*** Welcome to piglix ***

Radeon X1000 Series

ATi Radeon X1000 Series
Release date 2005-2006
Codename Fudo (R520)
Rodin (R580)
Architecture Radeon R500
Transistors and fabrication process 107M 90nm (RV505)
  • 107M 90nm (RV515)
  • 157M 90nm (RV530)
  • 321M 90nm (R520)
  • 384M 90nm (R580)
  • 107M 80nm (RV516)
  • 330M 80nm (RV535)
  • 330M 80nm (RV560)
  • 384M 80nm (R580+)
Cards
Entry-level X1300, X1550
Mid-range X1600, X1650
High-end X1800, X1900
Enthusiast X1950
API support
Direct3D Direct3D 9.0c
Shader Model 3.0
OpenGL OpenGL 2.0
History
Predecessor Radeon X800 Series
Successor Radeon HD 2000 Series


The R520 (codenamed Fudo) is a Graphics processing unit (GPU) developed by ATI Technologies and produced by TSMC. It was the first GPU produced using a 90 nm photolithography process.

The R520 is the foundation for a line of DirectX 9.0c and OpenGL 2.0 3D accelerator X1000 video cards. It is ATI's first major architectural overhaul since the R300 and is highly optimized for Shader Model 3.0. The Radeon X1000 series using the core was introduced on October 5, 2005, and competed primarily against nVidia's GeForce 7000 series. ATI released the successor to the R500 series with the R600 series on May 14, 2007.

ATI does not provide official support for any X1000 series cards for Windows 8; the last AMD_Catalyst for this generation are the 10.2 from 2010 up to Windows 7. However, AMD stopped providing drivers for Windows 7 for this series in 2015.

Using a Linux distribution a series of open source Radeon drivers are available.

The same GPUs are also found in some AMD FireMV products targeting multi-monitor set-ups.

The Radeon X1800 video cards, that included a R520, were released with a delay of several months because ATI engineers discovered a bug within the GPU in a very late stage of the development. This bug, caused by a faulty 3rd party 90 nm chip design library, greatly hampered clock speed ramping, so they had to "respin" the chip for another revision (a new GDSII had to be sent to TSMC). The problem had been almost random in how it affected the prototype chips, making it quite difficult to finally identify.


...
Wikipedia

...