I2P DE-INTERLACER IP CORE FAMILY
Imagination Technologies' De-Interlacer IP cores deliver a range of solutions, from full motion compensation through to our innovative and unique gradient compensation. Our de-interlacers exceed the output image quality of all but the highest end solutions available on the market today, while achieving exceptional cost effectiveness - making them the ideal solution for a wide range of DTV and STB SoCs.
I2P-MC
Imagination Technologies' POWERVR™ I2P-MC is a very high quality motion compensation de-interlacer designed for high-performance applications such as flat panel TV, DVD players and set-top boxes. The POWERVR I2P-MC core uses advanced motion estimation and compensation techniques to convert interlaced video content to progressive content without the visual artefacts of other de-interlacing technologies.
I2P-GC
Imagination Technologies' POWERVR™ I2P-GC is a very high quality interlace to progressive converter. The
POWERVR I2P-GC core uses innovative patented techniques for converting interlaced to progressive video
to provide the highest quality viewing experience on the latest generation of progressive scan displays.
POWERVR I2P-GC has been extensively tested and
tuned to remove the artefacts associated with other
inferior deinterlacing techniques. I2P-GC significantly
reduces the 'jaggies' seen with traditional de-interlacers
even when the motion is complex and fast moving.
POWERVR I2P-GC achieves quality close to that of a
full motion compensated solution (I2P-MC), but
requires approximately a quarter of the silicon area.
- Per-pixel based processing
- Film mode detector for 3:2 & 2:2 pull down and other common pull-down cadences
- Bad edit and scene change detection
- Recursive noise reduction (I2P-GC); full motion compensated noise reduction (I2P-MC)
- Patented gradient algorithm (I2P-GC)
- Patented Edge Reconstruction Filter (I2P-MC)
- Mixed spatial and temporal blending (I2P-GC)

- Enhanced visual quality verified with a wide range of interlaced content
- Processes High Definition 1080i streams
- Low host CPU processing requirements
- Low power consumption
- Compact silicon area






