AMD Radeon RX 7500 XT


AMD Radeon RX 7500 XT on Amazon USA


Specifications and performance with the benchmarks of the AMD Radeon RX 7500 XT graphics card dedicated to the desktop sector, with 1024 shading units, its maximum frequency is 2.3GHz The table below makes it possible to observe well the lithography, the number of transistors (if present), the offered cache memory, the quantity of texture mapping units, of render output units, the release date, the GFLOPS performance, the values obtained in the benchmark platforms.







Specifications:


Warning: the information concerning AMD Radeon RX 7500 XT comes in part from rumor-based sources.


Graphics card AMD Radeon RX 7500 XT
Market (main) Desktop
Release date Q1 2024
Model number Navi 33
GPU name Navi 33
Architecture RDNA 3.0
Generation Navi III RX 7000
Lithography 6 nm
Transistors 13,300,000,000
Bus interface PCIe 4.0 x16
GPU base clock 1,452 MHz
GPU game clock 2,200 MHz
GPU boost clock 2,300 MHz
Memory frequency 2,250 MHz
Effective memory speed 18 Gbps
Memory size 6 GB
Memory type GDDR6
Memory bus 96 bit
Memory bandwidth 216.0 GB/s
TDP 100 W
Suggested PSU 350W ATX Power Supply
Multicard technology -
Outputs

1x HDMI
2x DisplayPort
1x USB Type-C
Cores (compute units, SM, SMX) 16
Shading units 1,024
TMUs 64
ROPs 32
RT cores 16
Cache memory 64 MB
Pixel fillrate 73.6 GPixel/s
Texture fillrate 147.2 GTexel/s
Performance FP16 (half) 18.8 TFLOPS
Performance FP32 (float) 9.4 TFLOPS
Performance FP64 (double) 665.6 GFLOPS
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TMUs: texture mapping units. This unit was a physical processor separated from the main graphics processing units. It is able to distort a bitmap image, and also to resize it, to rotate it and to place it as a texture onto a plane of a specific 3D model.

ROPs: render output units. The other name of this unit is raster operations pipeline. This hadware component is taking pixel and texel information, and processing it through vector and matrix operations. The result will be a depth value or a final pixel. It is able to control antialiasing with the merge of several sample into one pixel.



Performance with the benchmarks:


Performance comparison between this graphics card and those of equivalent power, for this we consider the results generated on benchmark softwares and rendering performances.


Pixel fillrate performance comparison for this graphics card:


Pixel Fillrate Performance in GPixels/s
Sapphire Pulse Radeon RX 6400 74.27
Asus Phoenix Radeon RX 6400 74.27
Asus Dual Radeon RX 6400 74.27
PowerColor Radeon RX 6400 Low Profile 74.27
PowerColor Radeon RX 6400 ITX 74.27
AMD Radeon RX 7500 XT 73.6
ASRock Arc A380 Challenger ITX OC 72
AMD Radeon PRO W5500X 66.8
Intel Arc Pro A50 65.6
AMD Radeon PRO W6300 65.3



The term pixel fillrate is refering to the number of pixels that the video card is able to generate every second. This performance is achieved by multiplying the raster output units (ROPs) by the clock frequency of the graphics processor unit (GPU). Matrix and vector operations allow pixel pipelines to process pixels and texels stored in the buffer. The ROPs will then generate transactions between the buffer and local memory. You should know that the higher the pixel rate, the greater the screen resolution that the GPU can manage.


Texture fillrate performance comparison for this graphics card:


Texture Fillrate Performance in GTexels/s
Nvidia GeForce GTX 1660 157.1
Asus ROG Strix GeForce RTX 3050 OC 148.8
EVGA GeForce RTX 3050 XC Gaming 147.6
Asus TUF Gaming GeForce RTX 3050 OC 147.6
MSI GeForce RTX 3050 Gaming X 147.6
AMD Radeon RX 7500 XT 147.2
Zotac Gaming GeForce RTX 3050 AMP 146.4
Gainward GeForce RTX 3050 Ghost OC 145.8
KFA2 GeForce RTX 3050 EX (1-Click OC) 145.8
Gigabyte GeForce RTX 3050 Gaming OC LHR 145.8



The term texture fillrate refers to the number of map texture elements (texels) that the GPU is capable of generating per second. This performance is achieved by multiplying the texture mapping units (TMUs) by the clock frequency of the graphics processor unit. To make a 3D scene in a video game or in 3D editing software such as Blender, the graphics card must perform what is called texture mapping with the texture mapping units.




FP16 performance comparison (half precision; float; floating-point 16) for this graphics card:


FP16 Performance in GFLOPS
Nvidia RTX A4000 19,170
PNY RTX A4000 19,170
Nvidia RTX 4000 SFF Ada Generation 19,169
PNY RTX 4000 SFF Ada Generation 19,169
Nvidia RTX A4000H 19,169
AMD Radeon RX 7500 XT 18,842
Gigabyte GeForce RTX 2070 Super Gaming OC 18,590
Kuroutoshikou Galakuro GeForce RTX 2070 Super White 18,586
Nvidia GeForce RTX 2070 Super Founders Edition 18,120
Nvidia GeForce RTX 2070 Super 18,120



The power in FP16, i.e. in a half-precision floating point format, makes it possible to evaluate the ability of the graphics card to manipulate useful data for example in computer applications, such as deep learning with neural networks. These applications use numeric values that have less precision, and therefore require less memory, compared to values with single or double precision formats.


FP32 performance comparison (single precision; float; floating-point 32) for this graphics card:


FP32 Performance in GFLOPS
EVGA GeForce GTX 1080 FTW2 Gaming 9,523
Asus ROG Strix GeForce RTX 3050 OC 9,523
EVGA GeForce RTX 3050 XC Gaming 9,446
Asus TUF Gaming GeForce RTX 3050 OC 9,446
MSI GeForce RTX 3050 Gaming X 9,446
AMD Radeon RX 7500 XT 9,421
Zotac Gaming GeForce RTX 3050 AMP 9,370
Gainward GeForce RTX 3050 Ghost OC 9,329
KFA2 GeForce RTX 3050 EX (1-Click OC) 9,329
Gigabyte GeForce RTX 3050 Gaming OC LHR 9,329



Single-precision floating-point format, also called FP32, is a computer number format that typically occupies 32 bits in PC memory. This represents a wide dynamic range of numeric values that employs a floating point. FP32 power helps assess the video card's capabilities for generating rendering workloads. Video games use INT32 and FP32 cores to manage calculations with integers and numbers with decimals in order to produce maps, bone matrices on which the vertex shaders will calculate the vertices. Values in single precision format are mainly used in video games and 3D software.


FP64 performance comparison (double precision; float; floating-point 64) for this graphics card:


FP64 Performance in GFLOPS
MSI Radeon RX 6600 XT Mech 2X OC 666.1
MSI Radeon RX 6600 XT Mech 2X OCV1 666.1
ASRock Radeon RX 6600 XT Challenger Pro OC 666.1
MSI GeForce RTX 4070 Ti Suprim X 666
Palit GeForce RTX 4070 Ti GameRock OC 666
AMD Radeon RX 7500 XT 665.6
Sapphire Pulse Radeon RX 6600 XT 663.8
ASRock Radeon RX 6600 XT Challenger D OC 663.8
Gigabyte Radeon RX 6600 XT Gaming OC 663.8
XFX Speedster SWFT 210 Radeon RX 6600 XT Core 662.8



FP64 performance refers to solvers with double precision. We can thus determine how many operations the GPU can calculate for certain specific tasks, such as scientific calculations, climate forecasts, calculations related to fluid dynamics, geophysics, computational chemistry. The FP64 power capabilities are mainly intended for professionals who wish to carry out advanced calculations.



List of comparisons:

AMDAMD RadeonAMD Radeon GraphicsAMD Radeon HDAMD Radeon HD 6000AMD Radeon HD 7000AMD Radeon HD 7800AMD Radeon HD 8000AMD Radeon InstinctAMD Radeon MobileAMD Radeon PROAMD Radeon PRO MobileAMD Radeon R2AMD Radeon R4AMD Radeon R5AMD Radeon R6AMD Radeon R7AMD Radeon R7 200AMD Radeon R9AMD Radeon R9 200AMD Radeon RXAMD Radeon RX 300AMD Radeon RX 400AMD Radeon RX 500AMD Radeon RX 5000AMD Radeon RX 5000 MobileAMD Radeon RX 6000AMD Radeon RX 6000 MobileAMD Radeon RX 7000AMD Radeon RX 7000 MobileAMD Radeon RX VegaAMD Radeon VegaAMD Radeon Vega 11AMD Radeon Vega 3AMD Radeon Vega 6AMD Radeon Vega 8AMD Radeon Vega MobileAMD RDNAAMD RDNA 2AMD RDNA 3AppleASRock Radeon RX 6000ASRock Radeon RX 7000Asus GeForce RTX 3000Asus GeForce RTX 4000Asus GeForce RTX 4060Asus GeForce RTX 4060 TiAsus GeForce RTX 4070Asus GeForce RTX 4070 SuperAsus GeForce RTX 4070 TiAsus GeForce RTX 4070 Ti SuperAsus GeForce RTX 4080Asus GeForce RTX 4080 SuperAsus GeForce RTX 4090Asus ROG Strix GeForce RTX 2000ATI Radeon HDATI Radeon HD 3000ATI Radeon HD 4000ATI Radeon HD 5000Colorful GeForce 4000EVGA GeForce 1000EVGA GeForce 1600EVGA GeForce 2000EVGA GeForce 3000Gainward GeForce RTX 3000Gainward GeForce RTX 4000Gigabyte GeForce RTX 4000Gigabyte GeForce RTX 4060Gigabyte GeForce RTX 4060 TiGigabyte GeForce RTX 4070Gigabyte GeForce RTX 4070 TiGigabyte GeForce RTX 4080Gigabyte GeForce RTX 4090Gigabyte Radeon RX 6000Gigabyte Radeon RX 7000IntelIntel ArcIntel Arctic SoundIntel HD GraphicsIntel Iris GraphicsIntel Iris Plus GraphicsIntel Iris Xe Graphics G7Intel Iris Xe Graphics MobileIntel UHD GraphicsIntel UHD Graphics 610Intel UHD Graphics 620Intel UHD Graphics 630Intel UHD Graphics 730Intel UHD Graphics 770Intel Xe GraphicsKFA2 GeForce RTX 3060 TiKFA2 GeForce RTX 3070KFA2 GeForce RTX 3070 TiKFA2 GeForce RTX 3080Kuroutoshikou GeForceKuroutoshikou RadeonMSI GeForce 3000MSI GeForce 4000NvidiaNvidia A100Nvidia GeForceNvidia GeForce 1000Nvidia GeForce 1000 MobileNvidia GeForce 1600Nvidia GeForce 1600 MobileNvidia GeForce 2000Nvidia GeForce 2000 MobileNvidia GeForce 3000Nvidia GeForce 3000 MobileNvidia GeForce 400Nvidia GeForce 4000Nvidia GeForce 500Nvidia GeForce 600Nvidia GeForce 600MNvidia GeForce 700Nvidia GeForce 700MNvidia GeForce 800M seriesNvidia GeForce 900Nvidia GeForce 900MNvidia GeForce GTNvidia GeForce GT 1000Nvidia GeForce GTXNvidia GeForce GTX 1000Nvidia GeForce GTX 1000 MobileNvidia GeForce GTX 1600Nvidia GeForce GTX 1600 MobileNvidia GeForce GTX 400Nvidia GeForce GTX 500Nvidia GeForce GTX 600Nvidia GeForce GTX 600 MobileNvidia GeForce GTX 700Nvidia GeForce GTX 700 MobileNvidia GeForce GTX 800 MobileNvidia GeForce GTX 900Nvidia GeForce GTX 900 MobileNvidia GeForce MXNvidia GeForce RTXNvidia GeForce RTX 2000Nvidia GeForce RTX 2000 MobileNvidia GeForce RTX 3000Nvidia GeForce RTX 3000 MobileNvidia GeForce RTX 4000Nvidia GeForce RTX 4000 MobileNvidia GM20BNvidia Quadro NVSNvidia Quadro RTX AdaNvidia Quadro RTX Ada MobileNvidia Quadro seriesNvidia TeslaNvidia Tesla V100Nvidia TitanNvidia VoltaPalit GeForce 4000PNY GeForce RTX 4060PNY GeForce RTX 4060 TiPNY GeForce RTX 4070PNY GeForce RTX 4070 TiPNY GeForce RTX 4080PNY GeForce RTX 4090Sapphire Nitro+ RadeonSapphire Radeon RX 5000Sapphire Radeon RX 6000Sapphire Radeon RX 7000XFX Radeon RX 6000XFX Radeon RX 6600 XTXFX Radeon RX 6650 XTXFX Radeon RX 6700 XTXFX Radeon RX 6750 XTXFX Radeon RX 6800XFX Radeon RX 6800 XTXFX Radeon RX 6900 XTXFX Radeon RX 6950 XTXFX Radeon RX 7000XFX Radeon RX 7600XFX Radeon RX 7800 XTXFX Radeon RX 7900 XTXFX Radeon RX 7900 XTXZotac GeForce RTX 3000Zotac GeForce RTX 3050Zotac GeForce RTX 3060Zotac GeForce RTX 3060 TiZotac GeForce RTX 3070Zotac GeForce RTX 3070 TiZotac GeForce RTX 3080Zotac GeForce RTX 3080 TiZotac GeForce RTX 4000Graphics cards groups

List of benchmarks:

FP32 Performance



Equivalence:

AMD Radeon RX 7500 XT Nvidia Equivalent




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