The pursuit of High Dynamic Range (HDR) is the dream of getting closer to the Human Visual System (HVS) in all that we experience as viewers.
To achieve a balance of getting closer to human perception within the bandwidth limitations of existing infrastructure and technologies, including chroma and luminance sampling, bit depth, and the strengths and weaknesses of Gamma vs Logarithmic curves, a better curve was needed.
Why was a better curve needed and what is the advantage of PQ*?
* PQ is represented in practice by two approaches, HDR10 an open approach and Dolby® Vision, a proprietary system owned by Dolby Laboratories. Both are designed to make the most efficient use of bits throughout the range of luminance and contrast steps possible.
PQ is standardized in SMPTE ST 2084 and BT.2100 and PQ defines a curve that ensures banding is below the Just Noticeable Difference (JND). The PQ curve ensures the most efficient use of code words which minimizes the bit depth required.
For a vivid image, which HDR promises upon delivery to the display, the challenge has been to provide enough useful steps within the color and luminance range to provide smooth gradations and satisfy the viewer. Dolby Vision is a new way of defining how a picture looks on a TV. It is a "display referred" system where each code value defines a specific brightness (i.e. there is no user brightness control). Dolby Vision has a method to send 12-bit data down a HDMI cable utilizing 4096 shades for smooth gradations. For contemporary production pipelines, the challenge is that most pipelines are 10-bit with 1024 shades or steps available. HDR 10, Dolby Vision and HLG have been designed to solve this dilemma by efficiently choosing to utilize curves across the luminance and color ranges that minimize perceptual banding and achieve results that are closer to the human vision system, enabling incredible results.
HDR10 is a Media Profile defined by the Consumer Technologies Association (CTA).
HDR10 uses SMPTE ST-2086 "Mastering Display Color Volume" static metadata to send color calibration data of the mastering display, as well as MaxFALL (Maximum Frame Average Light Level) and MaxCLL (Maximum Content Light Level) static values. HDR10 is an open standard supported by a wide variety of companies.
HDR10+ builds from HDR10*, adding dynamic metadata and more, allowing for scene by scene or even shot by shot variation. The standard allows for recognizing a display's color space and more. Samsung is the primary driver for this evolution of the original standard.
HDR10+ has recently been adopted by a range of companies and resulted in the creation of the HDR10+ Alliance with members comprising Amazon, Samsung, Panasonic, 20th Century Fox, and Warner Bros and more.
HLG (Hybrid Log Gamma) is an HDR approach that was jointly developed by the BBC and NHK. HLG uses relative luminance values and builds on the BT.2020 standard for a wider color gamut and adds PQ and HLG dynamic range for a standard known as BT.2100. The HLG standard is royalty free and is compatible with SDR displays as well as HDR displays. HLG is supported by HDMI 2.0b*, HEVC, and VP9. The key appeal of HLG is that HDR content can be reasonably viewed on SDR displays.
*Since HLG has no metadata, HLG works with any HDMI spec and HDMI 2.0b is a clarification of HDMI 2.0a
You need to be able to view and display your HDR materials to compatible monitors during post production. AJA Desktop solutions make this simple with support provided in AJA Control Panel for setup of HDR metadata and HLG.
* Check with your software manufacturer for compatibility.
**HLG support is application dependent. Check with your software manufacturer for compatibility.
Gaming capture, eSports, VR and projection mapping can take great advantage of HDR for their immersive environments. To capture HDMI sources with HDR for these needs look to KONA HDMI.
KONA HDMI is an 8-lane PCIe 2.0 multi-channel HDMI capture card, with all of the quality and flexibility you have come to expect from AJA.
Designed for the demands of multiple workflows such as gaming, streaming, VJ-ing, live events switching, vlogging, VR, post and broadcast, this powerful card boasts support for single channel capture up to 4K/UltraHD 60p or four channel capture up to 2K/HD 60p.
KONA HDMI provides support for accepting HDR signals captured over HDMI from gaming stations like the PS4® Pro.KONA HDMI
Hi5-4K-Plus Mini-Converter for HDR and high frame rate support
Standards for HDR over SDI are still evolving and HDMI 2.0 HDR capable displays are affordable and available.
Look to AJA's popular 3G-SDI to HDMI Hi5-4K-Plus Mini-Converter for HDR10, HLG and Dolby Vision workflows to feed your display.
Use AJA's free Mini-Config application along with Hi5-4K-Plus to author HDMI HDR Infoframe Metadata as defined in CTA-861-G and HDMI 2.0a.
Plug in, set your static metadata when necessary, and go.Hi5-4K-Plus
12G-SDI to HDMI 2.0 Conversion with Dolby Vision support
Hi5-12G converts a 4K/UltraHD/2K/HD 12G-SDI single-link input with eight channels of embedded digital audio to an HDMI 2.0 output with two or eight channels of audio. It includes a 12G-SDI single-link input with a re-clocked SDI loop out for simpler confidence monitoring or pass on for SDI pipelines. Hi5-12G also passes Dolby Vision without additional processing for precise HDR monitoring.
Fiber SFP-equipped Hi5-12G models include the Hi5-12G-R receiver, which extends HDMI 4K signals over long distances from either an SDI or a Fiber connected source, and the Hi5-12G-TR transceiver, which delivers a 4K/UltraHD SDI or Fiber source signal to an HDMI destination with pass on of the source through SDI or Fiber to a secondary destination.
Hi5-12G Models Available:
Hi5-12G - 12G-SDI to HDMI 2.0
Hi5-12G-R - Includes 1x Fiber LC Receiver
Hi5-12G-TR - Includes 1x Fiber LC Transceiver
Waveform, Histogram and Vectorscope Monitoring for HDR
HDR Image Analyzer delivers a comprehensive array of tools for the effective analysis of the latest HDR standards – including HLG, PQ and Rec.2020 – in 4K/UltraHD/2K/HD in a convenient 1RU device. Two models are available, offering 3G or 12G I/O depending on your needs.
Developed in partnership with Colorfront®, AJA HDR Image Analyzer supports a wealth of inputs from camera Log formats to SDR (REC 709), PQ (ST 2084) and HLG and offers color gamut support for BT.2020 alongside traditional BT.709.
Specifically designed to be used wherever needed, the 1RU form factor fits into a range of workflows, providing the confidence you need for consistent and predictable HDR production and mastering.
Included in AJA’s HDR Image Analyzer’s toolsets are waveform, histogram and vectorscope monitoring, plus a host of essential image analysis features such as: nit light level meter; out of gamut false color mode making it easy to spot out of gamut or out of brightness pixels; error logging; pixel picker; framestore with split screen; line mode, which can focus the region of interest onto a single horizontal or vertical line; audio phase metering and built-in support for the most prevalent camera color spaces including ARRI®, Canon®, Panasonic®, RED® and Sony®.
HDMI 2.0 to 12G-SDI Conversion
You've been handed an HDR signal over HDMI 2.0 and need to know more about the HDR metadata being utilized. Connect your HDMI 2.0 cable from the source to AJA's HA5-12G HDMI to 12G-SDI Mini-Converters and open AJA's free Mini-Config software to its HDR tab for a read out of any HDR static metadata present.
AJA’s HA5-12G allows users to convert an HDMI 2.0 input to two 12G-SDI single link outputs. It includes two SDI DA outputs and transmits 12G-SDI on each SDI link, reducing cable runs when transporting 4K/UltraHD SDI. HA5-12G supports up to 8-Channels of audio from the HDMI source or 2-Channel analog audio (RCA), with eight or two channels of digital embedded audio on 12G-SDI.
A Fiber SFP-equipped HA5-12G model is available, the HA5-12G-T single-channel transmitter, which extends HDMI 4K signals over long distances (10 km Single-Mode).
HA5-12G Models Available:
HA5-12G - HDMI 2.0 to 12G-SDI
HA5-12G-T - Includes Single Fiber LC Transmitter
You've been handed an HDR signal over HDMI and need to know more about the HDR metadata being utilized. Connect your HDMI 2.0 cable from the source to AJA's HA5-4K HDMI to SDI Mini-Converter and open AJA's free Mini-Config software to its HDR tab for a read out of any HDR static metadata present.HA5-4K