AMD Radeon RX 570 vs AMD Radeon RX 580: What is the difference?
50points
AMD Radeon RX 570
49points
AMD Radeon RX 580
vs
54 facts in comparison
AMD Radeon RX 570
AMD Radeon RX 580
Why is AMD Radeon RX 570 better than AMD Radeon RX 580?
- 30W lower TDP?
120Wvs150W - 2°C lower idle GPU temperature?
31°Cvs33°C - 1 more DVI outputs?
1vs0
Why is AMD Radeon RX 580 better than AMD Radeon RX 570?
- 1.1 TFLOPS higher floating-point performance?
6.1 TFLOPSvs5 TFLOPS - 3.1 GPixel/s higher pixel rate?
42.9 GPixel/svs39.8 GPixel/s - 250MHz faster memory clock speed?
2000MHzvs1750MHz - 1000MHz higher effective memory clock speed?
8000MHzvs7000MHz - 2.02x more VRAM?
8.1GBvs4GB
- 33.8 GTexels/s higher texture rate?
193 GTexels/svs159.2 GTexels/s - 256 more shading units?
2304vs2048 - 16 more texture mapping units (TMUs)?
144vs128
Which are the most popular comparisons?
AMD Radeon RX 570
vs
Gigabyte GeForce GTX 1650 Gaming OC
AMD Radeon RX 580
vs
Nvidia GeForce GTX 1060
AMD Radeon RX 570
vs
Nvidia GeForce GTX 1060
AMD Radeon RX 580
vs
Nvidia GeForce RTX 2060
AMD Radeon RX 570
vs
Gigabyte Radeon RX 6500 XT Gaming OC
AMD Radeon RX 580
vs
Nvidia Geforce GTX 1660 Super
AMD Radeon RX 570
vs
MSI GeForce GTX 1050 Ti Gaming
AMD Radeon RX 580
vs
Nvidia GeForce GTX 1650
AMD Radeon RX 570
vs
AMD Radeon RX 6400
AMD Radeon RX 580
vs
Nvidia GeForce GTX 1660
AMD Radeon RX 570
vs
Nvidia GeForce RTX 2060
AMD Radeon RX 580
vs
AMD Radeon RX 5500 XT
AMD Radeon RX 570
vs
Nvidia GeForce RTX 3050 Laptop
AMD Radeon RX 580
vs
Nvidia GeForce GTX 1050
AMD Radeon RX 570
vs
Nvidia Geforce GTX 1660 Super
AMD Radeon RX 580
vs
Zotac GeForce GTX 960
AMD Radeon RX 570
vs
Nvidia GeForce GTX 1660
AMD Radeon RX 580
vs
Nvidia GeForce RTX 3060
Price comparison
User reviews
Overall Rating
AMD Radeon RX 570
2 User reviews
AMD Radeon RX 570
8.
5/10
2 User reviews
AMD Radeon RX 580
1 User reviews
AMD Radeon RX 580
8.0/10
1 User reviews
Features
Value for money
9.5/10
2 votes
9.0/10
1 votes
Gaming
8.5/10
2 votes
10.0/10
1 votes
Performance
8.5/10
2 votes
8.0/10
1 votes
Fan noise
7.5/10
2 votes
8.0/10
1 votes
Reliability
8.5/10
2 votes
8.0/10
1 votes
Performance
1.GPU clock speed
1168MHz
1120MHz
The graphics processing unit (GPU) has a higher clock speed.
2.GPU turbo
1244MHz
1266MHz
When the GPU is running below its limitations, it can boost to a higher clock speed in order to give increased performance.
3.
pixel rate
39.8 GPixel/s
42.9 GPixel/s
The number of pixels that can be rendered to the screen every second.
4.floating-point performance
5 TFLOPS
6.1 TFLOPS
Floating-point performance is a measurement of the raw processing power of the GPU.
5.texture rate
159.2 GTexels/s
193 GTexels/s
The number of textured pixels that can be rendered to the screen every second.
6.GPU memory speed
1750MHz
2000MHz
The memory clock speed is one aspect that determines the memory bandwidth.
7.shading units
Shading units (or stream processors) are small processors within the graphics card that are responsible for processing different aspects of the image.
8.texture mapping units (TMUs)
TMUs take textures and map them to the geometry of a 3D scene.
More TMUs will typically mean that texture information is processed faster.
9.render output units (ROPs)
The ROPs are responsible for some of the final steps of the rendering process, writing the final pixel data to memory and carrying out other tasks such as anti-aliasing to improve the look of graphics.
Memory
1.effective memory speed
7000MHz
8000MHz
The effective memory clock speed is calculated from the size and data rate of the memory. Higher clock speeds can give increased performance in games and other apps.
2.maximum memory bandwidth
224GB/s
224GB/s
This is the maximum rate that data can be read from or stored into memory.
3.VRAM
VRAM (video RAM) is the dedicated memory of a graphics card. More VRAM generally allows you to run games at higher settings, especially for things like texture resolution.
4.memory bus width
256bit
256bit
A wider bus width means that it can carry more data per cycle. It is an important factor of memory performance, and therefore the general performance of the graphics card.
5.version of GDDR memory
Newer versions of GDDR memory offer improvements such as higher transfer rates that give increased performance.
6.Supports ECC memory
✖AMD Radeon RX 570
✖AMD Radeon RX 580
Error-correcting code memory can detect and correct data corruption. It is used when is it essential to avoid corruption, such as scientific computing or when running a server.
Features
1.DirectX version
DirectX is used in games, with newer versions supporting better graphics.
2.OpenGL version
OpenGL is used in games, with newer versions supporting better graphics.
3.OpenCL version
Some apps use OpenCL to apply the power of the graphics processing unit (GPU) for non-graphical computing. Newer versions introduce more functionality and better performance.
4.Supports multi-display technology
✔AMD Radeon RX 570
✔AMD Radeon RX 580
The graphics card supports multi-display technology. This allows you to configure multiple monitors in order to create a more immersive gaming experience, such as having a wider field of view.
5.load GPU temperature
Unknown. Help us by suggesting a value. (AMD Radeon RX 580)
A lower load temperature means that the card produces less heat and its cooling system performs better.
6.supports ray tracing
✖AMD Radeon RX 570
✖AMD Radeon RX 580
Ray tracing is an advanced light rendering technique that provides more realistic lighting, shadows, and reflections in games.
7.Supports 3D
✖AMD Radeon RX 570
✔AMD Radeon RX 580
Allows you to view in 3D (if you have a 3D display and glasses).
8.supports DLSS
✖AMD Radeon RX 570
✖AMD Radeon RX 580
DLSS (Deep Learning Super Sampling) is an upscaling technology powered by AI. It allows the graphics card to render games at a lower resolution and upscale them to a higher resolution with near-native visual quality and increased performance. DLSS is only available on select games.
9.PassMark (G3D) result
This benchmark measures the graphics performance of a video card. Source: PassMark.
Ports
1.has an HDMI output
✔AMD Radeon RX 570
✔AMD Radeon RX 580
Devices with a HDMI or mini HDMI port can transfer high definition video and audio to a display.
2.HDMI ports
More HDMI ports mean that you can simultaneously connect numerous devices, such as video game consoles and set-top boxes.
3.HDMI version
Unknown. Help us by suggesting a value. (AMD Radeon RX 570)
HDMI 2.0
Newer versions of HDMI support higher bandwidth, which allows for higher resolutions and frame rates.
4.DisplayPort outputs
Allows you to connect to a display using DisplayPort.
5.DVI outputs
Allows you to connect to a display using DVI.
6.mini DisplayPort outputs
Allows you to connect to a display using mini-DisplayPort.
Price comparison
Cancel
Which are the best graphics cards?
Affordable Gaming: AMD’s RX570 and RX580 in 2020
Should I get the RX570 or the RX580? We get asked this a lot in the context of budget and low end gaming builds – and almost always for use with a 1080p monitor. In this article I’ll test AMD’s lower-end heroes together, the RX570 4GB and the next step up, the RX580 8GB at various settings and resolutions to help answer this question.
Some Ground Rules
First of all , let’s talk some numbers and I’ll revisit this at the end once I’ve covered the results. An RX570 4GB graphics card with a factory overclock can be purchased new for around AUD$230 whilst an RX580 with 8GB of memory will set you back an extra $100 at AUD$330. Let’s not fall into the trap of looking at percentages in price differences versus percentages of performance differences. The performance difference is roughly 10% as a general rule of thumb and will depend on the title, the resolution and the graphics quality settings, among other factors. I’ve tested different quality pre-sets at different resolutions to help show what you can expect and help you see what sacrifices you might need to make in order to play these titles at different target-average FPS values.
Keep in mind throughout that the price difference here is AUD$100 so look at the benchmarks in 1080p and 1440p to see if that extra cost is worth it for your needs. The RX570 was generally well-regarded as a capable 1080p gaming card at launch and the RX580 more aimed at the 1440p market with the extra graphics cores and video memory to handle the higher resolution.
This was almost 3 years ago but now these cards present some highly compelling value to gamers on a budget.
Declaration: These video cards were provided on-loan by AMD’s PR agent for this article at my request.
Meet The RX570 and RX580 Test Subjects
The specifications of both cards used in our testing are below.
| Sapphire Pulse RX570 4GB | ASUS ROG STRIX RX 580 OC 8G Gaming | |
|---|---|---|
| Graphics Engine | AMD Radeon RX 570 | AMD Radeon RX 580 |
| OpenGL | OpenGL®4.5 | OpenGL®4.5 |
| Video Memory | 4GB GDDR5 | 8GB GDDR5 |
| Engine Clock | Up to 1284 MHz, Boost | Up to 1380 MHz (OC Mode) Up to 1360 MHz (Gaming Mode) |
| Stream Processors | 2048 | 2304 |
| Memory Clock | 7000 MHz effective | 8 Gbps |
| Memory Interface | 256-bit | 256-bit |
| Resolution | • DisplayPort: 5120×2880@60Hz • HDMI: 4096×2160@60Hz • DVI:2560×1600@60Hz |
Digital Max Resolution:7680×4320 |
| Interface | 1x DVI-D 2x HDMI 2x DisplayPort 1.  4 |
DVI Output : Yes x 1 (Native) (DVI-D) HDMI Output : Yes x 2 (Native) (HDMI 2.0b) Display Port : Yes x 2 (DisplayPort 1.4) HDCP Support : Yes (2.2) |
| Max Display Support | 4 | 4 |
| NVlink/ Crossfire Support | No | No |
| Recommended PSU | 500W | 500W |
| Power Connector | 1 x 8-pin | 1 x 8-pin |
| Accessories | 2 x ROG Velcro Hook & Loop 1 x CD 1 x Quick Guide |
|
| Software | Intelligent Fan Control III | ASUS GPU Tweak II & Driver Aura(Graphics Card) Utility |
| Dimensions | 230 X 125 X 40 CM | 29.8 x 13.4 x5.25 CM |
Sapphire RX570 Pulse OC 4GB
The Sapphire RX570 Pulse OC 4GB is a compact dual-fan card with a backplate and a subtle design. It doesn’t make much noise and remained quiet throughout all testing.
It felt solid with decent build quality and we didn’t see any issues with either the card or the drivers. I really liked the compact nature of this video card and would be very happy with it for the street price, acoustics and performance.
ASUS RX580 STRIX Gaming OC 8GB
The RX580 we received was an ASUS RX580 STRIX Gaming OC 8GB. ASUS STRIX graphics cards are usually my first choice on a personal level due to their build quality, performance and low noise profile.
It looks just like every other ASUS STRIX Gaming graphics card with the flat black shroud, triple fans, black back plate, dual PWM case fan headers, RGB highlights and it has top level build quality. The fans will stop at idle and only spin when required. If there is one thing that I could say about the ASUS STRIX graphics card coolers it’s that they deliver a consistent experience across all GPUs (NVIDIA or AMD) in terms of quality, low-noise and appearance. Note that this is a 2.5 slot card and it’s longer than average due to the three fans and larger heat sink.
The RGB effects and software options add to the premium experience that comes with the ASUS ROG STRIX brand (and price tag).
Both of these cards were powered by a single 8-PIN PCIe power connector.
Testing
The test system was our ASUS STRIX X470 Ryzen 2700X platform per the specs below.
ASUS ROG Test Rig
- AMD Ryzen 7 2700X
- 32GB 2933MHz HyperX Predator RGB (4x8GB)
- Thermaltake Floe Riing 360 water cooler
- Thermaltake Core P3 Curved Test Bench Case
- ASUS ROG STRIX X470-F Gaming Motherboard
- Samsung Evo 840 250GB SSD
- ADATA SX7000 M.2 NVMe 256GB SSD (Boot)
- WD Black 6TB 3.5″ HDD
- Thermaltake TOUGHPOWER I-series RGB 850W PSU
- ASUS TUF M5 Mouse and K5 Keyboard
- Logitech Z533 desktop speakers
- BenQ EL2870U
Please note that the 4GB RX570 did receive memory warning messages in some of the more demanding tests that needed more than the 4GB available.
I was in two minds when including the 4K results but decided to show them for completeness’ sake. If you are going to use a 4K monitor for gaming then it isn’t realistic that most gamers in this position would choose a $220-$320 video card. Having said that, we have received a few queries from people who do content creation at 4K on their PC but also want to do some light gaming and had asked about 4K performance on low-spec cards. Those 4K graphs are for you, guys!
Synthetic Testing
Let’s start with the synthetic benchmarks to get a raw numbers baseline and set some performance expectations. You can download 3DMARK and the UNIGINE benchmark utilities to compare your current system against my results for a rough comparison.
Futuremark 3DMARK testing allows us to get an overall score and also isolate the graphics card performance in different scenarios from the more taxing Firestrike Ultra/Extreme and TimeSpy for DX12 through to the more suitable Firestrike standard testing.
I’ve included Sky Diver as a reference point for older, less intensive games.
FIRESTRIKE ULTRA
FIRESTRIKE EXTREME
FIRESTRIKE
TIME SPY
SKY DIVER
The RX580 takes the points with a consistent margin across all tests but this doesn’t show the real value of the RX580 over the RX570 in practical terms.
UNIGINE TESTING
Unigine testing involved a combination of three different benchmarking utilities: Heaven, Valley and Superposition. I’ve used the different pre-sets to stress the RX570 and RX580 and show up some of the performance differences in the clock speeds, cores and video memory.
Unigine Heaven
Unigine Valley
Unigine Superposition
In the more ‘clinical’ benchmarks, above, we can see that the RX580’s improved specifications give it higher scores as expected, so let’s move on to the in-game benchmarks to see what the gaming experience looks like in an environment that’s easier to relate to.
In-Game Benchmarks
The following benchmarks are more typical of gaming experience under controlled conditions.
Rainbow Six Siege
This tactical competitive shooter isn’t overly taxing on graphics hardware and committed gamers tend to chase high frame rates for that extra edge. As an Esports title, both cards will deliver good frame rates at different quality settings. I found the in-game benchmark to be representative of actual game-play experience and both cards deliver good value and performance if you’re into Siege.
At 4K, if the quality is dialled back to high or even medium, 60+ FPS is a reasonable expectation.
Running at 2560×1440 was more interesting and the experience at Ultra settings was 21FPS better on the RX580 which might justify the cost differential for keen Siege players. The video memory was less of a factor once the quality settings dropped down to Very High and the gap was more linear.
If you’re looking for 144FPS at 1080p then you probably want the RX580 for Ultra settings or the RX570 if you can settle for Very High.
Shadow of the Tomb Raider
The standard quality pre-sets were used here at the three resolutions with v-sync off.
This benchmark is a heavy one and demonstrates that these cards are really only up to 1080p with this title.
Hitman 2016
This is an older title but can be a bargain at sale time. It’s always been a hard task master on graphics cards as well so we tested it at Ultra settings for a worst case scenario at the resolutions below. 1080p performance was good for both cards but the RX580 delivers a more playable experience at 1440p.
GTA V
We used max settings here as it’s our standard set – see the gallery below for the specific values. In many cases these settings can be pulled back a little without a noticeable difference.
Both the RX570 and RX580 can deliver an enjoyable experience at 1920×1080 with max settings.
At 2560×1440, the extra grunt of the RX580 delivered an average frame rate of 52FPS that would probably be ok for most people if you could use FreeSync. Given that this is on max quality settings, a few tweaks would have the frame rate in the 60’s without any real noticeable quality difference.
Sacrifices are going to be required for a reasonable frame rate at 4K for both cards.
Far Cry 5
This is another great title that can be enjoyed on both cards at 1920×1080 with an average frame rate of over 60FPS at the Ultra pre-set. The framerate does drop in visually demanding periods but if you have a FreeSync monitor this will be less noticeable. Dropping the quality settings to High from Ultra at 1080p resolution will deliver a better frame rate for a minimal difference in detail.
The RX570 falls short at 2560×1440 whilst the RX580 benchmarks at an acceptable rate with Normal or Low quality settings. Again, the real-world experience with a FreeSync display should mitigate the variable frame rate at 1440p for the RX580 at Normal and High settings in this title.
At 4K, the answer here is just no, the expectation of playable performance in Far Cry 5 at this resolution on either of these cards is unreasonable. Look to the next tier.
Tom Clancy’s The Division 2
I used the standard quality pre-sets and DX12 with V-Sync disabled for these tests.
High quality settings at 1920×1080 seems to be the sweet spot for both cards in the 1080p benchmark but the RX580 delivered a better experience by about 10%
Running at 2560×1440, the RX570 scored a technical pass at 60FPS as an average on Medium settings but the RX580 averaged 70FPS for a much better experience.
The RX570 with 4GB of memory was never going to be up to 4K with this title and the RX580 passed the desired 60FPS average by just 5FPS at low settings at the top resolution.
BIOSHOCK INFINITE
BIOSHOCK Infinite is another older title that still comes up as a bargain in Steam Sales. It also has a built-in benchmark for consistent comparisons. I’ve used the Highest settings with DX11 and I modified the script to also include 4K resolution.
The RX570 and RX580 run this title at 132 and 143FPS respectively for a smooth experience. Even at 2560×1440 resolution the frame rates are looking good. When testing at 4K, both cards fall short coming in under 50FPS at the highest quality preset.
Subjective Testing
In the subjective tests, I took typical frame rates from a few games but tried to keep the visual scenario as close as possible but this is far from a controlled benchmark so keep that in mind.
Battlefield V
Training mission, DX12, V-Sync disabled, typical frame rates captured via MSI Afterburner.
RX570: At 1080p we saw typical frame rates of:
- 50-60 FPS at Ultra pre-set
- 75-80 FPS at High pre-set
- 85-100 FPS at Medium pre-set
The image below shows a screen capture of the RX570 at Medium settings.
RX580: At 1080p we saw the following typical frame rates:
- 73-83fps with the average closer to 75 at the Ultra pre-set
- 76-92 FPS with a typical result of 88 at the High pre-set
- 90-108 FPS with a typical average of 104 at the Medium pre-set
When switching the RX580 to 1440p we saw the following results:
- 53-64 FPS with a typical average of 60FPS with notable dips in performance at Ultra settings
- 58-67FPS and a typical average of 62 FPS at the High pre-set but with less performance dips than Ultra
- 72-86 FPS with a more stable average of 77 FPS at medium but the effects still looked good
Verdict: The RX570 delivers decent performance at 1080p with High settings, if you have a FreeSync monitor it will help to smooth out the variation in frame rate.
The RX580 with double the memory makes 1440p gaming in this title a legitimate option and delivers much better typical frame rates at 1080p. The $100 difference in price is probably justified in this example.
CS:GO
Max settings, V-Sync disabled, typical frame rates captured via MSI Afterburner.
RX570
- At 1080p on the highest settings the typical FPS is 222-254 FPS with a loose average of 230 FPS
- 1440p performance is also solid with a typical range of 155-170
The image below shows a screen capture of the RX570 at 1080p.
RX580
- The typical 1080p performance at the highest settings was 230-250FPS and an average hovering around the 240 mark.
- When increasing the resolution to 1440p, the experience was 190-205FPS .
Verdict: CS:GO plays well enough with the RX570 and it’s hard to justify the RX580 in this title. Both will give 144FPS at up to 2560×1440 resolution to keep competitive players happy.
Overwatch
Ultra pre-set, V-Sync and max frame rate disabled, typical frame rates captured via MSI Afterburner. The environment was the training level, not online competitive play.
RX570
At 1080p, the RX570 was able to maintain a rough average of 100 FPS for a competitive and enjoyable experience.
RX580
We saw 164-186 FPS with a typical average of 170FPS. When increasing the resolution to 1440p, we saw a drop to 90-116FPS and a typical average of 105.
Verdict: 100FPS in a competitive shooter like Overwatch is smooth and delivers a good result. If you’re seeking a 120, 144 or 165 FPS target, the RX 580 is probably the better option but if the goal is 1080p at 60FPS then the RX570 is going to do just fine.
Witcher 3
This game is an epic and has made many graphics cards cry out in pain since it was launched in May 2015 – fortunately, technology has caught up to the ambitious graphics of this title.
The Witcher 3 is also regularly on sale at Steam or GOG and is enjoying a return to popularity thanks to the recent TV Series starring Henry Cavill. In order to test, we ‘relaxed’ the settings to High to see how playable the game was with enough eye-candy enabled for a rich and immersive experience.
Witcher 3 was tested using the ‘High’ pre-set, V-Sync disabled, typical frame rates captured via MSI Afterburner.
RX570: The range was generally 53-67 FPS with a typical average frame rate of 60 FPS.
RX580: At 1080p, the typical range was 68-77 FPS with a typical average noted at 71FPS. When bumping up the resolution to 2560×1440 the range dropped to 48-53 FPS
Verdict: When there was a lot going on such as combat, the frame rate dropped to the lower end of the range and the higher end was seen when the character was static or moving slowly through the landscape.
Final Thoughts
For the extra $100, you can enable higher quality settings in many titles and make use of the extra 4GB of video memory to get better performance.
The quality improvement may be more valuable to gamers depending on the title and the level of immersion.
An example of where the quality may not be that critical could be in a fast-paced shooter where you never get a chance to stop and look around at the detailed textures; medium or high might be all you need, as long as you have a steady and higher FPS rate.
Alternatively, if you play adventure or RPG games, especially in an open-world title, the world is there to be explored and the detail is something that many gamers really want to appreciate and take in. The higher quality settings could justify the cost of the RX580 to make those AUD$60-90 games more enjoyable.
There are a lot of older and/or affordable titles that are amazing and play well at 1080p/60fps on either of these cards. You can have a great experience for a modest outlay with either an RX570 or RX580 and a minor splurge on a Steam Sale.
People with a $220 graphics card budget should feel content that the RX570 will give them a good experience at 1080p in most titles.
The RX570 is the smarter buy and it typically runs most games well-enough at 1080p although some quality/effects sacrifices might be required.
These are the most logical step up from integrated graphics or a basic discrete GPU like the GT 7xx, GTX1030 or RX550 in terms of value for money.
For the street price I’d happily recommend these cards to any gamer chasing ‘bang for buck’ at the moment.
RX 570 vs RX 580 ⚙️
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Argon2d-160003858.876H/s94W41.052H/W
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Astralhash12.513MH/s117W0.
107MH/W
AstroBWT—MH/s—W—MH/W
Autolykos251.535MH/s94W0.548MH/W
BCD9.169MH/s128W0.072MH/W
BMW512346.468MH/s85W4.076MH/W
BeamHashII14.115H/s121W0.117H/W
BeamHashIII14.478H/s123W0.118H/W
Blake (2b)1.033GH/s95W0.011GH/W
Blake (2b-BTCC)1033.251MH/s94W10.992MH/W
Blake (2s)2.285GH/s90W0.025GH/W
Blake (2s-Kadena)0.392GH/s90W0.
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Cuckaroo29b2.
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Darkcoin—H/s—W—H/W
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Equihash(125,4)14.21H/s97W0.146H/W
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Equihash(96,5)11.819KH/s117W0.101KH/W
Equihash+Scrypt8.572KH/s122W0.07KH/W
Etchash31.23MH/s79W0.395MH/W
Ethash31.314MH/s80W0.391MH/W
FiroPoW12.27MH/s81W0.151MH/W
Globalhash33.139MH/s126W0.263MH/W
HMQ17254.962MH/s76W0.065MH/W
Handshake0.
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HeavyHash132.275MH/s123W1.075MH/W
Hex7.802MH/s88W0.089MH/W
HoneyComb21.343MH/s124W0.172MH/W
Jeonghash6.641MH/s119W0.056MH/W
KAWPOW9.056MH/s89W0.102MH/W
KangarooTwelve0.76GH/s123W0.006GH/W
Keccak1.78GH/s56W0.032GH/W
Keccak-C1.778GH/s56W0.032GH/W
Lyra2REv230.342MH/s119W0.255MH/W
Lyra2REv334.
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Lyra2vc0ban30.474MH/s124W0.246MH/W
Lyra2z2.947MH/s124W0.024MH/W
MTP1.656MH/s99W0.017MH/W
Mike2443MH/s106W23.047MH/W
NIST50.075GH/s55W0.001GH/W
NeoScrypt0.835MH/s143W0.006MH/W
Octopus5.037MH/s82W0.061MH/W
PHI161214.041MH/s124W0.113MH/W
PHI23.777MH/s118W0.032MH/W
Padihash6.
108MH/s123W0.05MH/W
Pawelhash5.664MH/s82W0.069MH/W
Phi512.393H/s96W0.129H/W
ProgPow7.812MH/s124W0.063MH/W
ProgPowSERO8.741MH/s124W0.07MH/W
ProgPowZ8.767MH/s124W0.071MH/W
Radiant216829932MH/s102W2125783.647MH/W
RandomKEVA455.97H/s51W8.941H/W
RandomSFX461.38H/s52W8.873H/W
RandomX452H/s45W10.044H/W
SHA-256csm624.
845MH/s124W5.039MH/W
Skein2255.781MH/s124W2.063MH/W
Skunkhash21.047MH/s123W0.171MH/W
SonoA1.199MH/s124W0.01MH/W
Tellor0.219GH/s119W0.002GH/W
TimeTravel1017.507MH/s124W0.141MH/W
Tribus38.227MH/s99W0.386MH/W
Ubqhash25.481MH/s124W0.205MH/W
Verthash0.408MH/s103W0.004MH/W
VerusHash4.097MH/s123W0.033MH/W
X11k1.
594MH/s123W0.013MH/W
X1515.342MH/s55W0.279MH/W
X16R7.688MH/s134W0.057MH/W
X16RT8.106MH/s124W0.065MH/W
X16RTVEIL8.168MH/s99W0.083MH/W
X16Rv27.109MH/s93W0.076MH/W
X16S7.719MH/s119W0.065MH/W
X177.977MH/s118W0.068MH/W
X17R7.078MH/s87W0.081MH/W
X186.217MH/s93W0.067MH/W
X21S5.945MH/s123W0.
048MH/W
X22i4.559MH/s106W0.043MH/W
X25X0.89MH/s81W0.011MH/W
Xevan2.41MH/s106W0.023MH/W
Zhash23.57H/s128W0.184H/W
cuckARoo291.5H/s70W0.021H/W
cuckARood292.32H/s129W0.018H/W
cuckARoom292.68H/s82W0.033H/W
cuckAToo310.536H/s149W0.004H/W
cuckAToo320.18H/s124W0.001H/W
vProgPow4.368MH/s124W0.
035MH/W
AMD Radeon RX 570 vs AMD Radeon RX 580: What is the difference?
50 BALLLA
AMD Radeon RX 570
49 Ballla
AMD Radeon RX 580
VS
54 Facts compared to
AMD RADEON RX 570
AMD RADEON RX 580 9000
Why AMD RX RX 580?
- 30W below TDP?
120W vs 150W - 2°C lower GPU idle temperature?
31°C vs 33°C - 1 more DVI outputs?
1 vs 0
- 1.1 TFLOPS over FLOPS?
6.1 TFLOPS vs 5 TFLOPS - 3.1 GPixel/s higher pixel rate?
42.9 GPixel/s vs 39.8 GPixel/s - 250MHz faster memory speed?
2000MHz vs 1750MHz - 1000MHz higher effective clock speed?
8000MHz vs 7000MHz - 2.02x more VRAM?
8.
1GB vs 4GB - 33.8 GTexels/s higher number of textured pixels?
193 GTexels/s vs 159.2 GTexels/s - 256 more stream processors?
2304 vs 2048 - 16 more texture units (TMUs)?
144 vs 128
Which comparisons are the most popular?
AMD Radeon RX 570
vs
Gigabyte GeForce GTX 1650 Gaming OC
AMD Radeon RX 580
vs
Nvidia GeForce GTX 1060
AMD Radeon RX 570
vs
Nvidia GeForce GTX 1060
AMD Radeon RX 580
VS
NVIDIA GEFORCE RTX 2060
AMD Radeon RX 570
VS
GIGABYTE RADEON RX 6500 XT GAMD Radeon RAPEN RAPEN RAR000 NVIDIA 9000 NVIDIA 9000 NVIDS0003
AMD Radeon RX 570
vs
MSI GeForce GTX 1050 Ti Gaming
AMD Radeon RX 580
vs
Nvidia GeForce GTX 1650
AMD Radeon RX 570
vs
AMD Radeon RX 6400
AMD Radeon RX 580
VS
NVIDIA GeForce GTX 1660
AMD Radeon RX 570
VS
NVIDIA GEFORCE RTX 2060
AMD Radeon RX 580 9000 9000
VS
AMD RADEN RADEN RADEN0003
AMD Radeon RX 570
vs
Nvidia GeForce RTX 3050 Laptop
AMD Radeon RX 580
vs
Nvidia GeForce GTX 1050
AMD Radeon RX 570
vs
Nvidia Geforce GTX 1660 Super
AMD Radeon RX 580
VS
ZOTAC GEFORCE GTX 960
AMD Radeon RX 570
VS
NVIDIA GEFORCE GTX 1660
AMD Radeon RX 580 9000 9000
VS
NVIDIA RTOR0003
Comparison prices
Users reviews
General rating
AMD Radeon RX 570
2 Reviews of users
AMD Radeon RX 570
/10
9000 2 Reviews 9000 User reviews
AMD Radeon RX 580
8.
0 /10
1 User reviews
Features
Value for money
9.5 /10
2 Votes
/10
1 Votes
Games
8.5 /10
2 VOTES
10.0 /10 9000 9000 9000 1 VOTES 9000 9000 8.5 /10
2 Votes
8.0 /10
1 VOTES
TANTINATION noise
7.5 /10
2 VOTES
8.0 /10 9000 /10 9000.000 /VOTS
Reliability
8.5 /10
2 Votes
8.0 /10
1 Votes
1. TECH FRIENTS GP
1168MHZ
1120MHz
9000 high clock frequency.
2.turbo GPU
1244MHz
1266MHz
When the GPU is running below its limits, it can jump to a higher clock speed to increase performance.
3.pixel rate
39.8 GPixel/s
42.9 GPixel/s
The number of pixels that can be displayed on the screen every second.
4.flops
5 TFLOPS
6.1 TFLOPS
FLOPS is a measure of GPU processing power.
5.texture size
159.2 GTexels/s
193 GTexels/s
Number of textured pixels that can be displayed on the screen every second.
6.GPU memory speed
1750MHz
2000MHz
Memory speed is one aspect that determines memory bandwidth.
7.shading patterns
Shading units (or stream processors) are small processors in a video card that are responsible for processing various aspects of an image.
8.textured units (TMUs)
TMUs accept textured units and bind them to the geometric layout of the 3D scene. More TMUs generally means texture information is processed faster.
9 ROPs
ROPs are responsible for some of the final steps of the rendering process, such as writing the final pixel data to memory and for performing other tasks such as anti-aliasing to improve the appearance of graphics.
Memory
1.memory effective speed
7000MHz
8000MHz
The effective memory clock frequency is calculated from the memory size and data transfer rate. A higher clock speed can give better performance in games and other applications.
2.max memory bandwidth
224GB/s
224GB/s
This is the maximum rate at which data can be read from or stored in memory.
3.VRAM
VRAM (video RAM) is the dedicated memory of the graphics card. More VRAM usually allows you to run games at higher settings, especially for things like texture resolution.
4.memory bus width
256bit
256bit
Wider memory bus means it can carry more data per cycle. This is an important factor in memory performance, and therefore the overall performance of the graphics card.
5.
GDDR memory versions
Later versions of GDDR memory offer improvements such as higher data transfer rates, which improve performance.
6. Supports memory troubleshooting code
✖AMD Radeon RX 570
✖AMD Radeon RX 580
Memory troubleshooting code can detect and fix data corruption. It is used when necessary to avoid distortion, such as in scientific computing or when starting a server.
Functions
1.DirectX version
DirectX is used in games with a new version that supports better graphics.
2nd version of OpenGL
The newer version of OpenGL, the better graphics quality in games.
OpenCL version 3.
Some applications use OpenCL to use the power of the graphics processing unit (GPU) for non-graphical computing. Newer versions are more functional and better quality.
4.
Supports multi-monitor technology
✔AMD Radeon RX 570
✔AMD Radeon RX 580
The video card has the ability to connect multiple displays. This allows you to set up multiple monitors at the same time to create a more immersive gaming experience, such as a wider field of view.
5. GPU temperature at boot
Unknown. Help us offer a price. (AMD Radeon RX 580)
Lower boot temperature means the card generates less heat and the cooling system works better.
6.supports ray tracing
✖AMD Radeon RX 570
✖AMD Radeon RX 580
Ray tracing is an advanced light rendering technique that provides more realistic lighting, shadows and reflections in games.
7. Supports 3D
✖AMD Radeon RX 570
✔AMD Radeon RX 580
Allows you to view in 3D (if you have a 3D screen and glasses).
8.
supports DLSS
✖AMD Radeon RX 570
✖AMD Radeon RX 580
DLSS (Deep Learning Super Sampling) is an AI based scaling technology. This allows the graphics card to render games at lower resolutions and upscale them to higher resolutions with near-native visual quality and improved performance. DLSS is only available in some games.
9. PassMark result (G3D)
This test measures the graphics performance of a graphics card. Source: Pass Mark.
Ports
1.has HDMI output
✔AMD Radeon RX 570
✔AMD Radeon RX 580
Devices with HDMI or mini HDMI ports can stream HD video and audio to the connected display.
2.HDMI connectors
More HDMI connectors allow you to connect multiple devices at the same time, such as game consoles and TVs.
3rd HDMI version
Unknown. Help us offer a price.
(AMD Radeon RX 570)
HDMI 2.0
New versions of HDMI support higher bandwidth, resulting in higher resolutions and frame rates.
4. DisplayPort outputs
Allows connection to a display using DisplayPort.
5.DVI outputs
Allows connection to a display using DVI.
Mini DisplayPort 6.outs
Allows connection to a display using Mini DisplayPort.
Price comparison
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Which graphic cards are better?
Heat, speed, deceit and what to do with it all. Dedicated to owners of video cards RX 570, RX 580 and others like them
Intro from afar
When I was young and hot, I made sure my PC was packed with top-end hardware. And definitely overclocked. Overclocking brought results! Until now, as a memory, I keep the power supply, in which the 4-pin plug for powering the processor was charred and «welded» to the connector on the motherboard (in fact, the power supply is lying around in the pantry simply because I could not sell it because for the deplorable physical condition of the mentioned contact connector, but let this be our secret).
But in 2008 I bought my first gaming laptop. With 9600M GT graphics card. This laptop had a mobile processor Intel P8400 2.26 GHz. Everything was perfect in this processor, it even managed to do SpeedStep focus up to 2.4 GHz per core. And this nice feature made the laptop non-gaming: after 15-20 minutes of playing, when the processor was already well warmed up, after raising the core frequency (and voltage) to 2.4 GHz, a sharp jump in temperature immediately followed, evil Throttling immediately came and underestimated the CPU frequency up to 800 MHz. Fps dived after the frequency. With all the consequences. A second later, the situation repeated itself, etc. As a result of leapfrog temperature / CPU frequency jumps and related delays, for example, game fps could change from 16 to 45 frames / s every second and back in the same game scene. Naturally, because of the friezes, the game process turned into a uniform disgrace and hassle. Since I didn’t really want to constantly participate in this outrage, a solution was found: for games, the CPU frequency was forcibly software-limited to the standard 2.
26 GHz, and the problems of unstable frame rates were gone. Then I first encountered a situation where increased frequency and increased hardware power (even in normal mode), which cause increased heat dissipation of the computer hardware, is an absolute evil. Since then, I have tried, as far as possible, to acquire energy efficient solutions with a reasonable price / performance ratio. And not the «hottest» top.
recommendations
As for laptops, given their concise cooling systems, throttling can still be understood and forgiven. However, to find a similar problem in modern desktop PCs with video cards positioned as gaming was surprising to me personally. And yet…
Warmly
The children went away for the holidays, there was a bit of free time, and for the next weekend I sat down at my daughter’s computer to play an old FarCry 4. Which I “missed” at one time. After some time of playing, I noticed that the smoothness of the gameplay disappeared somewhere, friezes began to appear, the frame rate instead of the usual 60 (vertical sync is on) began to sag to 37-49.
Taking into account that the PC has an MSI Radeon RX 580 ARMOR 8G OC graphics card, and the FarCry 4 game itself is already released in 2014, this was suspicious. I found the reason rather quickly: according to the monitoring data, the temperature of the GPU «trampled» at the level of 90°C and sometimes even exceeded 92°C. The graphics processor was simply forced to cool down and reset the frequencies, which dragged the fps to the bottom. Of course, it’s a hot summer outside, but the video card is installed in a decent and normally ventilated mini-tower case, the video card cooler is clean and not clogged with dust (I checked), so this behavior of the video card was completely unforgivable. Something had to be done about it. I even thought about removing the CO and changing the thermal interface, but this was not the best solution — the card is still under warranty, I would not want to lose it. Therefore…
Speed
Fate threw me into another room, where the HIS Radeon RX 570 IceQ X2 OC 8GB graphics card paired with an AMD Ryzen 5 1600X processor is working for the benefit of all progressive humanity (represented by my humble person).
I decided to use a video card for experiments to make a couple of experiments with the video card, using the new Shadow of the Tomb Raider instead of the old FarCry 4. After all, Lara is a reliable woman, she will not let you down. Not like Pagan Ming, who turned off the Golden Road onto a crooked path.
HIS marketers have lost the last crumbs of conscience. If they had any at all, of course. Otherwise, I cannot explain how, by adding 20 MHz (1.6%) to the nominal GPU frequency, you can stick an OS prefix on the video card. Anyway.
At the default clock and stock voltage, this video card passes the Shadow of the Tomb Raider performance test with decent results. But only once! As soon as we simulate a real long-term gaming load (by running the test two or three times in a row), the performance of the video card sags. The reason for this is easy to see when looking at the test video: at about 20 seconds of the test, the GPU temperature reaches 88 degrees and the graphics processor starts to slowly drop the frequencies, later on during the test, instead of the standard 1264 MHz, the frequency of the video chip drops to around 1130 MHz and even lower (i.
e. at 9% and more). That is, HIS could safely add a DC (Downclocking) prefix to their video card, and not an OS. Video:
It turned out to be quite easy to fix this disgrace on the HIS video card. By simply lowering the GPU supply voltage by 100 mV, you can ensure that the video card will not aggressively drop frequencies, but will almost always maintain the nominal frequency of 1264 MHz for the GPU:
after 2 runs on regular power, so the result is quite trustworthy):
At the same time, with reduced voltage, the power consumption and, accordingly, the heat dissipation of the video card decreased (this can be tracked by video) by about 20 W (16%), and the average fps increased by 3 frames / s or by 5% (from 59 to 62 frames /s), which can be called a doubly decent achievement.
Naturally, in these cases, part of the PC resources was spent on video recording. Without video recording, the «clean» results in the test are about 3 frames/s higher (see screenshot): above, as the following screenshots show:
I think you will understand where the option with reduced voltage is by looking at the temperature, frequency and power consumption of the GPU (upper line on the left) in the screenshots.
That’s it with HIS. We return to MSI. This company turned out to be much more generous, adding as much as 26 MHz (1.9%) to the standard GPU frequency of the video card. This gives us much less reason to be outraged when we see the «sign» OS prefix at the end of this video card. Unfortunately, even at this modestly elevated frequency, the MSI Radeon RX 580 ARMOR 8G OC graphics card still cannot work happily ever after.
Already on the second test pass of Shadow of the Tomb Raider, the GPU frequency in many game scenes drops to about 1250 MHz, and sometimes drops to the «bottom» at 914 — 950 MHz, which can be seen by watching the test video.
The reason is obvious, the GPU temperature is approaching the critical 90°C, and throttling is already in full swing here:
It turned out to be a little more difficult to cope with the MSI video card than with the HIS. Alas, at the stock GPU frequency (1366 MHz), you can only lower the voltage by 50 mV, otherwise the card loses stability. But there is no use from -50 mV. GPU temperature still quickly gets to 90 degrees with all the ensuing sadness. Need to downgrade! And there is only one way left — to reduce the frequency of GP.
To quickly achieve an acceptable result and avoid inconsistencies in frequency synchronization (this can negatively affect performance), let’s go down with the same step as the manufacturer «overclocked» — this is 26 MHz.
Sadness again: at the standard frequency for the RX 580 of 1340 MHz, the card with the voltage lowered by 100 mV was still unstable, and -50 mV again did not give the required result.
But we can’t be stopped that easily. Another -26 MHz … And here it is, happiness: at a GPU frequency of 1313 MHz, the video card stably passes tests at a voltage lowered by 100 mV, while not dropping the GPU frequency during the playback of Shadow of the Tomb Raider game scenes. Hurrah, comrades! (Stormy, prolonged applause.)
But haven’t we sacrificed too much performance by reducing the maximum GPU frequency of the video card from 1366 to 1313 MHz (by 3.9%)? Let’s look…
The test run shows that not only did we not have to sacrifice performance, but moreover, the average fps even increased by 5% — from 56 to 59 fps (test at maximum graphics settings, part of the PC resources was spent on video recording, without video recording the result is a few frames / s higher in both cases). Thus, thanks to the optimal temperature regime with a reduced supply voltage, when the GPU did not reset frequencies during the rendering of game scenes, we even won in performance compared to the «default» state.
Plus, the power consumption of the video card under load has now dropped by about 12 watts (about 10%), which is also a plus.
Deception
Of course, other video cards may have different cooling systems and temperature conditions (both better and worse), and my personal experience with 2 video cards does not pretend to be comprehensive and absolute truth. Nevertheless, it is quite obvious that there are not isolated cases when manufacturers slip consumers equipment (supposedly even with overclocking potential — OS) that is actually not able to work normally with a standard cooling system and the set power parameters in the mode chosen by the manufacturer. At least, when it comes not to working as part of an open test bench, but about working in a typical mini-tower computer case (I’m not talking about any compact case models there). In principle, consumer fraud is evident. However, the main thing for any manufacturer is to sell you a product — and then it’s not his concern.
To summarize
“Forewarned is forearmed”. I don’t think anyone wants their gaming graphics card to run «Hot and Slow» like a negligent manufacturer intended. Well, spend a little time setting it up, and make sure that the video card works «fast and comfortable» as you wish. I hope this article will help you «dig» in the right direction.
Well, of course, I personally doubt the expediency of overclocking RX 570 and RX 580 video cards with standard cooling systems.
In the course of preparing this material, I had serious complaints about the energy efficiency of the RX 570 card. But we’ll talk about this sometime next time.
This material was written by a site visitor and has been rewarded.
Mining on RX 580, 570, 480 on 4/8GB. Hashrate, overclocking, settings, consumption. How many mines 580
Radeon RX 580, RX 570 and RX 480 on 8Gb at one time, namely in the first mining boom of 2017, were a bestseller among miners.
The cards showed very good performance in mining. At the moment, the RX 580, RX 570 and RX 480 at 8Gb deliver 30 MH / s, with relatively low power consumption, of course, with the right settings and overclocking. How to overclock the RX 580 and how to downvolt the RX 580, we wrote on the site, but these manipulations are more valid for gaming purposes, and not for mining.
Now we will analyze how to get the maximum hashrate from RX 580, RX 570 and RX 480 in mining.
You can view real-time cryptocurrency rates.
First, let’s see what coins can be mined on these cards, and what profit do they give? I will look at the RX 580 at 8 GB, because. in mining, all these cards show an identical result, the core frequency plays a minimal role, mainly the memory, which is the same for them and is 1750 MHz.
Let’s touch upon an important question, what can be mined on cards with 4Gb video memory, and how to increase profit on these cards.
0 8 Gbps effective
7 Gbps effective
8 Gbps effective
0 GB/s Mining specs of RX 480, RX 570, RX 580
RX 580 8GB hashrate and consumption
How much does RX 580 8Gb mine. RX 5500 xt mining and tuning. Is there a difference? RX 580 8GB hashrate and consumption
RX 480 8GB hashrate and consumption
How much does RX 480 8Gb mine. RX 5600 xt hashrate and consumption.
| Algorithm | Hashrate | Consumption (Power) |
|---|---|---|
| Ethash | 30.05 mh/s | 140.00W |
| Ethash5G | 30.05 mh/s | 140.00W |
| Zhash | 21.0 h/s | 120.00W |
| CNHeavy | 960.0 h/s | 110.00W |
| CNGPU | 760.0 h/s | 120.00W |
| CNFast | 1650.0 h/s | 110.00W |
| Cortex | 1. 1 h/s |
120.00W |
| Aion | 95.0 h/s | 120.00W |
| CuckooCycle | 2.6 h/s | 130.00W |
| Cuckaroo(d)29 | 2.4 h/s | 130.00W |
| Cuckatoo31 | 0.6 h/s | 120.00W |
| Cuckatoo32 | 0.16 h/s | 120.00W |
| Beam | 15.5 h/s | 140.00W |
| RandomX | 470.0 h/s | 90.00W |
| NeoScrypt | 820. 0 kh/s |
150.00W |
| Autolycos | 59.0 mh/s | 130.00W |
| Octopus | 4.9 mh/s | 120.00W |
| EquihashZero | 14.0 h/s | 130.00W |
| ZelHash | 14.0 h/s | 120.00W |
| Aion | 85.0 h/s | 100.00W |
| Cuckatoo31 | 0.35 h/s | 110.00W |
| Cuckatoo32 | 0.1 h/s | 110.00W |
| Beam | 14. 5 h/s |
120.00W |
| RandomX | 390.0 h/s | 80.00W |
| NeoScrypt | 700.0 kh/s | 140.00W |
| Autolycos | 55.5 mh/s | 110.00W |
| EquihashZero | 12.8 h/s | 110.00W |
| ZelHash | 12.5 h/s | 100.00W |
| KawPow | 13.0 Mh/ s | 160.00W |
| ProgPow | 7.8 Mh/s | 130.00W |
| X25X | 0. 7 Mh/s |
75.00W |
| Verthash | 0.42 Mh/s | 110.00W |
Hashrate and consumption of RX 570 4GB
If you want to purchase these video cards, pay attention to the following points:
- The card must have 8Gb video memory
- These cards are over 4 years old. And most likely they have already mined a lot in 2017-2018
For mining on the RX 580, 570, 480 video card, we recommend the Binance pool. Registration link (lifetime 5% cashback on commissions). As well as the operating system HiveOS. HiveOS registration link (with the InsidePC promo code you get $10 to your account).
For stable operation of video cards in the rig, bios settings for mining.
Consumption of RX 580, RX 570 and RX 470 in mining
These cards from Radeon, when properly configured and overclocked, consume around 84W.
RX 480 consumption on 8Gb
As you can see in the screenshot, RX 480 consumes 84W and outputs 30Mh/s. A very good indicator, considering that the GTX 1660 Super in mining gives the same indicator, but this card is 2019 and costs much more. The advantage of 1660 is that they are new, with a long life and a guarantee. A very interesting point, newer and more technologically advanced RX 5700 XT give out almost twice as many hashes, while consuming the same 90-100W. Mining on RX 5700 XT is described on our website.
The RX 580 actually consumes more than 84 watts, about 120 watts. RX 580 consumption in mining systems is displayed incorrectly.
Profitability of RX 580, RX 570, RX 480 in mining. How much RX 580 mines
Profitability of RX 580 and other cards depends on the algorithm, cryptocurrency rate, network complexity and card settings.
If you have not yet decided on an exchange for trading and investing in cryptocurrency, we recommend that you look at our top cryptocurrency exchanges.
Is it still possible to mine on RX 580, RX 570 and RX 480 with 4 Gb of video memory?
It’s about Ethereum.
If you don’t know, the Ethereum DAG passed epoch 382 and that was the beginning of zombie mode in 4Gb AMD cards. What does it mean? The entire DAG file no longer fits in 4GB of video memory.
DAG file is a block of data, over 1 Gb in size, used to solve a block in the blockchain network based on the Ethash algorithm. On which, in addition to the ether, there are such coins as: ETC, ETP, DBIX, QKC, EXP, ELLA, CLO, ETHO, UBQ, EGEM, ESN. It is the DAG file that is loaded into the memory of the video card when the miner starts. Let’s look at the example of Excavator on nicehash:
dagj-generator
DAG file size increases over time. This happens every 30,000 blocks and is called a change of epochs, i.e. each epoch has its own DAG size. To find out the current size of the DAG file, use the service — https://investoon.com/tools/dag_size. It shows the current size of the DAG file for the main currencies on the Ethash algorithm, and also allows you to determine the size of the DAG file by the block number.
Each block has its own epoch, and each epoch has its own DAG size.
The relevance of cards based on the Ethash algorithm
The table shows that 4Gb cards became practically irrelevant at the end of 2020, 6Gb cards still have 3 years left, and 8Gb and 11Gb cards still work and work.
We see that RX 480, 570, 580 on 4Gb are no longer relevant, but let’s find out if it is still possible to mine on them, how to do it and how much they bring?
Is there an available card that will be mining for a very long time? Yes, it is 1080 hashrate which goes up to 48 mh/s.
If you have just started collecting a farm, the mining equipment section will simplify your choice.
Zombie mode for RX 570, 480, 580 on 4Gb
At the beginning of 2021, cards with 4Gb video memory entered the so-called era of zombie mode. Ethereum mining for 4 GB. At which the performance of mining on video cards with 4Gb of video memory will drop exponentially with the onset of each next epoch.
This is due to the fact that an increasing part of the DAG file that does not fit into the video memory of the card will be placed in the RAM. But the problem is that the speed of access to RAM is much lower than to video memory.
Let’s see how to put your cards into zombie mode on different operating systems. For mining in zombie mode with such cards as Radeon RX 480 4Gb, RX 570 4Gb, RX 580 4Gb, TeamRedMiner shows itself most stably.
Step 1: Go to Flight Sheets and create a flight sheet. We select the ETH coin, register our wallet (you need to create it first), the pool, and the miner. Select TeamRedMiner and click Setup ( Setup Miner Config).
Create Flight Sheets (flight sheet) and select the miner TeamRedMiner
In the miner settings, find the Extra config arguments field and enter the following command — -eth_4g_max_alloc 4076.
-eth_4g_max_alloc 4076
This command specifies how much video memory in the card will be used for the DAG file. Anything greater than this value will be placed in RAM.
The higher this figure, the smaller the hashrate drop in mining will be. We have 4076 mb. You need to choose this number yourself. If everything works stably on 4076, try raising it by 10 mb.
Click Apply Changes and save the flight sheet. The flight sheet is called, as it is understandable, Zomby List or something like that.
How to put your 4Gb video cards into zombie mode in Rave OS
Setting up Rave OS is described in detail in our manual, study it. First, you need to register in Rave OS.
Step 1: Create a wallet. Go to the Wallets tab and click Add Wallet, give it the name ETH-Zombie or something so that it would be clear that this is a wallet for the zombie mode.
Select Coin — ETH, select Please select pool — binance, select European servers on the pool, Wallet — drive in the wallet, install the RedTeamMiner miner and go into its settings by clicking on the pencil.
Teamredminer in Rave OS
And in the Additional command line arguments field, enter -eth_4g_max_alloc 4076.
-eth_4g_max_alloc 4076
Save the settings and the wallet. Next, go to the worker and select the created wallet for mining.
Here is a screenshot of a real farm on 4Gb RX 470 cards:
RX 470 hashrate on 4Gb in Ethereum mining
Cards give out from 15 to 28 hashes. The first card gives such a hashrate, because. plugged into the PCI-E slot directly. So far, mining on RX 580, RX 570, RX 470 on 4GB is quite justified and possible. Although there are already very few such cards left …
What to mine on 4gb in 2022
In December 2021, an excellent ton coin appeared, which can be mined even on video cards with 2gb of video memory.
On rx 470 4gb mining in 2021 and 2022 will still be relevant.
Overclock 1060 3gb for mining ton coin.
Overclocking or tweaking RX 580, RX 570, RX 480 for mining
For ETC or ETHW mining, core clock is not as important as memory clock. Therefore, more efficiency can be achieved with less power consumption.
Ethereum price online.
The rx 580 8gb has a hash rate of 32.4 Mh/s.
Overclocking rx 570 for mining is similar to RX 580 and RX 480 cards. How to mine ethereum on a video card (no longer relevant).
Read how to mine ETHW on the site, how to mine ETC was also written. And of course RVN mining.
Overclocking RX 580, RX 570 and RX 480 on Windows
Overclocking can be done in both Adrenaline 2020 and MSI Afterburner.
Set the core frequency to 1200, which is less than the card has, and set the memory frequency to 2100.
Overclocking RX 580, RX 570 and RX 480 in Hive OS
$ to balance. To overclock the RX 580 and other cards in Hive OS, you need to select a farm and a worker (your rig). Next, on the desired map, click on the speedometer icon. Learn how to work with Hive OS in our detailed manual.
After that, change the Core Clock, Mhz to 1150-1200, and set the Memory Clock, Mhz from 2000 to 2240. If everything works well from 2000, you can raise the frequency.
If broken balls go, reduce the frequency.
Overclocking RX 580 in Hive OS
Overclocking RX 580, RX 570 and RX 480 in Rave OS
First, you need to register in Rave OS.
To overclock the RX 580 for Ethereum mining in Rave OS, you need to go to the worker and select Settings. In the worker settings, go to the Tuning tab. On the contrary, we need to change the values of the cards Core Clock offset, MHz and Memory Clock offset, MHz to the same values as in Hive OS. Those. 1150-1200 for core and 2000 to 2240 for memory. Learn how to work with Rave OS in our detailed manual.
RX 580, RX 570, RX 480 Mining Frequently Asked Questions (FAQ)
The most profitable and reliable mining pool for RX 580, 570, 480
At the moment, Binance Pool for mining ETC, ETHW, RVN is the most profitable and secure pool. How to mine on Binance Pool, read on our website.
How much does rx 580 8gb consume in mining
RX 580 8Gb consumes about 85W when properly configured.