Explore the complete details of Quadro FX 4000, including specs, performance benchmarks
The Quadro FX 4000 GPU by NVIDIA. features a Curie (2003−2013) architecture. It offers GDDR3 memory with 256 MB GB capacity and a 256 Bit-bit interface. delivering a bandwidth of 32 GB/s GB/s. With a power consumption (TDP) of 142W. it supports DirectX 9.0c (9_3), Vulkan N/A for enhanced performance.
Basic details about the Quadro FX 4000, including manufacturer, ranking, and release date.
Title | Quadro FX 4000 |
---|---|
Manufacturer | NVIDIA |
Ranking | 1400 |
Popularity Rank | not in top-100 |
Architecture | Curie (2003−2013) |
GPU code name | NV40 |
Market Segmente | Workstation |
Length - Width | N/A - 2-slot |
Release Date | 1 April 2004 |
Launch Price | $N/A |
Details on clock speeds, cores, and floating-point processing power of Quadro FX 4000.
Core Clock Speed | 375 MHz |
---|---|
Boost Clock Speed | N/A |
Floating Point Processing Power | N/A |
No of Transistors | 222 million |
CUDA Cores | N/A |
Ray Tracing Cores | N/A |
Tensor Cores | N/A |
Texture Fill Rate | 4.500 |
ROPs | 8 |
Available display connectors and API compatibility for enhanced performance.
Interface | AGP 8x |
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Display Connectors | 2x DVI, 1x S-Video |
HDMI | N/A |
DirectX | 9.0c (9_3) |
Shader Model | 3.0 |
OpenGL | 2.1 |
OpenCL | N/A |
Vulkan | N/A |
CUDA | N/A |
DLSS | N/A |
TMUs | 12 |
Information on memory type, capacity, and bandwidth to evaluate data processing power.
Memory Type | GDDR3 |
---|---|
Maximum RAM | 256 MB |
Memory Bus Width | 256 Bit |
Memory Clock Speed | 500 MHz |
Memory Bandwidth | 32 GB/s GB/s |
Resizable BAR | N/A |
Power consumption, efficiency, and additional power requirements.
Power Consumption (TDP) | 142 W |
---|---|
Power Efficiency | 0.13 |
Manufacturing Process | 130 nm |
Supplementary Power Connectors | 2x Molex |
Here are some of the closest competitors to this GPU. Compare their power consumption, efficiency, and additional power requirements.
Here are some of the closest competitors to this GPU. Compare their power consumption, efficiency, and additional power requirements.