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If you're a gamer on a tight budget, the past few years have offered slim pickings for entry-level graphics cards. As we sussed out earlier this year, gamers shopping at the $200-to-$250 price point have long been forced to pick among compromised choices that are all a generation or two old, and modern games are really starting to put the hurt on that older hardware.
Even versus checkered company like Intel’s Arc A750 and AMD’s Radeon RX 6600, Nvidia's last entry-level card of note, the GeForce RTX 3050 8GB, put in a particularly weak showing in our tests. The entry-level Ampere card struggled to clear the 60 FPS average we consider a baseline for solid gaming experiences, even at 1080p.
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Architecture | Navi 44 | Navi 44 | GB206 | GB206 | GB206 | GB207 | BMG-G21 | BMG-G21 |
Process Technology | TSMC N4P | TSMC N4P | TSMC 4N | TSMC 4N | TSMC 4N | TSMC 4N | TSMC N5 | TSMC N5 |
Transistors (Billion) | 29.7 | 29.7 | 21.9 | 21.9 | 21.9 | 16.9 | 19.6 | 19.6 |
Die size (mm^2) | 199 | 199 | 181 | 181 | 181 | 149 | 272 | 272 |
SMs / CUs / Xe-Cores | 32 | 32 | 36 | 36 | 30 | 20 | 20 | 18 |
GPU Shaders (ALUs) | 2048 | 2048 | 4608 | 4608 | 3840 | 2560 | 2560 | 2304 |
Tensor / AI Cores | 64 | 64 | 144 | 144 | 120 | 80 | 160 | 144 |
Ray Tracing Cores | 32 | 32 | 36 | 36 | 30 | 20 | 20 | 18 |
Boost Clock (MHz) | 3130 | 3130 | 2572 | 2572 | 2497 | 2572 | 2850 | 2750 |
VRAM Speed (Gbps) | 20 | 20 | 28 | 28 | 28 | 20 | 19 | 19 |
VRAM (GB) | 16 | 8 | 16 | 8 | 8 | 8 | 12 | 10 |
VRAM Bus Width | 128 | 128 | 128 | 128 | 128 | 128 | 192 | 160 |
L2 / Infinity Cache | 32 | 32 | 32 | 32 | 24 | 24? | 18 | 13.5 |
Render Output Units | 64 | 64 | 48 | 48 | 48 | 32 | 80 | 80 |
Texture Mapping Units | 128 | 128 | 144 | 144 | 120 | 80 | 160 | 144 |
TFLOPS FP32 (Boost) | 25.6 | 25.6 | 23.7 | 23.7 | 19.2 | 13.2 | 14.6 | 12.7 |
TFLOPS FP16 (FP4/FP8 TFLOPS) | 205 (821) | 205 (821) | 190 (759) | 190 (759) | 153 (614) | 105 (421) | 117 (233) | 101 (203) |
Bandwidth (GB/s) | 320 | 320 | 448 | 448 | 448 | 320 | 456 | 380 |
TBP (watts) | 160 | 150 | 180 | 180 | 145 | 130 | 190 | 150 |
Launch Date | 45813 | 45813 | 45763 | 45763 | 45793 | 45839 | 45639 | 45627 |
Launch Price | 349 | 299 | 429 | 379 | 299 | 249 | 249 | 229 |
Online Price |
On top of Blackwell's basic architectural benefits, the RTX 5050 is clocked much higher than the RTX 3050, at a rated boost clock of 2572 MHz rather than just 1780 MHz on the Ampere card. All those improvements mean this card offers raw compute potential of at least 13 TFLOPS in boost, up 44% from the RTX 3050.
The move to the Blackwell architecture and a more advanced process node also grants the RTX 5050 a massive increase in L2 cache, from just 2MB on the RTX 3050 to at least 24MB on the Blackwell card. Bigger caches are relatively easy wins for boosting performance, and Nvidia says that Blackwell's large L2 benefits ray-tracing workloads especially.
The biggest difference between the RTX 5050 and other Blackwell cards is Nvidia's continuing use of GDDR6 memory. This card gets 8 GB of 20 Gb/s GDDR6 on a 128-bit bus for an effective 320 GB/s of memory bandwidth, up from 224 GB/s on the typical RTX 5050. Even RTX 5050 mobile implementations get GDDR7.
In and of itself, this choice isn't necessarily a bad thing for performance. AMD's Radeon RX 9000-series cards all stick with GDDR6 and still deliver competitive performance with RTX 50-series products at similar price points.
Taken all together, the RTX 5050 sounds like an impressive multi-generational improvement, but only if your frame of reference excludes RTX 4050 mobile chips. Those similarly provisioned GPUs were clocked at least as high as 2370MHz in their most generous power and thermal envelopes.
At its highest thermal and power specs, then, the mobile RTX 4050 could have compute potential at least as high as 12 TFLOPS, although its performance is likely hampered by just 6GB of 16Gb/s GDDR6 on a 96-bit bus, producing just 192 GB/s of memory bandwidth. Had Nvidia brought the RTX 4050 to the desktop in a more fully fledged 8GB form, the improvements of the RTX 5050 might be considerably less impressive.
Partially because it sticks with GDDR6, the RTX 5050 still rings in at a 130W total board power rating, the same as the RTX 3050. Like most 3050s, most RTX 5050s still employ an eight-pin PCIe power connector to get all of their necessary juice. Builders hoping for a power-sipping, high-performance slot-powered card will still be left wanting.
If supplies of cutting-edge GDDR7 have to go anywhere, Nvidia certainly prefers that they be used on higher-end, higher-margin discrete cards and in notebooks, where tight power and thermal budgets mean that GDDR7's power usage and efficiency benefits yield all sorts of fruit for engineers trying to squeeze out every last second of battery life or to shave off every last gram from a heatsink or chassis. It's much easier to deal with the higher power and heat production of GDDR6 in the relatively unconstrained power and thermal environment of desktop PCs.
If Nvidia saved anything on the RTX 5050's bill of materials by sticking with last-gen GDDR6, it isn't throwing any bones to the lowest end of the market in turn. The RTX 5050 sticks with the same $250 price as the RTX 3050 did about three-and-a-half years ago, even as tariffs and inflation put the squeeze on today's consumers.
You'd think Nvidia could find a few bucks in one of Jensen's jacket pockets to offer some relief to gamers on a budget, given the staggering amounts of money it's making in the data center, but maybe that's too tough a nut even for advanced AI to crack.
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