Seoul, Korea - Aug. 10, 2016 -- Artosyn Microelectronics, a leading supplier of Drone systems on chips (SoC) in China, today announced that they have licensed Chips&Media’s Lossy&Lossless compression IP core, CFrame50 for their next-generation drone SoCs. Artosyn is well known as the world’s leading drone SoC company. This is the second purchase following the previous license of WAVE420 HEVC codec IP last December.
CFrame50 is applied to the drone platform for recording video. CFrame50 encoder performs lossy or lossless compression of input original image from ISP (image signal processor) and sends them to Video Encoder. The compressed data are restored back to the original image with the same quality level by the CFrame50 decoder and on-the-fly encoded by WAVE420. CFrame50 and Chips&Media video codec IP can co-work very effectively in SoC in terms of less usage of system bandwidth, and it can save the total SoC power incredibly. Also, CFrame50 has so small gate count that almost doesn’t influence total chip cost.
Artosyn said that CFrame50 showed a stable compression rate in lossless compression and there was no quality difference between original images and decompressed images in lossy compression. They were very satisfied with the visually lossless quality results, and that is why they made the decision of licensing CFrame50. Integration of combined Chip&Meida’s HEVC codec IP and Compression IP into their SoC is expected to be a great help to implementation of Artosyn’s ultra-low-power Drone SoC for longer flight while shooting 4K (UHD) class video.
CFrame50 is designed to be highly configurable. It can be delivered in various forms as customer chip’s demands and be applied in many kinds of applications like image sensor, ISP, video codec, or display. CFrame50 supports up to four color planes, a wide range of color formats such as RGB, YUV, Bayer pattern, Monochrome, and 420/422/444 chroma sampling formats. A compression rate is also configurable to 1/2, 1/3, 1/4 times, or more by giving a target bit-depth to the original bit-depth.