Image Codec

Welcome to the ultimate Image Compression IP Cores hub! Explore our vast directory of Image Compression IP.

Image Compression IP Cores consist of JPEG, JPEG 2000, JPEG-LS and CCSDS IP cores that offer maximum image quality and performance.

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Compare 125 Image Codec from 25 vendors (1 - 10)
  • Video Interlacer
    • The INTERLACER IP Core  is a fully pipelined video interlacer solution that converts any progressive video format into its interlaced equivalent.
    • The format of the input video is defined by the parameters pixels_per_line and lines_per_frame.
    • These values specify the size of one input frame of video in pixels and lines. Each interlaced output field will have half the number of lines as an input frame.
    Block Diagram -- Video Interlacer
  • High-Definition SMPTE Test Pattern Generator
    • The HD_SMPTE_TPG IP Core is a versatile test pattern generator capable of producing a range of test patterns in 20-bit 4:2:2 format.
    • The output stream format is compliant with the SMPTE standards 296M and 274M.
    • The module is ideal for use in the prototyping stages of digital video systems or as a known good reference source for standard 720p, 1080p or 1080i video.
    Block Diagram -- High-Definition SMPTE Test Pattern Generator
  • SMPTE Decoder with Colour-Space Converter
    • The HD_SMPTE_DECODER IP Core  is a digital video decoder with integrated colour-space converter.
    • It's function is to extract the valid pixels from a standard SMPTE video stream and convert them to 24-bit RGB pixels for subsequent processing.
    Block Diagram -- SMPTE Decoder with Colour-Space Converter
  • High-Definition SMPTE Encoder with Colour-Space Converter
    • The HD_SMPTE_ENCODER IP Core is a digital video encoder with integrated colour-space converter.
    • The encoder accepts 24-bit RGB pixels from sequential frames.
    • These pixels are then mapped to the YCbCr colour-space and formatted correctly into a SMPTE video output stream.
    Block Diagram -- High-Definition SMPTE Encoder with Colour-Space Converter
  • JPEG encoder
    • Baseline JPEG compliant (ITU T.81), Motion JPEG
    • Up to 12 bits depth possible (default: 8 bit)
    • Super low latency (less than 1/10 of frame duration for rolling shutter cameras)
    • Lossy compression by default
    • Fully bit and cycle accurate co-simulation model available in Docker container
    Block Diagram -- JPEG encoder
  • QOI Image Decompressor IP Core
    • This core implements the QOI lossless image compression algorithm decompressing QOI header-less files and producing RGB 24 bits pixels.
    • Simple, fully synchronous design with low gate count.
    Block Diagram -- QOI Image Decompressor IP Core
  • QOI Image Compressor
    • This core implements the QOI lossless image compression algorithm producing a raw, header-less file. Simple, fully synchronous design with low gate count.
    • OL_QOIE is a fast, low complexity implementation of the compression algorithm that accepts one 24 bits RGB pixel per clock cycle and outputs compressed data packed in 32 bits words.
    Block Diagram -- QOI Image Compressor
  • Scalable Ultra-High Throughput JPEG-LS Encoder
    • The UHT-JPEGLS-E core is a JPEG-LS encoder, compliant to ISO/IEC IS 14495-1 | ITU-T Recommendation T.87 standards.
    • It supports encoding of 4:4:4, 4:2:2, 4:2:0 and 4:0:0 (grayscale) video streams, in 8 up to 16 bits sample depths.
    • The core is a standalone and high-performance JPEG-LS encoder, designed for enabling ultra-high frame rate SD and HD encoding, and Ultra HD video encoding (4K/8K and beyond), even in low-end ASIC or FPGA silicon.
    Block Diagram -- Scalable Ultra-High Throughput JPEG-LS Encoder
  • Lossless & Near-Lossless JPEG-LS Encoder
    • The JPEG-LS-E core implements a highly efficient, low-power, lossless and near-lossless image compression engine that is compliant to the JPEG-LS, ISO/IEC 14495-1 standard.  
    • Based on LOCO-I (LOw COmplexity LOssless COmpression for Images), the JPEG-LS algorithm leads in numerically lossless compression efficiency, attaining compression ratios similar or superior to those obtained with more advanced algorithms such as JPEG 2000.
    Block Diagram -- Lossless & Near-Lossless JPEG-LS Encoder
  • Lossless & Near-Lossless JPEG-LS Decoder
    • The JPEG-LS-D core implements a highly efficient and low-power, lossless and near-lossless image decompression engine that is compliant to the JPEG-LS, ISO/IEC 14495-1 standard.
    • The decoder core can decompress any JPEG-LS stream or JPEG-LS payload of image container formats, such as DICOM (Digital Imaging and Communications in Medicine).
    Block Diagram -- Lossless & Near-Lossless JPEG-LS Decoder
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