NVIDIA Quadro FX 1400 Professional Graphics Card

Product status: Official | Last Update: 2014-11-06 | Report Error
Original Series
Quadro FX 4
Release Date
July 28th, 2005
Launch Price
$799 USD
PCB Code
P/N Code
Board Model
Graphics Processing Unit
GPU Model
NV41GL (NV41)
Fabrication Process
130 nm
Die Size
225 mm2
Transistors Count
Transistors Density
986.7K TRAN/mm2
Pixel Pipelines
Vertex Pipelines
Base Clock
350 MHz
Boost Clock
Memory Clock
300 MHz
Effective Memory Clock
600 Mbps
Memory Configuration
Memory Size
128 MB
Memory Type
Memory Bus Width
Memory Bandwidth
9.6 GB/s
PCI-Express 1.0 x16
55 W
Recommended PSU
350 W
Multi-GPU Support
Display Outputs
DVI-I DualLink
2 ×
1 ×
API Support

Pixel Fillrate
2.8 GPixels/s
Texture Fillrate
4.2 GTexel/s

 ModelCoresBoost ClockMemory ClockMemory Config.
NVIDIA Quadro FX 4500 SDI - -
1.1 Gbps
512 MB GD3 256b
NVIDIA Quadro FX 3450 - -
1 Gbps
256 MB GD3 256b
NVIDIA Quadro FX 4400 - -
900 Mbps
256 MB GD3 256b
NVIDIA Quadro FX 3400 - -
900 Mbps
256 MB GD3 256b
NVIDIA Quadro FX 1400 - -
600 Mbps
128 MB D1 128b
NVIDIA Quadro FX 540 - -
450 Mbps
128 MB GD3 128b
 ModelCoresBoost ClockMemory ClockMemory Config.
NVIDIA GeForce Go 6800 Ultra - -
1.2 GB/s
256 MB GD3 256b
NVIDIA GeForce 6800 GS PCIe - -
1 GB/s
256 MB GD3 256b
NVIDIA GeForce 6800 XT PCIe - -
1 GB/s
256 MB GD3 256b
NVIDIA Quadro FX 3450 - -
1 GB/s
256 MB GD3 256b
NVIDIA Quadro FX 4000 SDI PCIE - -
1 GB/s
256 MB GD3 256b
NVIDIA GeForce 6800 PCIe - -
700 MB/s
256 MB D1 256b
NVIDIA GeForce 6800 Personal Cinema - -
700 MB/s
256 MB D1 256b
NVIDIA GeForce Go 6800 - -
1.1 GB/s
256 MB GD3 256b
NVIDIA Quadro FX Go1400 - -
590 MB/s
256 MB D1 128b
NVIDIA Quadro FX 1400 - -
600 MB/s
128 MB D1 128b
NVIDIA GeForce 6800 LE PCIe - -
600 MB/s
128 MB D1 256b

Record-Setting NVIDIA Quadro FX 4400 Leads New Professional Graphics Family to Market

Flagship Product Sets Industry Record for Highest Score on SPECviewperf 7.1.1 UGS-03 Benchmark

SIGGRAPH―LOS ANGELES, CA—AUGUST 9, 2004—NVIDIA Corporation (Nasdaq: NVDA) today introduced the fastest performing graphics solution in the industry with the new NVIDIA Quadro® FX 4400 model.  The FX 4400 model is part of a distinctive new family of professional graphics products NVIDIA announced today and based on the PCI Express™ bus architecture.  With NVIDIA® SLI™ technology to link two NVIDIA Quadro FX 4400 boards together, the solution delivered blistering speed for an industry-record setting score of 103 on the SPECviewperf® 7.1.1 UGS-03 benchmark.¹

The four new products announced today complete NVIDIA’s broad PCI Express-based professional graphics portfolio with each new model offering a unique value proposition to users. These new products include:

NVIDIA Quadro FX 4400 ― is the undisputed performance leader of NVIDIA’s professional graphics line.  The solution features 512MB of G-DDR3 frame buffer memory, a 256-bit memory interface, 35.2GB/sec of memory bandwidth, 3-pin stereo support, and dual DVI display connectors.

NVIDIA Quadro FX 4400G ― delivers genlock and framelock capabilities on top of the powerful FX 4400 architecture and advanced feature set.  Framelock allows professionals to link multiple systems in a cluster to scale power to problem size for life-sized visualization. Genlock allows users to sync with standard signal formats and house-sync signals for video post-production, broadcast, compositing, and editing.

NVIDIA Quadro FX 1400 ― assumes the consistently popular price-performance position in the family.  Even with its accessible price, the FX 1400 offers an advanced feature set and outperforms some competitor’s high-end professional graphics products.

NVIDIA Quadro FX 540  ― has an attractive price and high definition component output support, making it a great solution for video previewing and recording.  Not limited to just video applications, the FX 540 is a solid choice for any professional 3D graphics application, including medical imaging, simulations, and mission rehearsals.

“The NVIDIA Quadro FX 4400 board is the MVP in a new family of distinct PCI Express workstation graphics solutions,” said Jeff Brown, general manager professional graphics at NVIDIA.  “This new family delivers everything users could hope for ― record-setting performance; cutting-edge features such as Shader Model 3.0 and fp32 support; high quality; and even investment protection with upgrade options for genlock, framelock, and dual-GPU mode.  It’s an all-star line-up all around.”

The NVIDIA Quadro FX 4400, FX 4400G, and FX 1400 models support NVIDIA SLI technology―an innovative new technology that enables two NVIDIA Quadro FX graphics boards to operate in a single workstation. NVIDIA SLI is based on an intelligent communication protocol embedded in the GPU and a high-speed digital interface on the graphics board to facilitate data flow.  An extensive suite of software provides dynamic load balancing, and advanced rendering and compositing to ensure smooth frame rates and outstanding image quality.  With NVIDIA SLI, users will be able to upgrade their systems to a dual-board setup on their own timetable for a noticeable increase in graphics horsepower.

“With its unique combination of advanced 2D/3D graphics capabilities, PCI Express interface, and framelock-genlock, the new NVIDIA Quadro FX 4400G product represents the next generation in high-end PC graphics,” said Marc Petit, vice president of product development at Discreet, a division of Autodesk, Inc.  “NVIDIA Quadro FX 4400G features, from integrated genlock capabilities to increased frame buffer memory and faster pixel read-back performance, will be of significant benefit to our customers in film visual effects, video broadcast, and game development markets.”

The new NVIDIA Quadro FX models round out an extensive family of PCI, AGP, and PCI Express-based professional 2D and 3D graphics solutions.  In addition to a wide range of choices and dual –GPU options, the newest members of the NVIDIA Quadro FX family feature:

-Increased application performance over their AGP-based predecessors;
-Advanced vertex and pixel programmability to allow for the creation of real-time shaders that can simulate a range of physical effects and surface properties;
-True 128-bit floating-point precision, which enables mathematical computations that maintain higher accuracy, resulting in unmatched visual quality;
-High-precision dynamic-range technology for extended 32-bit floating-point capabilities in shading, filtering, texturing, and blending operations;
-Fast pixel read-back performance for faster graphics-to-system throughput; and
-Complete compliance with NVIDIA Unified Driver Architecture, a set of backward-and-forward, top-to-bottom compatible graphics drivers that optimize application performance, stability, and reliability.