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Radeon RX Vega series

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AMD Radeon RX Vega series
Release dateAugust 14, 2017
(7 years ago)
 (2017-08-14)
CodenameVega
ArchitectureGCN 5th gen
Transistors
  • 12.500M (Vega 10) 14 nm
  • 13.200M (Vega 20) 7 nm
Fabrication process
Cards
Entry-level
  • Radeon RX Vega 10 (IGPU)
  • Radeon RX Vega 11 (IGPU)
High-end
  • Radeon RX Vega 56
  • Radeon RX Vega 64
  • Radeon RX Vega 64 Liquid Cooled
EnthusiastRadeon VII
API support
DirectX
OpenCLOpenCL 2.0[1]
OpenGLOpenGL 4.6[1][2][3]
VulkanVulkan 1.3[4]
SPIR-V
History
PredecessorRadeon 500 series
SuccessorRadeon RX 5000 series
Support status
Supported

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
(Code name)
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 Size
(GB)
Bandwidth
(GB/s)
Bus type
& width
Clock
(MT/s)
Radeon RX Vega 56
(Vega 10)[22][23][24]
Aug 28, 2017
$399 USD
GCN 5
GloFo
14LPP[f][25][26]
12.5×109
486 mm2
3584:224:64
56 CU
1156
1471
258.9
329.5
73.98
94.14
16,572
21,088
8,286
10,544
517.9
659.0
8 409.6 HBM2
2048-bit
1600 210 W PCIe 3.0
×16
Radeon RX Vega 64
(Vega 10)[27][23][24]
Aug 14, 2017
$499 USD
4096:256:64
64 CU
1247
1546
319.2
395.8
79.81
98.94
20,431
25,330
10,215
12,665
638.5
791.6
483.8 1890 295 W
Radeon RX Vega 64 Liquid
(Vega 10)[27][23][24]
Aug 14, 2017
$699 USD
1406
1677
359.9
429.3
89.98
107.3
23,036
27,476
11,518
13,738
719.9
858.6
345 W
  1. ^ a b c Boost values (if available) are stated below the base value in italic.
  2. ^ Texture fillrate is calculated as the number of Texture Mapping Units multiplied by the base (or boost) core clock speed.
  3. ^ Pixel fillrate is calculated as the number of Render Output Units multiplied by the base (or boost) core clock speed.
  4. ^ Precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
  5. ^ Unified shaders : Texture mapping units : Render output units and Compute units (CU)
  6. ^ GlobalFoundries' 14 nm 14LPP FinFET process is second-sourced from Samsung Electronics.

Radeon VII branded discrete graphics

Model
(Code name)
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 Size
(GB)
Bandwidth
(GB/s)
Bus type
& width
Clock
(MT/s)
Radeon VII
(Vega 20)[28][29][30]
Feb 7, 2019
$699 USD
GCN 5
TSMC CLN7FF[31]
13.23×109
331 mm2
3840:240:64
60 CU
1400
1800
336.0
420.0
89.60
112.0
21,504
27,648
10,752
13,824
2,688
3,459
16 1024 HBM2
4096-bit
2000 300 W PCIe 3.0
×16
  1. ^ a b c Boost values (if available) are stated below the base value in italic.
  2. ^ Texture fillrate is calculated as the number of Texture Mapping Units multiplied by the base (or boost) core clock speed.
  3. ^ Pixel fillrate is calculated as the number of Render Output Units multiplied by the base (or boost) core clock speed.
  4. ^ Precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
  5. ^ Unified shaders : Texture mapping units : Render output units and Compute units (CU)

Workstation GPUs

Model
(Code name)
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 Size
(GB)
Bandwidth
(GB/s)
Bus type
& width
Clock
(MT/s)
Radeon Vega Frontier Edition
(Air-cooled)
(Vega 10)[32][33][34]
Jun 27, 2017
$999 USD
GCN 5
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
16 484 HBM2
2048-bit
1890 300 W PCIe 3.0
×16
3× DP 1.4a
HDMI 2.0b
Radeon Vega Frontier Edition
(Liquid-cooled)
(Vega 10)[32][35][36]
Jun 27, 2017
$1,499 USD
375 W
  1. ^ a b c Boost values (if available) are stated below the base value in italic.
  2. ^ Texture fillrate is calculated as the number of Texture Mapping Units multiplied by the base (or boost) core clock speed.
  3. ^ Pixel fillrate is calculated as the number of Render Output Units multiplied by the base (or boost) core clock speed.
  4. ^ Precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
  5. ^ Unified shaders : Texture mapping units : Render output units and Compute units (CU)
Model
(Code name)
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 Size
(GB)
Bandwidth
(GB/s)
Bus type
& width
Clock
(MT/s)
Radeon Pro Vega II
(Vega 20)[37][38][39]
2019
$2,800 USD
GCN 5
TSMC 7 nm
13.23×109
331 mm2
4096:256:64
64 CU
1720 440.3 110.1 28,180 14,090 880 32 1024 HBM2
4096-bit
2000 250 W PCIe 3.0
×16
4× Thunderbolt 3
(USB Type-C)
HDMI 2.0b
Radeon Pro Vega II Duo
(Vega 20)[37][40][41][42]
2019
$5,600 USD
4096:256:64
64 CU
1720 2× 440.3 2× 110.1 2× 28,180 2× 14,090 2× 880 2× 32 2× 1024 HBM2
2× 4096-bit
2000 475 W
  1. ^ a b c Boost values (if available) are stated below the base value in italic.
  2. ^ Texture fillrate is calculated as the number of Texture Mapping Units multiplied by the base (or boost) core clock speed.
  3. ^ Pixel fillrate is calculated as the number of Render Output Units multiplied by the base (or boost) core clock speed.
  4. ^ Precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
  5. ^ Unified shaders : Texture mapping units : Render output units and Compute units (CU)

Mobile workstation GPUs

Model
(Code name)
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 Size
(GB)
Bandwidth
(GB/s)
Bus type
& width
Clock
(MT/s)
Radeon Pro Vega 16
(Vega 12)[43][44][45]
Nov 14, 2018 GCN 5
GloFo 14 nm
? 1024:64:32
16 CU
815
1190
52.16
76.16
26.08
38.08
3,338
4,874
1,669
2,437
104.3
152.3
4 307.2 HBM2
1024-bit
2400 50 W PCIe 3.0
×16
Radeon Pro Vega 20
(Vega 12)[43][44][46]
1280:80:32
20 CU
815
1283
65.20
102.6
26.08
41.06
4,173
6,569
2,086
3,285
130.4
205.3
189.4 1480 50 W
Radeon Pro Vega 48
(Vega 10)[47][48]
Mar 19, 2019 12.5×109
495 mm2
3072:192:64
48 CU

1200

230.4

76.80

14,746

7,373

460.8
8 402.4 HBM2
2048-bit
1572 ?
Radeon Pro Vega 56
(Vega 10)[49][50][51]
Aug 17, 2017 3584:224:64
56 CU
1138
1250
254.9
280.0
72.83
80.00
16,314
17,920
8,157
8,960
509.8
560.0
120 W
Radeon Pro Vega 64
(Vega 10)[49][50][52]
Jun 17, 2017 4096:256:64
64 CU
1250
1350
320.0
345.6
80.00
86.40
20,480
22,118
10,240
11,059
640.0
691.2
16 ?
Radeon Pro Vega 64X
(Vega 10)[49][53]
Mar 19, 2019 4096:256:64
64 CU
1250
1468
320.0
375.8
80.00
93.95
20,480
24,051
10,240
12,026
640.0
751.6
512.0 2000
  1. ^ a b c Boost values (if available) are stated below the base value in italic.
  2. ^ Texture fillrate is calculated as the number of Texture Mapping Units multiplied by the base (or boost) core clock speed.
  3. ^ Pixel fillrate is calculated as the number of Render Output Units multiplied by the base (or boost) core clock speed.
  4. ^ Precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
  5. ^ Unified shaders : Texture mapping units : Render output units and Compute units (CU)

Desktop APUs

Raven Ridge (2018)

Common features of Zen based Raven Ridge desktop APUs:

Model CPU GPU TDP Release
date
Release
price
Cores
(threads)
Clock rate (GHz) L3 cache
(total)
Model Config[i] Clock
(MHz)
Processing
power
(GFLOPS)[ii]
Base Boost
Athlon 200GE 2 (4) 3.2 4 MB Vega 3 192:12:4
3 CU
1000 384 35 W Sep 6, 2018 US $55[54]
Athlon Pro 200GE OEM
Athlon 220GE 3.4 Dec 21, 2018 US $65[55]
Athlon 240GE 3.5 US $75[55]
Athlon 300GE 3.4 1100 424.4 Jul 7, 2019 OEM
Athlon Pro 300GE Sep 30, 2019
Athlon 320GE 3.5 Jul 7, 2019
Athlon 3000G Nov 19, 2019 US $49[56]
Athlon Silver 3050GE 3.4 Jul 21, 2020 OEM
Ryzen 3 Pro 2100GE[57] 3.2 1000 384 2019
Ryzen 3 2200GE 4 (4) 3.6 Vega 8 512:32:16
8 CU
1100 1126 Apr 19, 2018
Ryzen 3 Pro 2200GE May 10, 2018
Ryzen 3 2200G 3.5 3.7 65 W Feb 12, 2018 US $99[58]
Ryzen 3 Pro 2200G May 10, 2018 OEM
Ryzen 5 2400GE 4 (8) 3.2 3.8 RX Vega 11 704:44:16
11 CU
1250 1760 35 W Apr 19, 2018
Ryzen 5 Pro 2400GE Vega 11 May 10, 2018
Ryzen 5 2400G 3.6 3.9 RX Vega 11 65 W Feb 12, 2018 US $169[58]
Ryzen 5 Pro 2400G Vega 11 May 10, 2018 OEM
  1. ^ Unified shaders : Texture mapping units : Render output units and Compute units (CU)
  2. ^ Single-precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.

Picasso (2019)

Common features of Zen+ based desktop APUs:

  • Socket: AM4.
  • All the CPUs support DDR4-2933 in dual-channel mode, while Athlon Pro 300GE and Athlon Silver Pro 3125GE support only DDR4-2666.
  • L1 cache: 96 KB (32 KB data + 64 KB instruction) per core.
  • L2 cache: 512 KB per core.
  • All the CPUs support 16 PCIe 3.0 lanes.
  • Includes integrated GCN 5th generation GPU.
  • Fabrication process: GlobalFoundries 12LP.
Model CPU GPU TDP Release
date
Release
price
Cores
(threads)
Clock rate (GHz) L3 cache
(total)
Model[i] Config[ii] Clock
(MHz)
Processing
power
(GFLOPS)[iii]
Base Boost
Athlon Pro 300GE 2 (4) 3.4 4 MB Vega 3 192:12:4
3 CU
1100 424.4 35 W Sep 30, 2019 OEM
Athlon Silver Pro 3125GE Radeon
Graphics
Jul 21, 2020
Athlon Gold 3150GE 4 (4) 3.3 3.8
Athlon Gold Pro 3150GE
Athlon Gold 3150G 3.5 3.9 65 W
Athlon Gold Pro 3150G
Ryzen 3 3200GE 3.3 3.8 Vega 8 512:32:16
8 CU
1200 1228.8 35 W Jul 7, 2019
Ryzen 3 Pro 3200GE Sep 30, 2019
Ryzen 3 3200G 3.6 4.0 1250 1280 65 W Jul 7, 2019 US $99[62]
Ryzen 3 Pro 3200G Sep 30, 2019 OEM
Ryzen 5 Pro 3350GE 3.3 3.9 Radeon
Graphics
640:40:16
10 CU
1200 1536 35 W Jul 21, 2020
Ryzen 5 Pro 3350G 4 (8) 3.6 4.0 1300 1830.4 65 W
Ryzen 5 3400GE 3.3 Vega 11 704:44:16
11 CU
35 W Jul 7, 2019
Ryzen 5 Pro 3400GE Sep 30, 2019
Ryzen 5 3400G 3.7 4.2 RX Vega 11 1400 1971.2 65 W Jul 7, 2019 US $149[62]
Ryzen 5 Pro 3400G Vega 11 Sep 30, 2019 OEM
  1. ^ Starting with 2020 releases, AMD stopped referring to integrated graphics as "Vega", therefore all Vega based iGPUs are branded as AMD Radeon Graphics (instead Radeon Vega 3 or Radeon Vega 10).[59][60][61]
  2. ^ Unified shaders : Texture mapping units : Render output units and Compute units (CU)
  3. ^ Single-precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.

Renoir (2020)

Common features of Ryzen 4000 desktop APUs:

  • Socket: AM4.
  • All the CPUs support DDR4-3200 in dual-channel mode.
  • L1 cache: 64 KB (32 KB data + 32 KB instruction) per core.
  • L2 cache: 512 KB per core.
  • All the CPUs support 24 PCIe 3.0 lanes. 4 of the lanes are reserved as link to the chipset.
  • Includes integrated GCN 5th generation GPU.
  • Fabrication process: TSMC 7FF.
Branding and model CPU GPU TDP Release
date
Release
price
Cores
(threads)
Clock rate (GHz) L3 cache
(total)
Core
Config[i]
Model Clock
(GHz)
Config[ii] Processing
power[iii]
(GFLOPS)
Base Boost
Ryzen 7 4700G[a] 8 (16) 3.6 4.4 8 MB 2 × 4 Radeon
Graphics[b]
2.1 512:32:16
8 CU
2150.4 65 W Jul 21, 2020 OEM
4700GE[a] 3.1 4.3 2.0 2048 35 W
Ryzen 5 4600G[a][63] 6 (12) 3.7 4.2 2 × 3 1.9 448:28:14
7 CU
1702.4 65 W Jul 21, 2020
(OEM) /
Apr 4, 2022
(retail)
OEM /
US $154
4600GE[a] 3.3 35 W Jul 21, 2020 OEM
Ryzen 3 4300G[a] 4 (8) 3.8 4.0 4 MB 1 × 4 1.7 384:24:12
6 CU
1305.6 65 W
4300GE[a] 3.5 35 W
  1. ^ Core complexes (CCXs) × cores per CCX
  2. ^ Unified shaders : Texture mapping units : Render output units and Compute units (CU)
  3. ^ Single-precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
  1. ^ a b c d e f Model also available as PRO version as 4350GE,[64] 4350G,[65] 4650GE,[66] 4650G,[67] 4750GE,[68] 4750G,[69] released on July 21, 2020 for OEM only.[70]
  2. ^ All of the iGPUs are branded as AMD Radeon Graphics.

Cezanne (2021)

Common features of Ryzen 5000 desktop APUs:

  • Socket: AM4.
  • All the CPUs support DDR4-3200 in dual-channel mode.
  • L1 cache: 64 KB (32 KB data + 32 KB instruction) per core.
  • L2 cache: 512 KB per core.
  • All the CPUs support 24 PCIe 3.0 lanes. 4 of the lanes are reserved as link to the chipset.
  • Includes integrated GCN 5th generation GPU.
  • Fabrication process: TSMC 7FF.
Branding and model CPU GPU[a] Thermal
solution
TDP Release
date
MSRP
Cores
(threads)
Clock rate (GHz) L3 cache
(total)
Core
config[i]
Clock
(MHz)
Config[ii] Processing
power[iii]
(GFLOPS)
Base Boost
Ryzen 7 5700G[b] 8 (16) 3.8 4.6 16 MB 1 × 8 2000 512:32:8
8 CU
2048 Wraith Stealth 65 W Apr 13, 2021 (OEM),
Aug 5, 2021 (retail)
US $359
5700GE[b] 3.2 35 W Apr 13, 2021 OEM
Ryzen 5 5600GT 6 (12) 3.6 1 × 6 1900 448:28:8
7 CU
1702.4 65 W Jan 31, 2024[71] US $140
5600G[b] 3.9 4.4 Apr 13, 2021 (OEM),
Aug 5, 2021 (retail)
US $259
5600GE[b] 3.4 35 W Apr 13, 2021 OEM
5500GT 3.6 65 W Jan 31, 2024[71] US $125
Ryzen 3 5300G[b] 4 (8) 4.0 4.2 8 MB 1 × 4 1700 384:24:8
6 CU
1305.6 OEM Apr 13, 2021 OEM
5300GE[b] 3.6 35 W
  1. ^ Core Complexes (CCX) × cores per CCX
  2. ^ Unified shaders : texture mapping units : render output units and compute units (CU)
  3. ^ Single precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
  1. ^ All of the iGPUs are branded as AMD Radeon Graphics.
  2. ^ a b c d e f Model also available as PRO version as 5350GE,[72] 5350G,[73] 5650GE,[74] 5650G,[75] 5750GE,[76] 5750G,[77] released June 1, 2021.[78]

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
(MHz)
Processing
power
(GFLOPS)[ii]
Base Boost L1 L2 L3
Athlon Pro 200U 2019 GloFo
14LP
2 (4) 2.3 3.2 64 KB inst.
32 KB data
per core
512 KB
per core
4 MB Radeon Vega 3 192:12:4
3 CU
1000 384 FP5 12 (8+4) DDR4-2400
dual-channel
12–25 W
Athlon 300U Jan 6, 2019 2.4 3.3
Ryzen 3 2200U Jan 8, 2018 2.5 3.4 1100 422.4
Ryzen 3 3200U Jan 6, 2019 2.6 3.5 1200 460.8
Ryzen 3 2300U Jan 8, 2018 4 (4) 2.0 3.4 Radeon Vega 6 384:24:8
6 CU
1100 844.8
Ryzen 3 Pro 2300U May 15, 2018
Ryzen 5 2500U Oct 26, 2017 4 (8) 3.6 Radeon Vega 8 512:32:16
8 CU
1126.4
Ryzen 5 Pro 2500U May 15, 2018
Ryzen 5 2600H Sep 10, 2018 3.2 DDR4-3200
dual-channel
35–54 W
Ryzen 7 2700U Oct 26, 2017 2.2 3.8 Radeon RX Vega 10 640:40:16
10 CU
1300 1664 DDR4-2400
dual-channel
12–25 W
Ryzen 7 Pro 2700U May 15, 2018 Radeon Vega 10
Ryzen 7 2800H Sep 10, 2018 3.3 Radeon RX Vega 11 704:44:16
11 CU
1830.4 DDR4-3200
dual-channel
35–54 W
  1. ^ Unified shaders : Texture mapping units : Render output units and Compute units (CU)
  2. ^ Single precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.

Picasso (2019)

Common features of Ryzen 3000 notebook APUs:

Branding and Model CPU GPU TDP Release
date
Cores
(threads)
Clock rate (GHz) L3 cache
(total)
Core
config[i]
Model Clock
(GHz)
Config[ii] Processing
power
(GFLOPS)[iii]
Base Boost
Ryzen 7 3780U[79] 4 (8) 2.3 4.0 4 MB 1 × 4 RX Vega 11 1.4 704:44:16
11 CU
1971.2 15 W Oct 2019
3750H[80] RX Vega 10 640:40:16
10 CU[81]
1792.0 35 W Jan 6, 2019
3700C[82] 15 W Sep 22, 2020
3700U[a][83] Jan 6, 2019
Ryzen 5 3580U[84] 2.1 3.7 Vega 9 1.3 576:36:16
9 CU
1497.6 Oct 2019
3550H[85] Vega 8 1.2 512:32:16
8 CU[86]
1228.8 35 W Jan 6, 2019
3500C[87] 15 W Sep 22, 2020
3500U[a][88] Jan 6, 2019
3450U[89] 3.5 Jun 2020
Ryzen 3 3350U[90] 4 (4) Vega 6 384:24:8
6 CU[91]
921.6 Jan 6, 2019
3300U[a][92]
  1. ^ Core Complexes (CCX) × cores per CCX
  2. ^ Unified Shaders : Texture Mapping Units : Render Output Units and Compute Units (CU)
  3. ^ Single precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
  1. ^ a b c Model also available as PRO version[93][94][95], released April 8, 2019.

Dalí (2020)

Model Release
date
Fab CPU GPU Socket PCIe
lanes
Memory
support
TDP Part number
Cores
(threads)
Clock rate (GHz) Cache Model Config[a] Clock
(GHz)
Processing
power
(GFLOPS)[b]
Base Boost L1 L2 L3
AMD 3020e Jan 6, 2020 14 nm 2 (2) 1.2 2.6 64 KB inst.
32 KB data
per core
512 KB
per core
4 MB Radeon
Graphics
(Vega)
192:12:4
3 CU
1.0 384 FP5 12 (8+4) DDR4-2400
dual-channel
6 W YM3020C7T2OFG
Athlon PRO 3045B Q1 2021 2.3 3.2 128:8:4
2 CU
1.1 281.6 15 W YM3045C4T2OFG
Athlon Silver 3050U Jan 6, 2020 YM3050C4T2OFG
Athlon Silver 3050C Sep 22, 2020 YM305CC4T2OFG
Athlon Silver 3050e Jan 6, 2020 2 (4) 1.4 2.8 192:12:4
3 CU[96]
1.0 384 6 W YM3050C7T2OFG
Athlon PRO 3145B Q1 2021 2.4 3.3 15 W YM3145C4T2OFG
Athlon Gold 3150U Jan 6, 2020 YM3150C4T2OFG
Athlon Gold 3150C Sep 22, 2020 YM315CC4T2OFG
Ryzen 3 3250U Jan 6, 2020 2.6 3.5 1.2 460.8 YM3250C4T2OFG
Ryzen 3 3250C Sep 22, 2020 YM325CC4T2OFG
  1. ^ Unified shaders : Texture mapping units : Render output units and Compute units (CU)
  2. ^ Single precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.

Renoir (2020)

Common features of Ryzen 4000 notebook APUs:

Branding and Model CPU GPU TDP Release
date
Cores
(threads)
Clock rate (GHz) L3 cache
(total)
Core
config[i]
Model Clock
(GHz)
Config[ii] Processing
power
(GFLOPS)[iii]
Base Boost
Ryzen 9 4900H 8 (16) 3.3 4.4 8 MB 2 × 4 Radeon
Graphics
[a]
1.75 512:32:8
8 CU
1792 35–54 W Mar 16, 2020
4900HS 3.0 4.3 35 W
Ryzen 7 4800H[97] 2.9 4.2 1.6 448:28:8
7 CU
1433.6 35–54 W
4800HS 35 W
4980U[b] 2.0 4.4 1.95 512:32:8
8 CU
1996.8 10–25 W Apr 13, 2021
4800U 1.8 4.2 1.75 1792 Mar 16, 2020
4700U[c] 8 (8) 2.0 4.1 1.6 448:28:8
7 CU
1433.6
Ryzen 5 4600H[98] 6 (12) 3.0 4.0 2 × 3 1.5 384:24:8
6 CU
1152 35–54 W
4600HS[99] 35 W
4680U[b] 2.1 448:28:8
7 CU
1344 10–25 W Apr 13, 2021
4600U[c] 384:24:8
6 CU
1152 Mar 16, 2020
4500U 6 (6) 2.3
Ryzen 3 4300U[c] 4 (4) 2.7 3.7 4 MB 1 × 4 1.4 320:20:8
5 CU
896
  1. ^ Core Complexes (CCX) × cores per CCX
  2. ^ Unified shaders : texture mapping units : render output units and compute units (CU)
  3. ^ Single precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
  1. ^ All of the iGPUs are branded as AMD Radeon Graphics.
  2. ^ a b Only found on the Microsoft Surface Laptop 4.
  3. ^ a b c Model also available as PRO version as 4450U,[100] 4650U,[101] 4750U,[102] released May 7, 2020.

Lucienne (2021)

Common features of Ryzen 5000 notebook APUs:

Branding and Model CPU GPU TDP Release
date
Cores
(threads)
Clock rate (GHz) L3 cache
(total)
Core
config[i]
Model Clock
(GHz)
Config[ii] Processing
power
(GFLOPS)[iii]
Base Boost
Ryzen 7 5700U 8 (16) 1.8 4.3 8 MB 2 × 4 Radeon
Graphics
[a]
1.9 512:32:8
8 CU
1945.6 10–25 W Jan 12, 2021
Ryzen 5 5500U[103] 6 (12) 2.1 4.0 2 × 3 1.8 448:28:8
7 CU
1612.8
Ryzen 3 5300U 4 (8) 2.6 3.8 4 MB 1 × 4 1.5 384:24:8
6 CU
1152
  1. ^ Core Complexes (CCX) × cores per CCX
  2. ^ Unified shaders : texture mapping units : render output units and compute units (CU)
  3. ^ Single precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
  1. ^ All of the iGPUs are branded as AMD Radeon Graphics.

Cezanne (2021)

Common features of Ryzen 5000 notebook APUs:

Branding and model CPU GPU TDP Release
date
Cores
(threads)
Clock rate (GHz) L3 cache
(total)
Core
config[i]
Model Clock
(GHz)
Config[ii] Processing
power
(GFLOPS)[iii]
Base Boost (Single Core) Boost (All Core)
Ryzen 9 5980HX 8 (16) 3.3 4.8 4.4 16 MB 1 × 8 Radeon
Graphics[a]
2.1 512:32:8
8 CUs
2150.4 35–54 W Jan 12, 2021
5980HS 3.0 4.0 35 W
5900HX 3.3 4.6 4.2 35–54 W
5900HS 3.0 4.0 35 W
Ryzen 7 5800H[104] 3.2 4.4 2.0 2048 35–54 W
5800HS 2.8 35 W
5825U[b][c] 2.0 4.5 15 W Jan 4, 2022
5800U[b] 1.9 4.4 3.4 10–25 W Jan 12, 2021
Ryzen 5 5600H[114] 6 (12) 3.3 4.2 1 × 6 1.8 448:28:8
7 CUs
1612.8 35–54 W
5600HS 3.0 35 W
5625U[b][c] 2.3 4.3 3.6 15 W Jan 4, 2022
5600U[b] 4.2 10–25 W Jan 12, 2021
5560U 4.0 8 MB 1.6 384:24:8
6 CUs
1228.8
5500H 4 (8) 3.3 4.2 1 × 4 1.8 1382.4 35–54 W Jun 23, 2023
Ryzen 3 5425U[b][c] 2.3 4.3 3.8 1.6 1228.8 15 W Jan 4, 2022
5400U[b][115] 2.7 4.1 10–25 W Jan 12, 2021
5125C 2 (4) 3.0 1 × 2 1.2 192:12:8
3 CUs
460.8 15 W May 5, 2022
  1. ^ Core Complexes (CCX) × cores per CCX
  2. ^ Unified shaders : texture mapping units : render output units and compute units (CU)
  3. ^ Single precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
  1. ^ All of the iGPUs are branded as AMD Radeon Graphics.
  2. ^ a b c d e f Model also available as PRO version as 5450U,[105] 5650U,[106] 5850U,[107] released on March 16, 2021 and as 5475U,[108] 5675U,[109] 5875U,[110] released on April 19, 2022.
  3. ^ a b c Model also available as Chromebook optimized version as 5425C,[111] 5625C,[112] 5825C,[113] 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 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 December 2018 4 (8) 2.0 3.6 Vega 8 512:32:16
8 CU
1.1 1126.4 -40–105
V1500B 2.2 0–105
V1605B February 2018 2.0 3.6 Vega 8 512:32:16
8 CU
1.1 1126.4
V1756B 3.25 DDR4-3200
dual-channel
35–54 W
V1780B December 2018 3.35
V1807B February 2018 3.8 Vega 11 704:44:16
11 CU
1.3 1830.4
  1. ^ Unified Shaders : Texture Mapping Units : Render Output Units and Compute Units (CU)
  2. ^ 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 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 2 (4) 1.5 2.8 DDR4-2400
dual-channel
8-10 W
R1505G April 16, 2019 2.4 3.3 12–25 W
R1606G 2.6 3.5 1.2 460.8
  1. ^ Unified Shaders : Texture Mapping Units : Render Output Units and Compute Units (CU)
  2. ^ 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[116] November 10, 2020[117] 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[116] 3.0 3.95 35–54 W
V2718[116] 8 (16) 1.7 4.15 448:28:8
7 CU
1.6 1433.6 10–25 W
V2748[116] 2.9 4.25 35–54 W
  1. ^ Unified Shaders : Texture Mapping Units : Render Output Units and Compute Units (CU)
  2. ^ Single-precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.

See also

References

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