Zotac GeForce GTX 1080 Ti AMP Extreme Clocks, Heat & Noise
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Clock Rates, Heat & Noise
Clock Rates
Manufacturers can claim whatever they want in their marketing material. Actually achievable clock rates are subject to a number of hard-to-control variables, though. GPU quality, for instance, plays a big role, and there’s no way to pre-screen what you get on that front. So, it’s absolutely possible that a nominally slower card made by one board partner ends up faster than a more aggressively-tuned model from another partner. As a result, comparisons between products have to be approached with an understanding of some inherent uncertainty.
Board vendors can, however, control the settings and environmental factors that affect how GPU Boost ultimately determines operating frequency, depending on the situations it encounters. Beyond specifications like the power target or clock offset, temperature under load is perhaps the most influential factor in defining sustainable performance.
For Zotac’s GeForce GTX 1080 Ti AMP Extreme, we measured an initial GPU Boost frequency as high as 2012 MHz during our gaming loop. As the card warmed up, it maintained an average of ~1974 MHz during our 30-minute measurement. That’s an impressive result for a hot card.
With a slightly higher power target and more aggressive cooling settings, it’s probable that 2.0+ GHz could be sustained inside of a closed case.
Overclocking
Of course, the card does tolerate some additional overclocking. In our case, we achieved a stable 2067 MHz under air cooling, though we did have to significantly adjust Zotac’s fan curve to bring temperatures down. This results in extra noise you might not want.
If you plan to overclock, consider increasing the power target to its maximum. The table below contains results after configuring our card in Afterburner and a long test run in The Witcher 3.
| Clock Rate Increase | Power Target (Afterburner) | Voltage (Afterburner) | Avg. Boost Clock | Avg. Voltage | Power Consumption |
|---|---|---|---|---|---|
| No | 100% | Standard | 1974 MHz | 1.043V | 307.0W |
| No | 100% | Maximum | 1987 MHz | 1.050V | 313.2W |
| No | 120% | Standard | 2012 MHz | 1.050V | 320.7W |
| +30 MHz | 120% | Maximum | 2050 — 2067 MHz | 1.062V | 327.9W |
As long as temperatures stay under 65°C during gaming workloads, 2067 MHz is feasible and can almost be permanently maintained aside from the occasional dip. But that’s a matter of winning the GPU lottery; not every card will fare as well.
Getting a good overclock from your memory requires perseverance and a bit of luck.
Seemingly stable settings might work short-term, and then prove dicey after a few hours of gaming. In the case of our sample, an extra 300 to 350 MT/s was feasible. Beyond that, performance started sliding the other direction.
Heat
A 66°C measurement from the GPU diode on an open test bench isn’t bad. At the same time, though, the chip’s packaging reads an alarming 73°C. The cause traces back to lackluster cooling of the MOSFETs and chokes. As they warm up, their thermal energy is absorbed back into the PCB. Copper paths in the board transfer this heat around unconstrained.
In a closed case, the GPU temperature rises to 68°C, while the package gets all the way up to 76°C! Better VRM cooling is sorely missed in this situation, as the GPU die is forced to cool the PCB through its hot package. Although the beefy thermal solution effectively keeps the processor running at safe temperatures, it’s no surprise that we encounter unnecessarily high fan speeds.
Naturally, the measurements don’t improve under our stress test, even on an open test bench.
At a GPU diode reading of 65 to 66°C, the package hovers just under 73°C (a difference of up to eight Kelvin).
It can always get worse, though. In a closed case, the difference between GP102 and its package reaches as high as nine Kelvin.
On average, the temperature we measured on the GPU’s package was between six and nine Kelvin higher than what we read from the chip’s diode. Again, this is due to less-than-ideal cooling of the voltage regulation circuitry. Those small, finned heat sinks we photographed are simply insufficient.
None of the components hit critical levels of thermal load. But the fact that Zotac’s GPU cooler, across several bends and corners, takes over the task of VRM cooling indicates how much of the design’s potential is wasted. The resulting disadvantages are difficult to ignore. There’s noise, for one…
Noise
Before we present our findings, remember back to our review of Zotac’s GTX 1080 AMP! Extreme, where we found its fans prone to starting and stopping.
They’d fall to too-low of a speed (below 650 RPM), practically forcing them to stop. Then the card heated up enough to justify sufficiently high speeds (around 800 RPM), allowing them to spin unhindered.
Now let’s take a closer look at this board’s fan curve. The short «on» pulse is set to a significantly lower value, followed by a longer period where the fan speed is kept at the minimum (a little higher than 800 RPM). It’s only later that the fan starts spinning faster, corresponding to the card’s heat.
Zotac is still using similar, if not identical fans, though. So we asked ourselves how it’s suddenly possible to have a semi-passive mode on this card. Since the observed behavior makes it seem like a second, proprietary fan control is overriding the BIOS, we conducted a little experiment.
We forced the PWM signal to 100% for an idle GPU temperature of about 100°F (38°C). You’d expect the fans to go straight to their maximum RPM at that point. But although monitoring software like GPU-Z and Afterburner confirmed the desired 100% setting, the fans remained silent.
Next, we warmed the card up using our gaming loop. As soon as the GPU diode measured 50°C, the fans suddenly jumped to 100%, confirming our suspicion that there’s another fan control loop at work. Exiting the game, Zotac’s GeForce GTX 1080 Ti AMP Extreme cooled down. As soon as it hit 49°C, the fans fell silent once more, even though the software still showed us the override at 100%. Whether Nvidia knows about and endorses this unusual (yet clever) solution remains a mystery. At least it works.
Inside of a closed case, this card’s fans spin relatively fast, which naturally leads to clearly audible operating noise that’s dominated by low-frequency sound.
When the fans weren’t at their maximum speed, we were bothered by the noise coming from the voltage regulation circuitry. Taking a closer look at the spectrum, there’s a distinct peak between the range of 8.2 and 16 kHz.
For most other cards, the affected frequency range is significantly higher (16 kHz and more), since the DC/DC converters operate at 400 kHz and beyond.
But Zotac’s clock doublers, responsible for turning eight phases into 16, cut this card’s switching frequency in half. Though that might ultimately help with temperatures, it also causes the issues identified in our acoustic analysis.
Using our special temperature-controlled anechoic chamber, we took a maximum reading of 38.5 dB(A), which is an acceptable result given the relatively low GPU diode temperatures. We’re more bothered that the big cooler’s potential is never fully realized, since it only absorbs heat from the GPU die.
For what it’s worth, Palit ran into this very same problem with its GeForce GTX 1080 Ti GameRock Premium Edition, but addressed it in a more effective way. In addition to a VRM heat sink, the company introduced an improvised cooling surface with fins modified to form a 90-degree angle.
MORE: Best Graphics Cards
MORE: Desktop GPU Performance Hierarchy Table
MORE: All Graphics Content
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ZOTAC GeForce GTX 1080 Ti AMP Edition Review — Fast and Cool! — Page 3 of 8
Zotac GTX 1080 Ti AMP – Test Setup
The images below (not the actual benchmark setup) show how the graphics card looks like with its LED lighting effect. You can only choose 7 colors and several lighting effects. Look at the single photo below and notice what I have encircled in red. The GTX 1080 Ti AMP has an onboard MCU module that is also present on the AMP Extreme and ArcticStorm Editions. The MCU does all the processing for the Spectra LED lighting effect; as well as providing better temperature monitoring and helps control FREEZE (fan stop feature). The blue LED light simply indicates that the graphics card is healthy and active. While this is a nice feature, I do find the location of the blue LED a little bit off.
In benchmarking the Zotac GeForce GTX 1080 Ti AMP Edition, I am using a Gigabyte Z170X Gaming 7 motherboard powered with an Intel Core i7-6700K processor, overclocked to 4.
5GHz. Overclocking the CPU to 4.5GHz should be on par or at least performs similar with the newer Core i7-7700K at stock. Below are the rest of the system specifications:
Operating System: Windows 10 Pro 64bit
Motherboard: Gigabyte Z170X Gaming 7
Processor: Intel Core i7-6700K @ 4.5GHz
CPU Cooler: Cryorig A40 Ultimate All-in-One
Memory: Corsair Vengeance LED DDR4-3200MHz 32GB
Graphics card: Zotac GeForce GTX 1080 Ti AMP Edition
Storage Drives: Zotac Sonix 480GB NVMe SSD, WD Blue SSD
Power Supply: FSP Aurum PT 1000W
Chassis: In Win 805 (without the glass side panel installed)
Below is a GPU-Z screenshot of the said graphics card:
Zotac FireStorm GPU Utility
Zotac has a graphics card utility called FireStorm. This is a handy tool to tweak the graphics card’s GPU clock speeds, memory clock speed, control the fans manually and it also provides basic GPU monitoring.
If you are not familiar with Zotac’s FireStorm, you may use other third party GPU utility to overclock the graphics card. However you will need the FireStorm to control the SPECTRA or the LED lighting effects on the AMP Edition, AMP Extreme and AMP Extreme Core. Note that the latest version (as of this time) is V2.0.0.019E. Older FireStorm versions may not be able to control SPECTRA properly.
Zotac GTX 1080 Ti AMP – Temperature and Noise
The Zotac GTX 1080 Ti AMP Edition features a beefy cooler compared to the Founders Edition. The aluminum fin stack is not as thick as the AMP Extreme variant and it has only two fans instead of three. Nevertheless, its cooler is still very much capable of dissipating heat from the GPU and other components on the graphics card.
On idle to light load situations, the fan do not spin at all; making this graphics card dead silent. The temperature was hovering around 40°-ish degrees Celsius. Depending on your system’s cooling capability (air intake and exhaust) you may or may not get better temperature.
On full load and with the fans set to auto, its temperature would reach up to 83° degrees Celsius. Once it reaches 80°+ temps, the fans will crank up to around 70% to 75% fan speed; they are a tiny bit audible but still very silent.
After I have tested and benchmarked the graphics card, I replaced the thermal paste with a liquid metal – the Conductonaut from Thermal Grizzly. Actually, I have replaced the thermal paste on most of the graphics cards I recently tested. This is in line with our upcoming Thermal Grizzly Conductonaut and Kryonaut review. Since it’s not finished yet, I’m just going to share to you some of the initial results I got after replacing the stock thermal paste on the GTX 1080 Ti AMP Edition with Thermal Grizzly’s Conductonaut.
While the graphics card was on idle, I see around 5° degrees Celsius drop, from around 40°+ with the stock thermal paste. What’s even impressive is when the 1080 Ti AMP went full load. See screenshot below.
At full load, the temperature was just hovering around 77° degrees Celsius, from 83° with the stock thermal paste.
It’s also noteworthy to mention that the fan speed also decreased from around 75% down to 59-60% fan speed.
Since the fans on the Zotac GTX 1080 Ti AMP are very silent even at high speeds, I cranked it up to 85%. The temperature dropped down to 67° degrees Celsius! That’s very impressive considering that it’s running on full load.
Now you don’t really need to replace the stock thermal paste on the graphics card, since the cooler is doing a great job at cooling the GPU already. However, if you want to get better temperature (and you’re not worried of getting your warranty void), try the Thermal Grizzly Conductonaut. I haven’t tried CoolLaboratory’s Liquid Pro yet, but I believe the results would be similar.
Just a warning though, you can only use this kind of liquid metal thermal compound on copper base. Do not use it on aluminum surface.
Final note: all the testing and benchmarks results you see in this review were a result of using the stock thermal paste.
Zotac GTX 1080 Ti AMP – Overclocking
The Zotac GTX 1080 Ti AMP Edition is not the fastest custom 1080 Ti right out of the box. The fastest (or one of the fastest) GTX 1080 Ti on the market is Zotac’s AMP Extreme variant. The AMP Extreme has a base clock speed of 1645MHz, boost clock speed of 1759MHz and memory clock speed of 11200MHz right out of the box. But who says we can’t overclock the AMP Edition to match or even surpass the default clock speed of the AMP Extreme?
Above you can see that I have overclocked the GTX 1080 Ti AMP Edition by bumping the base clock speed to 1664MHz, boost clock speed to 1778MHz and memory speed to 1400MHz. The boost clock speed even reaches 2025MHz at peak or in full load, thanks to NVIDIA’s GPU Boost 3.0. I also bump the fan speed to 90% when in full load so that it wouldn’t throttle or become unstable.
Depending on the quality of the GPU you get, you may or may not get better overclocking results. The clock speeds you see above are the best I can do with this card.
Anything above will result in a crash or artifacts. The important thing here is that you need to keep the GPU cool enough so that it would boost to higher clock speeds. If the temperature is not managed properly, the GPU may suffer from thermal throttling or it may not reach higher boost clock speeds.
Now time to see what this badass graphics card can do. Proceed to the next page for the Zotac GTX 1080 Ti AMP benchmark results.
Zotac GeForce GTX 1080 Ti AMP Edition latest pricing and availability:
For US: available at Amazon.com
For UK: available at Amazon UK here
Pages: 1 2 3 4 5 6 7 8
Zotac GeForce GTX 1080 AMP! Edition vs Zotac GeForce GTX 1080 AMP! Extreme: What is the difference?
54points
Zotac GeForce GTX 1080 AMP! Edition
55points
Zotac GeForce GTX 1080 AMP! Extreme
vs
54 facts in comparison
Zotac GeForce GTX 1080 AMP! Edition
Zotac GeForce GTX 1080 AMP! Extreme
Why is Zotac GeForce GTX 1080 AMP! Edition better than Zotac GeForce GTX 1080 AMP! Extreme?
- 25mm narrower?
300mmvs325mm
Why is Zotac GeForce GTX 1080 AMP! Extreme better than Zotac GeForce GTX 1080 AMP! Edition?
- 99MHz faster memory clock speed?
1350MHzvs1251MHz - 792MHz higher effective memory clock speed?
10800MHzvs10008MHz - 26GB/s more memory bandwidth?
346GB/svs320GB/s
Which are the most popular comparisons?
Zotac GeForce GTX 1080 AMP! Edition
vs
XFX Radeon RX 480 XXX
Zotac GeForce GTX 1080 AMP! Extreme
vs
Nvidia GeForce GTX 1080 Ti
Zotac GeForce GTX 1080 AMP! Edition
vs
Galax GeForce GTX 1660
Zotac GeForce GTX 1080 AMP! Extreme
vs
Nvidia GeForce GTX 1080
Zotac GeForce GTX 1080 AMP! Edition
vs
Asus ROG Strix GeForce GTX 1080
Zotac GeForce GTX 1080 AMP! Extreme
vs
Nvidia GeForce RTX 3060 Ti
Zotac GeForce GTX 1080 AMP! Edition
vs
EVGA GeForce GTX 1080 Ti SC2 Hybrid
Zotac GeForce GTX 1080 AMP! Extreme
vs
Nvidia GeForce RTX 3070
Zotac GeForce GTX 1080 AMP! Edition
vs
Zotac Gaming GeForce RTX 3050 Twin Edge OC
Zotac GeForce GTX 1080 AMP! Extreme
vs
AMD Radeon RX 580
Zotac GeForce GTX 1080 AMP! Edition
vs
Gigabyte GeForce RTX 3060 Ti Gaming OC
Zotac GeForce GTX 1080 AMP! Extreme
vs
MSI GeForce GTX 1070 Gaming X
Zotac GeForce GTX 1080 AMP! Edition
vs
EVGA GeForce GTX 1070 Superclocked Gaming ACX 3.
0
Zotac GeForce GTX 1080 AMP! Extreme
vs
EVGA GeForce GTX 1080 FTW DT ACX 3.0
Zotac GeForce GTX 1080 AMP! Edition
vs
Gigabyte GeForce GTX 1080 G1 Gaming
Zotac GeForce GTX 1080 AMP! Extreme
vs
Nvidia GeForce GTX 470
Zotac GeForce GTX 1080 AMP! Edition
vs
MSI GTX 1080 Ti Armor OC
Zotac GeForce GTX 1080 AMP! Extreme
vs
Asus ROG Strix GeForce GTX 1080 OC
Zotac GeForce GTX 1080 AMP! Extreme
vs
Asus ROG Strix GeForce GTX 1080 Ti OC
Price comparison
User reviews
Performance
1.GPU clock speed
1683MHz
1771MHz
The graphics processing unit (GPU) has a higher clock speed.
2.GPU turbo
1822MHz
1911MHz
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
107.
7 GPixel/s
113.3 GPixel/s
The number of pixels that can be rendered to the screen every second.
4.floating-point performance
8.62 TFLOPS
9.07 TFLOPS
Floating-point performance is a measurement of the raw processing power of the GPU.
5.texture rate
269.3 GTexels/s
283.4 GTexels/s
The number of textured pixels that can be rendered to the screen every second.
6.GPU memory speed
1251MHz
1350MHz
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
10008MHz
10800MHz
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
320GB/s
346GB/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
✖Zotac GeForce GTX 1080 AMP! Edition
✖Zotac GeForce GTX 1080 AMP! Extreme
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
✔Zotac GeForce GTX 1080 AMP! Edition
✔Zotac GeForce GTX 1080 AMP! Extreme
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. (Zotac GeForce GTX 1080 AMP! Edition)
Unknown. Help us by suggesting a value. (Zotac GeForce GTX 1080 AMP! Extreme)
A lower load temperature means that the card produces less heat and its cooling system performs better.
6.supports ray tracing
✔Zotac GeForce GTX 1080 AMP! Edition
✔Zotac GeForce GTX 1080 AMP! Extreme
Ray tracing is an advanced light rendering technique that provides more realistic lighting, shadows, and reflections in games.
7.Supports 3D
✔Zotac GeForce GTX 1080 AMP! Edition
✔Zotac GeForce GTX 1080 AMP! Extreme
Allows you to view in 3D (if you have a 3D display and glasses).
8.supports DLSS
✖Zotac GeForce GTX 1080 AMP! Edition
✖Zotac GeForce GTX 1080 AMP! Extreme
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
Unknown. Help us by suggesting a value. (Zotac GeForce GTX 1080 AMP! Edition)
Unknown. Help us by suggesting a value. (Zotac GeForce GTX 1080 AMP! Extreme)
This benchmark measures the graphics performance of a video card. Source: PassMark.
Ports
1.
has an HDMI output
✔Zotac GeForce GTX 1080 AMP! Edition
✔Zotac GeForce GTX 1080 AMP! Extreme
Devices with a HDMI or mini HDMI port can transfer high definition video and audio to a display.
2.HDMI ports
Unknown. Help us by suggesting a value. (Zotac GeForce GTX 1080 AMP! Edition)
Unknown. Help us by suggesting a value. (Zotac GeForce GTX 1080 AMP! Extreme)
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. (Zotac GeForce GTX 1080 AMP! Edition)
Unknown. Help us by suggesting a value. (Zotac GeForce GTX 1080 AMP! Extreme)
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?
Mining on GTX 1080 Ti and 1080. Tablet, hashrate, overclocking, profitability, consumption. How many mines?
What can the GTX 1080 Ti and GTX 1080 do in mining?
In this large review of the 1080 Ti video card in mining, we will determine the optimal overclocking settings for 1080 ti for mining, find out what consumption this card has, look at the effect of the tablet for mining ETC, ETHW, which raises the efficiency of 1080 Ti in mining by 40% .
Let’s find out how much money you can earn on this card and compare 1080 Ti vs 1080 in cryptocurrency mining. The current exchange rate of the ether, as well as online cryptocurrency rates, see the website.
75 MB 10 Gbps effective
11 Gbps effective
3 GB/s Complex characteristics 1080 VS 1080 TI
GTX 1080 TI TII HEART. Mining on 1080 Ti
Consider 1080 hashrate and consumption. This table should serve as a kind of benchmark for you, i.e. your values should be plus or minus those, with a slight discrepancy of up to 3-5%. Below we will analyze how to achieve such or better results with the help of a tablet, settings, overclocking and power restrictions. Compare gtx 1080 ti vs 1080.
How much does GTX 1080 Ti mine?
1080 TI hashrate in mining
1080 hashrate and consumption. Mining on 1080
How much does GTX 1080 mine?
| 110.00W | ||||
| CNGPU | 1800.00 h/s | 160.00W | ||
| CryptoNightR | 520.00 h/s | 120.00W | ||
| CNFast | 1180.00 h/s | 110.00 W | ||
| Aion | 2400029 6.50 h/s | 160.00W | ||
| Cuckatoo31 | 0.95 h/s | 150.00W | ||
| Cuckatoo32 | 0. 29 h/s |
150.00W | ||
| Beam | 20.00 H/S | 150.00W | ||
| Randomx | 7000029 Autolycos | 59.50 Mh/s | 160.00W | |
| Octopus | 10.50 Mh/s | 170.00W | ||
| EquihashZero | 38.30 h/s | 150.00W | ||
| ZelHash | 41.50 H/S | 160.00W | ||
| KAWPOW | 16.90 MH/S | 160.00W | Ravencoin mining | PROGPOT0032 | 160. 00W |
| X25X | 5.25 Mh/s | 150.00W | ||
| MTP | 2.80 Mh/s | 150.00W | ||
| Verthash | 0.52 Mh/s | 150.00W |
1080 hashrate in mining
On average, 1080 Ti is 15-25% more efficient.
For mining on GTX 1080, GTX 1080 TI, we recommend Binance pool. Registration link (lifetime 5% cashback on commissions). As well as the operating system HiveOS. Hive OS registration link (with the InsidePC promo code you get $10 to your account).
For the stable operation of video cards in the rig, make the correct settings for the motherboard for mining.
GTX 1080 Ti and 1080 Overclocking and Tuning
This table shows the optimal overclocking settings for each card.
This value may differ depending on the vendor, power supply, drivers, memory chip manufacturer and the graphics chip itself.
Overclocking table 1080 ti for all coins
- Core frequency — +150 Mhz
- Video memory frequency — +500 Mhz
- TDP (Power Limit or power limit) — 75%
Overclocking table 1080 for all coins
- Core frequency — +150 Mhz
- Video memory frequency — +500 Mhz
- TDP or power limit) — Power Limit 75%
What have we achieved with the gtx 10 80?
Let’s see how this card works on NiceHash.
How much 1080. 1080 TI mines in ether mining (ETH) on NiceHash
GTX 1080 Ti without overclocking and pills in ether mining on the DaggerHashimoto algorithmPhoenixMiner_5.4c log on 1080 TI without pills and overclocking
By default settings without tablets and overclocking, 1080 Ti gives out 32 MH / s on the DaggerHashimoto algorithm, on the NiceHash exchange. How to overclock 1080 Ti for mining ETH, ETHW and what is a tablet, we will discuss further.
Agree, the result of 32 MH/s as RX 580 8Gb in mining or 1660 Super mining is not impressive. Especially considering that 1080 Ti consumes 2.5 times more voltage than the mentioned cards.
See the ETHW rate on the website.
At the beginning of 2021, in the midst of the second wave of the cryptocurrency boom, 1080 Ti and 1080 can be turned into a real monster of ether mining (ETC), ether fork (ETHW).
Looking ahead, you can squeeze out about 47-50 MH / s from 1080 Ti when mining ETC, ETHW. And this is already a result close to the RX 5700 XT in mining, about how this hit from the reds behaves in mining, read the material RX 5700 XT mining, where we will discuss overclocking and card optimization.
If you are new to mining, read about what is a mining farm, and what is mining on a home PC.
Pill for Ethereum
OhGodAnETHlargementPill -r2 raises 1080 TI hashrate to 45.5 MH/s or +41%
On GitHub(e) you can download a program for Windows, OhGodAnETHlargementPill, the so-called «pill» or «driver», with which you can increase the hashrate of 1080 TI to 45 MH / s.
On the Internet they write about raising up to 50 MH / s, in my experience, and I tested on 13 1080 Ti cards from different vendors, I did not get more than 47, only with overclocking the card. This “tablet” is also available on Linux systems such as Rave OS and Hive OS, and it is already built into these mining operating systems.
How to enable tablet for GTX 1080 and 1080 Ti in Windows
Launching a tablet with a file — ETHlargementPill-r2.exe
To enable the tablet, you need to download the program archive from github. Run the ETHlargementPill-r2.exe file and wait 10-20 seconds, the card hashrate should rise. Launching a pill for ether on 1080 and 1080 TI cards
This window should be launched. 1080ti hashrate after the pill in NiceHash
In my case, I saw an increase to 52 MH/s on NiceHash, but this is the maximum and short-term result, the real figure is about 45-49MH/s, this figure will be slightly higher on Binance Pool if you choose a pool for mining ether, I highly recommend Binance Pool, what it is and how to connect to it, read the link.
The profitability of mining on video cards can be viewed in the summary table.
How to turn on the tablet for GTX 1080 and 1080 Ti in Rave OS
To connect the ETHlargementPill-r2 tablet on 1080 Ti in Rave OS, you need to do the following manipulations:
First, you must be registered in Rave OS. To register in Rave OS, follow the link. Registration is simple.
1. Go to the Workers tab (this procedure will need to be done for all workers that will have at least one 1080 or 1080 Ti). Workers tab in RaveOS
2. Go to the worker settings (Edit worker).
Turn on NV-pill. Enable/disable the Ohgodanethlargementpill for nvidia 1080 series cards
4. Check the box next to NV-pill. Enable/disable the Ohgodanethlargementpill for nvidia 1080 series cards, and click the «Save & Apply» button.
That’s all, the tablet will apply itself and the hashrate of the card will increase to 45.5 MH / s from the original 31 MH / s. Unless, of course, you overclocked anything or cut the voltage limit of the card.
How to enable the tablet for GTX 1080 and 1080 Ti in Hive OS
Register in Hive OS using the link with the promo code «InsidePC» and get $10 on your balance. In the Hive OS operating system, the tablet is turned on as follows:
1. In the Farms tab, select the desired farm, where there are 1080ti.Farms in Hive OS
2. Select the rig in which there are 1080 Ti.Rigs in Hive OS
3. Select the desired card and click on the speedometer icon. You can select this icon next to a specific map, or select the speedometer icon with the inscription ALL. Here you can set the settings for overclocking all Nvidia or AMD cards. If you have a 1080 rig, you can apply the pill to all cards at once. Overclocking settings for one card or all cards at once
4. Enable OhGodETHLargementPill (only for GTX 1080 series) in the window that appears. In Hive OS, the hashrate also rises to 46 MH / s.
Life hack! Adding +3 MH/s to 1080 TI in Windows using Nvidia Profile Inspector (does not always work for everyone)
This life hack does not always work, but you can try.
This only applies to Windows. Download Nvidia Profile Inspector. Unzip the archive and run nvidiaProfileInspector.exe. Turn on CUDA — Force P2 State.
In the Common section, you need to find the value CUDA — Force P2 State and switch to the On position. Wait a little time, and the hashrate will have to rise by about 3 MH / s.
Overclocking 1080 TI for mining
How to overclock 1080 TI for mining to get the maximum hash rate? Overclocking 1080 ti should be done only after using the tablet, since as many hashes as the tablet gives, more than one overclock will not give. Overclocking for mining is different from overclocking a game card. We need to find the optimal settings for mining the desired coin and power consumption. I will show you the optimal 1080 TI overclock settings for ETC, ETHW mining.
If you haven’t chosen an exchange for trading and investing yet, the best cryptocurrency exchanges will help you do it.
It doesn’t matter where you overclock the card, on Windows via MSI Afterburner, on Hive OS or Rave OS.
The chip and memory frequencies are the same. For ether, memory overclocking is more important than GPU overclocking.
Overclocking 1080 TI for mining in Windows
Overclocking GTX 1080 TI in Windows for mining ether
- Set Power Limit to 85-100% (less power consumption, less hashrate).
- Core Clock (MHz) add +80.
- Memory Clock (MHz) add +400.
That’s all. The hashrate should go up another 3-5 MH/s after taking the pill. But power consumption and heating will increase. Learn it!
Overclock 1080 TI for mining ETC and ETHW in Hive OS
Overclock 1080 Ti for mining ETC, ETHW in Hive OS , because only 1 rig is free in the system, from the second rig you need to pay $ 3 per month for each rig.
1. In the Farms tab, select the desired farm where 1080ti.Hive OS is — Farms
2. Select the rig in which there are 1080 Ti.Workers in Hive OS
3. Select the desired map and click on the icon speedometer. You can select this icon next to a specific map, or select the speedometer icon with the inscription ALL.
Here you can set overclocking settings for all Nvidia or AMD cards. If you have multiple 1080 or 1080 Ti, you can apply overclocking to all cards at once. Setting up a 1080TI card in Hive OS
4. Next, you need to set 80 or 90 in the + Core Clock Mhz field. Set 800 or 900 in the Memory Clock, Mhz field. It is better to use 80 and 800. 1080 Ti overclocking parameters in Hive OS
GTX 1080 Ti memory overclocking process for mining on Rave OS and Hive OS is very different from overclocking 1080 Ti on Windows. Here we do not set the actual value of the memory and GPU frequencies, but enter the value of the addition to the base frequency. Those. in the Memory Clock, Mhz field, we indicate how much to increase the memory frequency multiplied by 2 from the values in windows. Those. by specifying 800 Mhz, we thereby increase the memory frequency by 400 Mhz. Pointing 900 Mhz, we increase the frequency by 450 Mhz.
You can also specify Power Limit, W. It is indicated in watts.
But if you start limiting the card, the hashrate of the card will start to drop, but consumption and heating will decrease. How much the card consumes watts minimum and maximum, you can see in the rig window (Overview). The maximum and minimum consumption of the card in Hive OS
1070 ti mining under optimal modes.
Overclock 1080 TI for mining in Rave OS
Overclock 1080 Ti for mining ETC, ETHW in Rave OS. First of all, sign up for Rave OS.
1. Go to the Workers tab. Workers tab in RaveOS
2. Go to the worker settings (Edit worker).
3. Go to the Tunning tab. And set the values for overclocking. In the Core Clock offset, Mhz field, set the value to 80, i.e. add 80 Mhz according to the processor frequency, and in the Memory Clock offset, Mhz field, set the value to 800 Mhz, it works the same as in Hive OS, divide the frequency by 2. That is, a value of 800 increases the memory frequency by 400 Mhz.
4. Press the «Save & Apply» button.
That’s all, nothing complicated, 4 simple steps.
RTX 2060 mining ether and other coins.
1080 Ti mining consumption
The GTX 1080 Ti has a mining power consumption of up to 250 watts. If you want to squeeze out 45 to 50 MH/s, then don’t count on consuming less than 220 watts in mining. If you could optimize this map better, write about it in the comments.
Before tableting and overclocking, 1080 Ti consumes about 178-190W and gives out 32 MH/s. Definitely not an option for the owners of these cards, given that the RX 580 8Gb gives the same hashes, only with a consumption of 85W. Consumption of 1080 TI watts in mining.
As you can see, by default, 1080 Ti consumes about 190W and at the same time produces about 33 MH / s. When you turn on the tablet and overclock, the 1080 Ti’s watt consumption increases to 220-250W.
A farm of seven 1080 Tis consumes 1636 W, with each card consuming between 220 and 250 watts.
Optimal settings for 1080 TI in mining
How to set up 1080 Ti for mining Ethereum (ETC, ETHW): .
How to do this is described above. These are the optimal 1080 Ti settings for Ethereum mining.
Calculation of mining efficiency on 1080 and 1080 Ti
Energy efficiency in mining ETC, ETHW
- GTX 1080 energy efficiency — 0.20 MH/W.
- GTX 1080 Ti Energy Efficiency — 0.21 MH/W.
How to calculate energy efficiency? Divide performance in MH/s by consumption W.
Watt consumption per 1 megahash in mining ETC, ETHW
- GTX 1080 — 5W.
- GTX 1080 Ti — 4.61W.
The consumption for 1 Mh/s is considered to be the watt consumed divided by the number of megahash.
Cost per 1 megahash in cash
You can calculate this indicator for yourself, for this, divide the cost of the card by the number of mega hashes.
Best 1080 ti for mining
Having tested many options, I can say that the best model for mining ether is the triple fan MSI GTX 1080ti Gaming X TRIO.
This card has one of the best cooling on the market for these cards. Asus Trixx and Gigabyte Aorus GTX 1080 Ti Extreme will be worse in terms of cooling.
Detailed specifications of many 1080 ti models can be found below in the description.
Worst option 1080 Ti for mining
Asus 1080 Ti Turbo in any case do not take ether for mining. For this card, the tablet actually does not work, when you try to turn on the tablet or overclock, the card cuts the Power Limit and gives out 31-32 Mh / s. If you just turn on the tablet, you will get the same 31 Mh/s.
There is a way to get 38-40 Mh/s on this card. To do this, you need to reduce the memory frequency by -500Mhz in Windows or -1000Mhz in Rave OS, Hive OS. In this case, the card will stop cutting the power limit and will issue 40 Mh / s with the included tablet.
The consumption of this card will be around 180-190W. There is an opinion that it is possible to change the BIOS from another turbo from another vendor, where the tablet works well, but I have not tried it and have not found information that worked out.
1080 Ti mining profitability
Current mining 1080 Ti profitability can be viewed on the Whattomine service.
1080 & 1080 Ti Mining FAQ
Most Profitable & Reliable GTX 1080 & 1080 Ti Mining Pool
At the moment, the Binance Pool for mining ETC, ETHW is one of the most profitable and efficient pools (when you register using my link, you get a 10% discount on all commissions within the system).
The second option is the NiceHash pool. This is not quite a pool, you rent your capacities, it will do if you don’t want to set up and delve into it at all.
Where can I download a tablet for mining ether on 1080 and 1080 TI?
The tablet can be downloaded from GitHub(e) at OhGodAnETHlargementPill.
Gigabyte Aorus 1080 TI in mining (GV-N108TAORUS-11GD)?
Gigabyte Aorus 1080 TI
Gigabyte delivers 49.90 MH/s with tablet and overclocking. At the same time, it consumes 246W. The minimum card consumption is 125W, the maximum is 375W.
At the same time, it maintains 60 degrees at a cooler speed of 71%, the temperature in the room is 22 degrees.
Gigabyte Aorus 1080 TI mining
Gigabyte Aorus 1080 TI XTREME Edition mining (GV-N108TAORUS-X-11GD)?
Gigabyte Aorus 1080 TI
Gigabyte issues 49.75 MH/s with tablet and overclocking. At the same time, it consumes 249W. The minimum card consumption is 125W, the maximum is 375W. At the same time, it keeps 60 degrees at the cooler speed of 80-98%, the temperature in the room is 22 degrees.
Gigabyte Aorus 1080 TI XTREME Edition mining
Gigabyte GTX 1080 TI Gaming OC mining (GV-N108TGAMING-OC-11G)?
Gigabyte GTX 1080 TI Gaming OC
Gigabyte delivers 45.35 MH/s with tablet and overclocking. At the same time, it consumes 229W. Minimum card consumption 125W, maximum 350W. At the same time, it keeps 60 degrees at the cooler speed of 75-85%, the temperature in the room is 22 degrees.
Gigabyte GTX 1080 TI Gaming OC
MSI 1080 TI Gaming X TRIO in mining? (One of the best 1080TI cards for Ethereum mining).
MSI 1080 TI Gaming X TRIOMSI 1080 TI Gaming X TRIO mining
MSI produces 48.86 MH/s with tablet and overclock. At the same time, it consumes 226W. The minimum card consumption is 140W, the maximum is 330W. At the same time, it keeps 60 degrees at a cooler speed of 52%, the temperature in the room is 22 degrees.
MSI GTX 1080 TI Gaming X mining?
MSI GTX 1080 TI Gaming X9The 0002 MSI puts out 48.49 MH/s with tablet and overclock. At the same time, it consumes 231W. The minimum card consumption is 140W, the maximum is 330W. At the same time, it keeps 60 degrees at a cooler speed of 74%, the temperature in the room is 22 degrees.
MSI GTX 1080 TI Gaming X mining
Asus Strix 1080 TI mining?
Asus Strix 1080 TI mining
Asus produces 47.71 MH/s with tablet and overclock. At the same time, it consumes 227W. The card keeps 60 degrees at 75% cooler speed, the temperature in the room is 22 degrees.
Asus Turbo GTX 1080 Ti (TURBO-GTX1080TI-11G) mining? (Worst 1080 Ti for Ethereum mining).
Asus turbo GTX 1080 TI
Asus produces 41.10 — 43.10 MH/s with tablet and overclocking. At the same time, it consumes 177W. The card keeps 60 degrees at 91% cooler speed, the temperature in the room is 22 degrees. At 43Mh/s the card spins at 100% and the temperature reaches 70 degrees.
Asus turbo GTX 1080 TI in ether mining
EVGA GTX 1080 Ti ELITE in mining?
EVGA GTX 1080 Ti ELITE
Asus delivers 47.58 MH/s with tablet and overclock. At the same time, it consumes 252W. The card keeps 60 degrees at 84% cooler speed, the temperature in the room is 22 degrees. Minimum consumption 125W, maximum 300W.
EVGA GTX 1080 Ti ELITE mining
Good luck!
So, how to mine on a home PC?
NVIDIA GTX 1080 Ti video card in mining
To read 5 min Published by
NVIDIA GTX 1080 Ti graphics card is great for mining.
Next, we will select the optimal overclocking parameters for mining on NVIDIA GTX 1080 Ti. Let’s find out which drivers to use most correctly and efficiently. Let’s look at the main characteristics and measure the hash rate for popular algorithms.
Specifications
The NVIDIA GTX 1080 Ti was released on September 17, 2020. The average power consumption is 250W. Maximum allowable graphics chip temperature — 93 ° C
Yield NVIDIA GTX 1080 Ti
The current market price and yield of the NVIDIA GTX 1080 Ti video card in mining fluctuates depending on the value of the cryptocurrency. The information in the plate is updated once a day.
View the complete video card profitability table sorted by price, revenue and payback.
| Price | ETH | ETC | EXP | UBQ | RVN | BEAM | Profit | Payback |
|---|---|---|---|---|---|---|---|---|
NVIDIA GTX 1080 Ti Hashrate
We have compiled the NVIDIA GTX 1080 Ti hashrate table for popular algorithms.
If you are just choosing a video card for mining, and you already know which coin you will be mining, then you can estimate the approximate performance from the table. And we also have an article about what a hashrate is.
| Coin | Algorithm | Hashrate |
|---|---|---|
| Ethereum (ETH) | DaggerHashimoto ETH |
43.5 MH/S |
| Ethereum Classic (ETC) | Etchash | 53.5 MH/S |
| Expanse (EXP) | DaggerHashimoto EXP | 53.5 MH/S |
| Ubiq (UBQ) | Ubqhash | 53.5 MH/S |
| Monero (XMR) | RandomX | 750.0 H/S |
| Ravencoin (RVN) | KawPow | 25.2 MH/S |
| Beam (BEAM) | BeamHashIII | 25.5 H/S |
NVIDIA GTX 1080 Ti Driver
When installing NVIDIA GTX 1080 Ti drivers, it is always recommended to uninstall the current drivers first.
This way you can be sure that DCH drivers will not be installed by Windows 10.
You can download drivers NVIDIA GTX 1080 Ti here. We recommend trying different driver versions. Some driver versions can cause problems during mining. Installing an older version may fix the issue.
Overclock NVIDIA GTX 1080 Ti for Mining
Overclock NVIDIA GTX 1080 Ti for mining using MSI Afterburner. You can find it in Yandex. The interface of the program is very simple, albeit a bit colorful) To overclock the video card, we need two sliders:
- Core Clock — overclocking the core, increases the frequency of the core;
- Memory Clock — memory overclocking, increases the frequency of the memory.
- Power Limit — allows you to increase or decrease the power consumption of the video card.
MSI Afterburner — overclocking video cards
You need to change the frequency values a little. Then test the stability of the work.
If everything is fine, then increase the frequency even more. If the video card starts to crash or the driver crashes, then we simply reduce the frequency and that’s it. There will be no harm. Next, we will consider overclocking options for popular algorithms.
Overclocking NVIDIA GTX 1080 Ti for Ethereum
it does not affect mining speed.
Overclocking examples of various models from miners
| Parts | Hashrate | Program |
Core Memory Power |
|---|---|---|---|
| Inno3D GTX1080ti iChill x3 • Not A FreemaN • |
24.0 MH/s ⚡️ 29.0 MH/s (+5.0) KawPow RVN |
MSI Afterburner |
951 100% |
| Asus Strix 1080Ti • DJ_ANDY_PL • |
32.04 MH/s ⚡️ 35.3 MH/s (+3.3) DaggerHashimoto ETH |
ASUS GPU TWEAK III |
50 600 90% |
| PNY 1080 Ti • IVAN • |
32. DaggerHashimoto ETH |
MSI Afterburner |
140 100% |
| Zotac Geforce GTX 1080 Ti Amp! Edition • RacoonMining • |
22.27 MH/s ⚡️ 26.84 MH/s (+4.6) KawPow RVN |
MSI Afterburner |
80 750 85% |
| GIGABYTE GTX 1080 TI • Unknown Miner • |
16.3 MH/s ⚡️ 25.8 MH/s (+9.5) KawPow RVN |
MSI Afterburner |
55 750 80% |
| Asus 1080 ti turbo • GPG1982 • |
31.12 MH/s ⚡️ 42.58 MH/s (+11.5) DaggerHashimoto ETH |
MSI Afterburner |
130 -502 100% |
| GIGAGYTE AORUS GTX 1080 ti • Sergey • |
40. DaggerHashimoto ETH |
MSI Afterburner |
88 300 85% |
| Inno3D GTX 1080 Ti iChill(x3) • Not A Freeman • |
32.0 MH/s ⚡️ 43.5 MH/s (+11.5) DaggerHashimoto ETH |
MSI Afterburner |
+190 82% |
| Palit SuperJetStream GTX 1080 Ti 11 Gb • Tirtanto Setiawan • |
30.0 MH/s ⚡️ 46.48 MH/s (+16.5) DaggerHashimoto ETH |
MSI Afterburner |
+95 +200 95% |
| Inno3D iChill x3 GTX 1080 Ti • Not A FreemaN • |
32.0 MH/s ⚡️ 44.2 MH/s (+12.2) DaggerHashimoto ETH |
MSI Afterburner |
220 81% |
| Zotac GeForce GTX 1080 Ti Blower • Sergey • |
42. DaggerHashimoto ETH |
MSI Afterburner |
197 569 85% |
| Zotac 1080ti 11GB Extreme AMP Edition • Darknight • |
38.0 MH/s ⚡️ 50.2 MH/s (+12.2) DaggerHashimoto ETH |
Miner Settings |
50 500 65% |
| inno3D GTX1080ti iChill (x3) • Not A FreemaN • |
22.0 MH/s ⚡️ 29.0 MH/s (+7.0) KawPow RVN |
MSI Afterburner |
+152 +1000 95% |
| MSI GTX 1080ti GX • Vladislav • |
32.0 MH/s ⚡️ 46.2 MH/s (+14.2) DaggerHashimoto ETH |
MSI Afterburner |
100 80 95% |
| Inno3D iChill 1080ti* • Not A FreemaN • |
22. KawPow RVN |
MSI Afterburner |
137 995 92% |
| Msi 1080 ti gaming x • GPG1982 • |
35.0 MH/s ⚡️ 47.26 MH/s (+12.3) DaggerHashimoto ETH |
MSI Afterburner |
125 500 93% |
| msi 1080 ti • Paul • |
33.0 MH/s ⚡️ 47.1 MH/s (+14.1) DaggerHashimoto ETH |
MSI Afterburner |
130 200 90% |
| Zotac GTX 1080Ti Mini • Natasha • |
32.0 MH/s ⚡️ 42.1 MH/s (+10.1) DaggerHashimoto ETH |
MSI Afterburner |
190 -450 75% |
| Palit SuperJetSteam 1080 Ti 11GB • yebhone • |
30. DaggerHashimoto ETH |
MSI Afterburner |
750 150% |
| inno3D GTX1080ti iChillx3 • Not A FreemaN • |
32.0 MH/s ⚡️ 44.0 MH/s (+12.0) DaggerHashimoto ETH |
MSI Afterburner |
+182 82% |
0 MH/s ⚡️ 44.45 MH/s (+12.5) 
0 MH/s ⚡️ 44.0 MH/s (+4.0) 
2 MH/s ⚡️ 44.9 MH/s (+2.7) 
0 MH/s ⚡️ 27.5 MH/s (+5.5) 
0 MH/s ⚡️ 45.0 MH/s (+15.0)
Zotac GeForce GTX 1080 Ti AMP! Extreme Core Edition
59points
Zotac GeForce GTX 1080 Ti AMP! Extreme Core Edition
Zotac GeForce GTX 1080 Ti AMP! Extreme Core Edition
Why Zotac GeForce GTX 1080 Ti AMP! Is the Extreme Core Edition better than the others?
- GPU clock speed?
1607MHz vs 1296.
41MHz - Flop?
12.34 TFLOPS vs 9.89 TFLOPS - Pixel speed?
151.4 GPixel/s vs 89.49 GPixel/s - Effective memory speed?
11216MHz vs 10370.7MHz - VRAM?
11GB vs 6.27GB - Texture size?
385.5 GTexels/s vs 230.25 GTexels/s - Maximum memory bandwidth?
493.5GB/s vs 348.46GB/s - Memory bus width?
352bit vs 252.29bit
Which comparisons are the most popular?
Zotac GeForce GTX 1080 Ti AMP! Extreme Core Edition
vs
Zotac GeForce RTX 2080 Ti X-Gaming OC
Zotac GeForce GTX 1080 Ti AMP! Extreme Core Edition
vs
Zotac GeForce GTX 1660 Ti AMP
Zotac GeForce GTX 1080 Ti AMP! Extreme Core Edition
vs
Zotac GeForce GTX 970 AMP! Extreme Core
Zotac GeForce GTX 1080 Ti AMP! Extreme Core Edition
vs
Zotac GeForce GTX 1080 Ti Mini
Zotac GeForce GTX 1080 Ti AMP! Extreme Core Edition
vs
Zotac GeForce RTX 2060 Twin Fan Gaming
Zotac GeForce GTX 1080 Ti AMP! Extreme Core Edition
VS
Zotac GeForce RTX 3080 TI Trinity OC
Comers of prices
Users Reviews
Products
1.
Treatment frequency of GP
1607MHz
graphic processor (GPU).
2.turbo GPU
1721MHz
When the GPU is running below its limits, it can jump to a higher clock speed to increase performance.
3.pixel rate
151.4 GPixel/s
The number of pixels that can be displayed on the screen every second.
4.flops
12.34 TFLOPS
FLOPS is a measurement of GPU processing power.
5.texture size
385.5 GTexels/s
Number of textured pixels that can be displayed on the screen every second.
6.GPU memory speed
1402MHz
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
11216MHz
The effective memory clock frequency is calculated from the size and data transfer rate of the memory. A higher clock speed can give better performance in games and other applications.
2.max memory bandwidth
493.5GB/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
352bit
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
✖Zotac GeForce GTX 1080 Ti AMP! Extreme Core Edition
Memory error recovery code can detect and repair 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
✔Zotac GeForce GTX 1080 Ti AMP! Extreme Core Edition
The video card has the ability to connect multiple screens. 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
Lower boot temperature means the card generates less heat and the cooling system works better.
6.supports ray tracing
✔Zotac GeForce GTX 1080 Ti AMP! Extreme Core Edition
Ray tracing is an advanced light rendering technique that provides more realistic lighting, shadows and reflections in games.
7.Supports 3D
✔Zotac GeForce GTX 1080 Ti AMP! Extreme Core Edition
Allows you to view in 3D (if you have a 3D screen and glasses).
8.supports DLSS
✖Zotac GeForce GTX 1080 Ti AMP! Extreme Core Edition
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
✔Zotac GeForce GTX 1080 Ti AMP! Extreme Core Edition
Devices with HDMI or mini HDMI ports can stream HD video and audio to an attached display.
2.