The FirePro M6000 has 11% better performance than the GeForce GTX 480M for the 3DMark 11 Performance GPU benchmark.
We do not have any performance per dollar data for the GeForce GTX 480M and the FirePro M6000 for the 3DMark 11 Performance GPU benchmark.
Summary
About the NVIDIA GeForce GTX 480M GPU
The NVIDIA GeForce GTX 480M is an end-of-life mobile graphics card that released in Q2 2010. It is built on the Fermi GPU microarchitecture (codename GF100) and is manufactured on a 40 nm process.
Memory
The GTX 480M has 2 GB of GDDR5 memory, with a 600 MHz memory clock and a 256 bit interface. This gives it a memory bandwidth of 76.8 Gb/s, which affects how fast it can transfer data to and from memory. GPU memory stores temporary data that helps the GPU with complex math and graphics operations. More memory is generally better, as not having enough can cause performance bottlenecks.
Cores and Clock Speeds
The GTX 480M includes 352 CUDA cores, the processing units for handling parallel computing tasks. The GPU operates at a core clock speed of 425 MHz. Complementing the processing units are 44 texture mapping units (TMUs) for efficient texture filtering and 32 render output units (ROPs) for pixel processing.
Compatibility & Power Consumption
The GPU has a thermal design power (TDP) of 100 W. A power supply not strong enough to handle this might result in system crashes and potentially damage your hardware.
Benchmark Performance
The GTX 480M has the 350th best 3DMark 11 Performance GPU score among the 543 benchmarked GPUs in our database. It achieves 2.09% of the performance of the best benchmarked GPU, the NVIDIA GeForce RTX 4090.
About the AMD FirePro M6000 GPU
The AMD FirePro M6000 is an end-of-life mobile graphics card that released in Q3 2012. It is built on the GCN 1.0 GPU microarchitecture (codename Heathrow) and is manufactured on a 28 nm process.
Memory
The FirePro M6000 has 2 GB of GDDR5 memory, with a 1,000 MHz memory clock and a 128 bit interface. This gives it a memory bandwidth of 64 Gb/s, which affects how fast it can transfer data to and from memory. GPU memory stores temporary data that helps the GPU with complex math and graphics operations. More memory is generally better, as not having enough can cause performance bottlenecks.
Cores and Clock Speeds
The FirePro M6000 includes 640 stream processors (SPs), the processing units for handling parallel computing tasks. The GPU operates at a core clock speed of 800 MHz. Complementing the processing units are 40 texture mapping units (TMUs) for efficient texture filtering and 16 render output units (ROPs) for pixel processing.
Compatibility & Power Consumption
The GPU has a thermal design power (TDP) of 43 W. A power supply not strong enough to handle this might result in system crashes and potentially damage your hardware.
Benchmark Performance
The FirePro M6000 has the 331st best 3DMark 11 Performance GPU score among the 543 benchmarked GPUs in our database. It achieves 2.32% of the performance of the best benchmarked GPU, the NVIDIA GeForce RTX 4090.
General Info
General overview of the GPU, including details like its manufacturer, release date, launch price, and current production status.
Info | GeForce GTX 480M | FirePro M6000 |
---|---|---|
Manufacturer | NVIDIA | AMD |
Architecture | Fermi | GCN 1.0 |
Market Segment | Mobile | Mobile |
Release Date | Q2 2010 | Q3 2012 |
Production Status | End-of-life | End-of-life |
Shop | Check Price | Check Price |
Gaming Performance
Benchmark Performance
The FirePro M6000 has 11% better performance than the GeForce GTX 480M for the 3DMark 11 Performance GPU benchmark.
The GeForce GTX 480M is ranked 350th with a score of 2,184.5, and the FirePro M6000 is ranked 331st with a score of 2,422.
We do not have any performance per dollar data for the GeForce GTX 480M and the FirePro M6000 for the 3DMark 11 Performance GPU benchmark.
Relative Performance
The average score in the benchmark test can be compared to similar GPUs to assess relative performance. Generally, powerful GPUs tend to have higher scores.
GPU | Benchmark Performance | |
---|---|---|
Quadro K620M | 2,434 | +11% |
Quadro K3000M | 2,427 | +11% |
FirePro M6000 | 2,422 | +11% |
GeForce 940M | 2,405.5 | +10% |
GeForce GTX 570M | 2,399 | +10% |
GeForce 930MX | 2,201.5 | +1% |
Radeon HD 8790M | 2,186.5 | +0% |
GeForce GTX 480M | 2,184.5 | |
GeForce 930M | 2,153 | -1% |
Radeon R7 M340 | 2,148 | -2% |
Relative Value For Money
The average performance per dollar in the benchmark test can be compared to similar GPUs to assess relative value. A higher score implies a better value for your money.
GPU | Performance Per Dollar | ||
---|---|---|---|
Our database does not have enough data to compare the benchmark performance per dollar with other GPUs. |
Benchmark Scores
This table showcases the average performance scores achieved by both GPUs across industry-standard benchmark tests. These scores provide a valuable insight into overall performance. Powerful GPUs tend to have higher scores.
- Popular
Benchmark | GeForce GTX 480M | FirePro M6000 |
---|---|---|
3DMark 11 Performance Score | 2,387 | 2,726 (+14.2%) |
PassMark G3D Mark | 1,617 | 1,820 (+12.55%) |
PassMark G2D Mark | 459 | 766 (+66.88%) |
Technical Specs
Graphics Processor
General information about the graphics processing unit like their architecture, manufacturing process size, and transistor count. Newer GPU architectures generally bring efficiency improvements and may introduce technologies that enhance graphical capabilities.
Spec | GeForce GTX 480M | FirePro M6000 |
---|---|---|
Codename | GF100 | Heathrow |
Architecture | Fermi | GCN 1.0 |
Process Size | 40 nm | 28 nm |
Transistors | 3,100 million | 1,500 million |
Memory Details
Memory specifications like their capacity, bandwidth, and clock speeds. GPU memory stores graphics data like frames, textures, and shadows which helps display rendered images. These specs are crucial for graphics-intense applications like gaming and 3D modeling.
Spec | GeForce GTX 480M | FirePro M6000 |
---|---|---|
Memory Size | 2 GB | 2 GB |
Memory Type | GDDR5 | GDDR5 |
Memory Bandwidth | 76.8 Gb/s | 64 Gb/s |
Memory Clock | 600 MHz | 1,000 MHz |
Memory Interface | 256 bit | 128 bit |
L1 Cache | 64 KB | 16 KB |
L2 Cache | 512 KB | 256 KB |
Board Compatibility
Compatibility information like their slot size, bus interface, power consumption, and display support. These specs are useful for verifying compatibility with your motherboard, power supply, and monitor.
Spec | GeForce GTX 480M | FirePro M6000 |
---|---|---|
Bus Interface | MXM-B (3.0) | MXM-B (3.0) |
Thermal Design Power (TDP) | 100 W | 43 W |
Outputs | Device Dependent | Device Dependent |
Cores & Clock Speeds
Processing power information like its cores and clock speed. These specs impact how fast they can process graphics. Each type of core or component serves a specific computational purpose.
Spec | GeForce GTX 480M | FirePro M6000 |
---|---|---|
Stream Processors (SP) | -- | 640 |
CUDA Cores | 352 | -- |
Compute Units (CU) | -- | 10 |
Stream Multiprocessors (SM) | 11 | -- |
Texture Mapping Units (TMU) | 44 | 40 |
Render Output Units (ROP) | 32 | 16 |
Core Clock Speed | 425 MHz | 800 MHz |
Theoretical Performance
Theoretical performance numbers derived from the raw specifications of the different components like core count and clock speeds. While these provide a glimpse into peak processing power, they do not represent real-world performance.
Spec | GeForce GTX 480M | FirePro M6000 |
---|---|---|
Pixel Fill Rate | 9.35 GPixel/s | 12.8 GPixel/s |
Texture Fill Rate | 18.7 GTexel/s | 32 GTexel/s |
FP32 Performance | 598.4 GFLOPS | 1,024 GFLOPS |
FP64 Performance | 74.8 GFLOPS | 64 GFLOPS |
API Support
Graphics API versions supported by these graphics cards. APIs evolve over time, introducing new features and functionalities. Older GPUs may not support recent versions.
Spec | GeForce GTX 480M | FirePro M6000 |
---|---|---|
DirectX | 12 (11_0) | 12 (11_1) |
OpenCL | 1.1 | 2.1 (1.2) |
OpenGL | 4.6 | 4.6 |
Shader Model | 5.1 | 6.5 (5.1) |
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* Performance rating, performance per dollar, and rankings are based on the 3DMark 11 Performance GPU benchmark and MSRP.