XFX Speedster SWFT210 Radeon RX 7600
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RX 7600 Review & Specifications
The RX 7600 is based on the RDNA 3.0 architecture and manufactured using the 6 nm process node. It was launched approximately 2 years, 1 month ago, originally priced at $269. It features 2048 cores, including 60 compute units (SMs), 128 texture mapping units (TMUs), and 64 render output units (ROPs). For ray tracing and AI-accelerated tasks, it also includes 32 dedicated RT cores and None Tensor cores, enabling advanced rendering and upscaling features where supported. It has a base clock of 1720 MHz and a boost clock reaching up to 2655 MHz. The RX 7600 comes equipped with 8 GB of GDDR6 memory across a 128-bit bus. Memory runs at 2250 MHz and delivers a total memory bandwidth of 288 GB/s.
This GPU has a low thermal design power (TDP) of 165 W. It is generally compatible with almost all PC cases and is excellent for SFF and compact systems where heat dissipation is a concern.
RX 7600 Performance
RX 7600 is an entry-level graphics card with a relative gaming performance score of 30.15%. It performs well at 1080p and can handle 1440p with optimized settings or features like DLSS and FSR, though it's not suitable for 4K. Ideal for casual gamers or users who play occasionally on general-purpose PCs.
The RX 7600 has a moderate VRAM size of 8 GB, which aligns well with its performance class. It is well-suited for 1080p gaming at high settings and 1440p gaming at medium to high settings, depending on the game’s optimization and graphics demands. While capable in rasterized workloads, enabling ray tracing at higher resolutions can quickly consume available VRAM and reduce performance. Upscaling technologies like DLSS or FSR can help improve frame rates, but may come with a noticeable reduction in visual quality. The VRAM capacity is adequate for light to moderate content creation tasks, such as editing Full HD or QHD video, working with smaller assets in 3D environments, and using tools like Photoshop or Premiere Pro for general workloads. In the context of AI and machine learning, this GPU can handle lightweight inference tasks and basic model training. However, users working with large datasets or complex architectures may find the memory insufficient, leading to slowdowns or compatibility issues. This GPU remains a good option for gamers, casual creators, and students exploring AI.
XFX Speedster SWFT210 Radeon RX 7600 provides excellent value at 70.0% efficiency. While its gaming performance is modest, it can still be a cost-effective solution for users with limited demands.
GPU Information
GPU Name: RX 7600
GPU Code Name: Navi 33
Release Price: $269
Launch Date: 2 years, 1 month ago.
Architecture / Process: RDNA 3.0 / 6 nm
Cores / CUs (SMs) : 2048 / 60
TMUs / ROPs: 128 / 64
RT Cores / Tensor Cores: 32 / None
Base / Boost Clock: 1720 MHz / 2655 MHz
Memory: 8 GB GDDR6, 128 bit
Memory Clock / Bandwidth: 2250 MHz / 288 GB/s
Transistors: 13300 million
TDP: 165 W
Graphics Card Information
Name: XFX Speedster SWFT210 Radeon RX 7600
Manufacturer: XFX
Graphics Card Available: True
Current Price Amazon: $299
Amazon Price Updated: 4 hours, 25 minutes ago.
Factory GPU Clock: 2655 MHz
Memory Clock: 18 Gbps effective
Dimensions: 24.1 x 13.1 x 4.1 cm
Power Connector: 8 pin x 1
Display Output: DisplayPort 2.1: 3x HDMI™ 2.1: 1x
Performance
Pixel Rate: 233.30 GPixel/s
Texture Rate: 339.80 GTexel/s
FP16: 43.50 TFLOPS
FP32: 21.75 TFLOPS
FP64: 679.70 GFLOPS
Gaming Performance
1080p: 30.15%
1440p: 23.78%
2160p: 18.62%
Calculated Performance
Performance per Price: 70.0%
RX 7600 Compared to Similar Performance GPUs
GPU Price / Performance Table
| GPU (Desc) | Price (Desc) | Gaming_1080p (Desc) | Gaming_1440p (Desc) | Gaming_2160p (Desc) | Game_1440p/Price (Desc) |
|---|---|---|---|---|---|
|
$375
|
0.0%
|
30.9%
|
24.9%
|
19.9%
|
58.4%
|
|
|
$279
|
0.0%
|
28.3%
|
24.6%
|
22.2%
|
77.7%
|
|
|
$349
|
0.0%
|
29.4%
|
24.4%
|
21.1%
|
61.5%
|
|
|
$285
|
0.0%
|
29.9%
|
23.9%
|
18.4%
|
73.8%
|
|
|
$274
|
0.0%
|
30.2%
|
23.8%
|
18.6%
|
76.4%
|
|
|
$274
|
0.0%
|
28.6%
|
22.6%
|
17.6%
|
72.5%
|
|
|
$174
|
0.0%
|
25.9%
|
22.4%
|
17.8%
|
113.5%
|
|
|
$369
|
0.0%
|
26.9%
|
22.3%
|
18.9%
|
53.2%
|
|
|
$749
|
0.0%
|
26.9%
|
21.0%
|
17.9%
|
24.6%
|
GPU Specification Table
| GPU (Desc) | Architecture | Shader/TMU/ROP/RT | Base/Boost Clock | Memory | Mem Clock/Bandwidth | TDP |
|---|---|---|---|---|---|---|
| RTX 4060 | AD107 / 5 nm / Ada Lovelace | 3072 / 96 / 48 / 24 | 1830 MHz / 2460 MHz | 8 GB GDDR6 / 128 bit | 2125 MHz / 272 GB/s | 115 W |
| Arc A770 | DG2-512 / 6 nm / Xe HPG | 4096 / 256 / 128 / 32 | 2100 MHz / 2400 MHz | 16 GB GDDR6 / 256 bit | 2000 MHz / 512 GB/s | 225 W |
| RTX 2070 SUPER | TU104 / 12 nm / Turing | 2560 / 160 / 64 / 40 | 1606 MHz / 1770 MHz | 8 GB GDDR6 / 256 bit | 1750 MHz / 448 GB/s | 215 W |
| RX 6650 XT | Navi 23 / 7 nm / RDNA 2.0 | 2048 / 128 / 64 / 32 | 2055 MHz / 2635 MHz | 8 GB GDDR6 / 128 bit | 2190 MHz / 280 GB/s | 176 W |
| RX 7600 | Navi 33 / 6 nm / RDNA 3.0 | 2048 / 128 / 64 / 32 | 1720 MHz / 2655 MHz | 8 GB GDDR6 / 128 bit | 2250 MHz / 288 GB/s | 165 W |
| RX 6600 XT | Navi 23 / 7 nm / RDNA 2.0 | 2048 / 128 / 64 / 32 | 1968 MHz / 2589 MHz | 8 GB GDDR6 / 128 bit | 2000 MHz / 256 GB/s | 160 W |
| Arc A750 | DG2-512 / 6 nm / Xe HPG | 3584 / 224 / 112 / 28 | 2050 MHz / 2400 MHz | 8 GB GDDR6 / 256 bit | 2000 MHz / 512 GB/s | 225 W |
| RTX 3060 12GB | GA106 / 8 nm / Ampere | 3584 / 112 / 48 / 28 | 1320 MHz / 1777 MHz | 12 GB GDDR6 / 192 bit | 1875 MHz / 360 GB/s | 170 W |
| RTX 2070 | TU106 / 12 nm / Turing | 2304 / 144 / 64 / 36 | 1410 MHz / 1620 MHz | 8 GB GDDR6 / 256 bit | 1750 MHz / 448 GB/s | 175 W |
GPU Table Explanations
GPU (Asc): This refers to the name of the graphics processing unit (GPU).
Price (Asc): This column shows the price of the GPU, sorted in ascending order. The value next to the price indicates the percentage change in price compared to a previous day.
Architecture: This refers to the core architecture of the GPU, including the process node (nm), the underlying architecture name, and any notable features. For example, AD102 / 5 nm / Ada Lovelace tells us that the RTX 4090 uses the AD102 core, built on a 5 nm process node, and based on the Ada Lovelace architecture.
Shader/TMU/ROP/RT: These are performance metrics of the GPU:
- Shader: The number of cores responsible for handling calculations.
- TMU (Texture Mapping Unit): The number of cores involved in texture processing.
- ROP (Raster Operations Pipeline): The number of cores used in the final stages of the rendering process.
- RT (Ray Tracing Cores): The cores dedicated to ray tracing (advanced rendering effects).
Base/Boost Clock: These values indicate the speeds at which the GPU operates:
- Base Clock: The minimum speed at which the GPU runs.
- Boost Clock: The maximum speed the GPU can achieve under load.
Memory: This describes the amount of video memory (VRAM) on the GPU and its type. For example, 24 GB GDDR6X / 384 bit means the RTX 4090 has 24 GB of GDDR6X memory with a 384-bit memory interface.
Mem Clock/Bandwidth: The memory clock refers to the speed of the memory, while bandwidth indicates the amount of data that can be transferred per second. For example, 1313 MHz / 1010 GB/s means the memory clock speed is 1313 MHz and the memory bandwidth is 1010 GB/s.
TDP (Thermal Design Power): This is the maximum amount of power the GPU is expected to consume under full load, measured in watts. It also indicates the cooling solution needed. For example, 450 W means the RTX 4090 has a TDP of 450 watts.