GeForce GTX 1650 OC

CUDA cores 896
Base clock 1,485MHz
Boost clock 1,665MHz
Memory 4GB of GDDR6

Since none of the other Turing GPUs can fill the function of a budget version of the best graphics cards, the GeForce GTX 1650 was a foregone conclusion. This is most certainly the Turing architecture's final implementation.

Key features and Performance

It comes in 6GB or 3GB versions, with an impressive 1,280 CUDA cores, 80 Texture Units, and 48 ROPs. It runs at the usual 8GB/s bandwidth on a 192-bit bus. With 1.46 billion transistors, a 120-watt TDP, and a base-spec base clock of 1708 MHz (before GPU boost gets it in its hands), we've got ourselves a winner.

The GTX 1650 is powered by the latest TU117 GPU, a smaller and less costly version of the TU116 used in the GTX 1660 and 1660 Ti cards. The GTX 1650 has 4GB of GDDR5 memory, which is clocked at 8GT/s, the same as the GTX 1660 and the previous generation GTX 1060 cards.

It has 128GB/s of bandwidth, slightly more than the GTX 1050 Ti, thanks to four active memory controllers on a 128-bit bus. It also contains 32 ROPs (Render Outputs).

TU117 and the GTX 1650 have 14 SMs in the GPU core, translating to 896 CUDA cores and 56 texture units. The GTX 1650 can perform concurrent FP32 and INT calculations, speeding up gaming workloads by 15-35 percent over the previous Pascal architecture. Nvidia's boost clocks are usually conservative, with most cards. The stock GTX 1650 has a boost clock of 1665MHz, which gives it a theoretical score of 2984 GFLOPS. That's slower than the GTX 1060 cards but about half as fast as the GTX 1050.

Design and cooling

It's all made on TSMC's 12nm lithography, leaving AMD's Radeon VII to use 7nm for the time being. With 4.7 billion transistors, the die size is about a third smaller than the TU116. Although factory overclocked cards (like the MSI GTX 1650 Gaming X 4G that I'm using) have higher clock speeds and require a 6-pin PEG connector, the GTX 1650 is designed to run without one.

The lack of the usual SLI fingers on the top of the card was instantly visible when opening up this beautiful Nvidia packaging.

Final verdict

The transition from Maxwell to Pascal is remarkable. The GTX 1080 provided the high end with a nearly 50% boost over the previous generation's equivalent, and the ASUS GeForce GTX 1060 follows suit. It's calm, quiet, and surprisingly well-rounded for a card of this price. Overall, GTX 1060 is a crown and most efficient graphic card for overwatch.

  • Very affordable
  • Great performance per watt
  • Expensive relative to Radeon RX 570
  • Some versions do require auxiliary power
  • Memory not overclocked

Asus Geforce Gtx 1050

Memory Clock 1752 MHz
Base Clock 1291 MHz
Boost Clock 1392 MHz
Base Clock 1291 MHz

Nvidia expands its 10-series GPU range with six new models with the introduction of the GTX 1050. The GTX 1050 is the best ultra-low-cost GPU. It's adequate for entry-level gaming and light esports, and it should fit in almost every machine sold in the last five years or more.

Key Features and Performance

The same GP107 GPU is used on both cards based on Samsung's 14nm FinFET node. Furthermore, 1050 comes with 2GB GDDR5 memory (depending on the games and settings you choose). Pascal has a lot of quality, and it has some incredible results in the end. In the end, the GTX 1050 outperforms the GTX 950. Anyone who sees the GTX 1050 and thinks to themselves, "Yeah, that's just the kind of results I need."

According to TrustedReviews, the GTX 1050 also defeats the RX 460, a more significant victory—even if the RX 460 has twice as much VRAM. However, this is dependent on the games you're playing.

If you can deal with the 2GB VRAM restriction, the GTX 1050 promises to be the highest overall budget GPU. All you need is a full-size slot with an x16 PCIe link to install a 1050 and get a significant performance boost over integrated graphics. It's also a decent HTPC solution, as the card retains all of the HEVC decoding capabilities of the more costly Pascal offerings.

They provide superior raw value to the AMD graphics cards used in the base PlayStation 4 and Xbox One versions. However, most gamers would be best suited by a higher-end card with 3GB or more VRAM due to the card's local video memory. But there's more to it than that. With just 640 CUDA cores, this is the most basic Pascal chip available. This model's lack of cores is compensated for by a high boost clock speed of 1,455MHz.

Design and Cooling

The GTX 1050's TDP thermal design efficiency is only 75W, which means it gets all of its power from your motherboard. During the Hitman benchmark, the whole machine on our high-end, overclocked PC drew just 150W, 61W more petite than the RX 460.

Final Verdict

The GTX 1050 is the best demonstration yet of Nvidia's Pascal architecture in use. It may not achieve stellar benchmark performance, but as a replacement part for an outdated or disabled GPU, it's excellent, and it shouldn't necessitate upgrading the power supply. It is the highest low-cost GPU for eSports players.

  • Extremely efficient
  • Excellent price
  • HDMI 2.0b, DisplayPort 1.4
  • No SLI support
  • Some games need to be dropped to Medium settings

Geforce GTX 750 Ti

CUDA Cores. 640
Base Clock (MHz) 1020
Boost Clock (MHz) 1085
Memory Clock. 5.4 Gbps

The 750 Ti is the green team's newest addition to the industry, providing gamers with a low-cost 1080p gaming video card. The 750 Ti outperformed the AMD cards in every benchmark, making it the absolute winner in raw results. Although the 260X is a rebadged Radeon HD 7790, the 750 Ti is based on Nvidia's latest Maxwell GPU architecture.

Key Features and Performance

Nvidia's 750 Ti is 22 percent better than the 600 series card when both metrics are combined. The 750 Ti supports G-Sync, a new Nvidia technology that allows GeForce video cards to play games without stuttering or screen tearing caused by high refresh rates. The fact that the 750 Ti doesn't need any extra power connections is much more remarkable. The 750 Ti has one Mini-HDMI port and two Dual-Link DVI ports, which can accommodate three screens.

The 750 Ti is a low-power video card that uses only 60 watts. With its 115W TDP, AMD's R7 260X consumes nearly twice as much power. The 750 Ti's power supply-demand is also minimal, at just 300W, so you won't need a big 500W or 750W beast to control it. Because of this, and because of its limited scale, it's a simple improvement for an extensive range of systems.

The card has 512 CUDA cores, a 1020MHz base clock, and a 1085MHz boost clock. The 750 Ti also has 2GB of GDDR5 video RAM running at 5400MHz. If you're going to use different monitors, this 2GB Ti version is the way to go, so you'll have more video RAM space to work with. Using EVGA's Precision X overclocking tool, I overclocked the 750 Ti by increasing its boost clock to 1169MHz. There were no noticeable reliability problems, and overall performance increased by around 5% for all titles, except Batman: Arkham Origins, which only saw a 3% performance improvement.

Design and Cooling

The card is just 5.7" (14.5cm) in length and has just one slot. The noise and cooling were not an issue, and it wasn't significantly quieter than when it was stock clocked. With the Steam Box revolution just around the corner, that's a wise design decision.

Final verdict

With the 750 Ti, Nvidia has brought it to AMD, uses less fuel, and outshines both the R7 260X and the HD 7790 in competitive and digital comparisons by a margin of 11%.

  • Excellent power consumption
  • Cool and very quiet
  • No SLI support

RX 460

TDP 75 W
GPU Variant Baffin PRO
GPU Name Baffin
Memory Clock 1750 MHz

It's built on AMD's fourth-generation GCN architecture, but it's been rebalanced for more power-conscious applications. With up to 2.2 teraflops of performance, it can compete.

Key Features and Performance

The RX 460's processor runs at a base clock rate of 1090 MHz, with a boost clock frequency of 1200 MHz. Our U.S. lab received Sapphire's Nitro Radeon RX 460 OC, which is overclocked to 1175 MHz base and 1250 MHz boost frequency. Next to the GPU are four 1GB memory ICs, totaling 4GB of GDDR5. They aren't mentioned on Micron's parts list, so all we know about them is that they have an 8Gb density and run at 1750 MHz.

Meanwhile, the GPU's power phases are identical to those seen on the Asus Strix RX 470. The high side is handled by one M3054 N-Channel MOSFET, while two M3056 N-Channel MOSFETs handle the low side. UBIQ is the source of both of them.

The current is monitored and regulated by an ITE 8915FN in the Strix RX 460. Even if it should have been a lot shorter, the board's arrangement is simple, orderly, and quite well out. The materials are what you'd imagine at this price point, but there aren't any flaws to be found.

Design and Cooling

Even though Polaris 11 shares some characteristics with its predecessors, the switch to 14nm FinFET inherently means we're looking at a new GPU. Compared to Polaris 10, which has 5.7 billion transistors on a 232 mm2 die, the Radeon RX 460 processor has three billion transistors on a 123 mm2 die. There's also a six-pin power adapter that has been rotated 180 degrees. The four-pin connector for PWM-driven fans that are controlled by card heat also makes a return.

Over its rear bracket, Asus reveals three display outputs, removing one of the dual-link DVI ports used on the Strix RX 470. Just one dual-link DVI-D output, HDMI 2.0b, and a DisplayPort 1.3 (HBR3/1.4 HDR-ready) connector remain on the Strix RX 460. This is sufficient for 4K resolution at 120 Hz and 5K resolution at 60 Hz.

The more extraordinary cover, which has two 75 mm fans, is fixed on with four screws. The PWM-controlled fans have 3W engines, but our measurements indicate that they don't exceed 4W combined during stress tests. The tachometer control signal is given by the first one.

Final Verdict

RX 460 is the hottest edition in the GPU list because it competes with the previous 600 series. The materials are what you'd imagine at this price point, but there aren't any flaws to be found.

  • Fast enough for 1080p in many games
  • Affordable
  • Power Friendly
  • Performance has limits, even at 1080p
  • Doesn't overclock well

Nvidia Geforce GTX 980

Memory Clock 1753 MHz
GPU Name GM204
TDP 165 W
GPU Variant GM204

The GeForce GTX 980 is simple to suggest to gamers looking to create a new rig for elevated gaming or upgrade an older card to achieve steady connection speeds at displays above 1080p, based solely on its efficiency and (comparatively) low power requirements.

Key Features and Performance

The GeForce GTX 980 accelerates VXGI to the point that game designers can compute global illumination in-game, allowing vibrant colors to communicate with in-game objects (such as characters) real-time rather than being reflected onto static things like floors, walls, and furniture. Compared to the GeForce GTX 680, it has doubled the number of render output units (ROPs). This, coupled with a higher clock speed (on the stock GTX 980, approximately 1,126MHz and 1,216MHz), is intended to improve performance at high resolutions and when high anti-aliasing settings are available.

Nvidia is boasting a few additional in-game functionalities with the GeForce GTX 980, in addition to a new architecture that stresses efficiency and support for the upcoming DirectX 12 API (of course). On a Dell 1080p computer, we briefly tested out Dynamic Super Resolution for a couple of our test games during our training. I was enabling the Nvidia Control Panel option results in higher "virtual resolutions" appearing in the game's configuration dialogues.

Design and Cooling

The GTX 980 model card has three DisplayPort ports, which addresses one of the issues with previous-generation Nvidia high-end cards. You can attach three of these monitors to a single GeForce GTX 980 card). The HDMI port on this device is also of the brand-new 2.0 type, allowing it to support 4K resolution at 60Hz. It runs cooler and quieter than comparable AMD cards and requires much less power than similar AMD cards. The reversible hatch is designed to increase ventilation and cooling systems with several GeForce GTX 980 cards nearby. According to Nvidia, the extra airflow provided by eliminating this portion of the backplate is critical for feeding air to the adjacent card's intake fan.

Final Verdict

Nvidia's high-end Maxwell-based card offers the highest single-chip gaming graphics card output to date by using far less power than the competition. Its price is comparable with AMD's more powerful Radeon R9 290X.

  • Top notch performance
  • Improved display output option
  • You still need two of them for high frame rates at 4K resolutions
  • Expensive