Broadcast HD JPEG 2000 Encoders & Decoders IP-cores
The JPEG 2000 Broadcast family has been designed to respond to the various applications of the Broadcast markets. We guarantee perfect interoperability with every SD and HD standards in terms of frame rates and resolutions. Its modules provide, in a single FPGA, multi-channel operations representing a total of 240 full resolution progressive frames per second, real time.
intoPIX is your solution for JPEG 2000 Broadcast applications
Key Features
- Full flexibility between
- up to 4 simultaneous channels
- 1 channel up to 1080p, 120 fps
- Visually Lossless
- Single chip
- Ultra Low Latency Option - NEW!
Products
- IPX-JP1HD: "1HD" JPEG 2000 Encoder/JPEG 2000 Decoder
1 HD 30p / 50i / 59,9i / 60i channel
Visually lossless compression
Xilinx 7 Series FPGA (Zynq-7, Artix-7, Kintex-7, Virtex-7), Xilinx Virtex-6 & Spartan-6
Altera Cyclone V, Arria II & V, Stratix IV and V - IPX-JP2HD: "2HD" IP-Core JPEG 2000 Encoder/JPEG 2000 Decoder
Up to 1 HD 60p channel or 2 HD 30p / 50i / 59,9i / 60i channels
Visually lossless compression
Xilinx 7 Series FPGA (Zynq-7, Artix-7, Kintex-7, Virtex-7), Xilinx Virtex-6 & Spartan-6
Altera Cyclone V, Arria II & V, Stratix IV and V - IPX-JP4HD: "4HD" JPEG 2000 Encoder/JPEG 2000 Decoder
Up to 1 HD 120p channel or 2 HD 60p channels or 4 HD 30p / 50i / 59,9i / 60i channels
Visually lossless compression
Xilinx 7 Series FPGA (Zynq-7, Artix-7, Kintex-7, Virtex-7), Xilinx Virtex-6
Altera Arria V, Stratix IV and Stratix V
| Broadcast IP-Cores | Broadcast Family | |||
| IPX-JP1HD | IPX-JP2HD | IPX-JP4HD | ||
| Function | JPEG 2000 Encoder |  |
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| JPEG 2000 Decoder | |
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| Max codestream bitrate ; Lower bitrate supported ; Bitrate can be shared unequally per channel |
250 Mbps | |
- | - |
| 500 Mbps | - | |
- | |
| 1000 Mbps | - | - | |
|
| Lossless | - | - | - | |
| Max pixel rate ; Lower pixel rate supported |
70 Mpixels/s | |
- | - |
| 140 Mpixels/s | - | |
- | |
| 280 Mpixels/s | - | - | |
|
|
Max pixels per line ; |
1440 pixels/line | - | - | - |
| 1920 pixels/line | |
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|
|
| 2048 pixels/line | - | - | - | |
| 4096 pixels/line | - | - | - | |
| 8192 pixels/line | - | - | - | |
| Max bit depth per component ; Lower bit depth supported |
10 Bits/comp. | |
|
|
| 12 Bits/comp. | - | - | - | |
| 16 Bits/comp. | - | - | - | |
| Latency | Low Latency(2 + 1 frames) | |
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| Ultra-low Latency(<1 frame) | option NEW | option NEW | option NEW | |
| Color Space | YUV or RGB | |
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| XYZ | - | - | - | |
| Chrominance subsampling | 4:4:4 | option | option | option |
| 4:2:2 | |
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Applications
- Camera built-in recorder
- Field recorder
- Post-production video server
- Contribution transceiver/receiver
- Live event transmitter
- Your application
Ultra-low latency option - NEW!In fields such as live events or broadcast where time accuracy is a must and delays are not acceptable, an additional ultra low latency capability has been added to the JPEG2000 IP cores, allowing processing delay of less than a frame between encoding and decoding. Benefits - Less than one frame between encoding & decoding (˜ 10 ms) - Highest quality with highest speed - Does not request more ressources into the FPGA - Unique solution into the Market - Offer an incredible and robust quality
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JPEG 2000 Benefits for Acquisition, Post-Production, Contribution and Distribution
This license-free format will perfectly suit broadcast needs. Its improved compression efficiency will provide a pristine image quality. Its resolution scalability will seamlessly allow the extraction of small resolution proxies from the full resolution, a very useful feature on the acquisition site and during post-production.
Also, its intra-frame nature provides low latency processing throughout the whole chain, increased error resilience during transmission and easy editing (butt-splicing). Last but not least, its capacity to avoid additional image degradation at each encoding and decoding step provides constant quality multi-generations during the numerous post-production processes of the workflow.
To find out everything you always wanted to know about JPEG 2000, click here 