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Video Timing Generator By Quotes None 400 MHz None  
The IP Core is a fully configurable video timing generator with the ability to support any video resolution up to 216  x 216 pixels in size. The module is compatible with a wide range of video DACs, CODECs and transceivers and provides a flexible solution for displaying digital or analogue video on an external TV, monitor or flat panel display.  The module is capable of clock speeds in excess of 400 MHz on some FPGA platforms, making it ideal for the latest generation HD and UHD video solutions. After resynchronizing the input pixels to the pixel-clock domain , the controller locks to the first frame (or field) of video. Once frame-lock is achieved, pixels are supplied on demand to the video timing control unit. This module generates the correct RGB video, sync and blanking information depending on the chosen timing parameters. Application Legacy (SD) and analogue video applications Digital TV and multimedia solutions HD, UHD and SUHD next generation digital video   Introduction
Digital Video overlay module By Quotes None 250 MHz None  
This IP is a highly versatile video multiplexer that allows one video stream to be inserted over another.  By cascading a series of video overlay modules together, any number of video sources may be multiplexed together. The module supports input video streams of any resolution or aspect ratio up to 216   x 216  pixels in size. Video overlay parameters may be changed on a frame-by-frame basis to dynamically change the size and position of the video overlay. Pixels and syncs flow in and out of the video overlay module in accordance with the valid-ready pipeline protocol. The pipeline protocol allows both input and output interfaces to be stalled independently. In addition, the overlay module supports a number of blending operations including an 8-bit alpha channel and bitwise AND, OR and XOR functions. Application Network and Tactical operations centres Digital-video special effects Broadcast TV and film production CCTV and security camera systems Introduction
2D Graphics Overlay By Quotes None 200 MHz None  
This is a highly versatile on-screen display that allows high-quality anti-aliased bitmap graphics to be inserted over RGB video. The module supports a wide range of graphics effects and the programming interface is very simple to use. The bitmap overlay is partitioned into an array of tiles which are addressed by means of an 8-bit value stored in a 64x64 tile buffer. There are four tile sizes available - either 8x8, 16x16, 32x32 or 64x64. The tiles in the buffer are displayed in a graphics window which may be positioned anywhere within the display area. Bitmaps for each tile are stored in a user-defined ROM which can contain up to  256  different bitmaps stored over three bit-planes. Depending on the chosen graphics mode, the 3-bits per pixel may be used to select one colour from a palette of eight, eight levels of alpha transparency or seven colours on a transparent background. Pixels and syncs flow in and out of the overlay module in accordance with the valid-ready pipeline protocol. Application Animated 2D graphics including hardware sprites, mouse pointers, cursors , parallax scrolling, moving banners etc. Interactive guides, menus, tables, lists etc. Digital TV and home-media solutions Professional and functional 2D graphic displays and video overlays   Introduction
Text Overlay Module By Quotes None 200 MHz None  
The IP Core is a highly versatile On Screen Display (OSD) module that allows text and bitmap graphics to be inserted over RGB video.   The module supports a wide range of text effects and the programming interface is very simple.  Text is written to a 64x32 character buffer which is mapped (via a bitmap ROM) directly to the display. The characters in the buffer are displayed in a 'TEXT BOX' which may be positioned anywhere in the video display area. Bitmaps for each character are stored in a ROM which may be modified to support different font styles or bitmap graphics. Pixels and syncs flow in and out of the overlay module in accordance with the valid-ready pipeline protocol.  Application Window movement in the same manner as a 2D 'BitBlt' Terminal and Console windows Low cost text and graphics applications Digital TV and home-media solutions Introduction
Bilinear Video Scaling Engine By Quotes None 250 MHz None  
This IP is a very high quality video scaler capable of generating interpolated output images from 16x16 up to 216  x 216  pixels in resolution. The architecture permits seamless scaling (either up or down) depending on the chosen scale factor. Internally, the scaler uses a 24-bit accumulator and a bank of polyphase FIR filters with 16 phases or interpolation points.  All filter coefficients are programmable, allowing the user to define a wide range of filter characteristics. Pixels flow in and out of the scaling engine in accordance with the valid-ready pipeline protocol.As such, the pipeline protocol allows both input and output interfaces to be stalled independently. The scaler is partitioned into a horizontal scaling section in series with avertical scaling section. Application Conversion of popular video formats to any other resolution such as VGA to XGA, SVGA to HD1080 etc. Picture in Picture (PiP) applications High quality 24-bit RGB/YCbCr video scaling     Introduction
Digital Video Scaler By Quotes None 250 MHz None  
The IP Core is a studio  quality video scaler capable  of generating interpolated output images from 16 x 16 up to  216  x 216  pixels in resolution.   The architecture permits seamless scaling (either up or down) depending on the chosen scale factor.  Internally, the scaler uses a 24-bit accumulator and a bank of polyphase FIR filters with 16 phases or interpolation points.  All filter coefficients are programmable, allowing the user to define a wide range of filter characteristics. Pixels flow in and out of the video scaler in accordance with the valid-ready pipeline protocol.  Pixels are transferred into the scaler on a rising clock-edge when pixin_val  is high and pixin_rdy is high.  As such, the pipeline protocol allows both input and output interfaces to be stalled independently. The scaler is partitioned into a horizontal scaling module in series with a vertical scaling module . Application Support for the latest generation video formats with resolutions of 4K and above Video scaling for flat panel displays, portable devices, video consoles, video format converters, set-top boxes, digital TV etc. Conversion of all standard and custom video resolutions such as HD720P to HD1080P, XGA to VGA etc.   Introduction
JPEG Decoder By Quotes None 250 MHz 130 nm  
This JPEG Decoder IP core has been developed to be a complete standards compliant JPEG / MJPEG Hardware Decompressor / Decoder. When decoding JPEG images, pixel throughput can not be fixed for compressed JPEGs of arbitrary quality, as it depends on the compression ratio (bits needed to encode one pixel). To circumvent this limitation JPEG Decoder IP features a dual pixel component pipeline, allowing for greater decoding speeds.   Introduction
JPEG Encoder By Quotes None 250 MHz 130 nm  
This IP core has been developed to be a complete standards compliant JPEG / MJPEG Hardware Compressor / Encoder. The data interfaces in the JPEG Encoder IP Core (JPEGE) use the AXI industry standard. The Master I/O data interfaces use an AXI3 bus, forward compatible with AXI4 interconnects. In order to let you assess the properties of the on-the-fly selectable quality setting, please use the slider below the image in order to see the final compressed image and compression ratio. The JPEG Encoder IP Core has a real throughput of two compressed pixels every three clock cycles at any compression ratio for a chroma subsampling of 4:2:0. To calculate the throughput for your platform. Introduction
H.264 Encoder IP Core By Quotes None 150 MHz None  
This H.264 Encoder IP core has been developed to be the highest throughput standards compliant hardware H.264 video compressor.  The IP offers two encoder variants to meet the different targets of features.   The IP include 2 mode. H264E-I: H.264 encoder compliant with CAVLC 4:4:4 Intra Profile (all frames are keyframes)​         The IP core is smaller but yields less compression. It does not require external memory. H264E-P: H.264 encoder compliant with High 4:4:4 Predictive Profile:   The IP core is larger but offers a significantly better compression. Both share the same outstanding processing speed of more than 5.2 pixels encoded per cycle. The data interfaces in the H.264 Encoder IP Core use the AXI industry standard.  The Master I/O data interfaces use an AXI3 bus, forward compatible with AXI4 interconnects. Introduction
Color-space Converter By Quotes None 400 MHz None  
This  IP  is a fully pipelined color-space converter that converts pixels between the RGB and YCbCr color spaces.  In total, the IP Core package contains two distinct modules – one module that converts   from   24-bit   RGB   to   30-bit   4:4:4   YCbCr   and   the   other   that performs the reciprocal operation from 4:4:4 YCbCr to RGB.   Application Digital video and image processing  Introduction
μIP Price Logic Gate Count Clock Rate Technology   Ratings

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