150G[77] | ||||||||||||||||
Ryzen 3 3200GE[78] | July 7, 2019 OEM |
3.3 | 3.8 | 512:32:16 8 CU |
1200 MHz | 1228.8 | 35 W | |||||||||
Ryzen 3 Pro 3200GE[79] | September 30, 2019 OEM | |||||||||||||||
Ryzen 3 3200G[80] | July 7, 2019 US $99 |
3.6 | 4.0 | 1250 MHz | 1280 | 45-65 W | ||||||||||
Ryzen 3 Pro 3200G[81] | September 30, 2019 OEM | |||||||||||||||
Ryzen 5 Pro 3350GE[82] | July 21, 2020 OEM |
3.3 | 3.9 | 640:40:16
10 CU |
1200 MHz | 1536 | 35 W | |||||||||
Ryzen 5 Pro 3350G[83] | 4 (8) | 3.6 | 4.0 | 704:44:16 11 CU |
1300 MHz | 1830.4 | 45-65 W | |||||||||
Ryzen 5 3400GE[84] | July 7, 2019 OEM |
3.3 | 4.0 | 35 W | ||||||||||||
Ryzen 5 Pro 3400GE[85] | September 30, 2019 OEM | |||||||||||||||
Ryzen 5 3400G[86] | July 7, 2019 US $149 |
3.7 | 4.2 | 1400 MHz | 1971.2 | 45-65 W | ||||||||||
Ryzen 5 Pro 3400G[87] | September 30, 2019 OEM |
- ^ Unified Shaders : Texture Mapping Units : Render Output Units and Compute Units (CU)
- ^ Single-precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
Renoir (2020)
Model | Release date and price |
Fab | CPU | GPU | Socket | PCIe lanes |
Memory support |
TDP | |||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Cores (threads) |
Core Config[i] |
Clock rate (GHz) | Cache | Archi- tecture |
Config[ii] | Clock (GHz) |
Processing power[iii] (GFLOPS) | ||||||||||
Base | Boost | L1 | L2 | L3 | |||||||||||||
Ryzen 3 | |||||||||||||||||
4300GE[note 1][88] | July 21, 2020 (OEM only) |
TSMC 7FF |
4 (8) | 1 × 4 | 3.5 | 4.0 | 32 KB inst. 32 KB data per core |
512 KB per core |
4 MB | GCN 5th gen |
384:24:12 6 CU |
1.7 | 1305.6 | AM4 | 24 (20+4) PCIe 3.0 |
DDR4-3200 dual-channel |
35 W |
4300G[note 1][89] | 3.8 | 65 W | |||||||||||||||
Ryzen 5 | |||||||||||||||||
4600GE[note 1][90] | July 21, 2020 (OEM only) |
TSMC 7FF |
6 (12) | 2 × 3 | 3.3 | 4.2 | 32 KB inst. 32 KB data per core |
512 KB per core |
8 MB | GCN 5th gen |
448:28:14 7 CU |
1.9 | 1702.4 | AM4 | 24 (20+4) PCIe 3.0 |
DDR4-3200 dual-channel |
35 W |
4600G[note 1][91] | April 4, 2022 US $154 |
3.7 | 65 W | ||||||||||||||
Ryzen 7 | |||||||||||||||||
4700GE[note 1][92] | July 21, 2020 (OEM only) |
TSMC 7FF |
8 (16) | 2 × 4 | 3.1 | 4.3 | 32 KB inst. 32 KB data per core |
512 KB per core |
8 MB | GCN 5th gen |
512:32:16 8 CU |
2.0 | 2048 | AM4 | 24 (20+4) PCIe 3.0 |
DDR4-3200 dual-channel |
35 W |
4700G[note 1][93] | 3.6 | 4.4 | 2.1 | 2150.4 | 65 W |
- ^ Core complexes (CCXs) × cores per CCX
- ^ Unified Shaders : Texture Mapping Units : Render Output Units and Compute Units (CU)
- ^ Single-precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
Cezanne (2021)
Model | Release date and price |
Fab | CPU | GPU | Socket | PCIe lanes |
Memory support |
TDP | |||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Cores (threads) |
Core config[i] |
Clock rate (GHz) | Cache | Archi- tecture |
Config[ii] | Clock (GHz) |
Processing power[iii] (GFLOPS) | ||||||||||
Base | Boost | L1 | L2 | L3 | |||||||||||||
Ryzen 3 | |||||||||||||||||
5300GE[note 1][101] | April 13, 2021 OEM[102] |
TSMC 7FF |
4 (8) | 1 × 4 | 3.6 | 4.2 | 256 KB | 2 MB | 8 MB | GCN 5th gen |
384:24:8 6 CU |
1.7 | 1305.6 | AM4 | 24 (20+4) PCIe 3.0 |
DDR4-3200 dual-channel |
35 W |
5300G[note 1][103] | 4.0 | 65 W | |||||||||||||||
Ryzen 5 | |||||||||||||||||
5600GE[note 1][104] | April 13, 2021 OEM[102] |
TSMC 7FF |
6 (12) | 1 × 6 | 3.4 | 4.4 | 384 KB | 3 MB | 16 MB | GCN 5th gen |
448:28:8 7 CU |
1.9 | 1702.4 | AM4 | 24 (20+4) PCIe 3.0 |
DDR4-3200 dual-channel |
35 W |
5600G[note 1][105] | August 5, 2021 US $259[106] |
3.9 | 65 W | ||||||||||||||
Ryzen 7 | |||||||||||||||||
5700GE[note 1][107] | April 13 2021 OEM[102] |
TSMC 7FF |
8 (16) | 1 × 8 | 3.2 | 4.6 | 512 KB | 4 MB | 16 MB | GCN 5th gen |
512:32:8 8 CU |
2.0 | 2048 | AM4 | 24 (20+4) PCIe 3.0 |
DDR4-3200 dual-channel |
35 W |
5700G[note 1][108] | August 5, 2021 US $359[106] |
3.8 | 65 W |
- ^ Core Complexes (CCX) × cores per CCX
- ^ Unified shaders : texture mapping units : render output units and compute units (CU)
- ^ Single precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
Mobile APUs
Raven Ridge (2017)
Model | Release date |
Fab | CPU | GPU | Socket | PCIe lanes | Memory support | TDP | ||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Cores (threads) |
Clock rate (GHz) | Cache | Model | Config[i] | Clock | Processing power (GFLOPS)[ii] | ||||||||||
Base | Boost | L1 | L2 | L3 | ||||||||||||
Athlon Pro 200U [116] | 2019 | GloFo 14LP |
2 (4) | 2.3 | 3.2 | 64 KB inst. 32 KB data per core |
512 KB per core |
4 MB | Vega 3 | 192:12:4 3 CU |
1000 MHz | 384 | FP5 | 12 (8+4) | DDR4-2400 dual-channel |
12–25 W |
Athlon 300U [117] | January 6, 2019 | 2.4 | 3.3 | |||||||||||||
Ryzen 3 2200U [118] | January 8, 2018 | 2.5 | 3.4 | 1100 MHz | 422.4 | |||||||||||
Ryzen 3 3200U [119] | January 6, 2019 | 2.6 | 3.5 | 1200 MHz | 460.8 | |||||||||||
Ryzen 3 2300U [120] | January 8, 2018 | 4 (4) | 2.0 | 3.4 | Vega 6 | 384:24:8 6 CU |
1100 MHz | 844.8 | ||||||||
Ryzen 3 Pro 2300U [121] | May 15, 2018 | |||||||||||||||
Ryzen 5 2500U [122] | October 26, 2017 | 4 (8) | 3.6 | Vega 8 | 512:32:16 8 CU |
1126.4 | ||||||||||
Ryzen 5 Pro 2500U [123] | May 15, 2018 | |||||||||||||||
Ryzen 5 2600H [124] | September 10, 2018 | 3.2 | DDR4-3200 dual-channel |
35–54 W | ||||||||||||
Ryzen 7 2700U [125] | October 26, 2017 | 2.2 | 3.8 | Vega 10 | 640:40:16 10 CU |
1300 MHz | 1664 | DDR4-2400 dual-channel |
12–25 W | |||||||
Ryzen 7 Pro 2700U [126] | May 15, 2018 | |||||||||||||||
Ryzen 7 2800H [127] | September 10, 2018 | 3.3 | Vega 11 | 704:44:16 11 CU |
1830.4 | DDR4-3200 dual-channel |
35–54 W |
- ^ Unified Shaders : Texture Mapping Units : Render Output Units and Compute Units (CU)
- ^ Single precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
Picasso (2019)
Model | Release date |
Fab | CPU | GPU | Socket | PCIe lanes |
Memory support | TDP | ||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Cores (threads) |
Clock rate (GHz) | Cache | Model | Config[i] | Clock | Processing power (GFLOPS)[ii] | ||||||||||
Base | Boost | L1 | L2 | L3 | ||||||||||||
Ryzen 3 3300U[note 1][128] | January 6, 2019 | GloFo 12LP (14LP+) |
4 (4) | 2.1 | 3.5 | 64 KB inst. 32 KB data per core |
512 KB per core |
4 MB | Vega 6 | 384:24:8 6 CU[129] |
1200 MHz | 921.6 | FP5 | 16 (8+4+4) PCIe 3.0 |
DDR4-2400 dual-channel |
15 W |
Ryzen 3 3350U[130] | ||||||||||||||||
Ryzen 5 3450U[131] | June 2020 | 4 (8) | Vega 8 | 512:32:16 8 CU[132] |
1228.8 | |||||||||||
Ryzen 5 3500U[note 1][133] | January 6, 2019 | 3.7 | ||||||||||||||
Ryzen 5 3500C[134] | September 22, 2020 | |||||||||||||||
Ryzen 5 3550H[135] | January 6, 2019 | 35 W | ||||||||||||||
Ryzen 5 3580U[136] | October 2019 | Vega 9 | 576:36:16 9 CU |
1300 MHz | 1497.6 | 15 W | ||||||||||
Ryzen 7 3700U[note 1][137] | January 6, 2019 | 2.3 | 4.0 | Vega 10 | 640:40:16 10 CU[138] |
1400 MHz | 1792.0 | |||||||||
Ryzen 7 3700C[139] | September 22, 2020 | |||||||||||||||
Ryzen 7 3750H[140] | January 6, 2019 | 35 W | ||||||||||||||
Ryzen 7 3780U[141] | October 2019 | Vega 11 | 704:44:16 11 CU |
1971.2 | 15 W |
- ^ Unified Shaders : Texture Mapping Units : Render Output Units and Compute Units (CU)
- ^ Single precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
Dalí (2020)
Model | Release date |
Fab | CPU | GPU | Socket | PCIe lanes | Memory support | TDP | Part number | ||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Cores (threads) |
Clock rate (GHz) | Cache | Model | Config[b] | Clock | Processing power (GFLOPS)[c] | |||||||||||
Base | Boost | L1 | L2 | L3 | |||||||||||||
AMD 3015e[145] | July 6, 2020 | 14 nm | 2 (4) | 1.2 | 2.3 | 64 KB inst. 32 KB data per core |
512 KB per core |
4 MB | AMD Radeon(TM)
Graphics (Vega) |
3 CU | 600 MHz | FT5 | 12 (8+4) | DDR4-1600 single-channel |
6 W | AM3015BRP2OFJ | |
AMD 3015Ce[146] | April 29, 2021 | AM301CBRP2OFJ | |||||||||||||||
AMD 3020e[147] | January 6, 2020 | 2 (2) | 1.2 | 2.6 | 192:12:4 3 CU |
1000 MHz | 384 | FP5 | DDR4-2400 dual-channel |
YM3020C7T2OFG | |||||||
Athlon Silver 3050e[148] | 2 (4) | 1.4 | 2.8 | YM3050C7T2OFG | |||||||||||||
Athlon PRO 3045B | Q1 2021 | 2 (2) | 2.3 | 3.2 | 128:8:4 2 CU |
1100 MHz | 281.6 | 12-25 W | YM3045C4T2OFG | ||||||||
Athlon Silver 3050U[149] | January 6, 2020 | YM3050C4T2OFG | |||||||||||||||
Athlon Silver 3050C[150] | September 22, 2020 | YM305CC4T2OFG | |||||||||||||||
Athlon PRO 3145B | Q1 2021 | 2 (4) | 2.6 | 3.3 | 192:12:4 3 CU |
1000 MHz | 384 | YM3145C4T2OFG | |||||||||
Athlon Gold 3150U[151] | January 6, 2020 | YM3150C4T2OFG | |||||||||||||||
Athlon Gold 3150C[152] | September 22, 2020 | YM315CC4T2OFG | |||||||||||||||
Ryzen 3 3250U[153] | January 6, 2020 | 2.6 | 3.5 | 1200 MHz | 460.8 | YM3250C4T2OFG | |||||||||||
Ryzen 3 3250C[154] | September 22, 2020 | YM325CC4T2OFG |
- ^ A box without cooler might also be available (WOF).
- ^ Unified Shaders : Texture Mapping Units : Render Output Units and Compute Units (CU)
- ^ Single precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
Renoir (2020)
Model | Release date |
Fab | CPU | GPU | Socket | PCIe lanes |
Memory support | TDP | |||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Cores (threads) |
Core config[i] | Clock rate (GHz) | Cache | Archi- tecture |
Config[ii] | Clock | Processing power (GFLOPS)[iii] | ||||||||||
Base | Boost | L1 | L2 | L3 | |||||||||||||
Ryzen 3 4300U[note 1][155][156] | March 16, 2020 | TSMC 7FF |
4 (4) | 1 × 4 | 2.7 | 3.7 | 32 KB inst. 32 KB data per core |
512 KB per core |
4 MB | GCN 5th gen |
320:20:8 5 CU |
1400 MHz | 896 | FP6 | 16 (8+4+4) PCIe 3.0 |
DDR4-3200 LPDDR4-4266 dual-channel |
10–25 W |
Ryzen 5 4500U[157][158] | 6 (6) | 2 × 3 | 2.3 | 4.0 | 8 MB 4 MB per CCX |
384:24:8 6 CU |
1500 MHz | 1152 | |||||||||
Ryzen 5 4600U[note 1][159] | 6 (12) | 2.1 | |||||||||||||||
Ryzen 5 4680U[160] | April 13, 2021 | 448:28:8 7 CU |
1344 | ||||||||||||||
Ryzen 5 4600HS[161] | March 16, 2020 | 3.0 | 384:24:8 6 CU |
1152 | 35 W | ||||||||||||
Ryzen 5 4600H[162][163] | 35–54 W | ||||||||||||||||
Ryzen 7 4700U[note 1][164] | 8 (8) | 2 × 4 | 2.0 | 4.1 | 448:28:8 7 CU |
1600 MHz | 1433.6 | 10–25 W | |||||||||
Ryzen 7 4800U[165] | 8 (16) | 1.8 | 4.2 | 512:32:8 8 CU |
1750 MHz | 1792 | |||||||||||
Ryzen 7 4980U[166] | April 13, 2021 | 2.0 | 4.4 | 1950 MHz | 1996.8 | ||||||||||||
Ryzen 7 4800HS[167] | March 16, 2020 | 2.9 | 4.2 | 448:28:8 7 CU |
1600 MHz | 1433.6 | 35 W | ||||||||||
Ryzen 7 4800H[168][169] | 35–54 W | ||||||||||||||||
Ryzen 9 4900HS[170] | 3 | 4.3 | 512:32:8 8 CU |
1750 MHz | 1792 | 35 W | |||||||||||
Ryzen 9 4900H[171] | 3.3 | 4.4 | 35–54 W |
- ^ Core Complexes (CCX) × cores per CCX
- ^ Unified shaders : texture mapping units : render output units and compute units (CU)
- ^ Single precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
Lucienne (2021)
Model | Release date |
Fab | CPU | GPU | Socket | PCIe support |
Memory support | TDP | |||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Cores (threads) |
Core config[i] | Clock rate (GHz) | Cache | Architecture | Config[ii] | Clock | Processing power[iii] (GFLOPS) | ||||||||||
Base | Boost | L1 | L2 | L3 | |||||||||||||
Ryzen 3 5300U[175] | January 12, 2021 | TSMC 7FF |
4 (8) | 1 × 4 | 2.6 | 3.8 | 32 KB inst. 32 KB data per core |
512 KB per core |
4 MB | GCN 5th gen | 384:24:8 6 CU |
1500 MHz | 1152 | FP6 | 16 (8+4+4) PCIe 3.0 |
DDR4-3200 LPDDR4-4266 dual-channel |
10–25 W |
Ryzen 5 5500U[176][177] | 6 (12) | 2 × 3 | 2.1 | 4.0 | 8 MB 4 MB per CCX |
448:28:8 7 CU |
1800 MHz | 1612.8 | |||||||||
Ryzen 7 5700U[178] | 8 (16) | 2 × 4 | 1.8 | 4.3 | 512:32:8 8 CU |
1900 MHz | 1945.6 |
- ^ Core Complexes (CCX) × cores per CCX
- ^ Unified shaders : texture mapping units : render output units and compute units (CU)
- ^ Single precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
Cezanne (2021)
Model | Release date | Fab | CPU | GPU | Socket | PCIe lanes |
Memory support |
TDP | |||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Cores (threads) |
Core config[i] |
Clock rate (GHz) | Cache | Archi- tecture |
Config[ii] | Clock (GHz) |
Processing power (GFLOPS)[iii] | ||||||||||
Base | Boost | L1 | L2 | L3 | |||||||||||||
Ryzen 3 5125C[179] | May 5, 2022 | TSMC 7FF |
2 (4) | 1 × 2 | 3.0 | — | 128 KB | 1 MB | 8 MB | GCN 5th gen |
192:12:8 3 CU |
? | ? | FP6 | 16 (8+4+4) PCIe 3.0 |
DDR4-3200 LPDDR4-4266 dual-channel |
15 W |
Ryzen 3 5400U[note 1][180][181] | January 12, 2021 | 4 (8) | 1 × 4 | 2.7 | 4.1 | 256 KB | 2 MB | 384:24:8 6 CU |
1.6 | 1228.8 | 10-25 W | ||||||
Ryzen 3 5425U[note 1][note 2][182] | January 4, 2022 | 2.3 | 4.3 | 15 W | |||||||||||||
Ryzen 5 5560U[183] | January 12, 2021 | 6 (12) | 1 × 6 | 4.0 | 384 KB | 3 MB | 10-25 W | ||||||||||
Ryzen 5 5600U[note 1][184] | 4.2 | 16 MB | 448:28:8 7 CU |
1.8 | 1612.8 | ||||||||||||
Ryzen 5 5625U[note 1][note 2][185] | January 4, 2022 | 4.3 | 15 W | ||||||||||||||
Ryzen 5 5600H[186][187] | January 12, 2021 | 3.3 | 4.2 | 35-54 W | |||||||||||||
Ryzen 5 5600HS[188] | 3.0 | 35 W | |||||||||||||||
Ryzen 7 5800U[note 1][189] | 8 (16) | 1 × 8 | 1.9 | 4.4 | 512 KB | 4 MB | 512:32:8 8 CU |
2.0 | 2048 | 10-25 W | |||||||
Ryzen 7 5825U[note 1][note 2][190] | January 4, 2022 | 2.0 | 4.5 | 15 W | |||||||||||||
Ryzen 7 5800H[191][192] | January 12, 2021 | 3.2 | 4.4 | 35-54 W | |||||||||||||
Ryzen 7 5800HS[193] | 2.8 | 35 W | |||||||||||||||
Ryzen 9 5900HS[194] | 3.0 | 4.6 | 2.1 | 2150.4 | |||||||||||||
Ryzen 9 5900HX[195] | 3.3 | 35-54 W | |||||||||||||||
Ryzen 9 5980HS[196] | 3.0 | 4.8 | 35 W | ||||||||||||||
Ryzen 9 5980HX[197] | 3.3 | 35-54 W |
- ^ Core Complexes (CCX) × cores per CCX
- ^ Unified shaders : texture mapping units : render output units and compute units (CU)
- ^ Single precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
- ^ a b c d e f g Model also available as PRO version as 5450U,[198] 5650U,[199] 5850U,[200] released on March 16, 2021 and as 5475U,[201] 5675U,[202] 5875U,[203] released on April 19, 2022.
- ^ a b c d Model also available as Chromebook optimized version as 5425C,[204] 5625C,[205] 5825C,[206] released on May 5, 2022.
Embedded APUs
Model | Release date |
Fab | CPU | GPU | Memory support |
TDP | Junction temp. range (°C) | ||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Cores (threads) |
Clock rate (GHz) | Cache | Model | Config[i] | Clock (GHz) |
Processing power (GFLOPS)[ii] | |||||||||
Base | Boost | L1 | L2 | L3 | |||||||||||
V1202B[207] | February 2018 | GloFo 14LP |
2 (4) | 2.3 | 3.2 | 64 KB inst. 32 KB data per core |
512 KB per core |
4 MB | Vega 3 | 192:12:16 3 CU |
1.0 | 384 | DDR4-2400 dual-channel |
12–25 W | 0–105 |
V1404I[207] | December 2018 | 4 (8) | 2.0 | 3.6 | Vega 8 | 512:32:16 8 CU |
1.1 | 1126.4 | -40–105 | ||||||
V1500B[207] | 2.2 | — | — | 0–105 | |||||||||||
V1605B[207] | February 2018 | 2.0 | 3.6 | Vega 8 | 512:32:16 8 CU |
1.1 | 1126.4 | ||||||||
V1756B[207] | 3.25 | DDR4-3200 dual-channel |
35–54 W | ||||||||||||
V1780B[207] | December 2018 | 3.35 | — | ||||||||||||
V1807B[207] | February 2018 | 3.8 | Vega 11 | 704:44:16 11 CU |
1.3 | 1830.4 |
- ^ Unified Shaders : Texture Mapping Units : Render Output Units and Compute Units (CU)
- ^ Single-precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
Model | Release date |
Fab | CPU | GPU | Memory support |
TDP | ||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Cores (threads) |
Clock rate (GHz) | Cache | Model | Config[i] | Clock (GHz) |
Processing power (GFLOPS)[ii] | ||||||||
Base | Boost | L1 | L2 | L3 | ||||||||||
R1102G [208] | February 25, 2020 | GloFo 14LP |
2 (2) | 1.2 | 2.6 | 64 KB inst. 32 KB data per core |
512 KB per core |
4 MB | Vega 3 | 192:12:4 3 CU |
1.0 | 384 | DDR4-2400 single-channel |
6 W |
R1305G[208] | 2 (4) | 1.5 | 2.8 | DDR4-2400 dual-channel |
8-10 W | |||||||||
R1505G[208] | April 16, 2019 | 2.4 | 3.3 | 12–25 W | ||||||||||
R1606G[208] | 2.6 | 3.5 | 1.2 | 460.8 |
- ^ Unified Shaders : Texture Mapping Units : Render Output Units and Compute Units (CU)
- ^ Single-precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
Model | Release date |
Fab | CPU | GPU | Socket | PCIe support |
Memory support |
TDP | ||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Cores (threads) |
Clock rate (GHz) | Cache | Archi- tecture |
Config[i] | Clock (GHz) |
Processing power[ii] (GFLOPS) | ||||||||||
Base | Boost | L1 | L2 | L3 | ||||||||||||
V2516[209][210] | November 10, 2020[211] | TSMC 7FF |
6 (12) | 2.1 | 3.95 | 32 KB inst. 32 KB data per core |
512 KB per core |
8 MB | GCN 5 | 384:24:8 6 CU |
1.5 | 1152 | FP6 | 20 (8+4+4+4) PCIe 3.0 |
DDR4-3200 dual-channel LPDDR4X-4266 quad-channel |
10-25 W |
V2546[209][210] | 3.0 | 3.95 | 35-54 W | |||||||||||||
V2718[209][210] | 8 (16) | 1.7 | 4.15 | 448:28:8 7 CU |
1.6 | 1433.6 | 10-25 W | |||||||||
V2748[209][210] | 2.9 | 4.25 | 35-54 W |
- ^ Unified Shaders : Texture Mapping Units : Render Output Units and Compute Units (CU)
- ^ Single-precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
Radeon features
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 | |||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Released | 1986 | 1991 | 1996 | 1997 | 1998 | Apr 2000 | Aug 2001 | Sep 2002 | May 2004 | Oct 2005 | May 2007 | Nov 2007 | Jun 2008 | Sep 2009 | Oct 2010 | Jan 2012 | Sep 2013 | Jun 2015 | Jun 2016 | Jun 2017 | Jul 2019 | Nov 2020 | |||
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 Rx 200 | Radeon Rx 300 | Radeon RX 400/500 | Radeon RX Vega/Radeon VII(7nm) | Radeon RX 5000 | Radeon RX 6000 | |||
AMD support | |||||||||||||||||||||||||
Kind | 2D | 3D | |||||||||||||||||||||||
Instruction set | Not publicly known | TeraScale instruction set | GCN instruction set | RDNA instruction set | |||||||||||||||||||||
Microarchitecture | TeraScale 1 | TeraScale 2 (VLIW5) |
|
GCN 1st gen | GCN 2nd gen | GCN 3rd gen | GCN 4th gen | GCN 5th gen | RDNA | RDNA 2 | |||||||||||||||
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 6.3 |
6.4 | 6.5 | |||||||||||||
OpenGL | — | 1.1 | 1.2 | 1.3 | 2.1[b][214] | 3.3 | 4.5 (on Linux: 4.5 (Mesa 3D 21.0))[215][3][216][c] | 4.6 (on Linux: 4.6 (Mesa 3D 20.0)) | |||||||||||||||||
Vulkan | — | 1.0 (Win 7+ or Mesa 17+) |
1.2 (Adrenalin 20.1, Linux Mesa 3D 20.0) | ||||||||||||||||||||||
OpenCL | — | Close to Metal | 1.1 (no Mesa 3D support) | 1.2 (on Linux: 1.1 (no Image support) with Mesa 3D) | 2.0 (Adrenalin driver on Win7+) (on Linux: 1.1 (no Image support) with Mesa 3D, 2.0 with AMD drivers or AMD ROCm) |
2.0 | 2.1 [217] | ||||||||||||||||||
HSA / ROCm | — | ? | |||||||||||||||||||||||
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[218][d] | VCN 2.0[218][d] | VCN 3.0[219] | ||||||||||||
Video encoding ASIC | — | VCE 1.0 | VCE 2.0 | VCE 3.0 or 3.1 | VCE 3.4 | VCE 4.0[218][d] | |||||||||||||||||||
Fluid Motion ASIC[e] | |||||||||||||||||||||||||
Power saving | ? | PowerPlay | PowerTune | PowerTune & ZeroCore Power | ? | ||||||||||||||||||||
TrueAudio | — | Via dedicated DSP | Via shaders | ? | |||||||||||||||||||||
FreeSync | — | 1 2 | |||||||||||||||||||||||
HDCP[f] | ? | 1.4 | 1.4 2.2 |
1.4 2.2 2.3[220] | |||||||||||||||||||||
PlayReady[f] | — | 3.0 | 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[221] |
7680×4320 @ 60 Hz PowerColor | |||||||||||||||||||
/drm/radeon [h]
|
— | ||||||||||||||||||||||||
/drm/amdgpu [h]
|
— | Experimental[222] |
- ^ 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.
- ^ 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.
- ^ OpenGL 4+ compliance requires supporting FP64 shaders and these are emulated on some TeraScale chips using 32-bit hardware.
- ^ a b c The UVD and VCE were replaced by the Video Core Next (VCN) ASIC in the Raven Ridge APU implementation of Vega.
- ^ Video processing ASIC 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.
- ^ 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.
- ^ More displays may be supported with native DisplayPort connections, or splitting the maximum resolution between multiple monitors with active converters.
- ^ 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.
See also
- Graphics Core Next
- Kaby Lake G processors
- Radeon Vega Frontier Edition
- List of AMD graphics processing units
References
- ^ a b c "Radeon Software Crimson ReLive Edition 17.8.1 Release Notes". AMD. Retrieved 20 April 2018.
- ^ "AMDGPU-PRO Driver for Linux Release Notes". 2017. Archived from the original on 15 August 2017. Retrieved 20 April 2018.
- ^ a b "Mesamatrix". mesamatrix.net. Retrieved 22 April 2018.
- ^ "AMD Open Source Driver for Vulkan". GPUOpen. Retrieved 27 April 2022.
- ^ "Radeon Vega Frontier Edition: First AMD Vega GPU is for the pros". Ars Technica. Archived from the original on 17 May 2017. Retrieved 17 May 2017.
- ^ "AMD's Radeon RX Vega 64 will cost $499 and battle the GeForce GTX 1080". PCWorld. Archived from the original on 1 August 2017. Retrieved 6 August 2017.
- ^ "AMD Introduces New Ryzen Mobile Processors, the World's Fastest Processor for Ultrathin Notebooks¹". amd.com. Advanced Micro Devices, Inc. Archived from the original on 30 October 2018. Retrieved 30 October 2018.
- ^ "First AMD Ryzen Desktop APUs Featuring World's Most Powerful Graphics on a Desktop Processor¹ Available Worldwide Today". amd.com. Advanced Micro Devices, Inc. Archived from the original on 30 October 2018. Retrieved 30 October 2018.
- ^ "AMD Launches EPYC Embedded and Ryzen Embedded Processors for End-to-End "Zen" Experiences from the Core to the Edge". amd.com. Archived from the original on 30 October 2018. Retrieved 30 October 2018.
- ^ "AMD Reimagines Everyday Computing with New "Zen" Based Athlon Desktop Processors, Expands Commercial Client Portfolio with 2nd Generation Ryzen PRO Desktop Processors". amd.com. Advanced Micro Devices, Inc. Archived from the original on 30 October 2018. Retrieved 30 October 2018.
- ^ "AMD Reveals Radeon VII: High-End 7nm Vega Video Card Arrives February 7th For $699". Anandtech. 9 January 2019. Archived from the original on 9 January 2019. Retrieved 27 January 2019.
- ^ "CES 2019: AMD's Radeon 7 pushes PC gaming to 'the bleeding edge'". Cnet. 10 January 2019. Retrieved 27 January 2019.
- ^ Smith, Ryan (5 January 2017). "The AMD Vega GPU Architecture Teaser". Anandtech.com. Retrieved 30 June 2017.
- ^ Shrout, Ryan (12 December 2016). "Radeon Instinct Machine Learning GPUs include Vega, Preview Performance". PC Per. Retrieved 12 December 2016.
- ^ "Vega: AMD's New Graphics Architecture for Virtually Unlimited Workloads". www.amd.com. Archived from the original on 25 June 2017. Retrieved 17 May 2017.
- ^ "AMD Ryzen CPUs: 7 all-new details revealed at CES 2017". PCWorld. Retrieved 17 May 2017.
- ^ Kampman, Jeff (5 January 2017). "The curtain comes up on AMD's Vega architecture". TechReport.com. Retrieved 10 January 2017.
- ^ Shrout, Ryan (5 January 2017). "AMD Vega GPU Architecture Preview: Redesigned Memory Architecture". PC Perspective. Retrieved 10 January 2017.
- ^ Smith, Ryan (5 January 2017). "The AMD Vega Architecture Teaser: Higher IPC, Tiling, & More, coming in H1'2017". Anandtech.com. Archived from the original on 10 January 2017. Retrieved 10 January 2017.
- ^ a b "Vega Architecture". Radeon Gaming. Retrieved 4 April 2018.
- ^ "AMD Vega Microarchitecture Technical Overview". TechPowerUp. Retrieved 4 April 2018.
- ^ "Radeon RX Vega 56 Graphics". AMD. Retrieved 31 July 2017.
- ^ a b c Smith, Ryan (30 July 2017). "Radeon RX Vega Unveiled". AnandTech. Retrieved 31 July 2017.
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External links
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