Color grading
Color grading is a post-production process common to filmmaking and video editing of altering the appearance of an image for presentation in different environments on different devices. Various attributes of an image such as contrast, color, saturation, detail, black level, and white balance may be enhanced whether for motion pictures, videos, or still images. Color grading and color correction are often used synonymously as terms for this process and can include the generation of artistic color effects through creative blending and compositing of different layer masks of the source image. Color grading is generally now performed in a digital process either in a controlled environment such as a color suite, and is usually done in a dim or dark environment. The earlier photochemical film process, referred to as color timing, was performed at a film lab during printing by varying the intensity and color of light used to expose the rephotographed image. Since, with this process alone, the user was unable to immediately view the outcome of their changes, the use of a Hazeltine color analyzer was common for viewing these modifications in real time. In the 2000s, with the increase of digital technology, color grading in Hollywood films became more common. Color timingColor timing is used in reproducing film elements. "Color grading" was originally a lab term for the process of changing color appearance in film reproduction when going to the answer print or release print in the film reproduction chain. By the late 2010s, this film grading technique had become known as color timing and still involved changing the duration of exposure through different filters during the film development process. Color timing is specified in printer points which represent presets in a lab contact printer where 7 to 12 printer points represent one stop of light. The number of points per stop varied based upon negative or print stock and different presets at film labs. In a film production, the creative team would meet with the “lab timer” who would watch a running film and make notes dependent upon the team's directions. After the session, the timer would return to the lab and put the film negative on a device (the Hazeltine) which had preview filters with a controlled backlight, picking exact settings of each printer point for each scene. These settings were then punched onto a paper tape and fed to the high-speed printer where the negative was exposed through a backlight to a print stock. Filter settings were changed on the fly to match the printer lights that were on the paper tape. For complex work such as visual effects shots, "wedges” running through combinations of filters were sometimes processed to aid the choice of the correct grading. This process is used wherever film materials are being reproduced. TelecineWith the advent of television, broadcasters quickly realised the limitations of live television broadcasts and they turned to broadcasting feature films from release prints directly from a telecine. This was before 1956 when Ampex introduced the first Quadruplex videotape recorder (VTR) VRX-1000. Live television shows could also be recorded to film and aired at different times in different time zones by filming a video monitor. The heart of this system was the kinescope, a device for recording a television broadcast to film.[1] The early telecine hardware was the "film chain" for broadcasting from film and utilized a film projector connected to a video camera. As explained by Jay Holben in American Cinematographer Magazine, "The telecine didn't truly become a viable post-production tool until it was given the ability to perform colour correction on a video signal."[2] How telecine coloring worksIn a cathode-ray tube (CRT) system, an electron beam is projected at a phosphor-coated envelope, producing a small spot of light. This beam is then scanned across a film frame from left to right, capturing the "vertical" frame information. Horizontal scanning of the frame is then accomplished as the film moves past the CRT's beam. Once this photon beam passes through the film frame, it encounters a series of dichroic mirrors which separate the image into its primary red, green and blue components. From there, each individual beam is reflected onto a photomultiplier tube (PMT) where the photons are converted into an electronic signal to be recorded to tape. In a charge-coupled device (CCD) telecine, a white light is shone through the exposed film image onto a prism, which separates the image into the three primary colors, red, green and blue. Each beam of colored light is then projected at a different CCD, one for each color. The CCD converts the light into an electronic signal, and the telecine electronics modulate these into a video signal that can then be color graded. Early color correction on Rank Cintel MkIII CRT telecine systems was accomplished by varying the primary gain voltages on each of the three photomultiplier tubes to vary the output of red, green and blue. Further advancements converted much of the color-processing equipment from analog to digital and then, with the next-generation telecine, the Ursa, the coloring process was completely digital in the 4:2:2 color space. The Ursa Gold brought about color grading in the full 4:4:4 color space.[2] Color correction control systems started with the Rank Cintel TOPSY (Telecine Operations Programming SYstem) in 1978.[1] In 1984 Da Vinci Systems introduced their first color corrector, a computer-controlled interface that would manipulate the color voltages on the Rank Cintel MkIII systems. Since then, technology has improved to give extraordinary power to the digital colorist. Today there are many companies making color correction control interfaces including Da Vinci Systems, Pandora International, Pogle and more. Some telecines are still in operation in 2018. Color correction/enhancementSome of the main artistic functions of color correction (digital color grading) include:[1]
Note that some of these functions must be prioritized over others; for example, color grading may be done to ensure that the recorded colors match those of the original scene, whereas other times, the goal may instead be to establish a very artificial stylized look. Color grading is one of the most labour intensive parts of video editing. Traditionally, color grading was done towards practical goals. For example, in the film Marianne, grading was used so that night scenes could be filmed more cheaply in daylight. Secondary color grading was originally used to establish color continuity; however, the trend today is increasingly moving towards creative goals such as improving the aesthetics of an image, establishing stylized looks, and setting the mood of a scene through color. Due to this trend, some colorists suggest the phrase "color enhancement" over "color correction". Primary and secondary color gradingPrimary color grading affects the whole image by providing control over the color density curves of red, green, blue color channels, across the entire frame. Secondary grading can isolate a range of hue, saturation and brightness values to bring about alterations in hue, saturation and luminance only in that range, allowing the grading of secondary colors, while having a minimal or usually no effect on the remainder of the color spectrum.[1] Using digital grading, objects and color ranges within a scene can be isolated with precision and adjusted. Color tints can be manipulated and visual treatments pushed to extremes not physically possible with laboratory processing. With these advancements, the color grading process has become increasingly similar to well-established digital painting techniques, ushering forth a new era of digital cinematography. Masks, mattes, power windowsThe evolution of digital color grading tools has advanced to the point where the colorist can use geometric shapes (such as mattes or masks in photo software such as Adobe Photoshop) to isolate color adjustments to specific areas of an image. These tools can highlight a wall in the background and color only that wall, leaving the rest of the frame alone, or color everything but that wall. Subsequent color grading tools (typically software-based) have the ability to use spline-based shapes for even greater control over isolating color adjustments. Color keying is also used for isolating areas to adjust. Inside and outside of area-based isolations, digital filtration can be applied to soften, sharpen or mimic the effects of traditional glass photographic filters. Motion trackingWhen trying to isolate a color adjustment on a moving subject, the colorist traditionally would manually move a mask to follow the subject. In its most simple form, motion tracking software automates this time-consuming process using algorithms to evaluate the motion of a group of pixels. These techniques are generally derived from match moving techniques used in special effects and compositing work. Orange and tealIn the 2000s, with the increase of digital technology, color grading in Hollywood films became more common. From 2010, many films, such as Hot Tub Time Machine and Iron Man 2, began using the complementary colors orange and teal.[3] Digital intermediateThe evolution of the telecine device into film scanning allowed the digital information scanned from a film negative to be of sufficient resolution to transfer back to film. In the early 1990s, Kodak developed the Cineon Film System to capture, manipulate, and record back to film and they called this the “Digital Intermediate”. This term stuck. The first full digital intermediate of any form was the Cinesite restoration of “Snow White and The Seven Dwarves” in 1993 (previously, in 1990, for Rescuers Down Under, the Disney CAPS system had been used to scan artwork, color and composite it, and then record it to film, but this was also intermixed with a traditional lab development process over a length of time). In the late 1990s, the films Pleasantville and O Brother, Where Art Thou? advanced the technology to the point that the creation of a digital intermediate was practical, which greatly expanded the capabilities of the digital telecine colorist to the traditionally-oriented world of feature films. Since 2010, almost all feature films have gone through the DI process, while manipulation through photochemical processing is rare or used on archival films. In Hollywood, O Brother, Where Art Thou? was the first film to be wholly digitally graded. The negative was scanned with a Spirit DataCine at 2K resolution, then colors were digitally fine-tuned using a Pandora MegaDef color corrector on a Virtual DataCine. The process took several weeks, and the resulting digital master was output to film again with a Kodak laser recorder to create a master internegative. Modern motion picture processing typically uses both digital cameras and digital projectors. Calibrated devices are most commonly used to maintain a consistent appearance within the workflow. Hardware-based versus software-based systemsIn early use, hardware-based systems (da Vinci 2K, Pandora International MegaDEF, etc.) have historically offered better performance but a smaller feature set than software-based systems. Their real time performance was optimized to particular resolution and bit depths, as opposed to software platforms using standard computer industry hardware that often trade speed for resolution independence, e.g. Apple's Color (previously Silicon Color Final Touch), ASSIMILATE SCRATCH, Adobe SpeedGrade and SGO Mistika. While hardware-based systems always offer real-time performance, some software-based systems need to pre-render as the complexity of the color grading increases. On the other hand, software-based systems tend to have more features such as spline-based windows/masks and advanced motion tracking. The line between hardware and software no longer exists as many software-based color correctors (e.g. Pablo, Mistika, SCRATCH, Autodesk Lustre, Nucoda Film Master and FilmLight's Baselight) use multi processor workstations and a GPU (graphics processing unit) as a means of hardware acceleration. As well, some newer software-based systems use a cluster of multiple parallel GPUs on the one computer system to improve performance at the very high resolutions required for feature film grading. e.g. Blackmagic Design's DaVinci Resolve. Some color grading software like Synthetic Aperture's Color Finesse runs solely as software and will even run on low-end computer systems. High-speed RAID arrays are an essential part of the process for all systems. HardwareHardware systems are no longer common because of the price/performance of software systems. The control panels are placed in a color suite for the colorist to operate the telecine remotely.
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