As we head into the 2020s, the lifetime of Nvidia’s flagship graphics card is coming to a close. The Geforce RTX 2080 and GTX 2050 will be released next year–which means that in just 2 years time (2020), PC gamers will need to upgrade their GPUs.
The “1650 super” is a graphics card released by Nvidia. The RTX 2070 Super is a more powerful version of this card. It has 4,352 CUDA cores and 8GB GDDR6 memory.
Geforce GTX 1650 compared. Nvidia Geforce RTX 2070 Super
When it comes to Graphics Cards, customers are faced with a difficult decision.
Do you want a higher level of performance or a better price-to-performance ratio?
In this comparison, the Nvidia Geforce RTX 2070 Super is pitted against the Geforce GTX 1650 with GDDR6 VRAM.
We put those graphics cards to the test so you can figure out which one is best for you.
Nvidia Geforce RTX 2070 Super versus Geforce GTX 1650 results
The Nvidia Geforce RTX 2070 Super is ranked first.
- For 1440p, this is a fantastic performance.
- Operation that is semi-passive
- Temperature scores that are good
- A reasonable price-to-performance ratio
- Compared to similar models, it’s a little louder.
Exceptional performance
The NVIDIA GeForce RTX 2070 Super is unquestionably one of the most compelling high-end graphics cards on the market in terms of price/performance, and is particularly appealing to those who want to take advantage of NVIDIA’s new ray tracing effects while also requiring high resolution and maximum detail performance.
The EVGA GeForce RTX 2070 Super KO EVGA GeForce RTX 2070 Super KO EVGA GeForce EVGA GeForce RTX 2070 Super KO EVGA GeForce Gaming caters to the lowest price point of the series without requiring many concessions – the 549 Dollar model’s performance with its own cooling system can be viewed on the following pages of this Hardwareluxx article.
You should pick a medium model number among the NVIDIA RTX models if you wish to play away from Full-HD resolution and employ ray tracing effects with high quality and performance, since the little GeForce RTX 2060 (Super) soon meets its limitations in many games and situations.
The NVIDIA GeForce RTX 2070 Super is unquestionably the most exciting model in this regard, although it is still a long way from the flagship models’ exorbitant costs, which may exceed $1500.
Their starting price is approximately 520 dollars, which should be an appealing price range for many aspiring gamers.
However, with more complicated cooling systems, faster clock speeds, or an improved power supply, their price soon climbs to the 700-dollar range.
Apart from the pricey top models, the KO family from EVGA is meant to serve the lowest price point of each series while still providing more than the norm.
Although the cards normally conform to the Californian graphics forge’s criteria and so do not increase the heat any more, they may nonetheless come up with a strong cooling solution, at least on paper.
One such model is the EVGA GeForce RTX 2070 Super KO Gaming.
It comes with its own dual-slot cooler with thick copper heatpipes, several aluminum fins, and two massive radial fans, but no RGB lighting or other embellishments.
The TU104-410 GPU with regular clock rates and a power supply through a 6- and 8-pin PCI Express connection is found under the hood.
This is just approximately $30 more than the cheapest RTX-2070 super offshoot presently available.
This Techtestreport article explains how the EVGA GeForce RTX 2070 Super KO Gaming performs in daily gaming and what the cooling system works.
Impressions on the EVGA GeForce RTX 2070 Super KO Gaming
On paper, the EVGA GeForce RTX 2070 Super KO Gaming looks a lot like NVIDIA’s Founders Edition.
Both are based on the TU104 GPU from 12 nm manufacture, which has 13.6 billion transistors and can access an 8 GB GDDR6 video memory linked through a 256 bit wide interface with a bandwidth of up to 448 GB/s owing to clock speeds of 1,750 MHz.
A basic and boost clock of 1,605, or at least 1,770 MHz, is used by the 2,560 shader units.
The EVGA model, on the other hand, may attain greater clock rates than the NVIDIA template, or keep them for longer, thanks to the strong cooling.
Both models also include 64 raster output stages and 160 texture units, as well as 320 tensor cores and 40 ray tracing cores for ray tracing acceleration.
The TDP is set at 215 watts.
In terms of appearance, the EVGA GeForce RTX 2070 Super KO Gaming differs significantly from the Founders Edition.
EVGA uses an axial cooler with two massive 90 mm fans, thick copper heatpipes, and many aluminum fins instead of a radial cooler, which still takes up two slots in height.
The two fans remain in idle mode until a core temperature of roughly 59 °C is attained, quietly and absolutely silently cooling the 3D accelerator.
The cooling system is flat with the real PCB and does not extend any farther on the EVGA model, which has a total length of 263 mm.
In our testing, our original prediction that the card would produce greater clock rates than claimed was validated.
The EVGA GeForce RTX 2070 Super KO Gaming is exceptionally clock stable, reaching 1,935 MHz on a regular basis, which is much higher than the promised boost speed of 1,770 MHz.
Depending on the game, the temperature ranges from 70 to 72 degrees Celsius.
In terms of design, EVGA sticks to a very minimal color palette.
The PCB as well as the cooler cover are both totally black. Only a few letters are emphasized in color, such as the EVGA logo, the super classification, or the model number.
The board gives off a sporty, quick vibe thanks to its various indentations and curves.
The EVGA GeForce RTX 2070 Super KO Gaming’s total length is 263 mm, which was not unnaturally expanded to accommodate the cooling system. Nonetheless, there are two massive 90 mm fans available, which go into idle mode until a particular temperature is achieved.
A massive copper block is put directly on the Turing GPU, and waste heat is transmitted to the many aluminum fins through six heat pipes, before being delivered to the case interior by two axial fans.
In contrast to its more costly offshoots, EVGA’s budget-friendly KO Gaming lacks an RGB lighting system.
The NV-Link connection, which theoretically enables two of these graphics cards to be joined together in a SLI composite system, has been omitted by the American company.
Seven phases of power are used to power the graphics processor.
Only the manufacturer’s logo and the precise model name are visible on the front of the 3D accelerator.
It’s also wonderful to observe that the model just needs two slots in height and can therefore be employed without difficulty even in smaller housings.
The EVGA GeForce RTX 2070 Super KO Gaming is fueled by an extra 6- and 8-pin PCI Express power connection, which can pull up to 300 W from the power source when combined with the 75 W given via the PCIe 3.0 interface.
The TGP of the super graphics card, on the other hand, is just 215 W.
The dual-slot bezel provides the standard interfaces of DisplayPort 1.4 and HDMI 2.0 on the bottom part of the I/O bezel, while the top section with several ventilation holes is designed to enable improved graphics card ventilation.
System for testing
The software, in the form of games and benchmarks, has been updated, and the hardware has been updated as well.
To be able to test as realistically as possible, the test system is housed in a closed enclosure.
Furthermore, although Windows 10 is installed on the PCI Express SSD, we had to migrate the games to a hard drive.
This, however, does not put an end to the testing.
Volume, temperature, and power usage are all factors to consider.
The two fans of the EVGA GeForce RTX 2070 Super KO Gaming, like other recent graphics cards, turn off in idle mode, leaving the 3D accelerator passive and hence absolutely quiet until the chip temperature hits about 59 °C.
The rotors, on the other hand, actively turn on while the motor is running, resulting in a noise level of 38.7 decibels (A).
This is quieter than the Founders Edition of the speedier sister models, but it’s also louder than many a competitor’s or our own solution.
Due to the significantly high clock speeds under load, the EVGA card allows 343.9 W when used in conjunction with the other components of our test setup.
The card’s effectiveness suffers a little decrease here as well.
The same is true when it comes to real-world power consumption measures, where the variances between specific GeForce RTX-2070 super models are quite minimal, and all comparative models are around 215 W. EVGA takes full use of the TDP.
The temps are not an issue.
Under load, the EVGA GeForce RTX 2070 Super KO Gaming heats up to 71 degrees Celsius, indicating that the manufacturer has struck a reasonable balance between volume and cooling performance.
Other graphics cards, particularly recent AMD versions like the Radeon RX 5600 XT and Radeon RX 5700 XT, are much hotter in this test.
Conclusion: The RTX 2070 Super outperforms the GTX 1650 in terms of performance.
The KO gaming series from EVGA is the company’s newest product line, and it will now represent the lowest pricing point of any series.
The cost savings resulting from the removal of an RGB lighting system, a backplate, or even factory overclocking, as well as an enhanced power and voltage supply, should be passed on to the client directly.
In reality, at roughly 550 dollars, the EVGA GeForce RTX 2070 Super KO Gaming is just around $30 more costly than the lowest model in the comparison, but it is still far below the pricey in-house solutions of other manufacturers, which may cost up to 700 dollars.
However, you are not required to make any meaningful compromises.
EVGA continues to use a bespoke cooler, which has six thick copper heatpipes, two massive 90 mm fans, and, of course, countless aluminum fins.
It cools the graphics card semi-passively and hence entirely quietly in idle mode, and it stays delightfully quiet even under load, with the more costly versions scoring somewhat higher.
Despite the fact that the card perfectly follows NVIDIA standards in terms of clock rates, it reaches substantially higher frequencies in reality because to the powerful cooler, which maintains the GPU at a comfortable 71 degrees Celsius. The test model appears to be exceptionally clock stable and quicker than several comparable models, clocking in at 1,935 MHz in all benchmarks.
Playing at 1440p is achievable even with the maximum visual settings, and depending on the benchmark and game, even the high UHD resolution is sufficient.
The GeForce RTX 2070 Super is designed for individuals who want to test out the RTX effects in games like Battlefield V or even the new Minecraft, for which the smaller series representatives are generally too sluggish.
The EVGA GeForce RTX 2070 Super KO Gaming is a good graphics card that returns to its roots and passes on cost savings to consumers.
Nvidia Geforce GTX 1650 is ranked second.
- Powerful enough for 1080p, but with less details
- Cooling that is semi-passive
- Noise and low temperatures
- Low usage of electricity
- The best value-for-money
The RTX 2070 Super has the best price-performance ratio when compared to the GTX 1650.
NVIDIA and several board partners are upgrading the GeForce GTX 1650 to GDDR6 memory as part of a near-complete shift to the faster memory.
NVIDIA followed suit with mobile versions of its GeForce super cards this year.
We’ve taken a closer look at the Gigabyte GeForce GTX 1650 D6 Windforce OC 4G, which is one of the few GeForce GTX 1650 variants that now comes with quicker memory.
NVIDIA has made significant adjustments to its product line with the super models.
The number of shader units has been raised in most situations, as has the layout of functional units — and in a few cases, we’ve shifted to the bigger Turing chip.
Although the memory was unaffected, certain cards outside of the Super Series did not yet use the faster GDDR6 memory.
There are also reports that NVIDIA may upgrade its GeForce-MX GPUs to GDDR6.
There should be a compelling reason for this:
Some memory manufacturers have stopped manufacturing GDDR5 in favor of GDDR6.
NVIDIA has responded to this by adjusting the smaller models as well.
There are now three variants in the lower price class, thanks to the upgrade to GDDR6 memory.
There are clear distinctions between the GeForce GTX 1650 and the GeForce GTX 1650 Super:
The Turing architecture has been somewhat tweaked, and the GPUs now have additional shader units.
Memory is already using GDDR6.
As our test demonstrates, the performance improvement was significant – particularly when considering the modest price difference.
GDDR6 is now available on the Gigabyte GeForce GTX 1650 D6 Windforce OC 4G that we tested.
The memory bandwidth jumps from 128 to 192 GB/s, making it comparable to the supermodel.
With 4 GB of RAM, the memory expansion stays the same.
NVIDIA, on the other hand, has lowered the basic clock parameters somewhat. It oscillates between 1.485 and 1.410 MHz.
The boost clock has been raised to 1.710 MHz from 1.665 MHz.
The power usage stays the same at 75 W nominally.
The super version has a power output of 100 watts.
The GeForce GTX 1650, whether it’s GDDR5 or GDDR6, isn’t a performance marvel.
It’s made for 1080p gaming, but even that doesn’t allow for all the nuances.
However, if you want to buy one, you’ll have to decide if the GDDR6 memory extra is justified.
Let’s take a closer look at the Gigabyte GeForce GTX 1650 D6 Windforce OC 4G, starting with its size and externally visible functions and ports:
Because the PCB is just 150 mm long, Gigabyte could make the card much smaller.
This would allow for the creation of a Mini-ITX card.
However, in order to optimize cooling capacity, the cooler is somewhat bigger than the PCB, resulting in a board length of 190 mm.
It’s not uncommon for two slots to have the same height.
The active component of the cooling is handled by two 75 mm fans.
A 6-pin connection provides the extra power supply.
The display connections are varied as much as feasible, and duplicate connections are avoided.
Under load, the TU117 GPU should attain a boost frequency of at least 1.755 MHz, according to the specification.
The card maintains its own specs by achieving a boost clock of 1.890 to 1.905 MHz using the benchmarks we utilized.
With a maximum temperature of 58°C, the GPU is pleasant to use.
The card’s cooler handles the waste heat of roughly 75 W admirably.
In terms of appearance, there isn’t much to say about the card.
With its black, semi-transparent fan blades, Gigabyte utilizes two axial fans with a diameter of 75 mm that blend in smoothly with the gloomy design.
Only a few of grey parts show out, but that’s all.
The incredibly small PCB, the protruding heatsink, and the protruding cooler cover can all be seen from the rear.
As a result, Gigabyte could make the board significantly smaller yet utilise the extra capacity for cooling.
At a GPU temperature of 50 °C, the two axial fans begin to spin, then stop. At 40°C, the fans cease whirling if the load on the card drops again.
As a result, the GeForce GTX 1650 D6 Windforce OC 4G from Gigabyte is a semi-passive card.
Under the fan, the aluminum heat sink can be seen.
The extra power connection is located on the card’s front side and can deliver 75 W with six pins, according to the specification.
In theory, a GeForce GTX 1650 could be powered just by the PCI Express slot, but since most manufacturers still tinker with the power limit, an external supply is required.
The slot bracket houses the display connectors. DisplayPort 1.4, HDMI 2.0b, and DVI are all present.
All typical monitors should be able to be connected directly without the need of an adaptor as a result of this.
The view of the PCB is clear without the cooler. The TU117 GPU is in the center, with the four GDDR6 memory chips on two sides sitting exactly next to it.
The lanes going to the memory chips and the PCI Express slot can be seen clearly on the PCB.
Aluminium is used for the heat sink.
This heatsink houses the GPU and memory chips.
Gigabyte employs thermal paste for the GPU, and thermal pads are plated through the memory chips.
The heatsink is designed by Gigabyte with huge longitudinal gaps to allow for greater airflow.
Micron provides the GDDR6 memory chips utilized by Gigabyte.
The GDDR6 doubles the memory bandwidth from 128 to 192 GB/s, putting it on par with the GPU.
System for testing
The software, in the form of games and benchmarks, has been updated, and the hardware has been updated as well.
To be able to test as realistically as possible, the test system is housed in a closed enclosure.
Furthermore, although Windows 10 is installed on the PCI Express SSD, we had to migrate the games to a hard drive.
This, however, does not put an end to the testing.
Volume, temperature, and power usage are all factors to consider.
The Gigabyte GeForce GTX 1650 D6 Windforce OC 4G may be deemed quiet in idle mode since its fans are turned down.
With 35 dB(A) under load, it’s wonderfully quiet, which shouldn’t be an issue with two axial fans producing 75 to 80 W of waste heat.
A GeForce GTX 1650 draws about 75 watts (the exact measurement follows in a moment).
So, if the total system uses about 200 W, the remaining components bear a considerable share of the load.
This is evident in only one measurement.
The gigabyte GeForce GTX 1650 D6 Windforce OC 4G used 82.3 W, which is somewhat less than the GDDR5 edition of the GeForce GTX 1650 but still within the measurement tolerance range.
The GDDR6 memory uses somewhat less power, but we can’t really tell since we can’t see it.
In both idle and load mode, the Gigabyte GeForce GTX 1650 D6 Windforce OC 4G performs an excellent job at keeping the GPU cool.
Under load, we obtained a maximum temperature of 58 °C, which is much lower than what we’ve seen with cards from the medium class forward.
The cooling of the cards might therefore persuade from a variety of perspectives.
It’s now an issue of whether or not the performance is likewise up to par.
Conclusion
Let’s get one thing out of the way straight away:
The GDDR6 RAM doesn’t affect the fact that a GeForce GTX 1650 is a GeForce GTX 1650.
Slowly but steadily, memory manufacturers seem to want to move their entire output to GDDR6, and the supply of GDDR5 memory will continue to decline, making faster memory more cost-effective even for smaller cards.
The Gigabyte GeForce GTX 1650 D6 Windforce OC 4G demonstrates this.
The performance of the card is little affected by the RAM.
A performance gain in the low single-digit percentage range may be seen here and there.
The alterations are measurable, but the player will not notice them. A GeForce GTX 1650 is obviously designed for casual players that like less complex 1080p games.
The most recent AAA games are lacking in intricacy and fancy effects.
In any case, hardware-accelerated raytracing isn’t supported on GTX GPUs.
The Gigabyte GeForce GTX 1650 D6 Windforce OC 4G isn’t a horrible card, but.
For a price of 160 dollars, it provides an appealing performance.
In this category, AMD presently has no RDNA rival model to offer.
The Radeon RX 570, which is getting on in years, is at best an option.
In terms of efficiency and cooling, the Gigabyte GeForce GTX 1650 D6 Windforce OC 4G can provide.
It’s cost-effective, quiet (even in idle mode), and doesn’t get hot.
It would be a perfect upgrade candidate if you could do without the extra 6-pin connection, since it can be added independently of the power supply.
If you’re considering purchasing a GeForce GTX 1650, go for one with GDDR6 memory, such as the gigabyte GeForce GTX 1650 D6 Windforce OC 4G.
If availability and pricing are favorable, it is always the preferable option (when compared to a card with GDDR5 memory).
If there isn’t a replacement by then, the GDDR6 will eventually replace the GDDR5 models.
Nvidia Geforce RTX 2070 Super vs. Nvidia Geforce GTX 1650
Performer of the Year
Best Price-to-Performance
Model
EVGA GeForce RTX 2070 Super KO
WINDFORCE Gigabyte GeForce GTX 1650 D6
Result of the Test
June 2020 Result of the Test 9.8/10 Excellent
June 2020 Result of the Test 9.6/10 Very Good
Pros
- For 1440p, this is a fantastic performance.
- Operation that is semi-passive
- Temperature scores that are good
- A reasonable price-to-performance ratio
- Powerful enough for 1080p, but with less details
- Cooling that is semi-passive
- Noise and low temperatures
- Low usage of electricity
- The best value-for-money
Cons
- Compared to similar models, it’s a little louder.
Performer of the Year
Model
EVGA GeForce RTX 2070 Super KO
Test Result
June 2020 Test Result 9.8/10 Excellent
Pros
- For 1440p, this is a fantastic performance.
- Operation that is semi-passive
- Temperature scores that are good
- A reasonable price-to-performance ratio
Cons
- Compared to similar models, it’s a little louder.
Best Price-to-Performance
Model
WINDFORCE Gigabyte GeForce GTX 1650 D6
Test Result
June 2020 Test Result 9.6/10 Very Good
Pros
- Powerful enough for 1080p, but with less details
- Cooling that is semi-passive
- Noise and low temperatures
- Low usage of electricity
- The best value-for-money
Overall, it is evident which GPU is the clear winner in terms of performance.
With its 8GB VRAM, the RTX 2070 just outperforms the competition.
The GTX 1650, on the other hand, provides an excellent price-performance ratio for most users and gamers.
If you really want the most performance without sacrificing anything, the Nvidia Geforce RTX 2070 Super is the way to go.
If you want to play Full HD games on a budget, the Nvidia Geforce GTX 1650 is the card to purchase.
The “nvidia geforce rtx 2070 super” is a graphics card that has been released by Nvidia. It offers performance similar to the Geforce GTX 1650 in 2020.
Frequently Asked Questions
Is RTX 2070 better than GTX?
A: RTX is newer and has less performance issues than the GTX.
Is the RTX 2070 a good card in 2020?
A: The RTX 2070 is a good card, but it would be difficult to say whether or not its the best at this point.
What GPU is better than RTX 2070 Super?
A: RTX 2070 Super is better than any other GPU that Nvidia has released to date.
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