Amd radeon vega 10 review: AMD Radeon RX Vega 10 Graphics of Ryzen 7 Processor – Laptop Graphics

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The AMD Radeon RX Vega 64 & RX Vega 56 ReviewVega 10: Fiji of the StarsThe Vega Architecture: AMD’s Brightest DayRapid Packed Math: Fast FP16 Comes to Consumer CardsSizing Up Today’s Launch: RX Vega 64 & RX Vega 56Competitive Positioning, Radeon Packs, & Crytocurrency DemandThe 2017 GPU Benchmark Suite & the TestBattlefield 1Ashes of the Singularity: EscalationDoomGhost Recon WildlandsDawn of War IIIDeus Ex: Mankind DividedGrand Theft Auto VF1 2016Total War: WarhammerCompute PerformanceSyntheticsPower, Temperature, & NoiseFinal Words

Before we dive into the Vega architecture itself, I want to start with the Vega 10 GPU proper, and as we look at its features you’ll soon understand why.

Vega 10 is for most practical purposes the successor to the Fiji GPU used in the Radeon R9 Fury and Nano products. And at face value this may seem a bit obvious – after all, it’s AMD’s first high-end GPU since then – but digging down a bit deeper, it’s interesting just how alike Fiji it is.

At a high level, Vega 10’s compute core is configured almost exactly like Fiji. This means we’re looking at 64 CUs spread out over 4 shader engines. Or as AMD is now calling them, compute engines. Each compute engine in turn is further allocated a portion of Vega 10’s graphics resources, amounting to one geometry engine and rasterizer bundle at the front end, and 16 ROPs (or rather 4 actual ROP units with a 4 pix/clock throughput rate) at the back end. Not assigned to any compute engine, but closely aligned with the compute engines is the command processor frontend, which like Fiji before it, is a single command processor paired with 4 ACEs and another 2 Hardware Schedulers.

On a brief aside, the number of compute engines has been an unexpectedly interesting point of discussion over the years. Back in 2013 we learned that the then-current iteration of GCN had a maximum compute engine count of 4, which AMD has stuck to ever since, including the new Vega 10.  Which in turn has fostered discussions about scalability in AMD’s designs, and compute/texture-to-ROP ratios.

Talking to AMD’s engineers about the matter, they haven’t taken any steps with Vega to change this. They have made it clear that 4 compute engines is not a fundamental limitation – they know how to build a design with more engines – however to do so would require additional work. In other words, the usual engineering trade-offs apply, with AMD’s engineers focusing on addressing things like HBCC and rasterization as opposed to doing the replumbing necessary for additional compute engines in Vega 10.

Not shown on AMD’s diagram, but confirmed in the specifications, is how the CUs are clustered together within a compute engine. On all iterations of GCN, AMD has bundled CUs together in a shader array, with up to 4 CUs sharing a single L1 instruction cache and a constant cache. For Vega 10, that granularity has gone up a bit, and now only 3 CUs share any one of these cache sets. As a result there are now 6 CU arrays per compute engine, up from 4 on Fiji.

It’s only once we get away from Vega 10’s compute core that we finally start to see some greater differences from Fiji. Besides being rewired to backstop the ROPs, the L2 cache has also been enlarged from 2MB on Fiji to 4MB on Vega 10. This growth not only gives Vega 10’s L2 cache the room to serve the ROPs, but follows a general trend of ever-increasing cache sizes in GPUs.

But easily the biggest shift here is that AMD has moved from HBM to HBM2, and as a result they’ve halved the number of memory controllers from 4 to 2. As we’ll see in the card specifications, this costs Vega 10 just a bit of memory bandwidth since HBM2 hasn’t reached its intended speeds, but it saves AMD some die space, not to mention cuts down on the number of signal lines that need to be run off of the die and onto the silicon interposer

Connecting the memory controllers to the rest of the GPU – and the various fixed function blocks as well – is AMD’s Infinity Fabric. The company’s home-grown technology for low-latency/low-power/high-bandwidth connections, this replaces Fiji’s unnamed interconnect method. Using the Infinity Fabric on Vega 10 is part of AMD’s efforts to develop a solid fabric and then use it across the company; we’ve already seen IF in use on Ryzen and Threadripper, and overall it’s a lot more visible in AMD’s CPUs than their GPUs. But it’s there, tying everything together.

On a related note, the Infinity Fabric on Vega 10 runs on its own clock domain. It’s tied to neither the GPU clock domain nor the memory clock domain. As a result, it’s not entirely clear how memory overclocking will fare on Vega 10. On AMD’s CPUs a faster IF is needed to carry overclocked memory. But since Vega 10’s IF connects a whole lot of other blocks – and outright adjust the IF’s clockspeed based on the workload need (e.g. video transcoding requires a fast VCE to PCIe link), it’s not as straightforward as just overclocking the HBM2. Though similarly, HBM1 overclocking wasn’t very straightforward either, so Vega 10 is not a great improvement in this regard.

Otherwise, while all of the various fixed function units and engines have been updated over Fiji, their roles remain unchanged. So the multimedia engine, display engine, and XDMA engine are still present and accounted for.

Meanwhile it’s interesting to note that while Vega 10 is a replacement for Fiji, it is not a complete replacement for Hawaii. 2013’s Hawaii GPU was the last AMD GPU to be designed for HPC duties. Which is to say that it featured high FP64 performance (1/2 the FP32 rate) and ECC was available on the GPU’s internal pathways, offering a high reliability mode from GPU to DRAM and back again. Vega 10, on the other hand only offers the same 1/16^th FP64 rate found on all other recent AMD GPUs, and similarly doesn’t have internal ECC. Vega 10 does do better than Fiji in one regard though, and that’s that it has “free” ECC, since the feature is built into the HBM2 memory that AMD uses. So while it doesn’t offer end-to-end ECC, it does offer it within the more volatile memory. Which for AMD’s consumer, professional, and deep learning needs, is satisfactory.

All told then, Vega 10 measures in at 486mm² (ed: a nice number if I ever saw one), and like Polaris and the Ryzen CPUs, it’s built on partner GlobalFoundries’ 14nm LPP process. Within AMD’s historical pantheon of GPUs, this makes it 48mm² larger than Hawaii and 110mm² smaller than the late-generation Fiji. AMD has been producing GPUs at GlobalFoundries for a while now, so in a sense this is a logical progression from Polaris 10. On the other hand as AMD’s first high-end chip for the 14nm generation, this is the biggest they’ve ever started at.

That space is put to good use however, as it contains a staggering 12.5 billion transistors. This is 3.9B more than Fiji, and still 500M more than NVIDIA’s GP102 GPU. So outside of NVIDIA’s dedicated compute GPUs, the GP100 and GV100, Vega 10 is now the largest consumer & professional GPU on the market.

Given the overall design similarities between Vega 10 and Fiji, this gives us a very rare opportunity to look at the cost of Vega’s architectural features in terms of transistors. Without additional functional units, the vast majority of the difference in transistor counts comes down to enabling new features.

Talking to AMD’s engineers, what especially surprised me is where the bulk of those transistors went; the single largest consumer of the additional 3.9B transistors was spent on designing the chip to clock much higher than Fiji. Vega 10 can reach 1.7GHz, whereas Fiji couldn’t do much more than 1.05GHz. Additional transistors are needed to add pipeline stages at various points or build in latency hiding mechanisms, as electrons can only move so far on a single (ever shortening) clock cycle; this is something we’ve seen in NVIDIA’s Pascal, not to mention countless CPU designs. Still, what it means is that those 3.9B transistors are serving a very important performance purpose: allowing AMD to clock the card high enough to see significant performance gains over Fiji.

Overall Vega 10 is a very important chip for AMD because it’s going to be pulling double (if not triple) duty for AMD. It’s their flagship consumer GPU, but it’s also their flagship professional GPU, and it’s their flagship server GPU. This goes for both deep learning (Vega Instinct) and potential other future server products, such as virtualization cards. As AMD likes to boast, they had to do it all with one chip rather than NVIDIA’s hyper-segmented stack. Of course the reality is that AMD doesn’t have the resources to mirror NVIDIA’s efforts 1-to-1, so it means they have to be smarter about what they do in order to make the most of Vega 10.

Vega 10 won’t be alone however. As early as last year AMD reps confirmed that there’s a Vega 11 in the works, though at this time AMD isn’t saying anything about the chip. Given that Vega 10 is already a fairly large chip, and that Polaris chips decreased in size with their number, I’d expect Vega 11 to be a smaller version of Vega. Though where that fits into the Vega 10/Polaris 10 stack is anyone’s guess at this point.

The AMD Radeon RX Vega 64 & RX Vega 56 Review
The Vega Architecture: AMD’s Brightest Day
The AMD Radeon RX Vega 64 & RX Vega 56 ReviewVega 10: Fiji of the StarsThe Vega Architecture: AMD’s Brightest DayRapid Packed Math: Fast FP16 Comes to Consumer CardsSizing Up Today’s Launch: RX Vega 64 & RX Vega 56Competitive Positioning, Radeon Packs, & Crytocurrency DemandThe 2017 GPU Benchmark Suite & the TestBattlefield 1Ashes of the Singularity: EscalationDoomGhost Recon WildlandsDawn of War IIIDeus Ex: Mankind DividedGrand Theft Auto VF1 2016Total War: WarhammerCompute PerformanceSyntheticsPower, Temperature, & NoiseFinal Words

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AMD Radeon RX Vega 10 — review. GPU Benchmark & Specs

AMD Radeon RX Vega 10 graphics card (also called GPU) comes in 451 in the performance rating. It is a good result. The graphics card AMD Radeon RX Vega 10 runs with the minimal clock speed . It is featured by the acceleration option and able to run up to 1300 MHz. The manufacturer has equipped AMD with GB of memory, clock speed and bandwidth .

The power consumption of the graphics card is , and the fabrication process is only 14 nm. Below you will find the main data on the compatibility, sizes, technologies and gaming performance test results. Also you can read and leave the comments.

Let’s take a closer look at the most important specifications of the graphics card. To have a good idea what a graphics card is the best, we recommend to use comparison service.

3.8
Out of 171
Hitesti score

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Radeon Graphics

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General info

The basic set of information will help you find out the graphics card AMD Radeon RX Vega 10 release date and its purpose (laptops or PCs), as well as the price at the time of the release and the average current price. This data also includes the architecture employed by the producer, and the chip’s codename.

Technical specs

This is the important information that defines the graphics card’s capacity. The simpler the device production process, the better. The core’s power frequency is responsible for its speed (direct correlation) while the elaboration of signals is performed by the transistors (the more transistors, the faster the computations are carried out).

Compatibility, dimensions and requirements

Today there are numerous form factors for PC cases, so it is extremely important to know the length of the graphics card and the types of its connection. This will help facilitate the upgrade process.

Memory

The internal main memory is used for storing data while conducting computations. Contemporary games and professional graphic apps have high requirements for the memory’s volume and capacity. The higher this parameter, the more powerful and fast the graphics card is. Type of memory, the capacity and bandwidth for AMD Radeon RX Vega 10.

Video outputs and ports

As a rule, all contemporary graphics cards feature several connection types and additional ports. Knowing these peculiarities is crucial for avoiding problems with connecting the graphics card to the monitor or other peripheral devices.

API support

All API-supported AMD Radeon RX Vega 10 are listed below.

Overall gaming performance

All tests have been based on FPS counter. Let’s have a look on what place AMD Radeon RX Vega 10 has been taken in the gaming performance test (calculation has been made in accordance with the game developer recommendations about system requirements; it can differ from the real world situations).

Select games to view
Horizon Zero DawnDeath StrandingF1 2020Gears TacticsDoom EternalHunt ShowdownEscape from TarkovHearthstoneRed Dead Redemption 2Star Wars Jedi Fallen OrderNeed for Speed HeatCall of Duty Modern Warfare 2019GRID 2019Ghost Recon BreakpointFIFA 20Borderlands 3ControlF1 2019League of LegendsTotal War: Three KingdomsRage 2Anno 1800The Division 2Dirt Rally 2. 0AnthemMetro ExodusFar Cry New DawnApex LegendsJust Cause 4Darksiders IIIFarming Simulator 19Battlefield VFallout 76Hitman 2Call of Duty Black Ops 4Assassin´s Creed OdysseyForza Horizon 4FIFA 19Shadow of the Tomb RaiderStrange BrigadeF1 2018Monster Hunter WorldThe Crew 2Far Cry 5World of Tanks enCoreX-Plane 11.11Kingdom Come: DeliveranceFinal Fantasy XV BenchmarkFortniteStar Wars Battlefront 2Need for Speed PaybackCall of Duty WWIIAssassin´s Creed OriginsWolfenstein II: The New ColossusDestiny 2ELEXThe Evil Within 2Middle-earth: Shadow of WarFIFA 18Ark Survival EvolvedF1 2017Playerunknown’s Battlegrounds (2017)Team Fortress 2Dirt 4Rocket LeaguePreyMass Effect AndromedaGhost Recon WildlandsFor HonorResident Evil 7Dishonored 2Call of Duty Infinite WarfareTitanfall 2Farming Simulator 17Civilization VIBattlefield 1Mafia 3Deus Ex Mankind DividedMirror’s Edge CatalystOverwatchDoomAshes of the SingularityHitman 2016The DivisionFar Cry PrimalXCOM 2Rise of the Tomb RaiderRainbow Six SiegeAssassin’s Creed SyndicateStar Wars BattlefrontFallout 4Call of Duty: Black Ops 3Anno 2205World of WarshipsDota 2 RebornThe Witcher 3Dirt RallyGTA VDragon Age: InquisitionFar Cry 4Assassin’s Creed UnityCall of Duty: Advanced WarfareAlien: IsolationMiddle-earth: Shadow of MordorSims 4Wolfenstein: The New OrderThe Elder Scrolls OnlineThiefX-Plane 10. 25Battlefield 4Total War: Rome IICompany of Heroes 2Metro: Last LightBioShock InfiniteStarCraft II: Heart of the SwarmSimCityTomb RaiderCrysis 3Hitman: AbsolutionCall of Duty: Black Ops 2World of Tanks v8Borderlands 2Counter-Strike: GODirt ShowdownDiablo IIIMass Effect 3The Elder Scrolls V: SkyrimBattlefield 3Deus Ex Human RevolutionStarCraft 2Metro 2033Stalker: Call of PripyatGTA IV — Grand Theft AutoLeft 4 DeadTrackmania Nations ForeverCall of Duty 4 — Modern WarfareSupreme Commander — FA BenchCrysis — GPU BenchmarkWorld in Conflict — BenchmarkHalf Life 2 — Lost Coast BenchmarkWorld of WarcraftDoom 3Quake 3 Arena — TimedemoHalo InfiniteFarming Simulator 22Battlefield 2042Forza Horizon 5Riders RepublicGuardians of the GalaxyBack 4 BloodDeathloopF1 2021Days GoneResident Evil VillageHitman 3Cyberpunk 2077Assassin´s Creed ValhallaDirt 5Watch Dogs LegionMafia Definitive EditionCyberpunk 2077 1.5GRID LegendsDying Light 2Rainbow Six ExtractionGod of War

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Horizon Zero Dawn (2020)

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Death Stranding (2020)

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F1 2020 (2020)

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Gears Tactics (2020)

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Doom Eternal (2020)

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Legend
5	Stutter – The performance of this graphics cards with this game is not well explored yet. According to interpolated information obtained from graphics cards of similar efficiency levels, the game is likely to stutter and show low frame rates.
	May Stutter – The performance of this graphics cards with this game is not well explored yet. According to interpolated information obtained from graphics cards of similar efficiency levels, the game is likely to stutter and show low frame rates.
30	Fluent – According to all known benchmarks with the specified graphical settings, this game is expected to run at 25fps or more
40	Fluent – According to all known benchmarks with the specified graphical settings, this game is expected to run at 35fps or more
60	Fluent – According to all known benchmarks with the specified graphical settings, this game is expected to run at 58fps or more
	May Run Fluently – The performance of this graphics cards with this game is not well explored yet. According to interpolated information obtained from graphics cards of similar efficiency levels, the game is likely to show fluent frame rates.
?	Uncertain – The testing of this graphics cards on this game showed unexpected results. A slower card might be able to produce higher and more consistent frame rates when running the same benchmark scene.
	Uncertain – The performance of this graphics cards with this game is not well explored yet. No reliable data interpolation can be made based on the performance of similar cards of the same category.
The value in the fields reflects the average frame rate across the entire database. To obtain individual results, move your cursor over the value.

Benchmark

Benchmarks help determine the performance in standard tests for AMD Radeon RX Vega 10. We have listed the world’s most famous benchmarks so that you could obtain accurate results in each (see the description). Graphics card preliminary testing is especially important in the presence of high loads so that the user could see to what extent the graphic processing unit copes with computations and data elaboration.

Overall benchmark performance

NVIDIA GeForce GTX 285

NVIDIA GeForce 940MX

AMD Radeon RX Vega 10

ATI Radeon HD 4890

NVIDIA GeForce GTX 660M

Benchmark 3DMark Ice Storm GPU: Graphic cards performance test result. Check 3DMark Ice Storm GPU test results of GPUs on hitesti.com

AMD Radeon RX Vega 8

113247

AMD Radeon RX Vega 8 (Ryzen 2000/3000)

113247

AMD Radeon RX Vega 10

112390

Intel UHD Graphics 630

110557

NVIDIA GeForce 920MX

110110

Benchmark 3DMark Cloud Gate GPU: Graphic cards performance test result. Check 3DMark Cloud Gate GPU test results of GPUs on hitesti.com

NVIDIA GeForce GTX 670M

Intel Iris Plus Graphics G4 (Ice Lake 48 EU)

AMD Radeon RX Vega 10

Intel Iris Pro Graphics 580

AMD FirePro W5130M

Benchmark 3DMark Fire Strike Score: Graphic cards performance test result. Check 3DMark Fire Strike Score test results of GPUs on hitesti.com

NVIDIA Maxwell GPU Surface Book (940M, GDDR5)

NVIDIA Maxwell GPU Surface Book

AMD Radeon RX Vega 10

Intel Iris Plus Graphics 655

NVIDIA GeForce GTX 460 768MB

Benchmark 3DMark Fire Strike Graphics: Graphic cards performance test result. Check 3DMark Fire Strike Graphics test results of GPUs on hitesti.com

AMD Radeon HD 8870M

AMD Radeon HD 6790

AMD Radeon RX Vega 10

AMD Radeon R7 250

AMD FirePro W5130M

Benchmark 3DMark 11 Performance GPU: Graphic cards performance test result. Check 3DMark 11 Performance GPU test results of GPUs on hitesti.com

NVIDIA Quadro K4000M

ATI Radeon HD 5850

AMD Radeon RX Vega 10

NVIDIA GeForce GTX 760M

NVIDIA GeForce MX230

Benchmark 3DMark Vantage Performance: Graphic cards performance test result. Check 3DMark Vantage Performance test results of GPUs on hitesti.com

ATI Radeon HD 5770

AMD Radeon 540X

AMD Radeon RX Vega 10

NVIDIA Quadro M520

NVIDIA GeForce GTX 285M SLI

Benchmark Passmark: Graphic cards performance test result. Check Passmark test results of GPUs on hitesti.com

NVIDIA GeForce GTX 285

NVIDIA GeForce 940MX

AMD Radeon RX Vega 10

ATI Radeon HD 4890

NVIDIA GeForce GTX 660M

Benchmark Unigine Heaven 3.0: Graphic cards performance test result. Check Unigine Heaven 3.0 test results of GPUs on hitesti.com

AMD Radeon HD 8870M

AMD Radeon RX Vega 5

AMD Radeon RX Vega 10

AMD Radeon R7 M270

NVIDIA Quadro K2100M

3. 8
Out of 171
Hitesti score

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AMD Radeon RX Vega 8

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AMD Baffin

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AMD Bonaire

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Radeon Vega 10 video card overview

Description

Specifications

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Release year	2018, 2019
Segment	integrated graphics core
Base frequency	300 Mhz
Game frequency	—
Turbo Frequency	1300 Mhz
Tire	—
Memory size	dynamic, up to 2 gigabytes
Stream Processors	640
Texture blocks	40
Rasterizers	8
Architecture (core)	GCN 5. 0
Process	12-14 nm
TDP	10W

Supported APIs, Technologies: OpenCL 2.0, OpenCL 4.6, DirectX 11, DirectX 12, Shader Model 6.0, AMD FreeSync
Supported operating systems: Windows 10 x86-x64, Linux x86-x64

Processors used: Ryzen 7 2700U, Ryzen 7 PRO 2700U, Ryzen 5 PRO 3550GE, Ryzen 7 3700U, Ryzen 7 PRO 3700U, Ryzen 7 3750H 90898 Radeon Vega 10 Graphics Core Overview

The Radeon Vega 10 graphics core (GPU) was introduced in 2018 as part of AMD’s mid-range desktop and mobile APUs. The GPU is made according to technological standards 12-14nm (Ryzen2000 — 14nm, Ryzen3000 — 12nm) and carries the GCN 5.0 architecture, has a base frequency of 300 megahertz and a maximum frequency of 1300 megahertz (in some CPU models, the maximum frequency may be slightly lower), depending from the processor. The graphics core does not have its own video memory, but takes memory from the RAM (no more than two gigabytes), which makes the graphics subsystem extremely dependent on the frequency of the RAM (the higher the frequency, the better the GPU performance). The core is extremely sensitive to the dual-channel RAM mode (when there are two memory sticks of the same size and frequency) and shows significantly better performance in this mode compared to the single-channel mode. Radeon Vega 10 is a mid-range integrated graphics card that will provide comfortable performance in undemanding modern games such as DOTA2, CS:Source, CS:GO, World of Tanks at medium graphics settings and 720p(1280*720) or low graphics settings and resolutions. 1080p(1920*1080). In modern demanding games: The Witcher 3, Red Dead Redemption 2, at 720p(1280*720) resolution and minimum graphics settings, the frame rate will be 33-38, with subsidence in the most difficult scenes up to 23-28. In older games like GTA V and Tomb Raider 2013, Radeon Vega 10 will provide a high comfortable amount of FPS at medium-high graphics settings.

Additional information:
— To further increase performance in games, turn off the «vertical sync» option in the graphics settings. nine0090

Radeon Vega 10 test in games:

Table of processors equipped with Radeon Vega 10 + frequency characteristics of the video core.

Model	Core	Cores/Threads	Frequency Turbo	Video core	Process	Frequency Base_Turbo
Ryzen 7 3750H	Zen+ (12nm)	4/8	2.3/4.0GHz	Vega10	12nm	300-1400MHz
Ryzen 7 3750H	Zen+ (12nm)	4/8	2.3/4.0GHz	Vega10	12nm	300-1400MHz
Ryzen 7 PRO 3700U	Zen+ (12nm)	4/8	2. 3/4.0GHz	Vega10	12nm	300-1400MHz
Ryzen 7 3700U	Zen+ (12nm)	4/8	2.3/4.0GHz	Vega10	12nm	300-1400MHz
Ryzen 5 3550GE	Zen+ (12nm)	4/8	3.3/3.9GHz	Vega10	12nm	300-1200MHz
Ryzen 7 PRO 2700U	Zen (14nm)	4/8	2.2/3.8GHz	Vega10	14nm	300-1300MHz
Ryzen 7 2700U	Zen (14nm)	4/8	2.2/3.8GHz	Vega10	14nm	300-1300MHz

Download Radeon Vega 10 Graphics Driver

AMD Radeon RX Vega 10 Overview. Benchmarks and specs

The AMD Radeon RX Vega 10 graphics card (GPU) is ranked 451 in our performance ranking. Manufacturer: AMD. AMD Radeon RX Vega 10 running at minimum clock speed. The graphics chip is equipped with an acceleration system and can operate in turbo mode or when overclocked at a frequency of 1300 MHz. RAM size — GB with clock speed and bandwidth. nine0090

The power consumption of AMD Radeon RX Vega 10 is , and the process technology is only 14 nm. Below you will find key compatibility, sizing, technology, and gaming performance test results. You can also leave comments if you have any questions.

Let’s take a closer look at the most important features of the AMD Radeon RX Vega 10. To get an idea of ​​which graphics card is better, we recommend using the comparison service. nine0090

3.8
From 171
Hitesti Grade

Popular video cards

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AMD Radeon RX Vega 7

Intel UHD Graphics 630

Intel UHD Graphics 600

NVIDIA Quadro T1000

Intel HD Graphics 530

nine0088 Intel UHD Graphics 620

NVIDIA GeForce MX330

Intel HD Graphics 4600

Intel HD Graphics 520

Radeon Graphics

Buy here:

Yandex Market

SberMegaMarket

AliExpress

General information

The base set of information will help you find out the release date of the AMD Radeon RX Vega 10 graphics card and its purpose (laptops or PCs), as well as the price at the time of release and the average current cost. This data also includes the architecture used by the manufacturer and the video processor code name. nine0090

Specifications

This is important information that determines all the power characteristics of the AMD Radeon RX Vega 10 video card. The less technological process of manufacturing a chip, the better (in modern realities). The clock frequency of the core is responsible for its speed (direct correlation), while signal processing is carried out by transistors (the more transistors, the faster the calculations are performed, for example, in cryptocurrency mining). nine0090

Dimensions, connectors and compatibility

Today, there are many form factors of PC cases and laptop sizes, so it is extremely important to know the length of the video card and its connection types (except for laptop options). This will help make the upgrade process easier, as Not all cases can accommodate modern video cards.

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Memory (frequency and overclocking)

Internal memory is used to store data when performing calculations. Modern games and professional graphics applications place high demands on the amount and speed of memory. The higher this parameter, the more powerful and faster the video card. Memory type, size and bandwidth for AMD Radeon RX Vega 10 + turbo overclocking capability.

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Port and display support

As a rule, all modern video cards have several types of connections and additional ports, for example HDMI and DVI . Knowing these features is very important in order to avoid problems connecting a video card to a monitor or other peripherals.

API Support

All APIs supported by the AMD Radeon RX Vega 10 graphics card are listed below. This is a minor factor that does not greatly affect the overall performance.

General gaming performance

All tests are based on FPS. Let’s take a look at how AMD Radeon RX Vega 10 scores in the gaming performance test (calculated based on the game developer’s recommended system requirements and may differ from actual situations). nine0090

Select games
Horizon Zero DawnDeath StrandingF1 2020Gears TacticsDoom EternalHunt ShowdownEscape from TarkovHearthstoneRed Dead Redemption 2Star Wars Jedi Fallen OrderNeed for Speed ​​HeatCall of Duty Modern Warfare 2019GRID 2019Ghost Recon BreakpointFIFA 20Borderlands 3ControlF1 2019League of LegendsTotal War: Three KingdomsRage 2Anno 1800The Division 2Dirt Rally 2. 0AnthemMetro ExodusFar Cry New DawnApex LegendsJust Cause 4Darksiders IIIFarming Simulator 19Battlefield VFallout 76Hitman 2Call of Duty Black Ops 4Assassin´s Creed OdysseyForza Horizon 4FIFA 19Shadow of the Tomb RaiderStrange BrigadeF1 2018Monster Hunter WorldThe Crew 2Far Cry 5World of Tanks enCoreX-Plane 11.11Kingdom Come: DeliveranceFinal Fantasy XV BenchmarkFortniteStar Wars Battlefront 2Need for Speed ​​PaybackCall of Duty WWIIAssassin´s Creed OriginsWolfenstein II: The New ColossusDestiny 2MEDLE-Evil Within : Shadow of WarFIFA 18Ark Survival EvolvedF1 2017Playerunknown’s Battlegrounds (2017)Team Fortress 2Dirt 4Rocket LeaguePreyMass Effect AndromedaGhost Recon WildlandsFor HonorResident Evil 7Dishonored 2Call of Duty Infinite WarfareTitanfall 2Farming Simulator 17Civilization VIBattlefield 1Mafia 3Deus Ex Mankind DividedMirror’s Edge CatalystOverwatchDoomAshes of the SingularityHitman 2016The DivisionFar Cry PrimalXCOM 2Rise of the Tomb RaiderRainbow Six SiegeAssassin’s Creed SyndicateStar Wars BattlefrontFallout 4Call of Duty: Black Ops 3Anno 2205World of WarshipsDota 2 RebornThe Witcher 3Dirt RallyGTA VDragon Age: InquisitionFar Cry 4Assassin’s Creed Un ityCall of Duty: Advanced WarfareAlien: IsolationMiddle-earth: Shadow of MordorSims 4Wolfenstein: The New OrderThe Elder Scrolls OnlineThiefX-Plane 10. 25Battlefield 4Total War: Rome IICompany of Heroes 2Metro: Last LightBioShock InfiniteStarCraft II: Heart of the SwarmSimCityTomb RaiderCrysis 3Hitman: AbsolutionCall of Duty : Black Ops 2World of Tanks v8Borderlands 2Counter-Strike: GODirt ShowdownDiablo IIIMass Effect 3The Elder Scrolls V: SkyrimBattlefield 3Deus Ex Human RevolutionStarCraft 2Metro 2033Stalker: Call of PripyatGTA IV — Grand Theft AutoLeft 4 DeadTrackmania Nations ForeverCall of Duty 4 — Modern WarfareSupreme Commander — FA BenchCrysis — GPU BenchmarkWorld in Conflict — BenchmarkHalf Life 2 — Lost Coast BenchmarkWorld of WarcraftDoom 3Quake 3 Arena — TimedemoHalo InfiniteFarming Simulator 22Battlefield 2042Forza Horizon 5Riders RepublicGuardians of the GalaxyBack 4 BloodDeathloopF1 2021Days GoneResident Evil VillageHitman 3Cyberpunk 2077Assassin´s Creed ch Dogs LegionMafia Definitive EditionCyberpunk 2077 1.5GRID LegendsDying Light 2Rainbow Six ExtractionGod of War

low

1280×720

med.

1920×1080

high

1920×1080

ultra

1920×1080

QHD

2560×1440

4K

3840×2160

Horizon Zero Dawn (2020)

low

1280×720

med.

1920×1080

high

1920×1080

ultra
nine0089 1920×1080

QHD

2560×1440

4K

3840×2160

Death Stranding (2020)

low

1280×720

med.

1920×1080

high

1920×1080

ultra

1920×1080

QHD

2560×1440

4K

3840×2160

F1 2020 (2020)

low

1280×720

med.

1920×1080

high

1920×1080

ultra

1920×1080

QHD

2560×1440

4K

3840×2160

Gears Tactics (2020)

low

1280×720

med.

1920×1080

high

1920×1080

ultra

1920×1080

QHD

2560×1440

4K

3840×2160

Doom Eternal (2020)

low

1280×720

med.

1920×1080

high

1920×1080

ultra

1920×1080

QHD

2560×1440

4K

3840×2160

Description
5	Stutter — The performance of this video card with this game has not yet been studied enough. Based on interpolated information from graphics cards of a similar performance level, the game is likely to stutter and display low frame rates. nine0010
	May Stutter — The performance of this video card with this game has not yet been studied enough. Based on interpolated information from graphics cards of a similar performance level, the game is likely to stutter and display low frame rates.
30	Fluent — According to all known benchmarks with the specified graphic settings, this game is expected to run at 25 fps or more
40	Fluent — According to all known benchmarks with the specified graphics settings, this game is expected to run at 35fps or more
60	Fluent — Based on all known benchmarks with the specified graphic settings, this game is expected to run at 58fps or more
nine0009 May Run Fluently — The performance of this video card with this game has not yet been sufficiently studied. Based on interpolated information from graphics cards of a similar performance level, the game is likely to show smooth frame rates.
?	Uncertain — testing this video card in this game showed unexpected results. A slower card could deliver higher and more consistent frame rates while running the same reference scene. nine0010
	Uncertain — The performance of this video card in this game has not yet been sufficiently studied. It is not possible to reliably interpolate data based on the performance of similar cards in the same category.
The value in the fields reflects the average frame rate across the entire database. To get individual results, hover over a value.

AMD Radeon RX Vega 10 in benchmark results

Benchmarks help determine performance in standard AMD Radeon RX Vega 10 benchmarks. We’ve compiled a list of the world’s best-known benchmarks so you can get accurate results for each one (see description). Pre-testing the graphics card is especially important when there are high loads, so that the user can see how the graphics processor copes with calculations and data processing.

Overall performance in benchmarks

nine0088
NVIDIA GeForce GTX 285

NVIDIA GeForce 940MX

AMD Radeon RX Vega 10

ATI Radeon HD 4890

NVIDIA GeForce GTX 660M

3DMark Ice Storm GPU Benchmark: Graphic card performance test results. Check the 3DMark Ice Storm GPU GPU results at hitesti.com

AMD Radeon RX Vega 8

113247

AMD Radeon RX Vega 8 (Ryzen 2000/3000)

113247

AMD Radeon RX Vega 10

112390

Intel UHD Graphics 630

110557

NVIDIA GeForce 920MX

110110

3DMark Cloud Gate GPU Benchmark: Graphics card performance test results. Check out the 3DMark Cloud Gate GPU GPU test results at hitesti.com

NVIDIA GeForce GTX 670M

Intel Iris Plus Graphics G4 (Ice Lake 48 EU)

AMD Radeon RX Vega 10

nine0090

Intel Iris Pro Graphics 580

AMD FirePro W5130M

3DMark Fire Strike Score Benchmark: Graphic card performance test results. Check out the 3DMark Fire Strike Score for GPUs at hitesti.com

NVIDIA Maxwell GPU Surface Book (940M, GDDR5)

nine0090

NVIDIA Maxwell GPU Surface Book

AMD Radeon RX Vega 10

Intel Iris Plus Graphics 655

NVIDIA GeForce GTX 460 768MB

3DMark Fire Strike Graphics Benchmark: Graphic card performance test results. Check out the 3DMark Fire Strike Graphics GPU test results at hitesti.com

AMD Radeon HD 8870M

AMD Radeon HD 6790

AMD Radeon RX Vega 10

AMD Radeon R7 250

AMD FirePro W5130M

3DMark 11 Performance GPU Benchmark: Graphics card performance test results. Check out the 3DMark 11 Performance GPU GPU test results at hitesti.com

NVIDIA Quadro K4000M

ATI Radeon HD 5850

AMD Radeon RX Vega 10

NVIDIA GeForce GTX 760M

NVIDIA GeForce MX230

3DMark Vantage Performance Benchmark: Graphic card performance test results. Check out the 3DMark Vantage Performance GPU results at hitesti.